HWS50-24/A

## HWS **SERIES** 

## **Single Output 15W-1800W** 

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HWS1000<br>| HWS600 HWS300<br>HWS1800T HWS1500<br>— satel 5 es 4 a Eft LISTED<br>"“ .“ ; ieJ oo i Low Voltage Directive Electrical Appliance warranty 5 YEARS<br>HWS15/A HWS30/A HWS50/A HWS80/A HWS100/A HWS150/A i eaea<br>**----- End of picture text -----**<br>


## **■ Features** 

- Envir ~~onmentally-friendl~~ y: Conforming to RoHS directives 

High-efficiency technology reduces power loss by heat generation. Fan stopping in power-off by external c ~~ontrol realizes sile~~ nce and energy saving. 

- Easy ~~to use: All mo~~ dels in the same hight of 82m ~~m. Mountable in 2~~ U-height racks without dead space. 

- Safety and reliability: “Safety terminal” covering current flowing part secures safety for users. 

- “No screw-dropping” design prevents from losing screws during maintenance operation. 

- HWS1500-48 realizes as high efficiency as 90%. Synchronous rectifier circuit improved efficiency of low voltage models by over 10% (HWS150-5). 

## **■ Applications** 

## **■ Model naming method** 

**〔HWS15-150〕 HWS 50 − 5 / □ □** 

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Series name Output power 

Blank: Without cover 

A: With cover 

R: Remote ON/OFF control (HWS15 & HWS30 excluded) 

RA: Remote ON/OFF control, with cover (HWS15 & HWS30 excluded) 

ADIN: DIN rail mountable 

(24Vout of 15-150W models with cover only) Note: Requesting approval of safety standards should be made with HWS**-24/A. 

Nominal output voltage ex. 3: 3.3V, 5: 5V, 48: 48V 

## **〔HWS300-1800〕 HWS 300 − 5 / □ □** 

Series name Output power 

Blank: With cover, forced air cooling with built-in fan PV:  Output voltage adjustable by external voltage 12Vout+ models of HWS300, 600 only. (Supported by standard models of HWS1000 and above.) Nominal output voltage 

ex. 3: 3.3V, 5: 5V, 48: 48V 

## **■ Conformity to RoHS Directive** 

This means that, in conformity with EU Directive 2002/95/ EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications. 

## **■ Product Line up** 

|**■ Product Line up**|||||
|---|---|---|---|---|
|Output<br>15W<br>30W<br>50W|80W<br>100W|150W|||
|Voltage<br>Output Current<br>Model<br>Output Current<br>Model<br>Output Current<br>Model<br>Output Current|Model<br>Output Current<br>Model<br>Output Current|Model|||
|3.3V<br>3A<br>HWS15-3<br>6A<br>HWS30-3<br>10A<br>HWS50-3<br>16A<br>~~se ssGGG~~|HWS80-3<br>20A<br>HWS100-3<br>30A|HWS150-3|||
|5V<br>3A<br>HWS15-5<br>6A<br>HWS30-5<br>10A<br>HWS50-5<br>16A<br>HWS80-5<br>20A<br>HWS100-5<br>30A<br>HWS150-5<br>12V<br>1.3A<br>HWS15-12<br>2.5A<br>HWS30-12<br>4.3A<br>HWS50-12<br>6.7A<br>HWS80-12<br>8.5A<br>HWS100-12<br>13A<br>HWS150-12<br>15V<br>1A<br>HWS15-15<br>2A<br>HWS30-15<br>3.5A<br>HWS50-15<br>5.4A<br>HWS80-15<br>7A<br>HWS100-15<br>10A<br>HWS150-15<br>24V<br>0.65A<br>HWS15-24<br>1.3A<br>HWS30-24<br>2.2A<br>HWS50-24<br>3.4A<br>HWS80-24<br>4.5A<br>HWS100-24<br>6.5A<br>HWS150-24<br>48V<br>0.33A<br>HWS15-48<br>0.65A<br>HWS30-48<br>1.1A<br>HWS50-48<br>1.7A<br>HWS80-48<br>2.1<br>HWS100-48<br>3.3A<br>HWS150-48<br>~~ss eG~~<br>~~GG~~<br>~~ee~~<br>~~ssGO~~<br>~~ssGe~~<br>~~eG QO~~<br>~~eG~~<br>~~GG~~<br>~~sa~~<br>~~es~~<br>~~sf GC~~|||||
|300W<br>600W<br>1000W|1500W<br>1800W||||
|Output<br>Voltage<br>Output Current<br>(Peak)<br>Model<br>Output Current<br>(Peak)<br>Model<br>Output Current<br>(Peak)<br>Model|Output Current （※）<br>(Peak)<br>Model<br>Output Current<br>(Peak)|Model|||
|3.3V<br>60A<br>HWS300-3<br>120A<br>HWS600-3<br>200A<br>HWS1000-3<br>~~a~~<br>~~a~~<br>~~a~~|−<br>−<br>300A|HWS1800T-3|||
|5V<br>60A<br>HWS300-5<br>120A<br>HWS600-5<br>200A<br>HWS1000-5<br>~~a~~<br>~~a~~|−<br>−<br>300A|HWS1800T-5|||
|6V<br>−<br>−<br>−<br>−<br>167A<br>HWS1000-6<br>~~a~~<br>~~es~~|−<br>−<br>250A(300A)|HWS1800T-6|||
|7.5V<br>−<br>−<br>−<br>−<br>134A(160A)<br>HWS1000-7<br>−<br>−<br>200A(240A)<br>HWS1800T-7<br>~~a a a eC~~|||||
|12V<br>27A<br>HWS300-12<br>53A<br>HWS600-12<br>88A(100A)<br>HWS1000-12<br>~~a~~|125A/125A（−）HWS1500-12<br>125A(150A)<br>HWS1800T-12||||
|15V<br>22A<br>HWS300-15<br>43A<br>HWS600-15<br>70A(80A)<br>HWS1000-15<br>100A/100A（−）HWS1500-15<br>100A(120A)<br>HWS1800T-15<br>~~ass~~|||||
|24V<br>14A<br>HWS300-24<br>27A(31A)<br>HWS600-24<br>44A(50A)<br>HWS1000-24<br>~~a~~|65A/70A（105A）HWS1500-24<br>75A(105A)<br>HWS1800T-24||||
|36V<br>−<br>−<br>−<br>−<br>29.3A(33.3A)<br>HWS1000-36<br>~~a~~|42A/46.5A（70A）HWS1500-36 50A(70A)<br>HWS1800T-36||||
|48V<br>7A<br>HWS300-48<br>13A<br>HWS600-48<br>22A(25A)<br>HWS1000-48<br>32A/32A（−）HWS1500-48<br>37.5A(52.5A)<br>HWS1800T-48<br>~~ass~~|||||
|60V<br>−<br>−<br>−<br>−<br>17.6A (20A)<br>HWS1000-60<br>~~a~~|−<br>−<br>30A (42A)<br>HWS1800T-60||||
|・All specifications are subject to change without notice.|（※）<br>（100V系/200V系）||A-97||



・All specifications are subject to change without notice. 

**HWS15** 

## **HWS15 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>|<br>ee|**ITEMS/UNITS**<br>**MODEL**<br>|<br>ee|**ITEMS/UNITS**<br>**MODEL**<br>|<br>ee|**HWS15-3**<br>||**HWS15-5**<br>||**HWS15-12**<br>td|**HWS15-15**<br>td|**HWS15-24**<br>td|**HWS15-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>_|Voltage Range<br>(*2)<br>ee<br>_|V<br>||AC85 - 265 or DC120 - 370<br>|<br>|td||||||
||Frequency<br>(*2)<br>ee<br>_oo<br>——|Hz<br>|<br>——|47 - 63<br>|<br>| td<br>——||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>_oo<br>——|％<br>——|68 / 71<br>——|77 / 79<br>——|80 / 81<br>——||82 / 83<br>——|80 / 80|
||Current (100/200VAC)(typ)<br>(*1)<br>——<br>es|A<br>——<br>es|0.3 / 0.15<br>——<br>es|0.4 / 0.2<br>——|||||
||Inrush Current (100/200VAC)(typ) (*3)<br>es<br>oo|A<br>es|14 / 28, Ta=25℃, cold start<br>es||||||
||Leakage Current<br>(*10)<br>es<br>oo<br>ee<br>oo|mA<br>es<br>oo|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>es<br>oo||||||
|Output<br>i<br>i|Nominal Voltage<br>ee<br>oo|VDC<br>oo|3.3<br>oo|5<br>oo|12<br>oo|15<br>oo|24<br>oo|48|
||Maximum Current<br>oo<br>i|A<br>oo|3<br>oo||1.3<br>oo|1<br>oo|0.65<br>oo|0.33|
||Maximum Power<br>i<br>EO<br>i|W<br>EO<br>|10<br>EO<br>|15<br>EO<br>|15.6<br>EO<br>|15<br>EO<br>|15.6<br>EO<br>|15.8|
||Maximum Line Regulation<br>(*5)<br>EO<br>i|mV<br>EO<br>|20<br>EO<br>||48<br>EO<br>|60<br>EO<br>|96<br>EO<br>|192|
||Maximum Load Regulation<br>(*6)<br>ies|mV<br>es|40<br>es||96<br>es|120<br>es|192<br>es|384|
||Temperature Coefficient<br>es<br>oO|es|Less than 0.02% /℃<br>es||||||
||Maximum Ripple & Noise (0<Ta<70℃) (*4) <br>es<br>oO<br>eses|mVp-p<br>es<br>es|120<br>es<br>es||150<br>es||200<br>es||
||Maximum Ripple & Noise (－10<Ta<0℃) (*4) <br>eses|mVp-p<br>es|160<br>es||180||240||
||Hold-up Time (typ)<br>(*9)<br>eses<br>oT<br>i|ms<br>es|20<br>es||||||
||Voltage Adjustable Range<br>eses<br>oT<br>i|VDC<br>es|2.97 - 3.96<br>es|4.0 - 6.0<br>es|9.6 - 14.4|12.0 - 18.0|19.2 - 28.8|38.4 - 52.8|
|Function<br>i<br> <br>PF<br>PF<br>PF|Over Current Protection<br>(*7)<br>i<br>ee|A<br>ee|>3.15<br>ee||>1.36<br>ee|>1.05<br>ee|>0.68<br>ee|>0.34|
||Over Voltage Protection<br>(*8) <br>ee<br>ttt|VDC<br>ee<br>ttt|4.13 - 4.95<br>ee<br>ttt|6.25 - 7.25<br>ee<br>ttt|15.0 - 17.4<br>ee<br>ttt|18.8 - 21.8<br>ee<br>ttt|30.0 - 34.8<br>ee<br>ttt|55.2 - 64.8|
||Remote Sensing<br>ttt<br>PF|ttt<br>|-<br>ttt||||||
||Remote ON/OFF Control<br> ttt<br>PFOO<br>PF|ttt<br>OO<br>|-<br>ttt||||||
||Parallel Operation<br>PFOO<br>PFOO|OO<br>OO|-||||||
||Series Operation<br>PFOO<br>Eo<br>PF|OO<br>Eo<br>|Possible||||||
||Line DIP<br>Eo<br>PFOOOO|Eo<br>OOOO|Built to meet SEMI-F47 (200VAC Line only)||||||
|Environment<br>PF<br>PF<br>po<br>———J|Operating Temperature<br>(*11)<br>PFOOOO<br>PT|℃<br>OOOO<br>PT|-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)||||||
||Storage Temperature<br>PT<br>Eo<br>PF|℃<br>PT<br>Eo<br>|-30 to +85||||||
||Operating Humidity<br>Eo<br>PFOO|％RH<br>Eo<br>OO|30 - 90 (No dewdrop)||||||
||Storage Humidity<br>PFOO<br>a<br>po|％RH<br>OO<br>po|10 - 95 (No dewdrop)||||||
||Vibration<br>po|po|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.||||||
||Shock (In package)<br>po<br>———J|po<br>———J|Less than 196.1m/s²||||||
||Cooling<br>po<br>———J|po<br>———J|Convection cooling||||||
|Isolation <br>———J|Withstand Voltage<br>———J<br>—|———J|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance<br>———J<br>—|———J|More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards|Safety Standards<br>(*12)<br>—<br>pd|pd|Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Built to meet UL508, DENAN||||||
||PFHC<br>pd|pd|Built to meet IEC61000-3-2||||||
||EMI<br>pd<br>TT|pd<br>TT|Built to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>TT|TT|Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||
|Mechanical <br>_|Weight (typ)<br>TT<br>pe<br>_|g<br>TT<br>pe|180||||||
||<br>Size (W x H x D)<br>pe<br>_|mm<br>pe|26.5 x 82 x 80 (Refer to outline drawing)||||||



(*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

(*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

**●Recommended EMC Filter** 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

For start up at low ambient temperature and low input voltage, output ripple noise might not meet specification. 

However, there is no overshoot at start up and output ripple noise specification can be met after one second. 

(*5) 85 - 265VAC, constant load. 

(*6) No load-Full load, constant input voltage. 

(*7) Foldback current limit with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

(*8) OVP circuit will  shutdown output, manual reset (Re power on). 

(*9) At 100/200VAC, Ta=25 ℃ , nominal output voltage and maximum output current. 

RSEL-2001W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

(*11) Ratings  - Derating at standard mounting. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

- As for other mountings, refer to derating curve. 

(*12) As for DENAN, built to meet at 100VAC. 

A-98 

・All specifications are subject to change without notice. 

**HWS15** 

**HWS** 

## **Outline Drawing** 

## **【HWS15】** 

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VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>COVER<br>（OPTION）<br>（WITHOUT COVER）<br>（WITH COVER）<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>D t<br>NOTES<br>A : MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE,<br>Recommended Solderless Terminal MAXIMUM OUTPUT CURRENT AND COUNTRY OF MANUFACTURE ARE<br> D（max）  ｔ （max）  Qty （max） SHOWN HERE IN ACCORDANCE WITH THE SPECIFICATIONS.<br>B :  M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR<br>6.8mm  0.8mm  2 pcs CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE<br>**----- End of picture text -----**<br>


- CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. 

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unit： mm<br>**----- End of picture text -----**<br>


- C :  M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS 

MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. 

## **Output Derating** 

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HWS15 HWS15/A<br>120 120<br>MOUNTING A,B,C,D MOUNTING A,B,C,D<br>100 100<br>80 80<br>60 60<br>40 40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -10 0 10 20 30 40 50 60 70 80<br>Ta (°C) Ta (°C)<br>MOUNTING A<br>(STANDARD MOUNTING) MOUNTING B MOUNTING C MOUNTING D DON'T  USE<br>LOAD (%) LOAD (%)<br>**----- End of picture text -----**<br>


A-99 

・All specifications are subject to change without notice. 

**HWS30** 

## **HWS30 Specifications** 

**HWS** 

|**ITEMS/UNITS**<br>**MODEL**<br>|_|<br>Po|**ITEMS/UNITS**<br>**MODEL**<br>|_|<br>Po|**ITEMS/UNITS**<br>**MODEL**<br>|_|<br>Po|**HWS30-3**|**HWS30-5**|**HWS30-12**|**HWS30-15**|**HWS30-24**|**HWS30-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>Po|Voltage Range<br>(*2)<br>Po<br>SS|V<br>|_|<br>SS|AC85 - 265 or DC120 - 370<br>————————||||||
||Frequency<br>(*2)<br>PoPo<br>SS|Hz<br>|_|<br>SS|47 - 63<br>————————||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>Po<br>SS|％<br>SS|70 / 73|77 / 80<br>————————|81 / 83<br>————————||83 / 86<br>————————|82 / 83|
||Current (100/200VAC)(typ)<br>(*1)<br>SS<br>——|A<br>SS<br>——|0.6 / 0.3<br>——|0.8 / 0.4<br>————————|||||
||Inrush Current (100/200VAC)(typ) (*3)<br>——<br>ee<br>SS|A<br>——<br>SS|14 / 28, Ta=25℃, cold start<br>——<br>SS————————||||||
||Leakage Current<br>(*10)<br>——<br>ee<br>ee<br>SS|mA<br>——<br>SS|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>——<br>SS————————||||||
|Output|Nominal Voltage<br>ee<br>SS|VDC<br>SS<br>ns|3.3<br>SS<br>nn|5<br>SS<br>nn|12<br>————————<br>DO|15<br>————————<br>(OR|24<br>————————|48|
||Maximum Current<br>SS<br>nD|A<br>SS<br>nD<br>ns|6<br>SS <br>nD<br>nn||2.5<br> ————————<br>nD<br>DO|2<br>————————<br>nD<br>(OR|1.3<br>————————<br>nD|0.65|
||Maximum Power<br>nD<br>ns<br>a|W<br>nD<br>ns<br>ns<br>nD|20<br>nD<br>nn<br>ns<br>nn|30<br>nD<br>nn<br>DO<br>(OR<br>ns<br>nn<br>(<br>(O|||31.2<br>nD||
||Maximum Line Regulation<br>(*5)<br>ns<br>nD<br>a|mV<br>ns<br>nD<br>nD|20<br>ns<br>nD<br>nn||48<br>ns<br>nD<br>(|60<br>ns<br>nD<br>(O|96<br>nD|192|
||Maximum Load Regulation<br>(*6)<br>nD<br>a|mV<br>nD<br>nD|40<br>nD<br>nn||96<br>nD<br>(|120<br>nD<br>(O|192<br>nD|384|
||Temperature Coefficient<br>a<br>Po|nD|Less than 0.02% /℃<br> nn<br>(<br>(O||||||
||Maximum Ripple & Noise (0≤Ta≤70℃) (*4) <br>Po<br>nD|mVp-p<br>nD|120<br>nD||150<br>nD||200||
||Maximum Ripple & Noise (－10≤Ta< 0℃) (*4) <br>nD<br>SS|mVp-p<br>nD<br>SS|160<br>nD<br>SS||180<br>nD<br>SS||240||
||Hold-up Time (typ)<br>(*9)<br>SS<br>ee|ms<br>SS|20<br>SS<br>nn<br>((O||||||
||Voltage Adjustable Range<br>SS<br>ee<br>DD|VDC<br>SS<br>DD<br>nD|2.97 - 3.96<br>SS<br>DD<br>nn|4.0 - 6.0<br>SS<br>DD<br>((O<br>Df|9.6 - 14.4<br>SS<br>DD<br>((O<br>Df|12.0 - 18.0<br>SS<br>DD<br>((O<br>Df|19.2 - 28.8<br>DD|38.4 - 52.8|
|Function<br>——————————E|Over Current Protection<br>(*7)<br>DD<br>nD<br>——————————E|A<br>DD<br>nD<br>nD<br>——————————E|>6.3<br>DD<br>nn<br>((O<br>nD<br>Df<br>——————————E||>2.62<br>DD<br>((O<br>nD<br>Df<br>——————————E|>2.1<br>DD<br>((O<br>nD<br>Df<br>——————————E|>1.36<br>DD<br>nD<br>——————————E|>0.68|
||Over Voltage Protection<br>(*8) <br>nD<br>——————————E|VDC<br>nD<br>nD<br>——————————E|4.13 - 4.95<br>nD<br>——————————E|6.25 - 7.25<br>nD<br>Df<br>——————————E|15.0 - 17.4<br>nD<br>Df<br>——————————E|18.8 - 21.8<br>nD<br>Df<br>——————————E|30.0 - 34.8<br>nD<br>——————————E|55.2 - 64.8|
||Remote Sensing<br>——————————E|——————————E|-<br>——————————E||||||
||Remote ON/OFF Control<br>——————————E<br>ee|——————————E<br>ee|-<br>——————————E||||||
||Parallel Operation<br>ee<br>ee<br>|ee<br>ee<br>||-<br>|||||||
||Series Operation<br>ee<br>es<br>|ee<br>es|<br>||Possible<br>|<br>|||||||
||Line DIP<br>es<br>ee|es|<br>ee||Built to meet SEMI-F47 (200VAC Line only)<br>|<br>|||||||
|Environment|Operating Temperature<br>(*11)<br>ee<br>ee<br>|℃<br>ee|<br>ee<br>||-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)<br>|<br>|||||||
||Storage Temperature<br>ee<br>ee<br>|℃<br>ee<br>ee|<br>||-30 to +85<br>|<br>|||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee|<br>ee||30 - 90 (No dewdrop)<br>|<br>|||||||
||Storage Humidity<br>ee<br>J|％RH<br>ee|<br>J|10 - 95 (No dewdrop)<br>|||||||
||Vibration<br>J|J|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.||||||
||Shock (In package)<br>J<br>ee<br>or|J<br>ee<br>or|Less than 196.1m/s²||||||
||Cooling<br>ee<br>or|ee<br>or|Convection cooling||||||
|Isolation|Withstand Voltage<br>or|or|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance<br>or<br>oo|or<br>oo|More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards|Safety Standards<br>(*12)<br>oo|oo|Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Built to meet UL508, DENAN||||||
||PFHC<br>oo<br>ee|oo<br>ee|Built to meet IEC61000-3-2||||||
||EMI<br>ee<br>J|ee<br>J|Built to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>J<br>|J<br>||Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>|||||||
|Mechanical|Weight (typ)<br>J<br>ee|g<br>J<br>ee|<br>ee|220<br>|<br>ee||||||
||<br>Size (W x H x D)<br>mm<br><br>ee|mm<br>|<br>ee<br>ee|26.5 x 82 x 95 (Refer to outline drawing)<br>|<br>ee||||||



(*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

- (*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

For start up at low ambient temperature and low input voltage, output ripple noise might not meet specification. 

## **●Recommended EMC Filter** 

However, there is no overshoot at start up and output ripple noise specification can be met after one second. 

(*5) 85 - 265VAC, constant load. 

(*6) No load-Full load, constant input voltage. 

(*7) Foldback current limit with automatic recovery. Not operate at over load or dead short condition for more than 30seconds. 

(*8) OVP circuit will  shutdown output, manual reset (re power on). 

(*9) At 100/200VAC, Ta=25 ℃ , nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*11) Ratings - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

RSEL-2001W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- As for other mountings, refer to derating curve. 

(*12) As for DENAN, built to meet at 100VAC. 

A-100 

・All specifications are subject to change without notice. 

**HWS30** 

**HWS** 

## **Outline Drawing** 

## **【HWS30】** 

**==> picture [399 x 317] intentionally omitted <==**

**----- Start of picture text -----**<br>
VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>COVER<br>(OPTION)<br>(WITHOUT COVER)<br>(WITH COVER)<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>NOTES<br>**----- End of picture text -----**<br>


**==> picture [11 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
unit<br>**----- End of picture text -----**<br>


- A : MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH THE SPECIFICATIONS. 

**==> picture [127 x 30] intentionally omitted <==**

**----- Start of picture text -----**<br>
Recommended Solderless Terminal<br>Qty （max）<br>2 pcs<br>**----- End of picture text -----**<br>


- B :  M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. 

- C :  M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO 

- POWER SUPPLY BY MORE THAN 6m/m. 

## **Output Derating** 

**==> picture [36 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS30<br>**----- End of picture text -----**<br>


## **HWS30/A** 

**==> picture [427 x 205] intentionally omitted <==**

**----- Start of picture text -----**<br>
120 120<br>MOUNTING A,B,C,D MOUNTING A,B,C,D<br>100 100<br>80 80<br>60 60<br>40 40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -10 0 10 20 30 40 50 60 70 80<br>Ta (°C) Ta (°C)<br>MOUNTING A MOUNTING B MOUNTING C MOUNTING D DON'T  USE<br>(STANDARD MOUNTING)<br>LOAD (%) LOAD (%)<br>**----- End of picture text -----**<br>


A-101 

・All specifications are subject to change without notice. 

**HWS50** 

**HWS** | 

## **HWS50 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>————-||**ITEMS/UNITS**<br>**MODEL**<br>————-||**ITEMS/UNITS**<br>**MODEL**<br>————-||**HWS50-3**<br>————-|<br>||**HWS50-5**<br>1|**HWS50-12**<br>1|**HWS50-15**<br>||**HWS50-24**<br>_|**HWS50-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>2|Voltage Range<br>(*2)<br>————-|<br>Po<br>2——|V<br>————-|<br>——|AC85 - 265 or DC120 - 370<br>————-|<br>|<br>1<br>1<br>|_<br>——||||||
||Frequency<br>(*2)<br>————-|<br>Po<br>Po<br>2——|Hz<br>————-|<br>——|47 - 63<br>————-|<br>|<br>1<br>1<br>| _<br>——||||||
||Power Factor (100/200VAC)(typ) (*1)<br>Po<br>2——|——<br>nD|0.98 / 0.90<br>——|0.99 / 0.95<br>DO|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>2 ——<br>nn<br>**e**ee|％<br>——<br>nn<br>nD<br>ee|76 / 78<br>——<br>nn<br>ee|82 / 84<br>nn<br>DO|81 / 83<br>nn<br>DO||82 / 84<br>nn|83 / 85|
||Current (100/200VAC)(typ)<br>(*1)<br>nn<br>**e**ee|A<br>nn<br>nD<br>ee|0.5 / 0.25<br>nn<br>ee|0.7 / 0.35<br>nn<br>DO|||||
||Inrush Current (100/200VAC)(typ)(*3)<br>**e**ee<br>e|A<br>ee|14 / 28, Ta=25℃, cold start<br>ee||||||
||Leakage Current<br>(*10)<br>**e**ee<br>e<br>Po|mA<br>ee|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>ee||||||
|Output<br>——————————|Nominal Voltage<br>Po<br>a|V<br>ns|3.3|5<br>(GO|12<br>(GO|15<br>(GO|24|48|
||Maximum Current<br>a<br>nD|A<br>nD<br>ns<br>ns|10<br>nD<br>(GO<br>EG||4.3<br>nD<br>(GO<br>EG|3.5<br>nD<br>(GO|2.2<br>nD|1.1|
||Maximum Power<br>nD<br>ny|W<br>nD<br>ns<br>ny<br>ns<br>nn|33<br>nD<br>ny<br>EG|50<br>nD<br>(GO<br>ny<br>EG<br>(OU|51.6<br>nD<br>(GO<br>ny<br>EG<br>(OU|52.5<br>nD<br>(GO<br>ny<br>(OU|52.8<br>nD<br>|||
||Maximum Line Regulation<br>(*5)<br>ny<br>nD<br>——————————|mV<br>ny<br>ns <br>nD<br>nn<br>——————————|20<br>ny<br> EG<br>nD<br>(OU<br>——————————||48<br>ny<br>EG<br>nD<br>(OU<br>——————————|60<br>ny<br>nD<br>(OU<br>——————————|96<br>nD<br>|<br>——————————|192|
||Maximum Load Regulation<br>(*6)<br>nD<br>——————————|mV<br>nD<br>nn<br>——————————|40<br>nD<br>(OU<br>——————————||96<br>nD<br>(OU<br>——————————|120<br>nD<br>(OU<br>——————————|192<br>nD<br>|<br>——————————|384|
||Temperature Coefficient<br>——————————<br>Po|——————————<br>nn|Less than 0.02% /℃<br>——————————<br>|||||||
||Maximum Ripple & Noise(0≤Ta≤70℃) (*4) <br>——————————<br>Po<br>ns<br>ee|mVp-p<br>——————————<br>ns<br>nn<br>ee|120<br>——————————<br>ns<br>ee||150<br>——————————<br>ns<br>|<br>ee|||200|
||Maximum Ripple & Noise (－10≤Ta< 0℃) (*4) <br>ns<br>ee|mVp-p<br>ns<br>nn<br>ee|160<br>ns<br>ee||180<br>ns<br>|<br>ee|||240|
||Hold-up Time (typ)<br>(*9)<br>ee<br>Po|ms<br>ee|20<br>ee<br>nD(nn(|||||||
||Voltage Adjustable Range<br>ee<br>Po<br>ns|VDC<br>ee<br>ns|2.97 - 3.96<br>ee<br>ns<br>nD<br>nn|4.0 - 6.0<br>ee<br>ns<br>(nn<br>nn|9.6 - 14.4<br>ee<br>ns<br>(|<br>GG|12.0 - 18.0<br>ee<br>ns<br>(|<br>GG|19.2 - 28.8<br>ee<br>ns<br>(||38.4 - 52.8|
|Function|Over Current Protection<br>(*7)<br>ns<br>DD<br>————————————|A<br>ns<br>DD<br>————————————|>10.5<br>ns<br>nD(nn <br>DD<br>nn<br>————————————||>4.51<br>ns<br> (|<br>DD<br>GG<br>————————————|>3.67<br>ns<br>(|<br>DD<br>GG<br>————————————|>2.31<br>ns<br>(|<br>DD<br>————————————|>1.15|
||Over Voltage Protection<br>(*8)<br>DD<br>————————————|V<br>DD<br>————————————|4.13 - 4.95<br>DD<br>nn<br>————————————|6.25 - 7.25<br>DD<br>nn<br>————————————|15.0 - 17.4<br>DD<br>GG<br>————————————|18.8 - 21.8<br>DD<br>GG<br>————————————|30.0 - 34.8<br>DD<br>————————————|55.2 - 64.8|
||Remote Sensing<br>————————————<br>|————————————<br>||-<br>nn<br>GG<br>————————————<br>|||||||
||Remote ON/OFF Control<br>————————————<br>es<br>|————————————<br>es|<br>||-<br>————————————<br>|<br>|||||||
||Parallel Operation<br>es<br>ee|es|<br>ee||-<br>|<br>|||||||
||Series Operation<br>ee<br>ee<br>|ee|<br>ee<br>||Possible<br>|<br>|||||||
||Line DIP<br>ee<br>ee<br>|ee<br>ee|<br>||Built to meet SEMI-F47 (200VAC Line only)<br>|<br>|||||||
|Environment<br>fF|Operating Temperature<br>(*11)<br>ee<br>ee|℃<br>ee|<br>ee||-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)<br>|<br>|||||||
||Storage Temperature<br>ee<br>ee<br>fF|℃<br>ee|<br>ee|-30 to +85<br>|||||||
||Operating Humidity<br>ee<br>fF<br>rrrr—sS|％RH<br>ee<br>rrrr—sS|30 - 90 (No dewdrop)||||||
||Storage Humidity<br>fF<br>rrrr—sS<br>TS|％RH<br>rrrr—sS<br>TS|10 - 95 (No dewdrop)||||||
||Vibration<br>TS|TS|At no operating, 10 - 55Hz (sweep for 1min) 19.6m/s² constant,<br>X, Y, Z 1hour each.||||||
||Shock (In package)<br>TS<br>ee|TS<br>ee|Less than 196.1m/s²||||||
||Cooling<br>ee|ee|Convection cooling||||||
|Isolation|Withstand Voltage||Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance||More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards|Safety Standards<br>(*12)<br>|||Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Built to meet DENAN<br>|||||||
||PFHC<br>es|es||Built to meet IEC61000-3-2<br>|||||||
||EMI<br>es<br>oT|es|<br>oT|Built to meet EN55011/EN55022-B, FCC-B, VCCI-B<br>|||||||
||Immunity<br>oT<br>|oT<br>||Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3), -<br>5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>|||||||
|Mechanical|Weight (typ)<br>oT<br>ee|g<br>oT<br>ee||280<br>|||||||
||<br>Size (W x H x D)<br>ee<br>es|mm<br>ee|<br>es|26.5 x 82 x 120 (Refer to outline drawing)<br>|||||||



(*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

- (*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope : 100MHz. 

**●Recommended EMC Filter** 

- (*5) 85 - 265VAC, constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Constant current limit and hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

- (*8) OVP circuit will shutdown output, manual reset (re power on). 

- (*9) At 100/200VAC, nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

RSEL-2001W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- As for other mountings, refer to derating curve. 

(*12) As for DENAN, built to meet at 100VAC. 

A-102 

・All specifications are subject to change without notice. 

**HWS 50** 

**HWS** 

## **Outline Drawing** 

## **【HWS50】** 

**==> picture [478 x 399] intentionally omitted <==**

**----- Start of picture text -----**<br>
VOLTAGE ADJUSTMENT SEE NOTE D<br>SEE NOTE C<br>LED<br>COVER<br>(OPTION)<br>(WITHOUT COVER)<br>(WITH COVER)<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>UNIT： mm<br>NOTES<br>Recommended Solderless Terminal<br>Qty （max） A : MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN  OPTIONAL MODELS<br>2 pcs HERE IN ACCORDANCE WITH THE SPECIFICATIONS.<br>B :  M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER  MODEL COVER REMOTE ON/OFF CONTROL<br>CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY<br>BY MORE THAN 6m/m. HWS50-＊<br>C :  M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST  HWS50-＊/R ○<br>NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>D : REMOTE ON/OFF CONTROL CONNECTOR --- OPTION B2B-XH-AM (JST) HWS50-＊/RA ○ ○<br>MATCHING HOUSING : XHP-2 (JST)<br>MATCHING TERMINAL : BXH-001T-P0.6 (JST) OR SXH-001T-P0.6 (JST)<br>HAND CRIMPING TOOL : YC-110R (JST) OR YRS-110 (JST)<br>**----- End of picture text -----**<br>


## **Output Derating** 

**==> picture [48 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS50/A<br>**----- End of picture text -----**<br>


**==> picture [435 x 225] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS50 HWS50/A<br>120 120<br>MOUNTING A, B MOUNTING A, B<br>100 100<br>MOUNTING C, D MOUNTING C, D<br>80 80<br>60 60<br>40 40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -10 0 10 20 30 40 50 60 70 80<br>Ta （℃） Ta （℃）<br>MOUNTING A MOUNTING B<br>（STANDARD MOUNTING）<br>DONT USE<br>MOUNTING C MOUNTING D<br>LOAD （%） LOAD （%）<br>**----- End of picture text -----**<br>


A-103 

・All specifications are subject to change without notice. 

**HWS80** 

**HWS** | 

## **HWS80 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**HWS80-3**<br>||**HWS80-5**<br>1|**HWS80-12**<br>||**HWS80-15**<br>1|**HWS80-24**<br>_|**HWS80-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>2|Voltage Range<br>(*2)<br>|<br>ee<br>2—|V<br>|<br>—|AC85 - 265 or DC120 - 370<br>|<br>1<br>|<br>1_<br>—||||||
||Frequency<br>(*2)<br>|<br>ee<br>Po<br>2—|Hz<br>|<br>—|47 - 63<br>|<br>1<br>|<br>1 _<br>—||||||
||Power Factor (100/200VAC)(typ) (*1)<br>Po<br>2—|—<br>nn|0.98 / 0.90<br>—<br>nn|0.99 / 0.95|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>2 —<br>ny|％<br>—<br>ny<br>nn|77 / 79<br>—<br>ny<br>nn|82 / 85<br>ny|||83 / 85<br>ny|84 / 86|
||Current (100/200VAC)(typ)<br>(*1)<br>ny<br>||A<br>ny<br>nn<br>||0.72 / 0.36<br>ny<br>nn<br>||1.04 / 0.52<br>ny|||||
||Inrush Current (100/200VAC)(typ) (*3)<br>|<br>———|A<br>|<br>———|14 / 28, Ta=25℃, cold start<br>|||||||
||Leakage Current<br>(*10)<br>———<br>Po|mA<br>———<br>ns|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>nn<br>DODO||||||
|Output<br>——————————E|Nominal Voltage<br>———<br>Po<br>ny|VDC<br>———<br>ny<br>ns<br>nn|3.3<br>ny<br>nn|5<br>ny<br>DODO|12<br>ny<br>DODO<br>||15<br>ny<br>DODO<br>||24<br>ny<br>||48|
||Maximum Current<br>ny<br>nD|A<br>ny<br>ns <br>nD<br>nn|16<br>ny<br> nn<br>DODO<br>nD<br>nd||6.7<br>ny<br>DODO<br>nD<br>||5.4<br>ny<br>DODO<br>nD<br>||3.4<br>ny<br>nD<br>||1.7|
||Maximum Power<br>nD<br>sD|W<br>nD<br>nn<br>sD<br>nn|52.8<br>nD<br>sD<br>nd|80<br>nD<br>sD<br>DOGO|80.4<br>nD<br>|<br>sD<br>DOGO|81<br>nD<br>|<br>sD<br>DOGO|81.6<br>nD<br>|||
||Maximum Line Regulation<br>(*5)<br>sD<br>en<br>——————————E|mV<br>sD<br>en<br>nn<br>——————————E|20<br>sD<br>nd<br>en<br>DOGO<br>——————————E||48<br>sD<br>en<br>DOGO<br>——————————E|60<br>sD<br>en<br>DOGO<br>——————————E|96<br>en<br>——————————E|192|
||Maximum Load Regulation<br>(*6)<br>en<br>——————————E|mV<br>en<br>nn<br>——————————E|40<br>en<br>DOGO<br>——————————E||96<br>en<br>DOGO<br>——————————E|120<br>en<br>DOGO<br>——————————E|192<br>en<br>——————————E|384|
||Temperature Coefficient<br>——————————E<br>ee|——————————E<br>nD|Less than 0.02% /℃<br>——————————E<br>nD||||||
||Maximum Ripple & Noise (0≤Ta≤70℃) (*4) <br>——————————E<br>ee<br>ey|mVp-p<br>——————————E<br>ey<br>nD|120<br>——————————E<br>ey<br>nD||150<br>——————————E<br>ey<br>nD|||200|
||Maximum Ripple & Noise (－10≤Ta< 0℃) (*4) <br>ey<br>a|mVp-p<br>ey<br>nD<br>a|160<br>ey<br>nD<br>a||180<br>ey<br>nD<br>a|||240|
||Hold-up Time (typ)<br>(*9)<br>a<br>ee<br>nD|ms<br>a<br>nD|20ms<br>a<br>(GO||||||
||Voltage Adjustable Range<br>a<br>ee<br>nD|VDC<br>a<br>nD<br>nn|2.97 - 3.96<br>a<br>nS|4.0 - 6.0<br>a<br>(GO<br>(RR|9.6 - 14.4<br>a<br>(GO<br>(OU|12.0 - 18.0<br>a<br>(GO<br>(OU|19.2 - 28.8<br>a<br>||38.4 - 52.8|
|Function<br>———————————|Over Current Protection<br>(*7)<br>nD<br>ns<br>———————————|A<br>nD<br>ns<br>nn<br>———————————|>16.8<br>ns<br>nS<br>———————————|>16.8<br>(GO<br>ns<br>(RR<br>———————————|>7.04<br>(GO<br>ns<br>(OU<br>———————————|>5.67<br>(GO<br>ns<br>(OU<br>———————————|>3.57<br>ns<br>|<br>———————————|>1.79|
||Over Voltage Protection<br>(*8) <br>ns<br>———————————|VDC<br>ns<br>nn<br>———————————|4.13 - 4.95<br>ns<br>nS<br>———————————|6.25 - 7.25<br>ns<br>(RR<br>———————————|15.0 - 17.4<br>ns<br>(OU<br>———————————|18.8 - 21.8<br>ns<br>(OU<br>———————————|30.0 - 34.8<br>ns<br>|<br>———————————|55.2 - 64.8|
||Remote Sensing<br>———————————|nn<br>———————————|Possible<br>nS(RR (OU<br>|<br>———————————||||||
||Remote ON/OFF Control<br>———————————<br>ee<br>|———————————<br>ee<br>||-<br>———————————<br>|||||||
||Parallel Operation<br>ee<br>es<br>|ee<br>es|<br>||-<br>|<br>|||||||
||Series Operation<br>es<br>ee|es|<br>ee||Possible<br>|<br>|||||||
||Line DIP<br>ee<br>ee<br>|ee|<br>ee<br>||Built to meet SEMI-F47 (200VAC Line only)<br>|<br>|||||||
|Environment|Operating Temperature<br>(*11)<br>ee<br>es<br>|℃<br>ee<br>es|<br>||-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)<br>|<br>|||||||
||Storage Temperature<br>es<br>ee|℃<br>es|<br>ee||-30 to +85<br>|<br>|||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee|<br>ee|30 - 90 (No dewdrop)<br>|||||||
||Storage Humidity<br>ee<br>od|％RH<br>ee<br>od|10 - 95 (No dewdrop)||||||
||Vibration<br>od|od|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.||||||
||Shock (In package)<br>od<br>ee|od<br>ee|Less than 196.1m/s²||||||
||Cooling<br>ee|ee|Convection cooling||||||
|Isolation|Withstand Voltage||Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance||More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards|Safety Standards<br>(*12)||Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Built to meet DENAN||||||
||PFHC<br>ee|ee|Built to meet IEC61000-3-2||||||
||EMI||Built to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity||Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||
|Mechanical|Weight (typ)<br>ee<br>|g<br>ee<br>||450<br>|||||||
||<br>Size (W x H x D)<br>ee<br>ee|mm<br>ee<br>ee||28 x 82 x 160 (Refer to outline drawing)<br>|||||||



(*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

- (*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope : 100MHz. 

**●Recommended EMC Filter** 

(*5) 85 - 265VAC , constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Constant current limit and hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

(*8) OVP circuit will shutdown output, manual reset (re power on). 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

(*11) Ratings  - Derating at standard mounting. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

RSEL-2002W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- As for other mountings, refer to derating curve. 

(*12) As for DENAN, built to meet at 100VAC. 

A-104 

・All specifications are subject to change without notice. 

**HWS 80** 

**HWS** 

## **Outline Drawing** 

## **【HWS80】** 

**==> picture [482 x 404] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE D<br>VOLTAGE ADJUSTMENT<br>SEE NOTE C<br>LED<br>COVER<br> (OPTION)<br>(WITHOUT COVER)<br>(WITH COVER)<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>unit：ｍｍ<br>NOTES<br>Recommended Solderless Terminal A : MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT<br>Terminal VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF<br>Qty （max） MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH THE<br>2 pcs B :  M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR SPECIFICATIONS.<br>1 pc CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE  OPTIONAL MODELS<br>INTO POWER SUPPLY BY MORE THAN 6m/m.<br>Others 2 pcs C :  M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS  MODEL COVER REMOTE ON/OFF CONTROL<br>MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>ACCESSORIES D : REMOTE ON/OFF CONTROL CONNECTOR --- OPTION B2B-XH-AM (JST) HWS80-＊<br>＊SHORT PIECE (NET 2) FOR SHORTING PURPOSE MATCHING HOUSING : XHP-2 (JST) HWS80-＊/R ○<br> (+S to +V, -S to -V): MOUNTED AT TIME OF SHIPMENT. MATCHING TERMINAL : BXH-001T-P0.6 (JST) OR SXH-001T-P0.6 (JST)HAND CRIMPING TOOL : YC-110R (JST) OR YRS-110 (JST) HWS80-＊/RA ○ ○<br>**----- End of picture text -----**<br>


## **OUTPUT DERATING** 

**==> picture [466 x 233] intentionally omitted <==**

**----- Start of picture text -----**<br>
●HWS80 ●HWS80/A<br>120 120<br>MOUNTING A MOUNTING A<br>100 100<br>MOUNTING B, C, D MOUNTING B, C, D<br>80 80<br>60 60<br>40 40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -10 0 10 20 30 40 50 60 70 80<br>Ta （℃） Ta （℃）<br>MOUNTING A MOUNTING B<br>(STANDARD MOUNTING)<br>DON'T  USE<br>MOUNTING C MOUNTING D<br>LOAD（％） LOAD（％）<br>**----- End of picture text -----**<br>


A-105 

・All specifications are subject to change without notice. 

**HWS100** 

**HWS** | 

## **HWS100 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**HWS100-3**|**HWS100-5**|**HWS100-12**|**HWS100-15**|**HWS100-24**|**HWS100-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>2|Voltage Range<br>(*2)<br>Po<br>2<br>———|V<br>|_|<br>———|AC85 - 265 or DC120 - 370<br>———||||||
||Frequency<br>(*2)<br>Po<br>ee<br>2<br>———|Hz<br>|_|<br>———|47 - 63<br>———||||||
||Power Factor (100/200VAC)(typ) (*1)<br>ee<br>2<br>———|———<br>nD|0.98 / 0.90<br>———|0.99 / 0.95|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>2<br>———<br>nD<br><br>eee|％<br>———<br>nD<br>nD<br><br>eee|78 / 81<br>———<br>nD<br>||83 / 86<br>nD<br>||||84 / 87||
||Current (100/200VAC)(typ)<br>(*1)<br>nD<br>es<br>eee|A<br>nD<br>nD<br>es<br>eee|0.9 / 0.45<br>nD<br>es||1.3 / 0.65<br>nD<br>||||||
||Inrush Current (100/200VAC)(typ) (*3)<br>es<br>eee|A<br>es<br>eee|14 / 28, Ta=25℃, cold start<br>es|||||||
||Leakage Current<br>(*10)<br><br>eee<br>Po|mA<br><br>eee<br>ns|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>|<br>nn<br>DODO||||||
|Output<br>——————————|Nominal Voltage<br><br>eee<br>Po<br>ny|VDC<br><br>eee<br>ny<br>ns<br>nn|3.3<br>|<br>ny<br>nn|5<br>|<br>ny<br>DODO|12<br>ny<br>DODO<br>||15<br>ny<br>DODO<br>||24<br>ny<br>||48|
||Maximum Current<br>ny<br>nD<br>nD|A<br>ny<br>ns <br>nD<br>nn<br>nD|20<br>ny<br> nn<br>DODO<br>nD<br>G(R||8.5<br>ny<br>DODO<br>nD<br>|<br>G(R|7<br>ny<br>DODO<br>nD<br>|<br>G(R|4.5<br>ny<br>nD<br>||2.1|
||Maximum Power<br>nD<br>nD|W<br>nD<br>nn<br>nD|66<br>nD|100<br>nD<br>G(R|102<br>nD<br>|<br>G(R|105<br>nD<br>|<br>G(R|108<br>nD<br>||100.8|
||Maximum Line Regulation<br>(*5)<br>nD<br>Ds<br>——————————|mV<br>nD<br>Ds<br>——————————|20<br>G(R<br>DO<br>——————————||48<br>G(R<br>DO<br>——————————|60<br>G(R<br>DO<br>——————————|96<br>——————————|192|
||Maximum Load Regulation<br>(*6)<br>Ds<br>——————————|mV<br>Ds<br>——————————|40<br>DO<br>——————————||96<br>DO<br>——————————|120<br>DO<br>——————————|192<br>——————————|384|
||Temperature Coefficient<br>——————————<br>Po|——————————<br>nD|Less than 0.02% /℃<br>——————————<br>DO||||||
||Maximum Ripple & Noise (0≤Ta≤70℃)(*4)<br>——————————<br>Po<br>nd<br>**e**|mVp-p<br>——————————<br>nd<br>nD<br>**e**|120<br>——————————<br>nd<br>DO<br>**e**ee||150<br>——————————<br>nd<br>DO<br>ee|||200|
||Maximum Ripple & Noise (－10≤Ta< 0℃) (*4) <br>nd<br>**e**|mVp-p<br>nd<br>nD<br>**e**|160<br>nd<br>DO<br>**e**ee||180<br>nd<br>DO<br>ee|||240|
||Hold-up Time (typ)<br>(*9)<br>**e**<br>e|ms<br>**e**|20<br>**e**ee<br>I(OG||||||
||Voltage Adjustable Range<br>**e**<br>e<br>ns|VDC<br>**e**<br>ns<br>nnnD|2.97 - 3.96<br>**e**ee<br>ns<br>I<br>nD|4.0 - 6.0<br>ee<br>ns<br>I(OG<br>nD|9.6 - 14.4<br>ee<br>ns<br>(OG<br>(||12.0 - 18.0<br>ee<br>ns<br>(OG<br>(||19.2 - 28.8<br>ee<br>ns<br>(||38.4 - 52.8|
|Function<br>—————————————|Over Current Protection<br>(*7)<br>ns<br>nD<br>—————————————|A<br>ns<br>nD<br>nnnD<br>—————————————|>21.0<br>ns<br>I(OG<br>nD<br>nD<br>—————————————||>8.92<br>ns<br>(OG<br>nD<br>(|<br>—————————————|>7.35<br>ns<br>(OG<br>nD<br>(|<br>—————————————|>4.72<br>ns<br>nD<br>(|<br>—————————————|>2.20|
||Over Voltage Protection<br>(*8) <br>nD<br>—————————————|VDC<br>nD<br>nnnD<br>—————————————|4.13 - 4.95<br>nD<br>nD<br>—————————————|6.25 - 7.25<br>nD<br>nD<br>—————————————|15.0 - 17.4<br>nD<br>(|<br>—————————————|18.8 - 21.8<br>nD<br>(|<br>—————————————|30.0 - 34.8<br>nD<br>(|<br>—————————————|55.2 - 64.8|
||Remote Sensing<br>—————————————|nnnD<br>—————————————|Possible<br>nD(|<br>—————————————||||||
||Remote ON/OFF Control<br>—————————————<br>ee<br>|—————————————<br>ee<br>||-<br>—————————————<br>|||||||
||Parallel Operation<br>ee<br>es<br>|ee<br>es|<br>||-<br>|<br>|||||||
||Series Operation<br>es<br>ee|es|<br>ee||Possible<br>|<br>|||||||
||Line DIP<br>ee<br>es<br>|ee|<br>es<br>||Built to meet SEMI-F47 (200VAC Line only)<br>|<br>|||||||
|Environment|Operating Temperature<br>(*11)<br>es<br>ee<br>|℃<br>es<br>ee|<br>||-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)<br>|<br>|||||||
||Storage Temperature<br>ee<br>ee|℃<br>ee|<br>ee||-30 to +85<br>|<br>|||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee|<br>ee|30 - 90 (No dewdrop)<br>|||||||
||Storage Humidity<br>ee<br>oS|％RH<br>ee<br>oS|10 - 95 (No dewdrop)||||||
||Vibration<br>oS|oS|At no operating, 10 - 55Hz (sweep for 1min) 19.6m/s² constant,<br>X, Y, Z 1hour each.||||||
||Shock (In package)<br>oS<br>ee|oS<br>ee|Less than 196.1m/s²||||||
||Cooling<br>ee<br>J|ee<br>J|Convection cooling||||||
|Isolation|Withstand Voltage<br>J|J|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance<br>J|J|More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards<br>fF|Safety Standards<br>(*12)<br>fF||Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Built to meet, DENAN||||||
||PFHC<br>fF—|—|Built to meet IEC61000-3-2||||||
||EMI<br>fF<br>es|es|Built to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>es<br>|es<br>||Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>|||||||
|Mechanical|Weight (typ)<br>ee<br>|g<br>ee|<br>||450<br>|<br>|||||||
||<br>Size (W x H x D)<br>ee<br>ee|mm<br>ee|<br>ee||28 x 82 x 160 (Refer to outline drawing)<br>|<br>|||||||



- (*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

- (*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

**●Recommended EMC Filter** 

- (*5) 85 - 265VAC, constant load. 

- (*6) No load-Full load, constant input voltage. 

- (*7) Constant current limit and hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

- (*8) OVP circuit will shutdown output, manual reset (re power on). 

- (*9) At 100/200VAC, nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

RSEL-2002W 

**Please refer to "TDK-Lambda EMC Filters" catalog.** 

   - As for other mountings, refer to derating curve 

- (*12) As for DENAN, built to meet at 100VAC. 

A-106 

・All specifications are subject to change without notice. 

**HWS 100** 

**HWS** 

## **Outline Drawing** 

## **【HWS100】** 

**==> picture [481 x 407] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE D<br>VOLTAGE ADJUSTMENT<br>SEE NOTE C<br>LED<br>COVER<br>(OPTION)<br>VOLTAGE<br>ADJUSTMENT<br>(WITHOUT COVER)<br>(WITH COVER)<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>unit<br>NOTES<br>Terminal Recommended Solderless TerminalQty （max） A : MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH THE SPECIFICATIONS.<br>B : M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER<br>2 pcs CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY<br>1 pc C : M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS BY MORE THAN 6m/m. OPTIONAL MODELS<br>Others 2 pcs D : REMOTE ON/OFF CONTROL CONNECTOR --- OPTION B2B-XH-AM (JST)MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. MODEL COVER REMOTE ON/OFFCONTROL<br>ACCESSORIES MATCHING HOUSING :    XHP-2 (JST)MATCHING TERMINAL :   BXH-001T-P0.6 (JST) OR SXH-001T-P0.6 (JST) HWS100-＊<br>＊SHORT PIECE (NET 2) FOR SHORTING PURPOSE HAND CRIMPING TOOL : YC-110R (JST) OR YRS-110 (JST) HWS100-＊/R ○<br>(+S to +V, -S to -V): MOUNTED AT TIME OF SHIPMENT. HWS100-＊/RA ○ ○<br>**----- End of picture text -----**<br>


## **Output Derating** 

**==> picture [42 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS100<br>**----- End of picture text -----**<br>


**==> picture [53 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS100/A<br>**----- End of picture text -----**<br>


**==> picture [461 x 215] intentionally omitted <==**

**----- Start of picture text -----**<br>
120 120<br>MOUNTING A MOUNTING A<br>100 100<br>MOUNTING B, C, D MOUNTING B, C, D<br>80 80<br>60 60<br>40 40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -10 0 10 20 30 40 50 60 70 80<br>Ta （℃） Ta （℃）<br>MOUNTING A MOUNTING B<br>(STANDARD MOUNTING）<br>DON’T USE<br>MOUNTING C MOUNTING D<br>LORD（％） LORD（％）<br>**----- End of picture text -----**<br>


A-107 

・All specifications are subject to change without notice. 

**HWS150** 

## **HWS150 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**HWS150-3**|**HWS150-5**|**HWS150-12**|**HWS150-15**|**HWS150-24**|**HWS150-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>/-—}|Voltage Range<br>(*2)<br>Po|V<br>[||AC85 - 265 or DC120 - 370||||||
||Frequency<br>(*2)<br>Po<br>ee|Hz<br>[|<br>ee|47 - 63||||||
||Power Factor (100/200VAC)(typ) (*1)<br>ee<br>||ee<br>||0.98 / 0.90<br>||0.99 / 0.95|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>|<br>DO|％<br>|<br>DO|78 / 81<br>|<br>DO|83 / 86<br>DO|||85 / 88||
||Current (100/200VAC)(typ)<br>(*1)<br>DO<br>|<br>/-—}|A<br>DO<br>|<br>/-—}+|1.3 / 0.65<br>DO<br>||1.9 / 0.95<br>DO|||||
||Inrush Current (100/200VAC)(typ) (*3)<br>|<br>/-—}|A<br>|<br>/-—}+|14 / 28, Ta=25℃, cold start<br>|||||||
||Leakage Current<br>(*10)<br>/-—}<br>Po|mA<br>/-—}+|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)||||||
|Output<br>/-—}<br>Po<br>Po<br>PO<br>Po<br>Po|Nominal Voltage<br>/-—}<br>Po<br>Pe<br>Po|V<br>/-—} +<br>Pe|3.3<br>Pe|5<br>Pe|12<br>Pe|15<br>Pe|24<br>Pe|48|
||Maximum Current<br>Pe<br>Po<br>Po|A<br>Pe|30<br>Pe<br>nDDOO||13<br>Pe<br>DOO|10<br>Pe<br>DOO|6.5<br>Pe|3.3|
||Maximum Power<br>Po<br>GO<br>Po|W<br>GO|99<br>GO<br>nD|150<br>GO<br>DOO|156<br>GO<br>DOO|150<br>GO<br>DOO|156<br>GO|158.4|
||Maximum Line Regulation<br>(*5)<br>GO<br>Po<br>———————————|mV<br>GO<br>———————————|20<br>GO<br>nDDOO<br>———————————||48<br>GO<br>DOO<br>———————————|60<br>GO<br>DOO<br>———————————|96<br>GO<br>———————————|192|
||Maximum Load Regulation<br>(*6)<br>Po<br>———————————|mV<br>———————————|40<br>nDDOO<br>———————————||96<br>DOO<br>———————————|120<br>DOO<br>———————————|192<br>———————————|384|
||Temperature Coefficient<br>———————————<br>Po<br>PO|———————————<br>|Less than 0.02% /℃<br>———————————<br>||||||
||Maximum Ripple & Noise (0≤Ta≤70℃) (*4) <br>———————————<br>Po<br>PO|mVp-p<br>———————————<br>|120<br>———————————<br>||150<br>———————————<br>|||200|
||Maximum Ripple & Noise (－10≤Ta< 0℃) (*4) <br>POa|mVp-p<br>a|160<br>a||180<br>a|||240|
||Hold-up Time (typ)<br>(*9)<br>a<br>Po<br>Po|ms<br>a|20<br>a||||||
||Voltage Adjustable Range<br>a<br>Po<br>Po<br>Po|VDC<br>a|2.97 - 3.96<br>a|4.0 - 6.0<br>a|9.6 - 14.4<br>a|12.0 - 18.0<br>a|19.2 - 28.8<br>a|38.4 - 52.8|
|Function<br>Po<br>Po<br>——————————|Over Current Protection<br>(*7)<br>Po<br>Po<br>——————————|A<br>——————————|>31.5<br>——————————||>13.6<br>——————————|>10.5<br>——————————|>6.82<br>——————————|>3.46|
||Over Voltage Protection<br>(*8)<br>Po<br>——————————|V<br>——————————|4.13 - 4.95<br>——————————|6.25 - 7.25<br>——————————|15.0 - 17.4<br>——————————|18.8 - 21.8<br>——————————|30.0 - 34.8<br>——————————|55.2 - 64.8|
||Remote Sensing<br>(*8)<br>Po<br>——————————|——————————|Possible<br>——————————||||||
||Remote ON/OFF Control<br>——————————<br>ee|——————————<br>ee|-<br>——————————||||||
||Parallel Operation<br>ee<br>ee|ee<br>ee|-||||||
||Series Operation<br>ee<br>ee|ee<br>ee|Possible||||||
||Line DIP<br>ee<br>ee|ee<br>ee|Built to meet SEMI-F47 (200VAC Line only)||||||
|Environment|Operating Temperature<br>(*11)<br>ee<br>ee|℃<br>ee<br>ee|-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)||||||
||Storage Temperature<br>ee<br>ee|℃<br>ee<br>ee|-30 to +85||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee<br>ee|30 - 90 (No dewdrop)||||||
||Storage Humidity<br>ee<br>OT|％RH<br>ee<br>OT|10 - 95 (No dewdrop)||||||
||Vibration<br>OT|OT|At no operating, 10 - 55Hz (sweep for 1min) 19.6m/s² constant,<br>X, Y, Z 1hour each.||||||
||Shock (In package)<br>OT<br>es|OT<br>es|Less than 196.1m/s²||||||
||Cooling<br>es<br>7|es<br>7|Convection cooling||||||
|Isolation|Withstand Voltage<br>7|7|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance<br>7<br>TS|7<br>TS|More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards|Safety Standards<br>(*12)<br>TS|TS|Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Built to meet DENAN||||||
||PFHC<br>TS<br>ee|TS<br>ee|Built to meet IEC61000-3-2||||||
||EMI<br>ee<br>OT|ee<br>OT|Built to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>OT|OT|Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||
|Mechanical|Weight (typ)<br>OT<br>ee|g<br>OT<br>ee|500||||||
||<br>Size (W x H x D)<br>ee|mm<br>ee|37 x 82 x 160 (Refer to outline drawing)||||||



(*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

- (*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope : 100MHz. 

- (*5) 85 - 265VAC, constant load. 

## **●Recommended EMC Filter** 

- (*6) No load-full load, constant input voltage. 

(*7) Constant current limit and hiccup with automatic recovery. 

Not operate at over load or dead short condition for more than 30 seconds. 

- (*8) OVP circuit will shutdown output, manual reset (re power on). 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

(*12) As for DENAN, built to meet at 100VAC. 

RSEL-2003W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-108 

・All specifications are subject to change without notice. 

**HWS 150** 

**HWS** 

## **Outline Drawing** 

## **【HWS150】** 

**==> picture [480 x 427] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE D<br>VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>COVER<br> (OPTION)<br>(WITHOUT COVER)<br>(WITH COVER) SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>D t<br>NOTES OPTIONAL MODELS unit： mm<br>Terminal Recommended Solderless Terminal A :  MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN  MODEL COVER REMOTE ON/OFF<br>D （max）  ｔ （max）  Qty （max）  CONTROL<br>HERE IN ACCORDANCE WITH THE SPECIFICATIONS.<br>＋V / －V 8.1mm 0.8mm  2 pcs B :  M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES(2) FOR CUSTOMER CHASSIS  HWS150-＊HWS150-＊ /R ○<br>1.0mm  1 pc MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN  HWS150-＊ /RA ○ ○<br> Others  6.8mm  0.8mm  2 pcs 6m/m.<br>C :  M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT<br>ACCESSORIES PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>D :  REMOTE ON/OFF CONTROL CONNECTOR --- OPTION B2B-XH-AM (JST)<br>＊ SHORT PIECE (NET 2) FOR SHORTING PURPOSE  MATCHING HOUSING :    XHP-2 (JST)<br>(+S to +V, -S to -V): MOUNTED AT TIME OF SHIPMENT. MATCHING TERMINAL :  BXH-001T-P0.6 (JST) OR<br>                                     SXH-001T-P0.6 (JST)<br>HAND CRIMPING TOOL : YC-110R (JST) OR YRS-110 (JST)<br>**----- End of picture text -----**<br>


## **Output Derating** 

**==> picture [467 x 216] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS150 HWS150/A<br>120 120<br>MOUNTING B MOUNTING A<br>100 100<br>MOUNTING C, D MOUNTING A MOUNTING B, C, D<br>80 80<br>60 60<br>40 40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -10 0 10 20 30 40 50 60 70 80<br>25<br>Ta (°C) Ta (°C)<br>MOUNTING A MOUNTING B<br>(STANDARD MOUNTING) DON'T  USE<br>LOAD (%) LOAD (%)<br>**----- End of picture text -----**<br>


**==> picture [88 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
MOUNTING C MOUNTING D<br>**----- End of picture text -----**<br>


A-109 

**HWS300** 

## **HWS300 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**HWS300-3**|**HWS300-5**|**HWS300-12**|**HWS300-15**|**HWS300-24**|**HWS300-48**|
|---|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>|<br>ee|V<br>||AC85 - 265 or DC120 - 330||||||
||Frequency<br>(*2)<br>|<br>ee<br>ee|Hz<br>|<br>ee|47 - 63||||||
||Power Factor (100/200VAC)(typ) (*1)<br>ee<br>es|ee<br>es<br>nd|0.99 / 0.95||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>es<br>es<br>————|％<br>es<br>es<br>nd<br>————|74 / 77<br>es<br>————|79 / 82<br>es<br>————|80 / 83<br>es||82 / 85||
||Current (100/200VAC)(typ)<br>(*1)<br>es<br>————<br>or|A<br>es<br>nd<br>————<br>or|2.7 / 1.4<br>es<br>————|3.8 / 1.9<br>es<br>————|4.1 / 2.1<br>es||||
||Inrush Current (100/200VAC)(typ) (*3)<br>————<br>Po<br>or|A<br>————<br>or|20 / 40<br>————||||||
||Leakage Current<br>(*10)<br>————<br>Po<br>Po<br>or|mA<br>————<br>or|Less than 0.75. (0.2 (typ) at 100VAC / 0.44 (typ) at 230VAC)<br>————||||||
|Output<br>|Nominal Voltage<br>Po<br>or|VDC<br>or<br>nn|3.3|5|12<br>||15<br>||24<br>||48|
||Maximum Current<br>(*13)<br>or<br>nD|A<br>or<br>nD<br>nn<br>ns|60<br>nD||27<br>nD<br>||22<br>nD<br>||14 (16.5)<br>nD<br>||7|
||Maximum Power<br>nD<br>nD<br>a|W<br>nD<br>nn<br>nD<br>ns<br>nD|198<br>nD<br>nD|300<br>nD<br>nD<br>DOGO|324<br>nD<br>|<br>nD<br>DOGO|330<br>nD<br>|<br>nD<br>DOGO|336<br>nD<br>|||
||Maximum Line Regulation<br>(*5)<br>nD<br>en<br>a|mV<br>nD<br>ns<br>en<br>nD|20<br>nD<br>en<br>DOGO||48<br>nD<br>en<br>DOGO|60<br>nD<br>en<br>DOGO|96<br>en|192|
||Maximum Load Regulation<br>(*6)<br>en<br>a|mV<br>en<br>nD|30<br>en<br>DOGO||72<br>en<br>DOGO|90<br>en<br>DOGO|144<br>en|288|
||Temperature Coefficient<br>a<br>Po|nD<br>nD|Less than 0.02% /℃<br>DOGO<br>DO||||||
||Maximum Ripple & Noise (0≤Ta≤70℃) (*4) <br>Po<br>ny<br>eee|mVp-p<br>ny<br>nD<br>eee|120<br>ny<br>DO<br>eee||150<br>ny<br>DO<br>eee|||350|
||Maximum Ripple & Noise (－10≤Ta< 0℃) (*4) <br>ny<br>eee|mVp-p<br>ny<br>nD<br>eee|180<br>ny<br>DO<br>eee||200<br>ny<br>DO<br>eee|||400|
||Hold-up Time (typ)<br>(*9)<br>eee<br>Po|ms<br>eee|20<br>eee<br>nn<br>IDOGO||||||
||Voltage Adjustable Range<br>eee<br>Po<br>nD<br>|VDC<br>eee<br>nD<br>nn<br>|2.64 - 3.96<br>eee<br>nD<br>nn|4.0 - 6.0<br>eee<br>nD<br>IDOGO<br>(OU|9.6 - 14.4<br>eee<br>nD<br>DOGO<br>(OU|12.0 - 18.0<br>eee<br>nD<br>DOGO<br>(OU|19.2 - 28.8<br>eee<br>nD<br>||38.4 - 52.8|
|Function<br> ——<br>fF|Over Current Protection<br>(*7)<br>nD<br>ns<br>——|A<br>nD<br>ns<br>nn<br>——|>63<br>nD<br>nn<br>IDOGO<br>ns<br>(OU||> 28.4<br>nD<br>DOGO<br>ns<br>(OU|>23.1<br>nD<br>DOGO<br>ns<br>(OU|>16.7<br>nD<br>ns<br>||>7.4|
||Over Voltage Protection<br>(*8)<br>ns<br>——|V<br>ns<br>nn<br>——|4.13 - 4.95<br>ns|6.25 - 7.25<br>ns<br>(OU|15.0 - 17.4<br>ns<br>(OU|18.8 - 21.8<br>ns<br>(OU|30.0 - 34.8<br>ns<br>||55.2 - 64.8|
||Remote Sensing<br>——|nn<br>——|Possible<br>(OU<br>|||||||
||Remote ON/OFF Control<br>——<br>ee<br>fF|——<br>ee<br>|Possible||||||
||Parallel Operation<br>ee<br>fFrrrt—sS<br>|ee<br>rrrt—sS<br>||Possible<br>|||||||
||Series Operation<br>fFrrrt—sS<br>ee|rrrt—sS<br>ee||Possible<br>|||||||
||Monitoring Signal<br>ee<br>ee<br>|ee|<br>ee<br>||PF (Open collector output)<br>|<br>|||||||
||Line DIP<br>ee<br>ee<br>|ee<br>ee|<br>||Designed to meet SEMI-F47 (200VAC Line only)<br>|<br>|||||||
|Environment<br>fF|Operating Temperature<br>(*11)<br>ee<br>ee|℃<br>ee|<br>ee||-10 to +70 (-10 to +50: 100%, +70: 50%)<br>|<br>|||||||
||Storage Temperature<br>ee<br>ee<br>fF|℃<br>ee|<br>ee<br>|-30 to +85<br>|||||||
||Operating Humidity<br>ee<br>fFrrrt—sS|％RH<br>ee<br>rrrt—sS|10 - 90 (No dewdrop)||||||
||Storage Humidity<br>fFrrrt—sS<br>7|％RH<br>rrrt—sS<br>7|10 - 95 (No dewdrop)||||||
||Vibration<br>7<br>|7<br>||At no operating, 10 - 55Hz (sweep for 1min) 19.6m/s² constant,<br>X, Y, Z 1hour each.<br>|||||||
||Shock (In package)<br>7<br>ee|7<br>ee||Less than 196.1m/s²<br>|||||||
||Cooling<br>ee|ee||Forced air by blower fan<br>|||||||
|Isolation|Withstand Voltage||Input - FG : 2.5kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG: 500VAC (100mA), Output-CNT: 100VAC(100mA) for 1min||||||
||Isolation Resistance<br>dt|dt|More than 100MΩOutput - FG : 500VDC<br>More than 10MΩOutput -CNT : 100VDC at 25℃and 70%RH||||||
|Standards|Safety Standards<br>(*12)<br>dt|dt|Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178 Designed to meet DENAN||||||
||PFHC<br>dt|dt|Designed to meet IEC61000-3-2||||||
||EMI<br>dt<br>TS|dt<br>TS|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>TS|TS|Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||
|Mechanical|Weight (typ)<br>TS<br>es<br>|g<br>TS<br>es<br>||1000<br>|||||||
||<br>Size (W x H x D)<br>es|mm<br>es||61 x 82 x 165 (Refer to outline drawing)<br>|||||||



(*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100-240VAC (50/60Hz). 

- (*3) Not applicable for the inrush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

**==> picture [104 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
●Recommended EMC Filter<br>**----- End of picture text -----**<br>


- (*5) 85 - 265VAC, constant load. 

(*6) No load-full load, constant input voltage. 

- (*7) 3.3, 5V model:   Constant current limit and hiccup with automatic recovery. 

   - 12 - 48V model: Constant current limit  with automatic recovery. 

Avoid to operate at over load or short circuit condition for more than 30 seconds. 

- (*8) OVP circuit will shut the output down, manual reset (CNT reset or Re power on). 

- (*9) At 100/200VAC, nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

- (*11) Ratings  - Derating at standard mounting. Refer to output derating curve. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

RSEN-2006 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*12) As for DENAN, designed to meet at 100VAC. 

- (*13) (   ): Peak output current at 200VAC. Operaing time at peak output is less than 10 sec, duty is less than 35%. 

A-110 

・All specifications are subject to change without notice. 

**HWS 300** 

**HWS** 

## **Outline Drawing** 

## **【HWS300】** 

**==> picture [478 x 350] intentionally omitted <==**

**----- Start of picture text -----**<br>
（10.7）7.3 NAME PLATE<br>（8.9） SEE NOTE A AIR FLOW<br>4-M4<br>HWS300-24/HD<br>SEE NOTE B<br>(TAPPED AT THE BOTTOM CHASSIS)<br>FAN<br>3-M4 （14.6） 25 105±0.5<br>（46.9）<br>61±1 165±1<br>25 120±0.5<br>22 MAX<br>SEE NOTE B<br>18 MAX<br>5 MAX<br>7.2<br>11<br>15<br>14<br>11<br>82±1 60±0.5<br>（66.6）<br>10<br>（47）<br>10<br>（34.5）<br>11<br>（9.5）<br>40±0.5<br>10.5<br>**----- End of picture text -----**<br>


[ｕｎｉｔ： mm] 

## == SIGNAL CONNECTOR USED == 

== NOTES == 

|== S|IGNAL CONNECTOR U|SED ==||== NOTES ==|
|---|---|---|---|---|
||PART DESCRIPTION|PART NAME|MANUFACT|A : MODEL NAME, NOMINAL OUTPUT VOLTAGE AND MAXIMUM OUTPUT<br>CURRENT ARE SHOWN IN THE NAME PLATE IN ACCORDANCE WITH|
||PIN HEADER|S12B-PHDSS|JST|THE SPECIFICATIONS.|
|PART DESCRIPTION<br>== MATCHING HOUSINGS||PART NAME<br>, PINS & TOOL ==|MANUFACT|B : M4 TAPPED HOLES (8) FOR CUSTOMER CHASSIS MOUNTING.<br>(SCREW PENETRATION DEPTH 6m/m MAX.)|
||SOCKET HOUSING<br>TERMINAL PINS|PHDR-12VS<br>SPHD-002T-P0.5 (AWG28 - 24)<br>SPHD-001T-P0.5 (AWG26 - 22)|JST<br>JST|== ACCESSORIES ==<br>＊COVER FOR BARRIER TERMINAL STRIP ------1<br>(ATTACHED ON TERMINAL AT SHIPMENT)<br>＊SHORT PIECE ---------------------1|
||HAND CRIMRING TOOL|YRS-620 (SPHD-002T-P0.5)<br>YC-610R (SPHD-001T-P0.5)|JST|SHORTING +Vm―+S, -Vm―S. CNT―TOG<br>(ATTACHED ON CN1 AT SHIPMENT)|



== OPTIONAL MODELS == 

|MODEL|||COATING|
|---|---|---|---|
|HWS300-＊|||―|
|HWS300-＊/CD|||○|
|HWS300-＊/HD|||○|



## **Output Derating** 

**==> picture [199 x 135] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS300<br>120<br>100<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta （℃）<br>LORD（％）<br>**----- End of picture text -----**<br>


**==> picture [221 x 42] intentionally omitted <==**

**==> picture [195 x 13] intentionally omitted <==**

**----- Start of picture text -----**<br>
MOUNTING A MOUNTING B<br>(STANDARD MOUNTING) DON’T USE<br>**----- End of picture text -----**<br>


A-111 

・All specifications are subject to change without notice. 

**HWS600** 

## **HWS600 Specifications** 

**HWS** | 

|**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**HWS600-3**<br>]||**HWS600-5**<br>]|td|**HWS600-12**<br>td|**HWS600-15**|**HWS600-24**|**HWS600-48**|
|---|---|---|---|---|---|---|---|---|
|Input<br>-———_|—_+—__l_____|Voltage Range<br>(*2)<br>|<br>ee|V<br>||AC85 - 265 or DC120 - 330<br>]|td||||||
||Frequency<br>(*2)<br>|<br>ee<br>———|Hz<br>|<br>———|47 - 63<br>]| td||||||
||Power Factor (100/200VAC)(typ) (*1)<br>———<br>Po|———|0.99 / 0.95||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>———<br>Po<br>GO<br>-———_|—_+—__l_____|％<br>———<br>GO<br>-———_|—_+—__l_____|75 / 78<br>GO<br>-———_|—_+—__l_____|80 / 83<br>DO<br>-———_|—_+—__l_____||81 / 84<br>DO|82 / 85<br>DO|83 / 86|
||Current (100/200VAC)(typ)<br>(*1)<br>GO<br>-———_|—_+—__l_____|A<br>GO<br>-———_|—_+—__l_____|5.4 / 2.6<br>GO<br>-———_|—_+—__l_____|7.5 / 3.6<br>-———_|—_+—__l_____|8.1 / 3.9<br>DO<br>-———_|—_+—__l_____||||
||Inrush Current (100/200VAC)(typ) (*3)<br>-———_|—_+—__l_____<br>Po|A<br>-———_|—_+—__l_____|20 / 40<br>-———_|—_+—__l_____||||||
||Leakage Current<br>(*10)<br>-———_|—_+—__l_____<br>Po<br>Po|mA<br>-———_|—_+—__l_____|Less than 0.75. (0.2 (typ) at 100VAC / 0.44 (typ) at 230VAC)<br>-———_|—_+—__l_____||||||
|Output|Nominal Voltage<br>Po<br>—|VDC<br>nn|3.3<br>DO|5<br>DO|12<br>DO|15<br>DO|24<br>||48<br>||
||Maximum Current<br>(*13)<br>—<br>ns<br>nD|A<br>ns<br>nn<br>nD|120<br>ns<br>DO<br>GG||53<br>ns<br>DO<br>GG|43<br>ns<br>DO<br>GG|27(31)<br>ns<br>||13<br>||
||Maximum Power<br>ns<br>nD|W<br>ns<br>nn<br>nD|396<br>ns<br>DO|600<br>ns<br>DO<br>GG|636<br>ns<br>DO<br>GG|645<br>ns<br>DO<br>GG|648<br>ns<br>||624<br>||
||Maximum Line Regulation<br>(*5)<br>nD<br>DO|mV<br>nD<br>DO|20<br>GG<br>DO||48<br>GG<br>DO|60<br>GG<br>DO|96<br>DO|192|
||Maximum Load Regulation<br>(*6)<br>DO<br>rt|mV<br>DO<br>rt|30<br>DO<br>rt||72<br>DO<br>rt|90<br>DO<br>rt|144<br>DO<br>rt|288|
||Temperature Coefficient<br>rt<br>ee|rt<br>nn|Less than 0.02％/℃<br>rt<br>nD||||||
||Maximum Ripple & Noise (0≤Ta≤70℃) (*4) <br>rt<br>ee<br>nn<br>**e**|mVp-p<br>rt<br>nn<br>nn<br>**e**|120<br>rt<br>nn<br>nD<br>**e**se||150<br>rt<br>nn<br>nD<br>se|||350|
||Maximum Ripple & Noise (-10≤Ta≤ 0℃) (*4) <br>nn<br>**e**|mVp-p<br>nn<br>nn<br>**e**|180<br>nn<br>nD<br>**e**se||200<br>nn<br>nD<br>se|||400|
||Hold-up Time (typ)<br>(*9)<br>**e**<br>e<br>nD|ms<br>**e**<br>nD|20ms<br>**e**se<br>nnDG||||||
||Voltage Adjustable Range<br>**e**<br>e<br>nD<br>nD|VDC<br>**e**<br>nD<br>nD|2.64 - 3.96<br>**e**se<br>nD<br>nn|4.0 - 6.0<br>se<br>nD<br>DG|9.6 - 14.4<br>se<br>nD<br>DG|12.0 - 18.0<br>se<br>nD<br>DG|19.2 - 28.8<br>se<br>nD|38.4 - 52.8|
|Function<br>——————————————E|Over Current Protection<br>(*7)<br>nD<br>nD<br>——————————————E|A<br>nD<br>nD<br>——————————————E|>126<br>nD<br>nnDG<br>(OO<br>——————————————E||>55.7<br>nD<br>DG<br>(OO<br>——————————————E|>45.2<br>nD<br>DG<br>(OO<br>——————————————E|>31.4<br>nD<br>——————————————E|>13.7|
||Over Voltage Protection<br>(*8) <br>nD<br>——————————————E|VDC<br>nD<br>——————————————E|4.13 - 4.95<br>nn <br>——————————————E|6.25 - 7.25<br> DG<br>(OO<br>——————————————E|15.0 - 17.4<br>DG<br>(OO<br>——————————————E|18.8 - 21.8<br>DG<br>(OO<br>——————————————E|30.0 - 34.8<br>——————————————E|55.2 - 64.8|
||Remote Sensing<br>——————————————E<br>|——————————————E<br>||Possible<br>(OO<br>——————————————E<br>|||||||
||Remote ON/OFF Control<br>——————————————E<br>ee<br>|——————————————E<br>ee|<br>||Possible<br>——————————————E<br>|<br>|||||||
||Parallel Operation<br>ee<br>ee|ee|<br>ee||Possible<br>|<br>|||||||
||Series Operation<br>ee<br>ee<br>|ee|<br>ee<br>||Possible<br>|<br>|||||||
||Monitoring Signal<br>ee<br>ee<br>|ee<br>ee|<br>||PF (Open collector output)<br>|<br>|||||||
||Line DIP<br>ee<br>ee<br>|ee|<br>ee|<br>||Designed to meet SEMI-F47 (200VAC Line only)<br>|<br>|<br>|||||||
|Environment|Operating Temperature<br>(*11)<br>ee<br>es<br>|℃<br>ee|<br>es|<br>||-10 to +70 (-10 to +50: 100％, +70: 50％)<br>|<br>|<br>|||||||
||Storage Temperature<br>es<br>es<br>|℃<br>es|<br>es|<br>||-30 to +85<br>|<br>|<br>|||||||
||Operating Humidity<br>es<br>ee|％RH<br>es|<br>ee||10 - 90 (No dewdrop)<br>|<br>|||||||
||Storage Humidity<br>ee<br>TT|％RH<br>ee|<br>TT|10 - 95 (No dewdrop)<br>|||||||
||Vibration<br>TT<br>|TT<br>||At no operating, 10 - 55Hz (sweep for 1min) 19.6m/s² constant,<br>X, Y, Z 1hour each.<br>|||||||
||Shock (In package)<br>TT<br>ee|TT<br>ee||Less than 196.1m/s²<br>|||||||
||Cooling<br><br>es||<br>es|Forced air by blower fan<br>|||||||
|Isolation|Withstand Voltage<br>es|es|Input - FG : 2.5kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA), Output - CNT : 100VAC (100mA) for 1min||||||
||Isolation Resistance<br><br>or|a|More than 100MΩOutput - FG : 500VDC<br>More than 10MΩOutput - CNT: 100VDC at 25℃and 70％RH<br>a||||||
|Standards|Safety Standards<br>(*12)<br>ee<br>or|eea|Approved by UL60950-1, UL508 (24V model only), CSA C22.2 No.60950-1,<br>CSA C22.2 No.14-M95 (24V model only), EN60950-1, EN50178,Designed to meet DENAN<br>a||||||
||PFHC<br>ee<br>or|eea|Designed to meet IEC61000-3-2<br>a||||||
||EMI<br>ee<br>or|eea|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B<br>a||||||
||Immunity<br><br>or<br>|a<br>||Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3),<br>-4(Level 3), -5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>a<br>|||||||
|Mechanical|Weight (typ)<br><br>or<br>es<br>|g<br>a<br>es|<br>||1600<br>a<br>|<br>|||||||
||<br>Size (W x H x D)<br><br>es|mm<br>|<br>es||100 x 82 x 165 (Refer to outline drawing)<br>|<br>|||||||



**●Recommended EMC Filter** 

(*3) Not applicable for the inrush current to noise filter for less than 0.2ms. Inrush current is 30A (typ) when PFHC start-up. 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

(*5) 85 - 265VAC, constant load. 

(*6) No load - full load, constant input voltage. 

(*7) 3V and 5V model: Constant current limit and hiccup with automatic recovery. 12 - 48V model: Constant current limit with automatic recovery. 

Avoid to operate at over load or short circuit condition for more than 30 seconds. 

(*8) OVP circuit will shut the output down, manual reset (CNT reset or re-power on). 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

RSEN-2016 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*11) Ratings - Derating at standard mounting. Refer to output derating curve. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

(*12) As for DENAN, designed to meet at 100VAC. 

(*13) (   ): Peak output current at 200VAC. Operaing time at peak output is less than 10 sec, duty is less than 35%. 

A-112 

・All specifications are subject to change without notice. 

**HWS 600** 

**HWS** 

## **Outline Drawing** 

## **【HWS600】** 

**==> picture [484 x 441] intentionally omitted <==**

**----- Start of picture text -----**<br>
NAME PLATE<br>SEE NOTE A<br>4-M5 16 17.5 16 （37.7） SEE NOTE B AIR FLOW<br>26MAX<br>18MAX 25 120±0.5<br>10 10 （10）<br>165±1<br>（88.8） 3-M4<br>7.2 （79.5） 20 110±0.5<br>100±1<br>SEE NOTE B<br>5 MAX<br>[unit：mm]<br>== SIGNAL CONNECTOR USED == == NOTES == OPTIONAL MODELS<br>PART DESCRIPTION PART NAME MANUFACT A : MODEL NAME, NOMINAL OUTPUT VOLTAGE AND MAXIMUM OUTPUT CURRENT ARE  MODEL COATING<br>SHOWN IN THE NAME PLATE IN ACCORDANCE WITH THE SPECIFICATIONS. HWS600-＊ －<br>PIN HEADER S12B-PHDSS JST B : M4 TAPPED HOLES (8) FOR CUSTOMER CHASSIS MOUNTING. HWS600-＊ /CO ○<br>== MATCHING HOUSINGS, PINS & TOOL ==      (SCREW PENETRATION DEPTH 6m/m MAX.) HWS600-＊ /HD ○<br>PART DESCRIPTION PART NAME MANUFACT == ACCESSORIES ==<br>SOCKET HOUSING PHDR-12VS JST ＊COVER FOR BARRIER TERMINAL STRIP -----1<br>(ATTACHED ON TERMINAL AT SHIPMENT)<br>TERMINAL PINS SPHD-002T-P0.5 （AWG28 - 24）SPHD-001T-P0.5 （AWG26 - 22） JST ＊SHORT PIECE ---------------------------------------------1SHORTING +Vm―+S, -Vm―-S, CNT―TOG<br>YRS-620 （SPHD-002T-P0.5） (ATTACHED ON CN1 AT SHIPMENT)<br>HAND CRIMPING TOOL YC-610R （SPHD-001T-P0.5） JST<br>82±1 40±0.5<br>（63.9）<br>15 （14.6）<br>（44.5）<br>（14.6） 21<br>60±0.5<br>20<br>**----- End of picture text -----**<br>


## **Output Derating** 

**==> picture [200 x 134] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS600<br>120<br>100<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta (℃)<br>LOAD (％)<br>**----- End of picture text -----**<br>


**==> picture [218 x 45] intentionally omitted <==**

**==> picture [188 x 12] intentionally omitted <==**

**----- Start of picture text -----**<br>
MOUNTING A MOUNTING B<br>(STANDARD MOUNTING) DON’T USE<br>**----- End of picture text -----**<br>


A-113 

・All specifications are subject to change without notice. 

**HWS1000** 

## **HWS1000 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**HWS1000**<br>**-3**<br>||**HWS1000**<br>**-5**<br>||**HWS1000**<br>**-6**<br>||**HWS1000**<br>**-7**<br>1]|**HWS1000**<br>**-12**<br>1]|**HWS1000**<br>**-15**<br>1]<br>i|**HWS1000**<br>**-24**<br>||**HWS1000**<br>**-36**<br>i|**HWS1000**<br>**-48**|**HWS1000**<br>**-60**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>~~|~~<br>~~ee~~|V<br>~~|~~|AC85 - 265 or DC120 - 330<br>|<br>|<br>|<br>1]<br>i<br>|<br>i||||||||||
||Frequency<br>(*2)<br>~~|~~<br>~~ee~~<br>~~———~~|Hz<br>~~|~~<br>~~———~~|47 - 63<br>|<br>|<br>|<br>1]<br>i<br>|<br>i||||||||||
||Power Factor(100/200VAC)(typ) (*1)<br>~~———~~<br>~~ee~~|~~———~~<br>~~nD~~|0.98 / 0.95<br>nDRD~~GOD~~DO<br>~~(OR~~<br>(~~OU~~<br>~~|~~||||||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>~~———~~<br>~~ee~~<br>~~n~~|％<br>~~———~~<br>~~n~~<br>~~nD~~|71 / 73<br>~~n~~<br>nDRD|76 / 78<br>~~n~~<br>RD|79 / 81<br>~~ns~~<br>~~GOD~~|80 / 82<br>~~s~~<br>DO|83 / 85<br>~~s~~<br>~~(OR~~||85 / 87<br>~~s~~<br>(~~OU~~|85 / 88<br>~~s~~<br>~~OU~~|86 / 88<br>~~s~~<br>~~|~~|85 / 88<br>~~|~~|
||Current(100/200VAC)(typ)<br>(*1)<br>~~n~~<br>~~++~~|A<br>~~n~~<br>~~nD~~<br>~~+~~|9.6 / 5.0<br>~~n~~<br>nDRD<br>~~+~~|13.5 / 7.0<br>~~ns~~<br>RD~~GOD~~DO<br>~~(OR~~<br>(~~OU~~<br>~~|~~|||||||||
||Inrush Current(100/200VAC)(typ) (*3)<br>~~++~~<br>~~ee~~|A<br>~~+~~|20 / 40<br>~~+~~||||||||||
||Leakage Current (100/240VAC)(*10)<br>~~++~~<br>~~ee~~<br>~~ee~~|mA<br>~~+~~|1.2 max<br>~~+~~||||||||||
|Output<br>~~————~~<br>|Nominal Voltage<br>~~ee~~<br>~~a~~|VDC<br>~~I~~|3.3<br>nD|5<br>nD|6<br>(~~OD~~|7.5<br>~~OD~~|12|15<br>~~(OO~~|24<br>~~(OO~~|36<br>~~(OO~~|48|60|
||Maximum Current<br>~~a~~<br>~~ns~~|A<br>~~ns~~<br>~~I~~|200<br>~~ns~~<br>nD<br>(Onn||167<br>~~ns~~<br>(~~OD~~|134<br>~~ns~~<br>~~OD~~<br>~~GO~~|88<br>~~ns~~<br>~~GOGO~~|70<br>~~ns~~<br>~~(OO~~<br>~~GOGO~~|44<br>~~ns~~<br>~~(OO~~<br>~~(OU~~|29.3<br>~~ns~~<br>~~(OO~~<br>(OR|22<br>~~ns~~<br>~~|~~|17.6<br>~~|~~|
||Maximum Peak Current<br>(*13)<br>~~ns~~<br>~~(~~<br>~~—————~~|A<br>~~ns~~<br>~~I ~~<br>~~(~~<br>~~—————~~|－<br>~~ns~~<br> nD(~~OD~~<br>~~(Od~~<br>(Onn<br>~~—————~~—~~—~~|||160<br>~~ns~~<br>~~OD~~<br>~~Od~~<br>~~GO~~|100<br>~~ns~~<br>~~Od~~<br>~~GOGO~~|80<br>~~ns~~<br>~~(OO~~<br>~~Od~~<br>~~GOGO~~|50<br>~~ns~~<br>~~(OO~~<br>~~Od~~<br>~~(OU~~|33.3<br>~~ns~~<br>~~(OO~~<br>~~Od~~<br>(OR|25<br>~~ns~~<br>~~Od~~<br>~~|~~|20<br>~~|~~|
||Maximum Power<br>~~(~~<br>~~—————~~|W<br>~~(~~<br>~~—————~~|660<br>~~(Od~~<br>(Onn<br>~~—————~~—|1000<br>~~Od~~<br>(Onn<br>—~~—~~|1002<br>~~Od~~<br>~~—~~|1005<br>~~Od~~<br>~~GO~~|1056<br>~~Od~~<br>~~GOGO~~|1050<br>~~Od~~<br>~~GOGO~~|1056<br>~~Od~~<br>~~(OU~~<br>(OR<br>~~|~~||||
||Maximum Peak Power<br>(*13)<br>~~—————~~<br>~~a~~|W<br>~~—————~~<br>~~nD~~|－<br>~~—————~~—~~—~~<br>(OD|||1200<br>(ODGO<br>~~GO~~<br>~~(OU~~<br>~~|~~|||||||
||Maximum Line Regulation<br>(*5)<br>~~—————~~<br>~~a~~<br>~~n~~<br>~~————~~|mV<br>~~—————~~<br>~~n~~<br>~~nD~~<br>~~————~~|20<br>~~—————~~—~~—~~<br>~~n~~<br>(OD<br>~~————~~————||36<br>~~—~~<br>~~ny~~<br>(OD<br>————||48<br>~~y~~<br>GO<br>————~~———~~|60<br>~~y~~<br>~~GO~~<br>~~———~~|96<br>~~y~~<br>~~(OU~~<br>~~———~~|144<br>~~y~~<br>~~(OU~~<br>~~———~~—|192<br>~~y~~<br>~~|~~<br>—|240<br>~~|~~|
||Maximum Load Regulation<br>(*6)<br>~~n~~<br>~~————~~|mV<br>~~n~~<br>~~nD~~<br>~~————~~|40<br>~~n~~<br>(OD<br>~~————~~————||60<br>~~ny~~<br>(OD<br>————||100<br>~~y~~<br>GO<br>————~~———~~|120<br>~~y~~<br>~~GO~~<br>~~———~~|150<br>~~y~~<br>~~(OU~~<br>~~———~~—||300<br>~~y~~<br>~~|~~<br>—|360<br>~~|~~|
||Temperature Coefficient<br>~~————~~<br>~~Po~~|~~————~~<br>~~nD~~|Less than 0.02%/℃<br>~~————~~————~~———~~—<br>nnG~~O|~~||||||||||
||Maximum Ripple & Noise(0~＋70℃) (*4) <br>~~————~~<br>~~Po~~<br>~~n~~|mVp-p<br>~~————~~<br>~~n~~<br>~~nD~~|120<br>~~————~~————<br>~~n~~<br>nn||150<br>————~~———~~<br>~~ns~~<br>G~~O|~~|||||200<br>~~———~~—<br>~~s~~<br>~~O|~~||400|
||Maximum Ripple & Noise(－10~0℃) (*4) <br>~~n~~<br>~~ee~~|mVp-p<br>~~n~~<br>~~nD~~<br>~~ee~~|160<br>~~n~~<br>nn <br>~~ee~~||180<br>~~ns~~<br> G~~O|~~<br>~~ee~~|||||240<br>~~s~~<br>~~O|~~<br>~~ee~~|500<br>~~s~~<br>~~O|~~<br>~~ee~~|600|
||Hold-upTime(typ)<br>(*9)<br>~~ee~~<br>~~**Po**~~<br>|ms<br>~~ee~~<br>|20<br>~~ee~~<br>||||||||||
||Voltage Adjustable Range<br>~~ee~~<br>~~**Po**~~<br>~~a~~<br>~~Po~~|VDC <br>~~ee~~<br>~~e~~|2.64 - 3.96 <br>~~ee~~<br>~~e~~<br>e<br>ee|4.0 - 6.0<br>~~ee~~<br>~~e~~<br>e~~e~~<br>ee|4.8 - 7.2<br>~~ee~~<br>~~e~~<br>~~e~~<br>ee|6.0 - 9.0 <br>~~ee~~<br>~~e~~<br>~~ee~~|9.6 - 14.4 <br>~~ee~~<br>~~ee~~<br>~~ee~~|12.0 - 18.0 <br>~~ee~~<br>~~e~~<br>~~ee~~|19.2 - 28.8 <br>~~ee~~<br>~~e~~<br>~~ee~~|28.8 - 43.2 <br>~~ee~~<br>~~e~~|38.4 - 52.8 <br>~~ee~~<br>~~e~~|48.0 - 66.0|
|Function<br>|Over Current Protection<br>(*7)<br>~~**Po**~~<br> ~~a~~<br>~~Po~~|~~e~~|>105% (Maximum output current)<br>~~e~~<br>e~~e~~<br>eeee|||>105%(Peak output current)<br>~~ee~~<br>~~eeee~~|||||||
||Over Voltage Protection<br>(*8) <br> ~~a ~~<br>~~e~~<br>~~Po~~|VDC <br> ~~e~~<br>~~e~~|4.13 - 4.62 <br>~~e~~<br>e<br>~~e~~<br>ee|6.25 - 7.0 <br>~~e~~<br>e~~e~~<br>~~e~~<br>ee|7.5 - 8.4 <br>~~e~~<br>~~e~~<br>~~ee~~<br>ee|9.38 - 10.5 <br>~~e~~<br>~~e~~<br>~~ee~~|15.0 - 17.4 <br>~~ee~~<br>~~e~~<br>~~ee~~|18.8 - 21.8 <br>~~e~~<br>~~e~~<br>~~ee~~|30.0 - 34.8 <br>~~e~~<br>~~e~~<br>~~ee~~|45.0 - 49.7 <br>~~e~~<br>~~e~~|55.2 - 60.0 <br>~~e~~<br>~~e~~|69.0 - 75.0|
||Remote Sensing<br>~~e~~<br>~~Po~~|~~e~~|Possible<br>~~ee~~<br>eeee~~eeee~~||||||||||
||Remote ON/OFF Control<br>~~e~~<br>~~Po~~<br>~~ee~~<br>|~~e~~<br>~~ee~~<br>~~|~~|Possible<br>~~ee~~<br>ee ee ~~ee ee~~<br>~~|~~||||||||||
||Parallel Operation<br>~~ee~~<br>~~es~~<br>|~~ee~~<br>~~es|~~<br>~~|~~|Possible<br>~~|~~<br>~~|~~||||||||||
||Series Operation<br>~~es~~<br>~~ee~~<br>|~~es|~~<br>~~ee|~~<br>~~|~~|Possible<br>~~|~~<br>~~|~~<br>~~|~~||||||||||
||MonitoringSignal<br>~~ee~~<br>~~ee~~<br>|~~ee|~~<br>~~ee|~~<br>~~|~~|PF (Open collector output)<br>~~|~~<br>~~|~~<br>~~|~~||||||||||
||Line DIP<br>~~ee~~<br>~~ee~~<br>|~~ee|~~<br>~~ee|~~<br>~~|~~|Built to meet SEMI-F47 (200VAC line only)<br>~~|~~<br>~~|~~<br>~~|~~||||||||||
|Environment<br>~~fF~~|OperatingTemperature<br>(*11)<br>~~ee~~<br>~~ee~~<br>|℃<br>~~ee|~~<br>~~ee|~~<br>~~|~~|-10 to +71 ( -10 to +50 (5V : -10 to +40): 100%, +71: 50%), start up -20 to 71<br>~~|~~<br>~~|~~<br>~~|~~||||||||||
||Storage Temperature<br>~~ee~~<br>~~ee~~<br>|℃<br>~~ee|~~<br>~~ee|~~<br>~~|~~|-30 to +85<br>~~|~~<br>~~|~~<br>~~|~~||||||||||
||OperatingHumidity<br>~~ee~~<br>~~es~~<br><br>~~fF~~|％RH<br>~~ee|~~<br>~~es|~~<br>~~|~~<br>|10 - 90 (No dewdrop)<br>~~|~~<br>~~|~~<br>~~|~~||||||||||
||Storage Humidity<br>~~es~~<br>~~ee~~<br>~~fF~~|％RH<br>~~es|~~<br>~~ee|~~<br>|10 - 95 (No dewdrop)<br>~~|~~<br>~~|~~||||||||||
||Vibration<br>~~ee~~<br>~~fFr—~~<br>~~or~~|~~ee|~~<br>~~r—~~<br>~~|~~|At no operating, 10 - 55Hz (sweep for 1min.) 19.6m/s² constant, X, Y, Z 1h each.<br>~~|~~<br>~~|~~||||||||||
||Shock(Inpackage)<br><br>~~fF~~<br>~~es~~<br>~~or~~|~~|~~<br><br>~~es~~<br>~~|~~|Less than 196.1m/s²<br>~~|~~<br>~~|~~||||||||||
||Cooling<br>~~es~~<br>~~or~~|~~es~~<br>~~|~~|Forced air by blower fan<br>~~|~~||||||||||
|Isolation|Withstand Voltage<br>~~or~~|~~|~~|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output-FG : 500VAC (300mA) (60V model 651VAC (390mA)), Output-CNT:100VAC (100mA) for 1min.<br>~~|~~||||||||||
||Isolation Resistance<br>~~or~~<br>|~~|~~<br>~~|~~|More than 100Mohm Output - FG ... 500VDC<br>More than 10Mohm Output - CNT ... 100VDC   at 25℃and 70%RH<br>~~|~~<br>~~|~~||||||||||
|Standards|SafetyStandards<br>(*12)<br>~~es~~<br>|~~es|~~<br>~~|~~|Built to meet UL60950-1, CSA60950-1, EN60950-1,EN50178.  Built to meet DENAN.<br>~~|~~<br>~~|~~||||||||||
||PFHC<br>~~es~~<br>~~ee~~|~~es|~~<br>~~ee|~~|Built to meet IEC61000-3-2<br>~~|~~<br>~~|~~||||||||||
||EMI<br>~~ee~~<br>~~TS~~|~~ee|~~<br>~~TS~~|Built to meet EN55011/EN55022-B, FCC-ClassB, VCCI-ClassB, CISPR-ClassB.<br>~~|~~||||||||||
||Immunity<br>~~TS~~<br>|~~TS~~<br>~~|~~|Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>~~|~~||||||||||
|Mechanical|Weight(typ)<br>~~TS~~<br>e~~e~~<br>|g<br>~~TS~~<br>~~e|~~<br>~~|~~|3200<br>~~|~~<br>~~|~~||||||||||
||<br>Size (W x H x D)<br><br>~~ee~~|mm<br>~~|~~<br>~~ee|~~|126.5 x 82 x 240 (Refer to outline drawing)<br>~~|~~<br>~~|~~||||||||||



- (*1) At Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, input voltage range will be 100 - 240VAC (50/60Hz). 

(*3) First in-rush current. Not applicable for the in-rush current to noise filter less than 0.2ms. 

**●Recommended EMC Filter** 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

（ At 22uF electric capacitor and 0.47uF film capacitor on the test fixture board.) 

- (*5) 85 - 265VAC, constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Constant current limit with automatic recovery. An output will be intercepted if it continues for about 5 seconds. Output current exceeding maximum rated output current for more then 10 seconds continuously will result to output shutdown. 

- (*8) OVP circuit will  shut down output, manual reset (power cycle) or ON/OFF CNT signal reset. 

- (*9) At 100/200VAC, nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

RSEN-2020 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- (*12) As for DENAN, built to meet at 100VAC. 

- (*13) Peak output current is less than 10 seconds, and duty 35% max. 

A-114 

・All specifications are subject to change without notice. 

**HWS 1000** 

## **Outline Drawing** 

## **【HWS1000】** 

**==> picture [485 x 313] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE D<br>82±1 8-M4 (BOTH SIDES)<br>（56.8） BUS BAR  36  MAX 10 220±0.5 SEE NOTE C<br>（23.3） 20 SPACER<br>(RED)<br>BUS BAR<br>SPACER<br>OUTPUT<br>(BLACK) TERMINAL AIR<br>FLOW<br>SEE NOTE E<br>INPUT<br>TERMINAL<br>SEE NOTE E<br>NAME PLATE NAME PLATE<br>（14.6） 4－M4 SEE NOTES A SEE NOTES A&B<br>25±1 8-M4 (BOTH SIDES)<br>10±1 4－M4 SEE NOTE C<br>10 220±0.5<br>NOTES 20  MAX 240±1 4  MAX<br>A : MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE,<br>MAXIMUM OUTPUT CURRENT ARE SHOWN HERE IN ACCORDANCE WITH THE  〔unit：mm〕<br>2－φ9<br>7.25<br>23.7±1<br>（9.1） （11.2） 3<br>（73.6） 25±1<br>3<br>112±0.5<br>126.5±1<br>11<br>11<br>11<br>22 10<br>20<br>60±0.5<br>45.5±1<br>11<br>**----- End of picture text -----**<br>


- A : MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT ARE SHOWN HERE IN ACCORDANCE WITH THE SPECIFICATIONS. 

**==> picture [32 x 25] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS<br>**----- End of picture text -----**<br>


- B : COUNTRY OF MANUFACTURE IS SHOWN HERE. 

- C :  M4 TAPPED HOLES (16) FOR CUSTOMER CHASSIS MOUNTING. 〔SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.〕 RECOMMENDED M4 SCREWS TORQUE : 1.27N•m 

## ACCESSORIES 

- D :  I/O SIGNAL CONNECTOR ＊ ATTACHED CONNECTOR CONNECTOR : S12B-PHDSS (LF) (SN) (JST) SHORTING +S - +V, -S - -V, PV - REF & CNT - TOG ATTACHED ON CN01 AT SHIPMENT MATCHING HOUSING : PHDR-12VS (JST) MATCHING CONTACT : SPHD-002T-P0.5 (AWG28 - 24) (JST) OR SPHD-001T-P0.5 (AWG26 - 22) (JST) OR BPHD-001T-P0.5 (AWG26 - 22) (JST) 

- HAND CRIMPING TOOL : YRS-620 (SPHD-002T-P0.5) (JST) YC-610R (SPHD-001T-P0.5) (JST) YC-610R (BPHD-001T-P0.5) (JST) 

- E : RECOMMENDED TORQUE FOR THE TERMINAL PIECE. INPUT TERMINAL (M4 SCREW) : 1.27N•m OUTPUT TERMINAL (M8 BOLT & NUT) : 10.8N•m OUTPUT TERMINAL (M4 SCREW) : 1.27N•m 

## **Output Derating** 

**==> picture [486 x 165] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS1000<br>100<br>80<br>60<br>40 MOUNTING A MOUNTING B MOUNTING C<br>MOUNTING A, B, C, D （STANDARD MOUNTING）<br>20<br>0<br>－10 0 10 20 30 40 50 60 70 80<br>Ta（℃）<br>85V<br>90V～<br>85V～（5V model）<br>90V～（5V model）<br>MOUNTING D Inhibit Inhibit<br>LOAD（％）<br>**----- End of picture text -----**<br>


A-115 

・All specifications are subject to change without notice. 

**HWS1500** 

## **HWS1500 Specifications** 

|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**HWS1500-12**|**HWS1500-15**|**HWS1500-24**|**HWS1500-36**|**HWS1500-48**|
|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>~~ee~~|V<br>~~|_|~~|AC85 - 265|||||
||Frequency<br>(*2)<br>~~ee~~<br>~~———~~|Hz<br>~~|_|~~<br>~~———~~|47 - 63|||||
||Power Factor(100/230VAC)(typ) (*1)<br>~~———~~<br>~~PO~~<br>~~————~~|~~———~~<br>~~————~~|0.98 / 0.94<br>~~————~~——_|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>~~———~~<br>~~PO~~<br>~~————~~|％<br>~~———~~<br>~~————~~|82 / 85<br>~~————~~——_|83 / 87<br>——_|84 / 88||86 / 90|
||Current(100/200VAC)(typ)<br>(*1)<br>~~————~~<br>~~Po~~|A<br>~~————~~|19.0 / 10.0<br>~~————~~——_|||||
||Inrush Current(100/200VAC)(typ) (*3)<br>~~————~~<br>~~Po~~<br>~~**e**e~~|A<br>~~————~~<br>~~e~~|20 / 40<br>~~————~~——_|||||
||Leakage Current (100/240VAC) (*10)<br>~~**e**e~~<br>~~e~~|mA<br>~~e~~<br>~~nd~~|1.5 max<br>n(n<br>~~(OO~~|||||
|Output<br>——~~——EEE—~~|Nominal Voltage<br>~~**e**e~~<br>~~e~~<br>~~nD~~|VDC<br>~~e~~<br>~~nD~~<br>~~nd~~|12<br>~~nD~~<br>n(n<br>nD|15<br>~~nD~~<br>n(n<br>(OR|24<br>~~nD~~<br>~~(OO~~<br>~~(OU~~|36<br>~~nD~~<br>~~(OO~~|48|
||Maximum Current(100/200VAC)<br>~~nD~~<br>~~nd~~<br>~~—~~|A<br>~~nD~~<br>~~nd~~<br>~~nd~~<br>~~ns~~|125 / 125<br>~~nD~~<br>n(n<br>~~nd~~<br>nD|100 / 100<br>~~nD~~<br>n(n<br>~~nd~~<br>(OR|65 / 70<br>~~nD~~<br>~~(OO~~<br>~~nd~~<br>~~(OU~~|42 / 46.5<br>~~nD~~<br>~~(OO~~<br>~~nd~~|32 / 32|
||Maximum Peak Current<br>(*13)<br>~~nd~~<br>~~e~~<br>~~—~~|A<br>~~nd~~<br>~~e~~<br>~~ns~~|－<br>~~nd~~<br>nD(OR<br>~~es~~||105<br>~~nd~~<br>~~(OU~~<br>~~s~~|70<br>~~nd~~<br>~~s~~|－|
||Maximum Power(100/200VAC)<br>~~e~~<br>~~—~~<br>~~ee~~|W<br>~~e~~<br>~~ns~~<br>~~eea~~|1500 / 1500<br>~~es~~<br>~~a~~||1560 / 1680<br>~~s~~|1512 / 1674<br>~~s~~|1536 / 1536|
||Maximum Peak Power<br>(*13)<br>~~—~~<br>~~ee~~<br>~~——~~|W<br>~~ns~~<br>~~eea~~|－<br>~~a~~<br>G~~O~~||2520<br>~~O~~||－|
||Maximum Line Regulation<br>(*5)<br>~~ee~~<br>~~n~~<br>~~——~~|mV<br>~~ee a~~<br>~~n~~|48<br>~~a~~<br>~~nd~~<br>G|60<br>~~d~~<br>G~~O~~|96<br>~~d~~<br>~~O~~|144<br>~~d~~|192|
||Maximum Load Regulation<br>(*6)<br>~~n~~<br>~~——~~|mV<br>~~n~~|72<br>~~nd~~<br>G|90<br>~~d~~<br>G~~O~~|144<br>~~d~~<br>~~O~~|150<br>~~d~~|288|
||Temperature Coefficient<br>~~——~~<br>~~ee~~||Less than 0.02%/℃<br>G~~O~~|||||
||Maximum Ripple & Noise(0~＋70℃) (*4) <br>~~——~~<br>~~ee~~<br>~~ee~~<br>~~**ee**~~|mVp-p<br>~~ee~~|150<br>G~~O~~<br>~~ee~~||200<br>~~O~~|||
||Maximum Ripple & Noise(-10~0℃) (*4) <br>~~ee~~<br>~~**ee**~~|mVp-p<br>~~ee~~|200<br>~~ee~~|||240|400|
||Hold-upTime(typ)<br>(*9)<br>~~**ee**~~<br>~~——EEE—~~|ms<br>~~——EEE—~~|20<br>E~~EE~~|||||
||Voltage Adjustable Range<br>~~**ee**~~<br>~~——EEE—~~|VDC<br>~~——EEE—~~|9.6 - 14.4<br>E|12.0 - 18.0<br>E~~EE~~|19.2 - 28.8<br>~~EE~~|28.8 - 43.2<br>~~EE~~|38.4 - 52.8|
|Function<br>——~~——EEE—~~<br>~~————~~|Over Current Protection<br>(*7)<br>~~——EEE—~~<br>~~ee~~<br>~~————~~|~~——EEE—~~<br>~~————~~|>105%<br>E~~EE~~<br>~~————~~———~~———E~~|||||
||Over Voltage Protection<br>(*8) <br>~~——EEE—~~<br>~~ee~~<br>~~————~~|VDC<br>~~——EEE— ~~<br>~~————~~|15.0 - 17.4<br> E<br>~~————~~———|18.7 - 21.8<br>E~~EE~~<br>———~~———E~~|30.0 - 34.8<br>~~EE~~<br>~~———E~~|45.0 - 49.7<br>~~EE~~<br>~~———E~~|55.2 - 64.8|
||Remote Sensing<br>~~————~~<br>~~Po~~<br>|~~————~~<br>~~|~~|Possible<br>~~————~~———~~———E~~<br>~~|~~|||||
||Remote ON/OFF Control<br>~~————~~<br>~~Po~~<br>~~ee~~|~~————~~<br>~~ee|~~|Possible<br>~~————~~———~~———E~~<br>~~|~~|||||
||Parallel Operation<br>~~ee~~<br>~~es~~<br>|~~ee|~~<br>~~es~~<br>~~|~~|Possible<br>~~|~~<br>~~|~~|||||
||Series Operation<br>~~es~~<br>~~ee~~|~~es~~<br>~~ee|~~|Possible<br>~~|~~|||||
||MonitoringSignal<br>~~ee~~<br>~~ee~~|~~ee|~~<br>~~ee~~|PF (Open collector output)<br>~~|~~|||||
||Line DIP<br>~~ee~~<br>~~ee~~<br>|~~ee~~<br>~~ee~~<br>~~|~~|Built to meet SEMI-F47 (200VAC Line only)<br>~~|~~|||||
|Environment|OperatingTemperature<br>(*11)<br>~~ee~~<br>~~ee~~|℃<br>~~ee~~<br>~~ee|~~|-10 to +70 ( -10 to +50: 100%, +60: 75%,+70: 50%), start up -20 to 70<br>~~|~~|||||
||Storage Temperature<br>~~ee~~<br>~~ee~~|℃<br>~~ee|~~<br>~~ee~~|-30 to +85<br>~~|~~|||||
||OperatingHumidity<br>~~ee~~<br>~~ee~~|％RH<br>~~ee~~<br>~~ee~~|10 - 90 (No dewdrop)|||||
||Storage Humidity<br>~~ee~~<br>~~oT~~|％RH<br>~~ee~~<br>~~oT~~|10 - 95 (No dewdrop)|||||
||Vibration<br>~~oT~~<br>~~or~~|~~oT~~<br>~~|~~|At no operating, 10 - 55Hz (sweep for 1min.)<br>19.6m/s² constant, X, Y, Z 1h each.<br>~~|~~|||||
||Shock(Inpackage)<br>~~oT~~<br>~~ee~~<br>~~or~~|~~oT~~<br>~~ee~~<br>~~|~~|Less than 196.1m/s²<br>~~|~~|||||
||Cooling<br>~~ee~~<br>~~or~~|~~ee~~<br>~~|~~|Forced air by blower fan<br>~~|~~|||||
|Isolation|Withstand Voltage<br>~~or~~|~~|~~|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output-FG : 500VAC (300mA), Output-CNT:100VAC (100mA) for 1min.<br>~~|~~|||||
||Isolation Resistance<br>~~or~~|~~|~~|More than 100Mohm Output - FG ... 500VDC<br>More than 10Mohm Output - CNT ... 100VDC   at 25℃and 70%RH<br>~~|~~|||||
|Standards|Safety Standards<br>(*12)<br>~~ee~~|~~ee~~|Built to meet UL60950-1, CSA60950-1, EN60950-1, EN50178.<br>Built to meet DENAN.|||||
||PFHC<br>~~ee~~|~~ee~~|Built to meet IEC61000-3-2|||||
||EMI<br>~~ee~~<br>~~—~~|~~ee~~<br>~~—~~|Built to meet EN55011/EN55022-A, FCC-ClassA, VCCI-ClassA.|||||
||Immunity<br>~~—~~<br>|~~—~~<br>~~|~~|Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>~~|~~|||||
|Mechanical|Weight(typ)<br>~~—~~<br>~~ee~~<br>|g<br>~~—~~<br>~~ee|~~<br>~~|~~|3800<br>~~|~~<br>~~|~~|||||
||<br>Size (W x H x D)<br>~~ee~~<br>~~ee~~|mm<br>~~ee|~~<br>~~ee|~~|126.5 x 82 x 280 (Refer to outline drawing)<br>~~|~~<br>~~|~~|||||



(*1) At Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, input voltage range will be 100 - 240VAC (50/60Hz). 

(*3) First in-rush current. Not applicable for the in-rush current to noise filter less than 0.2ms. 

**●Recommended EMC Filter** 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. (at 22uF electric capacitor and 0.47uF film capacitor on the test fixture board.) 

(*5) 85 - 265VAC, constant load. 

(*6) No load-Full load, constant input voltage. 

(*7) Constant current limit with automatic recovery. An output will be intercepted if it continues for about 5 seconds. 

- (*8) OVP circuit will  shut down output, manual reset (power cycle) or ON/OFF CNT signal reset. 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

- (*11) Ratings  - Derating at standard mounting. 

RSEN-2030 

**Please refer to "TDK-Lambda EMC Filters" catalog.** 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- (*12) As for DENAN, built to meet at 100VAC. 

- (*13) Peak output current is less than 10 seconds, and duty 35% max. 

A-116 

・All specifications are subject to change without notice. 

**HWS 1500** 

## **Outline Drawing** 

## **【HWS1500】** 

**==> picture [485 x 316] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE D<br>82±1 8-M4 (BOTH SIDES)<br>（56.8） BUS BAR  SEE NOTE C<br>（23.3） 20 SPACER 46MAX 10 260±0.5<br>(RED)<br>BUS BAR<br>SPACER<br>(BLACK) OUTPUT  AIR<br>TERMINAL FLOW<br>SEE NOTE E<br>INPUT<br>TERMINAL<br>SEE NOTE E<br>（14.6） 4-M4 NAME PLATE NAME PLATE<br>SEE NOTESA 35±1 SEE NOTES A&B 8-M4 (BOTH SIDES)<br>20±1 SEE NOTE C<br>4-M4<br>10 260±0.5<br>20MAX 280±1 4MAX<br>NOTES<br>ACCESSORIES<br>A : MODEL NAME, OPTION, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE,<br>MAXIMUM OUTPUT CURRENT ARE SHOWN HERE IN ACCORDANCE WITH THE  ＊ ATTACHED CONNECTOR [unit： mm]<br>SPECIFICATIONS.     SHORTING +S ～+V, -S ～-V, PV ～REF & CNT ～TOG  ATTACHED ON CN01<br>B : COUNTRY OF MANUFACTURE IS SHOWN HERE.     AT SHIPMENT<br>2-φ9<br>7.25<br>23.7±1<br>（9.1）<br>3<br>（11.2）<br>25±1<br>（73.6）<br>3<br>126.5±1 11 112±0.5<br>11<br>11<br>22 10<br>20<br>60±0.5<br>45.5±1<br>11<br>**----- End of picture text -----**<br>


**HWS** 

- C :  M4 TAPPED HOLES (16) FOR CUSTOMER CHASSIS MOUNTING. 

- 〔SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.〕 RECOMMENDED M4 SCREWS TORQUE : 1.27N•m 

- D :  I/O SIGNAL CONNECTOR CONNECTOR : S12B-PHDSS (LF) (SN) (JST) MATCHING HOUSING : PHDR-12VS (JST) MATCHING CONTACT : SPHD-002T-P0.5 (AWG28 - 24) (JST) OR SPHD-001T-P0.5 (AWG26 - 22) (JST) OR BPHD-001T-P0.5 (AWG26 - 22) (JST) 

- HAND CRIMPING TOOL : YRS-620 (SPHD-002T-P0.5) (JST) YC-610R (SPHD-001T-P0.5) (JST) YC-610R (BPHD-001T-P0.5) (JST) 

- E :  RECOMMENDED TORQUE FOR THE TERMINAL PIECE. INPUT TERMINAL (M4 SCREW) : 1.27N•m OUTPUT TERMINAL (M8 BOLT & NUT) : 10.8N•m OUTPUT TERMINAL (M4 SCREW) : 1.27N•m 

## **Output Derating** 

**==> picture [440 x 171] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS1500<br>120<br>100<br>90V～<br>80<br>60<br>85V<br>40 MOUNTING A MOUNTING B MOUNTING C<br>（STNDARD MOUNTING）<br>20 MOUNTING A, B, C, D<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta（℃）<br>MOUNTING D Inhibit Inhibit<br>LOAD（％）<br>**----- End of picture text -----**<br>


A-117 

・All specifications are subject to change without notice. 

**HWS1800T** 

## **HWS1800T Specifications** 

**HWS** 

|**ITEMS/UNITS**<br>**MODEL**<br>~~———~~—_||**ITEMS/UNITS**<br>**MODEL**<br>~~———~~—_||**ITEMS/UNITS**<br>**MODEL**<br>~~———~~—_||**ITEMS/UNITS**<br>**MODEL**<br>~~———~~—_||**HWS1800T**<br>**-3**<br>—_|<br>||**HWS1800T**<br>**-5**<br>||**HWS1800T**<br>**-6**<br>||**HWS1800T**<br>**-7**<br>||**HWS1800T**<br>**-12**<br>[||**HWS1800T**<br>**-15**<br>[|<br>||**HWS1800T**<br>**-24**<br>[|**HWS1800T**<br>**-36**<br>tt|**HWS1800T**<br>**-48**<br>tt|**HWS1800T**<br>**-60**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>~~———~~—_|<br>~~ee~~||V<br>—_||3φAC170 - 265<br>—_|<br>|<br>|<br>|<br>|<br>[|<br>|<br>[tt||||||||||
||Frequency<br>(*2)<br>~~———~~—_|<br>~~ee~~<br>~~——~~—||Hz<br>—_|<br>—|47 - 63<br>—_|<br>|<br>|<br>|<br>|<br>[|<br>|<br>[ tt||||||||||
||Power Factor(200VAC)(typ)<br>(*1)<br>~~——~~—<br>~~Po~~||—|0.94<br>nDUDGO<br>~~(O~~R||||||||||
||Efficiency (200VAC)(typ)<br>(*1)(*8)<br>~~——~~—<br>~~Po~~<br>~~n~~||％<br>—<br>~~n~~|75<br>~~n~~<br>nDUD|81<br>~~ns~~<br>UD|82<br>~~s~~<br>GO|84<br>~~s~~<br>~~(O~~R|||88<br>~~s~~||90||
||Current(200VAC)(typ)<br>(*1)<br>~~n~~<br>~~G~~||A<br>~~n~~<br>~~G~~|4.5<br>~~n~~<br>nDUD<br>~~GO~~|6.0<br>~~ns~~<br>UDGO<br>~~(O~~R<br>~~O~~|||||7.0<br>~~s~~||||
||Inrush Current(200VAC)(typ)<br>(*3)<br>~~G~~<br>~~——~~—||A<br>~~G~~<br>—|40<br>~~GO~~||||||||||
||Leakage Current (240VAC) (max)(*10)<br>~~——~~—<br>~~PO~~||mA<br>—<br>I|2.6<br>(RD~~(RE~~<br>~~S(O~~<br>~~OS(OO~~||||||||||
|Output|Nominal Voltage<br>~~——~~—<br>~~PO~~<br>~~ns~~||VDC<br>—<br>~~ns~~<br>I<br>nD|3.3<br>~~ns~~<br>(RD<br>(GO|5<br>~~ns~~<br>(RD<br>(GO|6<br>~~ns~~<br>~~(RE~~<br>(GO|7.5<br>~~ns~~<br>~~S(O~~<br>~~GO~~|12<br>~~ns~~<br>~~S(O~~<br>~~GOGO~~|15<br>~~ns~~<br>~~OS~~<br>~~GOGO~~|24<br>~~ns~~<br>~~(OO~~<br>~~GO~~|36<br>~~ns~~<br>~~(OO~~<br>~~(OU~~|48<br>~~ns~~<br>~~|~~|60<br>~~|~~|
||Maximum Current<br>~~ns~~<br>~~n~~<br>~~ee~~||A<br>~~ns~~<br>I<br>~~n~~<br>nD<br>—}+—<br>~~ee~~|300<br>~~ns~~<br>(RD<br>~~n~~<br>(GO<br>—}+—<br>~~L~~||250<br>~~ns~~<br>~~(RE~~<br>~~nD~~<br>(GO<br>~~L~~|200<br>~~ns~~<br>~~S(O~~<br>~~D~~<br>~~GO~~<br>~~Lo~~|125<br>~~ns~~<br>~~S(O~~<br>~~D~~<br>~~GOGO~~<br>~~o~~|100<br>~~ns~~<br>~~OS~~<br>~~D~~<br>~~GOGO~~<br>~~o~~|75<br>~~ns~~<br>~~(OO~~<br>~~D~~<br>~~GO~~|50<br>~~ns~~<br>~~(OO~~<br>~~D~~<br>~~(OU~~|37.5<br>~~ns~~<br>~~D~~<br>~~|~~|30<br>~~|~~|
||Maximum Peak Current<br>(*12)<br>~~n~~<br>~~ee~~||A<br>~~n~~<br>nD<br>—}+—<br>~~ee~~|-<br>~~n~~<br>(GO<br>—}+—<br>~~L~~||300<br>~~nD~~<br>(GO<br>~~L~~|240<br>~~D~~<br>~~GO~~<br>~~Lo~~|150<br>~~D~~<br>~~GOGO~~<br>~~o~~|120<br>~~D~~<br>~~GOGO~~<br>~~o~~|105<br>~~D~~<br>~~GO~~|70<br>~~D~~<br>~~(OU~~|52.5<br>~~D~~<br>~~|~~|42<br>~~|~~|
||Maximum Power<br>~~ee~~||W<br>—}+—<br>~~ee~~<br>ns|990<br>—}+—<br>|1500<br>~~Lo~~<br>~~GO~~|||||1800||||
||Maximum Peak Power<br>(*12)<br>~~ee~~<br>~~nD~~||W<br>—}+—<br>~~ee~~<br>~~nD~~<br>ns<br>nD|-<br>—}+—<br>~~L~~<br>~~nD~~<br>~~G~~<br>nn||1800<br>~~Lo~~<br>~~nD~~<br>~~GO~~<br>nn<br>nDOR<br>~~GO~~||||2520<br>~~OO~~<br>~~|~~||||
||Maximum Line Regulation<br>(*5)<br>~~nD~~<br>~~n~~||mV<br>~~nD~~<br>ns <br>~~n~~<br>nD|36<br>~~nD~~<br> ~~G~~<br>~~ns~~<br>nn|||40<br>~~nD~~<br>~~GO~~<br>~~s~~<br>nD|48<br>~~nD~~<br>~~O~~<br>~~s~~<br>OR|60<br>~~nD~~<br>~~O~~<br>~~s~~<br>~~GO~~|96<br>~~s~~<br>~~OO~~|144<br>~~s~~<br>~~OO~~|192<br>~~s~~<br>~~|~~|240<br>~~|~~|
||Maximum Load Regulation<br>(*6)<br>~~n~~<br>~~r~~||mV<br>~~n~~<br>nD<br>~~r~~|60<br>~~ns~~<br>nn<br>nD <br>~~rt~~||||72<br>~~s~~<br> OR<br>~~t~~|90<br>~~s~~<br>~~GO ~~<br>~~t~~|144<br>~~s~~<br> ~~OO~~<br>~~t~~|216<br>~~s~~<br>~~OO~~<br>~~t~~|288<br>~~s~~<br>~~|~~<br>~~t~~|360<br>~~|~~|
||Temperature Coefficient<br>~~r~~<br>~~Po~~||~~r~~<br>|Less than 0.02%/℃<br>~~rt~~<br>||||||||||
||Maximum<br>Ripple & Noise<br>(*4)<br>~~r~~<br>~~Poa~~|+25 to +71℃<br>~~r~~<br>~~Poa~~<br>~~ss~~|mV<br>~~r~~<br>~~a~~<br>~~ss~~|150<br>~~rt~~<br>~~a~~<br>nn||||200<br>~~t~~<br>~~a~~<br>(OO||250<br>~~t~~<br>~~a~~<br>(OO||300<br>~~t~~<br>~~a~~<br>(OO~~|~~|400<br>~~|~~|
|||0℃<br>~~a~~<br>~~ss~~<br>~~——~~|mV<br>~~a~~<br>~~ss~~<br>~~——~~|200<br>~~a~~<br>nn<br>~~———_————~~||||200<br>~~a~~<br>(OO<br>~~—_————~~||250<br>~~a~~<br>(OO<br>~~—_————~~||300<br>~~a~~<br>(OO~~|~~<br>~~—_————~~|400<br>~~|~~|
|||-10℃<br>~~a~~<br>~~ss~~<br>~~——~~|mV<br>~~a~~<br>~~ss ~~<br>~~——~~|220<br>~~a~~<br> nn<br>~~———_————~~||||250<br>~~a~~<br>(OO<br>~~—_————~~||300<br>~~a~~<br>(OO<br>~~—_————~~||400<br>~~a~~<br>(OO~~|~~<br>~~—_————~~|600<br>~~|~~|
||Hold-upTime(typ)<br>(*9)<br>~~a~~<br>~~——~~||ms<br>~~a~~<br>~~——~~<br>nDRD|20<br>~~a~~<br>~~———_————~~<br>RD<br>(~~On~~<br>~~(On(OU~~<br>~~(OU~~||||||18<br>~~a~~<br>~~—_————~~<br>~~(OU~~<br>~~(OU~~<br>~~|~~||||
||Voltage Adjustable Range<br>~~——~~<br>~~nD~~||VDC <br>~~——~~<br>~~nD~~<br>nDRD|2.64-3.96<br>~~———_————~~<br>~~nD~~<br>RD<br>nD|4.0-6.0<br>~~—_————~~<br>~~nD~~<br>(~~On~~<br>GR|4.8-7.2<br>~~—_————~~<br>~~nD~~<br>~~On~~<br>~~GO~~|6.0-9.0<br>~~—_————~~<br>~~nD~~<br>~~(On~~<br>~~(ON~~|9.6-14.4 <br>~~—_————~~<br>~~nD~~<br>~~(OU~~<br>~~GO~~|12.0-18.0 <br>~~—_————~~<br>~~nD~~<br>~~(OU~~<br>~~(OU~~|19.2-28.8 <br>~~—_————~~<br>~~nD~~<br>~~(OU~~<br>~~GO~~|28.8-43.2 <br>~~—_————~~<br>~~nD~~<br>~~(OU~~<br>~~(OU~~|38.4-52.8 <br>~~—_————~~<br>~~nD~~<br>~~|~~<br>~~|~~|48.0-66.0<br>~~|~~<br>~~|~~|
|Function<br>~~fF~~<br>~~fF~~|Over Current Protection<br>(*7)<br>~~nD~~<br>~~n~~<br>~~———~~————||~~nD~~<br>nDRD<br>~~n~~<br>————|315.0-<br>~~nD~~<br>RD<br>~~n~~<br>nD<br>————|315.0-<br>~~nD~~<br>(~~On~~<br>~~n~~<br>GR<br>————~~—————————~~|303.0-<br>~~nD~~<br>~~On~~<br>~~nD~~<br>~~GO~~<br>~~—————————~~|242.4-<br>~~nD~~<br>~~(On ~~<br>~~D~~<br>~~(ON~~<br>~~—————————~~|151.5-<br>~~nD~~<br> ~~(OU~~<br>~~D~~<br>~~GO~~<br>~~—————————~~|121.2-<br>~~nD~~<br>~~(OU~~<br>~~D~~<br>~~(OU~~<br>~~—————————~~|106.0-<br>~~nD~~<br>~~(OU~~<br>~~D~~<br>~~GO~~<br>~~—————————~~|70.7-<br>~~nD~~<br>~~(OU~~<br>~~D~~<br>~~(OU~~<br>~~—————————~~|53.0-<br>~~nD~~<br>~~|~~<br>~~D~~<br>~~|~~<br>~~—————————~~|42.4-<br>~~|~~<br>~~|~~|
||Over Voltage Protection<br>(*8)<br>~~n~~<br>~~———~~————||V<br>~~n~~<br>————|4.12-4.62 <br>~~n~~<br>nD<br>————|6.25-7.0<br>~~n~~<br>GR<br>————~~—————————~~|7.5-8.4<br>~~nD~~<br>~~GO~~<br>~~—————————~~|9.37-10.5 <br>~~D~~<br>~~(ON~~<br>~~—————————~~|15.0-17.4 <br>~~D~~<br>~~GO~~<br>~~—————————~~|18.7-21.8 <br>~~D~~<br>~~(OU~~<br>~~—————————~~|30.0-34.8 <br>~~D~~<br>~~GO~~<br>~~—————————~~|45.0-49.7 <br>~~D~~<br>~~(OU~~<br>~~—————————~~|55.2-60.0 <br>~~D~~<br>~~|~~<br>~~—————————~~|69.0-75.0<br>~~|~~|
||Remote Sensing<br>~~———~~————<br>~~Po~~<br><br>~~fF~~||————<br>|<br>|Possible<br>————~~—————————~~<br>|||||||||||
||Remote ON/OFF Control<br>~~———~~————<br>~~Po~~<br>~~e~~e<br>~~fF~~||————<br>e|<br>|Possible<br>————~~—————————~~<br>|||||||||||
||Output Voltage External Control<br>~~e~~e<br>~~fFr~~—<br>||e|<br>—<br>||Possible<br>|<br>|||||||||||
||Parallel Operation<br><br>~~fFr~~—<br>~~e~~e<br><br>~~fF~~|||<br>—<br>e|<br>|<br>|Possible<br>|<br>|<br>|||||||||||
||Series Operation<br>~~e~~e<br>~~e~~e<br>~~fF~~||e|<br>e|<br>|Possible<br>|<br>|||||||||||
||MonitoringSignal<br>~~e~~e<br>~~fFr~~—<br><br>~~|~~||e|<br>—<br>~~|~~<br>~~|~~|PF (Open Collector Output)<br>|<br>~~|~~||||||||||
||Line DIP<br><br>~~fF~~<br>~~e~~s<br>~~|~~<br>~~See~~|||<br><br>s~~|~~<br>~~|~~<br>~~ee~~|Built to meet SEMI-F47<br>|<br>~~|~~<br>~~ee~~<br>=||||||||||
|Environment<br>~~a~~|Operating Temperature<br>(*11)<br>-10 to +40℃<br>+50℃<br>+60℃<br>+71℃<br>~~e~~s<br>~~|~~<br>~~See~~<br>~~e~~<br>~~ss~~<br>~~ss~~<br>||℃<br>s~~|~~<br>~~||~~<br>~~ee~~|-10 to +71, Start up -20 to +71<br>~~|~~<br>~~ee~~<br>=||||||||||
|||-10 to +40℃<br><br>~~|~~<br>~~See~~|W<br>~~|~~<br>~~| |~~<br>~~ee~~|990<br>~~|~~<br>~~ee~~|1500<br>~~ee~~<br>=|||||1800||||
|||+50℃<br>~~See~~<br>~~e~~<br>~~ss~~|W<br>~~ee~~<br>~~e~~<br>~~ss~~|825<br>~~ee~~<br>~~e~~|1250<br>~~ee~~<br>~~ee~~<br>~~(O~~|1500<br>~~ee~~<br>=<br>~~e~~<br>~~(O~~n||||1680||||
|||+60℃<br>~~See~~<br>~~e~~<br>~~ss~~|W<br>~~ee~~<br>~~e~~<br>~~ss~~|660<br>~~ee~~<br>~~e~~|1000<br>~~ee~~<br>~~ee~~<br>~~(O~~|1125<br>~~ee~~<br>=<br>~~e~~<br>~~(O~~n||||1300||||
|||+71℃<br>~~See~~<br>~~ss~~<br>~~ss~~<br>|W<br>~~ee~~<br>~~ss~~<br>~~ss ~~<br>||495<br>~~ee~~<br> ~~G~~<br>||750<br>~~ee~~<br>=<br>~~(O~~n<br>~~G~~O|||||900||||
||Storage Temperature<br>~~See~~<br>~~ee~~<br>||℃<br>~~ee~~<br>~~ee~~|<br>||-30 to +85<br>~~ee~~<br>=<br>|<br>|||||||||||
||OperatingHumidity<br>~~ee~~<br>~~e~~e<br>||％RH<br>~~ee~~|<br>e|<br>||10 - 90 (No dewdrop)<br>|<br>|<br>|||||||||||
||Storage Humidity<br>~~e~~e<br>~~e~~s<br>||％RH<br>e|<br>s|<br>||10 - 95 (No dewdrop)<br>|<br>|<br>|||||||||||
||Vibration<br><br>~~e~~e<br>|||<br>e|<br>||At no operating, 10 - 55Hz (sweep for 1min.) 19.6m/s² constant, X, Y, Z 1h each.<br>|<br>|<br>|||||||||||
||Shock(Inpackage)<br>~~e~~e<br>~~e~~e||e|<br>e||Less than 196.1m/s²<br>|<br>|||||||||||
||Cooling<br>~~e~~e<br>~~n~~n<br>~~a~~||e|<br>n<br>|Forced air by blower fan<br>|||||||||||
|Isolation<br>~~a~~|Withstand Voltage<br>~~n~~n<br>~~a~~||n<br>|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA), Output-CNT:100VAC (100mA) for 1min.||||||||||
|||||Output-FG : 500VAC (300mA) for 1min|||||||||Output-FG:651VAC<br>(390mA) for 1 min|
||Isolation Resistance<br>~~a~~|||More than 100Mohm Output - FG ... 500VDC<br>More than 10Mohm Output - CNT ... 100VDC   at 25℃and 70%RH||||||||||
|Standards<br>~~a~~|SafetyStandards<br>~~a~~|||Built to meet UL60950-1, CSA60950-1||||||||||
||EMI<br>~~ae~~s||s|Built to meet EN55011/EN55022-A, FCC-A, VCCI-A.||||||||||
||Immunity<br>~~e~~s||s|Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||||||
|Mechanical <br>|Weight(typ)<br>~~e~~s<br>~~d~~<br>||g<br>s<br>~~d~~n<br>||4000<br>n<br>|||||3800||||||
||<br>Size (W x H x D)<br>~~d~~<br>~~e~~e||mm<br>~~d~~n<br>e||126.5 x 82 x 280 (Refer to outline drawing)<br>n<br>|||||||||||



- (*1) At Ta=25 ℃ and maximum output power. 

- (*2) For cases where conformance to various safety specs (UL, CSA) are required, input voltage range will be 200 - 240VAC (50/60Hz). 

**●Recommended EMC Filter** 

- (*3) First in-rush current. Not applicable for the in-rush current to noise filter less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. 

- （ At 100uF electric capacitor and 0.47uF film capacitor on the test fixture board.) Between -10 degrees C and 25 degrees C, it becomes the value which connected each value in a straight line. 

- (*5) 170 - 265VAC(50/60Hz), constant load. 

- (*6) No load-full load, constant input voltage. 

- (*7) Constant current limit with automatic recovery. An output will be intercepted if it continues for about 5 seconds. Output current exceeding maximum rated output current for more then 10 seconds continuously will result to output shutdown. 

- (*8) OVP circuit will  shut down output, manual reset (power cycle) or ON/OFF CNT signal reset. 

RTEN-5020 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*9) At 200VAC(50/60Hz), nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, CSA (at 60Hz), Ta=25 ℃ . 

- (*11) Ratings  - Derating at standard mounting. 

   - As for other mountings, refer to derating curve. 

- (*12) Peak output current is less than 10 seconds, and duty 35% max. 

A-118 

・All specifications are subject to change without notice. 

**HWS 1800T** 

## **Outline Drawing** 

## **【HWS1800T】** 

**==> picture [429 x 287] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE D<br>82±1 8-M4 (BOTH SIDES)<br>（56.8） 46  MAX 10 260±0.5 SEE NOTE C<br>（23.3） 20 BUS BAR SPACER<br>(RED)<br>BUS BAR SPACER<br>(BLACK)<br>OUTPUT TERMINAL<br>SEE NOTE E<br>INPUT TERMINAL<br>SEE NOTE E<br>（14.6） 4－M4 SEE NOTES ANAME PLATE NAME PLATESEE NOTES A&B<br>35±1 8-M4 (BOTH SIDES)<br>20±1 SEE NOTE C<br>NOTES<br>A : MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL<br>OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT ARE SHOWN HERE IN ACCORDANCE WITH THE  4－M4<br>SPECIFICATIONS.<br>B : COUNTRY OF MANUFACTURE IS SHOWN HERE.<br>C : M4 TAPPED HOLES (16) FOR CUSTOMER CHASSIS<br>MOUNTING.<br>〔SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.〕 10 260±0.5<br>RECOMMENDED M4 SCREWS TORQUE : 1.27N•m 20  MAX 280±1 4MAX<br>D : I/O SIGNAL CONNECTOR<br>CONNECTOR  : S12B-PHDSS(LF)(SN)  (JST)<br>MATCHING HOUSING : PHDR-12VS  (JST) [unit： mm]<br>MATCHING CONTACT : SPHD-002T-P0.5(AWG28-24) (JST) OR<br>SPHD-001T-P0.5(AWG26-22) (JST) OR<br>BPHD-001T-P0.5(AWG26-22) (JST) ACCESSORIES<br>HAND CRIMPING TOOL : YRS-620(SPHD-002T-P0.5)  (JST)<br>YC-610R(SPHD-001T-P0.5)  (JST)  ＊ ATTACHED CONNECTOR (3～7V)<br>YC-610R(BPHD-001T-P0.5)  (JST)    SHORTING +S～( + ), -S～( - ), PV～PEF & CNT～TOG<br>E : RECOMMENDED TORQUE FOR THE TERMINAL  PIECE.    ATTACHED ON CN01 AT SHIPMENT<br>INPUT TERMINAL (M4 SCREW) : 1.27N•m ＊ ATTACHED CONNECTOR (12～60V)<br>OUTPUT TERMINAL (M8 BOLT & NUT) : 10.8N•m    SHORTING +S～+V, -S～-V, PV～PEF & CNT～TOG<br>OUTPUT TERMINAL (M4 SCREW) : 1.27N•m    ATTACHED ON CN01 AT SHIPMENT<br>2－φ9<br>7.25<br>（9.1） 23.7±1 TOGPF1211 TOGCNT PVREF COMPC -S-V +S+V21CN01,CN02<br>（73.6） （11.2） 25±1 3 FG (+) (-)<br>3 L3L2<br>126.5±1 111111 FGL3L2L1 OUTPUT : 24 V75 A MADE IN JAPAN L1 OUTPUT : 24 V75 A 50/ 60Hz INPUT :3Ó200-240VAC7.0 A 112±0.5<br>22 10<br>20<br>60±0.5<br>45.5±1<br>11<br>**----- End of picture text -----**<br>


**==> picture [32 x 25] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS<br>**----- End of picture text -----**<br>


## **Output Derating** 

## HWS1800T 

**==> picture [255 x 346] intentionally omitted <==**

**----- Start of picture text -----**<br>
2000<br>1800<br>1600<br>1400<br>1200<br>1000<br>800<br>600<br>400<br>200<br>0<br>－10 0 10 20 30 40 50 60 70 80<br>Ta（℃） 3.3V<br>5V<br>6, 7.5V<br>HWS1800T<br>2000<br>1800<br>1600<br>1400<br>1200<br>1000<br>800<br>600<br>400<br>200<br>0<br>－10 0 10 20 30 40 50 60 70 80<br>Ta（℃） 24, 36, 48, 60V<br>12, 15V<br>LOAD（W）<br>LOAD（W）<br>**----- End of picture text -----**<br>


**==> picture [116 x 47] intentionally omitted <==**

MOUNTING A MOUNTING B MOUNTING Ｃ （STANDARD MOUNTING） 

**==> picture [129 x 59] intentionally omitted <==**

MOUNTING Ｄ Inhibit 

Inhibit 

A-119 

・All specifications are subject to change without notice. 

**==> picture [213 x 32] intentionally omitted <==**

A-120 

**HWS /HD** 

## HWS/HD **SERIES** 

## **Single Output 50W-1500W** 

**==> picture [33 x 38] intentionally omitted <==**

**----- Start of picture text -----**<br>
5 YEARS<br>warranty<br>**----- End of picture text -----**<br>


## **■ Features** 

- ●Power supply for harsh environment, heavy industry equipment, etc. 

- ・ Guaranteed start-up at Ta=-40℃. (Se ~~e note.)~~ 

- ・ Internal board coating 

- ・ Compliant to MIL-STD-810F, the standard for the products for military use (vibration resistance /shock resistance). 

- ●Environmentally-friendly: Conforming to RoHS directives 

- High-efficiency technology reduces power loss by heat generation. Fan stopping in power-off by external control realizes silence and energy saving. 

- ●Easy to use: All models in the same hight of 82mm. Mountable in 2U-height racks without dead space. 

- ●Safety and reliability: “Safety terminal” covering current flowing part secures safety for users. “No screw-dropping” design prevents from losing screws during maintenance operation. 

- ●HWS1500-48 realizes as high efficiency as 90%. Synchronous rectifier circuit improved efficiency of low voltage models by over 10% (HWS150-5). 

## **■ Model naming method** 

**〔HWS50-150〕 HWS 50 − 5 / HD** Series name Output power HD：Without cover for harsh environment ES ] —_ Nominal output voltage ex. 3: 3.3V, 5: 5V, 48: 48V 

**〔HWS300-1500〕 HWS 300 − 5 / HD** Series name Output power HD： With cover for harsh environment by forced air cooling (except HWS1000) ~~TO~~ | a Nominal output voltage ex. 3: 3.3V, 5: 5V, 48: 48V 

## **■ Applications** 

## **■ Conformity to RoHS Directive** 

This means that, in conformity with EU Directive 2002/95/ EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications. 

## **■ Product Line up** 

|Output Voltage|Output Current|50W<br>Model|100W<br>Output Current<br>Model|100W<br>Output Current<br>Model|150W<br>Output Current<br>Model|
|---|---|---|---|---|---|
|3.3V|10A|HWS50-3/HD|20A|HWS100-3/HD|30A<br>HWS150-3/HD|
|5V|10A|HWS50-5/HD|20A|HWS100-5/HD|30A<br>HWS150-5/HD|
|12V|4.3A|HWS50-12/HD|8.5A|HWS100-12/HD|13A<br>HWS150-12/HD|
|15V|3.5A|HWS50-15/HD|7A|HWS100-15/HD|10A<br>HWS150-15/HD|
|24V|2.2A|HWS50-24/HD|4.5A|HWS100-24/HD|6.5A<br>HWS150-24/HD|
|48V|1.1A|HWS50-48/HD|2.1A|HWS100-48/HD|3.3A<br>HWS150-48/HD|
|Output Voltage|300W<br>Output Current(Peak)<br>Model||600W<br>Output Current(Peak)<br>Model||1500W<br>Output Current(Peak)(＊)<br>Model|
|3.3V|60A|HWS300-3/HD|120A|HWS600-3/HD|−<br>−|
|5V|60A|HWS300-5/HD|120A|HWS600-5/HD|−<br>−|
|12V|27A|HWS300-12/HD|53A|HWS600-12/HD|125A/125A（−）HWS1500-12/HD|
|15V|22A|HWS300-15/HD|43A|HWS600-15/HD|100A/100A（−）HWS1500-15/HD|
|24V|14A（16.5A）|HWS300-24/HD|27A（31A）|HWS600-24/HD|65A/70A（105A）HWS1500-24/HD|
|36V|−|−|−|−|42A/46.5A（70A）HWS1500-36/HD|
|48V|7A|HWS300-48/HD|13A|HWS600-48/HD|32A/32A（−）<br>HWS1500-48/HD|



The power supply might not start up according to the input voltage and the load condition at the low temperature (-40 < Ta < -10℃). For details, please refer to “Start-up condition at the low temperature”. 

- ・All specifications are subject to change without notice. 

（＊）（100Vin/200Vin） 

A-121 

**HWS50/HD** 

**HWS /HD** 

## **HWS50/HD Specifications** 

|**ITEMS/UNITS**<br>**MODEL **<br>f~~d~~|**ITEMS/UNITS**<br>**MODEL **<br>f~~d~~|**ITEMS/UNITS**<br>**MODEL **<br>f~~d~~|**HWS50-3/HD **<br>~~d~~|**HWS50-5/HD **|**HWS50-12/HD **|**HWS50-15/HD **|**HWS50-24/HD **|**HWS50-48/HD**|
|---|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*3)<br>f~~d~~<br>ee|V<br>~~d~~|AC85 - 265 or DC120 - 370<br>~~d~~||||||
||Frequency<br>(*3)<br>f~~d~~<br>ee<br>PO<br>o~~r~~|Hz<br>~~d~~<br>~~r~~|47 - 63<br>~~d~~<br>~~r~~||||||
||Power Factor (100/200VAC)(typ) (*2)<br>PO<br>o~~r~~|~~r~~<br>nDnD|0.98 / 0.90<br>~~r~~<br>nD|0.99 / 0.95<br>(I|||||
||Efficiency (100/200VAC)(typ)<br>(*2)<br>o~~r~~<br>~~n~~|％<br>~~r~~<br>~~n~~<br>nDnD|76 / 78<br>~~r~~<br>~~n~~<br>nD|82 / 84<br>~~n~~s<br>(I|81 / 83<br>s<br>(I||82 / 84<br>s|83 / 85|
||Current (100/200VAC)(typ)<br>(*2)<br>~~n~~<br>ee|A<br>~~n~~<br>nDnD<br>ee|0.5 / 0.25<br>~~n~~<br>nD<br>ee|0.7 / 0.35<br>~~n~~s<br>(I|||||
||Inrush Current (100/200VAC)(typ) (*4)<br>ee<br>Po|A<br>ee|14 / 28 Ta=25℃, cold start<br>ee||||||
||Leakage Current<br>(*11)<br>ee<br>Po<br>Po<br>St|mA<br>ee<br>St|Less than 0.5.  (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>ee<br>St<br>rr||||||
|Output|Nominal Voltage<br>Po<br>St|VDC<br>St<br>tnnn|3.3<br>St<br>nn|5<br>rr<br>nn|12<br>rr<br>(||15<br>(||24<br>(||48|
||Minimum Current<br>(*1)<br>St<br>ns<br>nD|A<br>St<br>ns<br>tnnn<br>nD|0.1<br>St<br>rr<br>ns<br>nn<br>(OD||0.04<br>rr<br>ns<br>(|<br>(OD(OU||0.02<br>ns<br>(||0.01|
||Maximum Current<br>ns<br>nD|A<br>ns<br>tnnn<br>nD<br>Gs|10<br>ns<br>nn<br>(OD<br>nn||4.3<br>ns<br>(|<br>(OD|3.5<br>ns<br>(|<br>(OU|2.2<br>ns<br>(||1.1|
||Maximum Power<br>nD<br>ny<br>a|W<br>nD<br>ny<br>Gs<br>nrnn|33<br>ny<br>nn<br>nn|50<br>(OD<br>ny<br>nn<br>nn|51.6<br>(OD<br>ny<br>(||52.5<br>(OU<br>ny<br>(||52.8<br>(|||
||Maximum Line Regulation<br>(*6)<br>ny<br>ns<br>a|mV<br>ny<br>Gs <br>ns<br>nrnn|20<br>ny<br> nn<br>ns<br>nn||48<br>ny<br>ns<br>(||60<br>ny<br>ns<br>(||96<br>ns<br>(||192|
||Maximum Load Regulation<br>(*7)<br>ns<br>a|mV<br>ns<br>nrnn|40<br>ns<br>nn||96<br>ns<br>(||120<br>ns<br>(||192<br>ns<br>(||384|
||Temperature Coefficient<br>a<br>Po|nrnn<br>rn|Less than 0.02% /℃<br>nn<br>(|<br>nD<br>|||||||
||Maximum Ripple & Noise (0<Ta<71℃) (*5) <br>Po<br>~~e~~ens|mVp-p<br>ens<br>rn|120<br>ens<br>nD||150<br>ens<br>||||200<br>||
||Maximum Ripple & Noise (－10~~<T~~a< 0℃) (*5) <br>~~e~~ens<br>~~e~~|mVp-p<br>ens<br>rn <br>~~e~~|160<br>ens<br> nD<br>~~e~~e||180<br>ens<br>|<br>e|||240<br>||
||Hold-up Time (typ)<br>(*10)<br>~~e~~<br>P~~O~~|ms<br>~~e~~|20<br>~~e~~e<br>ns<br>nDI<br>|||||||
||Voltage Adjustable Range<br>~~e~~<br>P~~O~~<br>~~r~~|VDC<br>~~e~~<br>~~r~~<br>ns|2.97 - 3.96<br>~~e~~<br>~~r~~<br>ns|4.0 - 6.0<br>~~e~~e<br>~~r~~s<br>nDI<br>GD|9.6 - 14.4<br>e<br>s<br>I<br>GD|12.0 - 18.0<br>e<br>s<br>I<br>(O|19.2 - 28.8<br>e<br>s<br>||38.4 - 52.8<br>||
|Function<br>-|Over Current Protection<br>(*8)<br>~~r~~<br>~~n~~|A<br>~~r~~<br>~~n~~<br>ns|>10.5<br>~~r~~s<br>ns<br>nDI<br>~~n~~D<br>GD||>4.51<br>s<br>I<br>D<br>GD|>3.67<br>s<br>I<br>D<br>(O|>2.31<br>s<br>|<br>D|>1.15<br>||
||Over Voltage Protection<br>(*9) <br>~~n~~<br>~~+~~|VDC<br>~~n~~<br>ns<br>~~+~~|4.13 - 4.95<br>~~n~~|6.25 - 7.25<br>~~n~~D<br>GD|15.0 - 17.4<br>D<br>GD|18.8 - 21.8<br>D<br>(O|30.0 - 34.8<br>D|55.2 - 64.8|
||Remote Sensing<br>~~+~~<br>-|~~+~~<br>|-<br>||||||
||Parallel Operation<br>~~+~~<br>-|~~+~~<br>||-<br>|||||||
||Series Operation<br>~~+~~<br>-ee|~~+~~<br>ee||Possible<br>|||||||
||Line DIP<br>ee|ee||Designed to meet SEMI-F47 (200VAC Line only)<br>|||||||
|Environment|Operating Temperature<br>(*12)|℃|-10 to +71 (-10 to +50: 100%, +60: 60%, +71: 20%)<br>Guarantee start up at -40 to -10℃||||||
||Storage Temperature<br>ee<br>|℃<br>ee<br>||-40 to +85<br>|||||||
||Operating Humidity<br>ee<br>es|％RH<br>ee<br>es||30 - 90 (No dewdrop)<br>|||||||
||Storage Humidity<br>es<br>OY|％RH<br>es|<br>OY|10 - 95 (No dewdrop)<br>|||||||
||Vibration<br>(*13)<br>OY|OY|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.<br>Designed to meet MIL-STD-810F 514.5 Category 4, 10||||||
||Shock (In package)<br>==|==|Less than 196.1m/s²<br>Designed to meet MIL-STD-810F 516.5 Procedure I, VI||||||
||Cooling<br>==|==|Convection cooling||||||
|Isolation|Withstand Voltage<br>==<br>ee|==|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance<br>==<br>ee|==|More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards|Safety Standards<br>(*14)<br>ee||Approved by UL60950-1, CSA C22.2 No.60950-1, EN60950-1, EN50178<br>Designed to meet UL508, DENAN||||||
||PFHC<br>ee||Designed to meet IEC61000-3-2||||||
||EMI<br>ee<br>I|I|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>I<br>|I<br>||Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>|||||||
|Mechanical|Weight (typ)<br>I<br>es|g<br>I<br>es||280<br>|||||||
||<br>Size (W x H x D)<br>es<br>es|mm<br>es|<br>es|26.5 x 82 x 120 (Refer to outline drawing)<br>|||||||



(*1) Output voltage might be unstable when start up at -40 to -10 ℃ and no load. In that case, apply minimum output current. 

- (*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*3) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

(*4) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*5) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

- (*6) 85 - 265VAC, constant load. 

- (*7) No load-Full load, constant input voltage. 

- (*8) Constant current limit and hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

**●Recommended EMC Filter** 

- (*9) OVP circuit will  shutdown output, manual reset (re power on). 

- (*10) At 100/200VAC, nominal output voltage and maximum output current. 

- (*11) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*12) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

   - For conditions of start up at -40 ℃ to -10 ℃ , refer to derating curve. 

- (*13) Category 4 exposure levels : Track transportation over U.S. highways, composite two-wheeled trailer. 

- (*14) As for DENAN, dsigned to meet at 100VAC. 

RSEL-2001W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-122 

・All specifications are subject to change without notice. 

**HWS50/HD** 

**HWS /HD** 

## **Outline Drawing** 

**==> picture [483 x 236] intentionally omitted <==**

**----- Start of picture text -----**<br>
VOLTAGE ADJUSTMENT<br>（10.1） SEE NOTE C<br>【HWS50/HD】 LED<br>5-M3.5<br>＋V<br>－V<br>FG<br>AC(L)<br>AC(N)<br>（14） （15） 97±0.5 8<br>NOTES<br>A: MODEL NAME, INPUT VOLTAGE RANGE,  26.5±1 19MAX 120±1<br>NOMINAL OUTPUT VOLTAGE, MAXIMUM<br>OUTPUT CURRENT AND COUNTRY OF  SEE NOTE B<br>MANUFACTURE ARE SHOWN HERE IN AC-<br>CORDANCE WITH THE SPECIFICATIONS. NAME PLATE<br>B: M3 EMBOSSED, TAPPED AND COUNTER- SEE NOTE A<br>SUNK HOLES (2) FOR CUSTOMER CHAS-SIS MOUNTING. SCREWS MUST NOT PRO- D t OUTPUT :  5 VINPUT : 100-240VAC   0.8 A  50/60Hz HWS50 - 5 /HD   10 A<br>TRUDE INTO POWER SUPPLY BY MORE<br>THAN 6m/m. （5） 105±0.5 10<br>C: M3 TAPPED HOLES (2) FOR CUSTOMER<br>CHASSIS MOUNTING. SCREWS MUST      Recommended Solderless Terminal<br>NOT PROTRUDE INTO POWER SUPPLY BY   D（max）  ｔ（max）  Qty（max）<br>MORE THAN 6m/m. 6.8mm  0.8mm  2 pcs ●Please refer to instraction manual. GO!! A-155<br>＋V<br>7.3 －V 68±0.5 82±1<br>FG<br>（67.5） L<br>8.4<br>N<br>（17） 8<br>17<br>15<br>（5.5）<br>**----- End of picture text -----**<br>


## **【HWS50/HD】** 

## **Output Der** ~~**ating**~~ 

## **OUTPUT DERATING CURVE** 

**==> picture [202 x 88] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>100<br>80<br>60 MOUNTING A,B<br>MOUNTING C,D<br>40<br>20<br>0<br>－10 0 10 20 30 40 50 60 70 80<br>Ta（℃）<br>LOAD（％）<br>**----- End of picture text -----**<br>


## ***COOLING : CONVECTION COOLING** 

**==> picture [196 x 106] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Ta(°C) MOUNTING A, B MOUNTING C, D<br>-10 to +40 100 100<br>50 100 60<br>60 60 20<br>71 20 -<br>MOUNTING A MOUNTING B MOUNTING C MOUNTING D DON’T USE<br>（STANDARD MOUNTING）<br>**----- End of picture text -----**<br>


## **Start-up condition at low temperature (Ta = -40 to -10** ℃ **)** 

## ●DERATING TO START UP AT Ta : -30 to -10℃ 

**==> picture [185 x 166] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Input Voltage<br>(VAC) Normal start up.    Stable output after 1 minfrom start up.<br>85 - 170 80 100<br>170 - 265 100 100<br>OUTPUT DERATING CURVE<br>  120<br>  100<br>    80<br>Normal start up.<br>    60 Stable output after<br>1 min frin start up.<br>  40<br>  20<br>0<br>85 170 265<br>Input Voltage (VAC)<br>LOAD (%)<br>**----- End of picture text -----**<br>


## ●DERATING TO START UP AT Ta : -40 to -30℃ 

**==> picture [187 x 167] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Input Voltage<br>Stable output after 3 min<br>(VAC)  Normal start up.  from start up.<br>90 30 50<br>170 30 50<br>DERATING CURVE<br>80<br>70<br>60<br>50<br>Normal start up.<br>40 Stable output after<br>3 min frin start up.<br>30<br>20<br>10<br>0<br>90 170 265<br>Input Voltage (VAC)<br>LOAD (%)<br>**----- End of picture text -----**<br>


=NOTES= 

- *At Ta : -30 to -10 ° C. 

- *Output voltage : Nominal output voltage. 

- *Input voltage : Not gradual start up. 

- *Do not use the load that is constant current mode. 

- *Avoid forced air cooling. It is assumed that inside of power supply is heated by self-heating within 1 minutes. 

- *No dewdrop. 

- *Output voltage might be unstable at no load. In that case, apply minimum output current. 

- *Pay attention to above items before using the unit. Incorrect usage could lead to unstable output voltage. 

- =NOTES= 

- *At Ta : -40 to -10 ° C. 

- *Output voltage : Nominal output voltage. 

- *Input voltage : Not operate at 85 - 90VAC, and not gradual start up. 

- *Do not use the load that is constant current mode. 

- *Avoid forced air cooling. It is assumed that inside of power supply is heated by self-heating within 3 minutes. 

- *No dewdrop. 

- *Output voltage might be unstable at no load. In that case, apply minimum output current. 

- *Pay attention to above items before using the unit. Incorrect usage could lead to unstable output voltage. 

A-123 

・All specifications are subject to change without notice. 

**HWS100/HD** 

**HWS /HD** ] 

## **HWS100/HD Specifications** 

|**ITEMS/UNITS**<br>**MODEL **<br>———_||**ITEMS/UNITS**<br>**MODEL **<br>———_||**ITEMS/UNITS**<br>**MODEL **<br>———_||**HWS100-3/HD **<br>———_|<br>||**HWS100-5/HD **<br>||**HWS100-12/HD**<br>—||**HWS100-15/HD**<br>|<br>1|**HWS100-24/HD**<br>_1|**HWS100-48/HD**|
|---|---|---|---|---|---|---|---|---|
|Input<br>-—|Voltage Range<br>(*3)<br>———_|<br>Oo<br>-—|V<br>———_|<br>|AC85 - 265 or DC120 - 370<br>———_|<br>|<br>|<br>—|<br>1<br>_1<br>||||||
||Frequency<br>(*3)<br>———_|<br>Oo<br>-———F—|Hz<br>———_|<br>——F—|47 - 63<br>———_|<br>|<br>|<br>— |<br>1<br>_1<br>——F—||||||
||Power Factor (100/200VAC)(typ) (*2)<br>-———F—|——F—|0.98 / 0.90<br>——F—|0.99 / 0.95|||||
||Efficiency (100/200VAC)(typ)<br>(*2)<br>——F—<br>a|％<br>——F—<br>ee|78 / 81<br>——F—|83 / 86|||84 / 87||
||Current (100/200VAC)(typ)<br>(*2)<br>a<br>ee|A<br>ee<br>ee|0.9 / 0.45<br>ee|1.3 / 0.65|||||
||Inrush Current (100/200VAC)(typ) (*4)<br>ee<br>**—**———|A<br>ee<br>ee<br>———|14 / 28, Ta=25℃, cold start<br>ee||||||
||Leakage Current<br>(*11)<br>**—**———|mA<br>———|Less than 0.5.  (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)||||||
|Output|Nominal Voltage<br>**—**———<br>a|VDC<br>———<br>a<br>a|3.3<br>a<br>a|5<br>a|12<br>a|15<br>a|24|48|
||Minimum Current<br>(*1)<br>a<br>a|A<br>a<br>a<br>a|0.2<br>a<br>a<br>a||0.09<br>a|0.07<br>a|0.05|0.02|
||Maximum Current<br>a<br>a|A<br>a<br>a<br>a|20<br>a<br>a<br>a||8.5|7|4.5|2.1|
||Maximum Power<br>a<br>a|W<br>a<br>a<br>a<br>a|66<br>a<br>a<br>a<br>a|100<br>a<br>a<br>a|102<br>a|105<br>a|108|100.8|
||Maximum Line Regulation<br>(*6)<br>a<br>a|mV<br>a<br>a<br>a|20<br>a<br>a<br>a||48<br>a|60<br>a|96|192|
||Maximum Load Regulation<br>(*7)<br>a<br>o|mV<br>a<br>o|40<br>a<br>oo||96<br>o|120<br>o|192<br>o|384|
||Temperature Coefficient<br>o<br>ee|o|Less than 0.02% /℃<br>oo||||||
||Maximum Ripple & Noise (0<Ta<71℃) (*5) <br>o<br>ee<br>~~a~~|mVp-p<br>o<br>~~a~~|120<br>oo<br>~~a~~||150<br>o<br>~~a~~|||200|
||Maximum Ripple & Noise (－10~~<T~~a＜0℃) (*5) <br>~~a~~<br>~~e~~|mVp-p<br>~~a~~<br>~~e~~|160<br>~~a~~<br>~~e~~e||180<br>~~a~~<br>e|||240|
||Hold-up Time (typ)<br>(*10)<br>~~e~~<br>o~~o~~|ms<br>~~e~~|20<br>~~e~~e||||||
||Voltage Adjustable Range<br>~~e~~<br>o~~o~~<br>~~a~~|VDC<br>~~e~~<br>~~a~~|2.97 - 3.96<br>~~e~~<br>~~a~~|4.0 - 6.0<br>~~e~~e<br>~~a~~|9.6 - 14.4<br>e<br>~~a~~|12.0 - 18.0<br>e<br>~~a~~|19.2 - 28.8<br>e<br>~~a~~|38.4 - 52.8|
|Function|Over Current Protection<br>(*8)<br>~~a~~<br>~~a~~|A<br>~~a~~<br>~~a~~|>21.0<br>~~a~~<br>~~a~~||>8.92<br>~~a~~<br>~~a~~|>7.35<br>~~a~~<br>~~a~~|>4.72<br>~~a~~<br>~~a~~|>2.20|
||Over Voltage Protection<br>(*9) <br>~~a~~<br>~~A~~|VDC<br>~~a~~<br>~~A~~|4.13 - 4.95<br>~~a~~<br>~~A~~|6.25 - 7.25<br>~~a~~<br>~~A~~|15.0 - 17.4<br>~~a~~<br>~~A~~|18.8 - 21.8<br>~~a~~<br>~~A~~|30.0 - 34.8<br>~~a~~<br>~~A~~|55.2 - 64.8|
||Remote Sensing<br>~~A~~<br>ee|~~A~~|Possible<br>~~A~~||||||
||Parallel Operation<br>~~A~~<br>ee|~~A~~|-<br>~~A~~||||||
||Series Operation<br>ee<br>oe|oe|Possible||||||
||Line DIP<br>oe<br>es|oe<br>es|Designed to meet SEMI-F47 (200VAC Line only)||||||
|Environment|Operating Temperature<br>(*12)<br>es|℃<br>es|-10 to +71 (-10 to +50: 100%, +60: 60%, +71: 20%)<br>Guarantee start up at -40 to -10||||||
||Storage Temperature<br>es<br>ee|℃<br>es<br>ee<br>ae|-40 to +85||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee<br>ee<br>ae|30 - 90 (No dewdrop)||||||
||Storage Humidity<br>ee<br>nn|％RH<br>ee<br>ae<br>nn|10 - 95 (No dewdrop)||||||
||Vibration<br>(*13)<br>nn|nn|At no operating, 10～55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.<br>Designed to meet MIL-STD-810F 514.5 Category 4, 10||||||
||Shock (In package)<br>nn<br>—|nn|Less than 196.1m/s²<br>Designed to meet MIL-STD-810F 516.5 Procedure I, VI||||||
||Cooling<br>—||Convection cooling||||||
|Isolation|Withstand Voltage<br>—||Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min||||||
||Isolation Resistance<br>—||More than 100MΩat 25℃and 70%RH Output - FG : 500VDC||||||
|Standards<br>———|Safety Standards<br>(*14)<br>ee|ee|Approved by UL60950-1, CSA C22.2 No.60950-1, EN60950-1, EN50178<br>Designed to meet UL508, DENAN||||||
||PFHC<br>ee<br>———|ee|Designed to meet IEC61000-3-2||||||
||EMI<br>———||Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>———<br>pd|pd|Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||
|Mechanical <br>———<br>[-|Weight (typ)<br>———<br>pd<br>[-|g<br>pd|450||||||
||<br>Size (W x H x D)<br>pd<br>[-|mm<br>pd|28 x 82 x 160 (Refer to outline drawing)||||||



(*1) Output voltage might be unstable when start up at -40 to -10 ℃ and no load. In that case, apply minimum output current. 

- (*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*3) For cases where conformance to various safety specs (UL, CSA, EN) are required,to be described as 100 - 240VAC (50/60Hz). 

(*4) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*5) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

- (*6) 85 - 265VAC, constant load. 

(*7) No load-full load, constant input voltage. 

- (*8) Constant current limit and hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

## **●Recommended EMC Filter** 

- (*9) OVP circuit will  shutdown output, manual reset (re power on). 

- (*10) At 100/200VAC , nominal output voltage and maximum output current. 

- (*11) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*12) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

   - For conditions of start up at -40 ℃ to -10 ℃ , refer to derating curve. 

- (*13) Category 4 exposure levels : Track transportation over U.S. highways, composite two-wheeled trailer. 

- (*14) As for DENAN, dsigned to meet at 100VAC. 

RSEL-2002W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-124 

・All specifications are subject to change without notice. 

**HWS100/HD** 

**HWS /HD** 

## **Outline Drawing** 

## **【HWS100/HD】** 

**==> picture [485 x 226] intentionally omitted <==**

**----- Start of picture text -----**<br>
（10.1） VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>2-M4<br>+S<br>+V<br>5-M3.5<br>-V<br>NOTES -S<br>A: MODEL NAME, INPUT VOLTAGE RANGE,<br>NOMINAL OUTPUT VOLTAGE, MAXIMUM  FG<br>OUTPUT CURRENT AND COUNTRY OF  AC(L)<br>MANUFACTURE ARE SHOWN HERE IN<br>ACCORDANCE WITH THE SPECIFICA- AC(N)<br>TIONS.<br>B: M3 EMBOSSED, TAPPED AND COUN- （14） （17） 135±0.5 8<br>TERSUNK HOLES (2) FOR CUSTOMER  28±1 19MAX 160±1<br>CHASSIS MOUNTING. SCREWS MUST<br>NOT PROTRUDE INTO POWER SUPPLY  SEE NOTE B<br>BY MORE THAN 6m/m.<br>C: M3 TAPPED HOLES (2) FOR CUSTOMER  D t<br>CHASSIS MOUNTING. SCREWS MUST  NAME PLATE<br>NOT PROTRUDE INTO POWER SUPPLY  SEE NOTE A<br>BY MORE THAN 6m/m. INPUT : 100-230VAC  1.5A Max.  50/60HzOUTPUT :  5 V HWS100 - 5 /HD  20 A<br>ACCESSORIES       Recommended Solderless Terminal<br>* SHORT PIECE (NET 2) FOR SHORTING PUR- Terminal D （max）  ｔ （max）    Qty （max） （15） 125±0.5 20<br>POSE (+S to +V, -S to -V) : MOUNTED AT TIME OF SHIPMENT. ＋V / －V 8.1mm 1.0mm 0.8mm  2pcs1pc<br> Others  6.8mm  0.8mm  2pcs<br>8.6 ＋S<br>M4 ＋V<br>10<br>M4 －V<br>9.2 68±0.5 82±1<br>（75） －S<br>7.3 FG<br>8.4 L<br>N<br>8<br>（9）<br>15.5 17<br>（5.5）<br>**----- End of picture text -----**<br>


**==> picture [51 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
GO!!<br>A-155<br>**----- End of picture text -----**<br>


**●Please refer to instraction manual.** 

## **Output Derating** 

**==> picture [186 x 96] intentionally omitted <==**

**----- Start of picture text -----**<br>
OUTPUT DERATING CURVE<br>120<br>100<br>80<br>60 MOUNTINGA<br>40 MOUNTINGB,C,D<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta(℃)<br>LOAD(%)<br>**----- End of picture text -----**<br>


## ***COOLING : CONVECTION COOLING** 

**==> picture [193 x 108] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Ta(℃) MOUNTING  A MOUNTING  B, C, D<br>－10 to ＋40 100 100<br>50 100 80<br>60 60 60<br>71 20 20<br>MOUNTING A MOUNTING B MOUNTING C MOUNTING D DON’T USE<br>(STANDARD MOUNTING)<br>**----- End of picture text -----**<br>


## **St** ~~**a**~~ **rt-up** ~~**c**~~ **ondition at low temperature (Ta = -40 to -10** ℃ **)** 

## ●DERATING TO START UP AT Ta : -30 to -10℃ 

**==> picture [186 x 163] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD（％）<br>Input Voltage<br>（VAC） Normal start up. Stable output after 1 minfrom start up.<br>85 - 170 70 100<br>170 - 265 100 100<br>DERATING CURVE<br>120<br>100<br>80<br>60 Normal start up.Stable output after<br>1 min from start up.<br>40<br>20<br>0<br>85 170 265<br>Input Voltage（VAC）<br>LOAD（％）<br>**----- End of picture text -----**<br>


=NOTES= 

- *At Ta : -30 to -10 ℃ . 

- *Output voltage : Nominal output voltage. 

- *Input voltage : Not gradual start up. 

- *Do not use the load that is constant current mode. 

- *Avoid forced air cooling. It is assumed that inside of power supply is heated by self-heating within 1 minutes. 

- *No dewdrop. 

- *Output voltage might be unstable at no load. In that case, apply minimum output current. 

- *Pay attention to above items before using the unit. Incorrect usage could lead to unstable output voltage. 

## ●DERATING TO START UP AT Ta : -40 to -30℃ 

**==> picture [185 x 165] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD（％）<br>Input Voltage<br>（VAC） Normal start up. Stable output after 3 minfrom start up.<br>90 - 170 30 60<br>170 - 265 50 70<br>DERATING CURVE<br>  80<br>  70<br>  60<br>  50<br>Normal start up.<br>40 Stable output after<br>3 min from start up.<br>30<br>20<br>10<br>0<br>90 170 265<br>Input Voltage（VAC）<br>LOAD（％）<br>**----- End of picture text -----**<br>


=NOTES= 

- *At Ta : -40 to -10 ℃ . 

- *Output voltage : Nominal output voltage. 

- *Input voltage : Not operate at 85 - 90VAC, and not gradual start up. 

- *Do not use the load that is constant current mode. 

- *Avoid forced air cooling. It is assumed that inside of power supply is heated by self-heating within 3 minutes. 

- *No dewdrop. 

- *Output voltage might be unstable at no load. In that case, apply minimum output current. 

- *Pay attention to above items before using the unit. Incorrect usage could lead to unstable output voltage. 

A-125 

・All specifications are subject to change without notice. 

**HWS150/HD** 

**HWS /HD** ] 

## **HWS150/HD Specifications** 

**ITEMS/UNITS MODEL HWS150-3/HD HWS150-5/HD HWS150-12/HD HWS150-15/HD HWS150-24/HD HWS150-48/HD** Oo Voltage Range ———_| (*3) V | | AC85 - 265 or DC120 - 370 — | 1 _1 Frequency (*3) Hz 47 - 63 -— ——F— Power Factor (100/200VAC)(typ) (*2) 0.98 / 0.90 0.99 / 0.95 Input a Efficiency (100/200VAC)(typ) (*2) ％ 78 / 81 83 / 86 85 / 88 ee Current (100/200VAC)(typ) (*2) ee A 1.3 / 0.65 1.9 / 0.95 Inrush Current (100/200VAC)(typ) (*4) A 14 / 28, Ta=25 ℃ , cold start —| Leakage Current (*11) mA Less than 0.5.  (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC) a Nominal Voltage VDC a 3.3 5 12 15 24 48 a Minimum Current (*1) A 0.3 0.1 0.07 0.03 a Maximum Current A a 30 13 10 6.5 3.3 a Maximum Power W a 99 150 156 150 156 158.4 a Maximum Line Regulation (*6) mV 20 48 60 96 192 Output Maximum Load Regulation (*7) mV 40 96 120 192 384 oe Temperature Coefficient e o Less than 0.02% / ℃ ~~a~~ Maximum Ripple & Noise (0<Ta<71 ℃ ) (*5) mVp-p 120 150 200 Maximum Ripple & Noise ( － 10<Ta ＜ 0 ℃ ) (*5) mVp-p 160 180 240 ~~e~~ o Hold-up Time (typ) ~~o~~ (*10) ms e 20 ~~a~~ Voltage Adjustable Range VDC 2.97 - 3.96 4.0 - 6.0 9.6 - 14.4 12.0 - 18.0 19.2 - 28.8 38.4 - 52.8 ~~a~~ Over Current Protection (*8) A >31.5 >13.6 >10.5 >6.82 >3.46 Over Voltage Protection (*9) VDC 4.13 - 4.95 6.25 - 7.25 15.0 - 17.4 18.8 - 21.8 30.0 - 34.8 55.2 - 64.8 Function ~~A~~ Remote Sensing Possible Parallel Operation - eeoe Series Operation Possible Line DIP Designed to meet SEMI-F47 (200VAC Line only) Operating Temperature (*12) ℃ -10 to +71 (-10 to +50: 100%, +60: 60%, +71: 20%) es Guarantee start up at -40 to -10 ee Storage Temperature ℃ -40 to +85 ee Operating Humidity ％ ae RH 30 - 90 (No dewdrop) Storage Humidity ％ RH 10 - 95 (No dewdrop) Environment At no operating, 10 - 55Hz (sweep for 1min) Vibration (*13) 19.6m/s² constant, X, Y, Z 1hour each. nn Designed to meet MIL-STD-810F 514.5 Category 4, 10 Less than 196.1m/s² Shock (In package) — Designed to meet MIL-STD-810F 516.5 Procedure I, VI Cooling Convection cooling Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA) Isolation[Withstand Voltage ] Output - FG : 500VAC (100mA) for 1min — Isolation Resistance More than 100M Ω at 25 ℃ and 70%RH Output - FG : 500VDC Approved by UL60950-1, CSA C22.2 No.60950-1, EN60950-1, EN50178 Safety Standards (*14) Designed to meet UL508, DENAN Standards ee PFHC Designed to meet IEC61000-3-2 EMI Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3), Immunity ——— -5(Level 3,4), -6(Level 3), -8(Level 4), -11 Mechanical pd[Weight (typ) ] g 500 Size (W x H x D) mm 37 x 82 x 160 (Refer to outline drawing) [- 

(*1) Output voltage might be unstable when start up at -40 to -10 ℃ and no load. In that case, apply minimum output current. 

- (*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*3) For cases where conformance to various safety specs (UL, CSA, EN) are required,to be described as 100 - 240VAC (50/60Hz). 

(*4) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*5) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

- (*6) 85 - 265VAC, constant load. 

(*7) No load-Full load, constant input voltage. 

- (*8) Constant current limit and hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

**●Recommended EMC Filter** 

- (*9) OVP circuit will shutdown output, manual reset (re power on). 

- (*10) At 100/200VAC, nominal output voltage and maximum output current. 

- (*11) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz). 

- (*12) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

   - For conditions of start up at -40 ℃ to -10 ℃ , refer to derating curve. 

- (*13) Category 4 exposure levels : Track transportation over U.S. highways, composite two-wheeled trailer. 

- (*14) As for DENAN, dsigned to meet at 100VAC. 

RSEL-2003W **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-126 

・All specifications are subject to change without notice. 

**HWS150/HD** 

**HWS /HD** 

## **Outline Drawing** 

## **【HWS150/HD】** 

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**----- Start of picture text -----**<br>
(10.7) VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>2-M4<br>＋S<br>＋V<br>5-M3.5<br>－V<br>－S<br>D t FG<br>AC(L)<br>AC(N)<br>Ter m inal      Recommended Solderless TerminalD （max） ｔ（max）   Qty（max） (14.6) 37±1 19MAX (17) 160±1135±0.5 8<br>＋V / －V 8.1mm 1.0mm 0.8mm  2pcs1pc<br> Others  6.8mm  0.8mm  2pcs SEE NOTE B<br>NOTES<br>A: MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT  NAME PLATE<br>VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF  SEE NOTE A<br>MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH<br>THE SPECIFICATIONS.<br>B: M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT  OUTPUT :  5 VINPUT : HWS150 - 5 /HD  100-240VAC   2.0 A  50/60Hz  30 A<br>PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>C: M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNT- (15) 131±0.5 14<br>ING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY<br>BY MORE THAN 6m/m.<br>ACCESSORIES* SHORT PIECE (NET 2) FOR SHORTING PURPOSE (+S  ～ +V, -S ●Please refer to instraction manual. GO!!<br>～ -V) : MOUNTED AT TIME OF SHIPMENT.<br>Output Derating<br>OUTPUT DERATING CURVE *COOLING : CONVECTION COOLING<br>120<br>LOAD(%)<br>100<br>Ta(°C) MOUNTING A MOUNTING B MOUNTING C, D<br>80 －10 to ＋30 100 100 100<br>60 MOUNTING A 40 100 100 90<br>40 MOUNTING B 50 100 80 80<br>60 60 60 60<br>20 MOUNTING C,D 71 20 20 20<br>0<br>-10 0 10 20 30 40 50 60 70 80 MOUNTING A MOUNTING B MOUNTING C MOUNTING D DON’T USE<br>(STANDARD MOUNTING)<br>Ta(°C)<br>8.6 ＋S<br>M4 ＋V<br>10<br>M4 －V<br>9.2 (75) 68±0.5 82±1<br>－S<br>7.3 FG<br>8.4 L<br>N<br>(9) 8<br>185. 17<br>(6.1)<br>LOAD(%)<br>**----- End of picture text -----**<br>


**GO!! A-155** 

## **Start-up condition at low temperature (Ta = -40 to -10** ℃ **)** 

## ●DERATING TO START UP AT Ta : -30 to -10℃ 

**==> picture [183 x 161] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Input Voltage<br>(VAC) Normal start up.    Stable output after 1 minfrom start up.<br>85 - 170 70 100<br>170 - 265 80 100<br>DERATING CURVE<br>120<br>100<br>80<br>60 Nomal start up.Stable output after<br>1 min from start up.<br>40<br>20<br>0<br>85 170 265<br>Input Voltage(VAC)<br>LOAD(%)<br>**----- End of picture text -----**<br>


- =NOTES= 

- *At Ta : -30 to -10 ° C. 

- *Output voltage : Nominal output voltage. 

- *Input voltage : Not gradual start up. 

- *Do not use the load that is constant current mode. 

- Avoid forced air cooling. It is assumed that inside of power supply is heated by self-heating within 1 minutes. 

- *No dewdrop. 

- Output voltage might be unstable at no load. In that case, apply minimum output current. 

- Pay attention to above items before using the unit. Incorrect usage could lead to unstable output voltage. 

- ●DERATING TO START UP AT Ta : -40 to -30℃ 

**==> picture [183 x 161] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Input Voltage<br>(VAC) Normal start up.    Stable output after 3 minfrom start up.<br>90 - 170 － 20<br>170 - 265 10 40<br>DERATING CURVE<br>  80<br>  70<br>  60<br>  50<br>Nomal start up.<br>40 Stable output after<br>3 min from start up.<br>30<br>20<br>10<br>0<br>90 170 265<br>Input Voltage(VAC)<br>LOAD(%)<br>**----- End of picture text -----**<br>


- =NOTES= 

- *At Ta : -40 to -10 ° C. 

- *Output voltage : Nominal output voltage. 

- *Input voltage : Not operate at 85 - 90VAC, and not gradual start up. 

- *Do not use the load that is constant current mode. 

- Avoid forced air cooling. It is assumed that inside of power supply is heated by self-heating within 3 minutes. 

- *No dewdrop. 

- Output voltage might be unstable at no load. In that case, apply minimum output current. 

- Pay attention to above items before using the unit. Incorrect usage could lead to unstable output voltage. 

A-127 

・All specifications are subject to change without notice. 

**HWS300/HD** 

**HWS /HD** ZZ 

## **HWS300/HD Specifications** 

|**ITEMS/UNITS**<br>**MODEL **<br>e~~e~~|**ITEMS/UNITS**<br>**MODEL **<br>e~~e~~|**ITEMS/UNITS**<br>**MODEL **<br>e~~e~~|**HWS300-3/HD **<br>ee|**HWS300-5/HD **<br>ee|**HWS300-12/HD **<br>ee|**HWS300-15/HD **<br>ee|**HWS300-24/HD **<br>ee|**HWS300-48/HD**|
|---|---|---|---|---|---|---|---|---|
|Input<br>-———___}_+—__l_____<br>||Voltage Range<br>(*3)<br>e~~e~~<br>Po|V<br>~~e~~|AC85 - 265 or DC120 - 330<br>eeeeeeeeee||||||
||Frequency<br>(*3)<br>e~~e~~<br>Po<br>e~~e~~|Hz<br>~~e ~~<br>~~e~~<br>ee|47 - 63<br> ee ee ee ee ee<br>ee||||||
||Power Factor (100/200VAC)(typ) (*2)<br>e~~e~~<br>ee|~~e~~<br>ee<br>ee<br>Gn|0.99 / 0.95<br>ee||||||
||Efficiency (100/200VAC)(typ)<br>(*2)<br>ee<br>~~R~~<br>-———___}_+—__l_____|％<br>ee<br>ee<br>~~R~~<br>Gn<br>-———___}_+—__l_____|74 / 77<br>ee<br>~~R~~s<br>-———___}_+—__l_____|79 / 82<br>s<br>-———___}_+—__l_____|80 / 83<br>s||82 / 85||
||Current (100/200VAC)(typ)<br>(*2)<br>~~R~~<br>-———___}_+—__l_____<br>||A<br>~~R~~<br>Gn<br>-———___}_+—__l_____|2.7 / 1.4<br>~~R~~s<br>-———___}_+—__l_____|3.8 / 1.9<br>s<br>-———___}_+—__l_____|4.1 / 2.1<br>s||||
||Inrush Current (100/200VAC)(typ) (*4)<br>-———___}_+—__l_____<br>|<br>t—“‘s‘CS™SCSCSCSY|A<br>-———___}_+—__l_____|20 / 40<br>-———___}_+—__l_____||||||
||Leakage Current<br>(*11)<br>-———___}_+—__l_____<br>|<br>t—“‘s‘CS™SCSCSCSY<br>Pe<br>———|mA<br>-———___}_+—__l_____<br>———|Less than 0.75.  (0.2 (typ) at 100VAC / 0.44 (typ) at 230VAC)<br>-———___}_+—__l_____<br>———||||||
|Output<br>_|Nominal Voltage<br>Pe<br>———<br>Re|VDC<br>———|3.3<br>———<br>GO|5<br>———<br>GO|12<br>———<br>GO|15<br>———<br>GO|24<br>———|48|
||Maximum Current<br>(*1)<br>———<br>Re|A<br>———<br>Gr|60<br>———<br>GO||27<br>———<br>GO|22<br>———<br>GO|14 (16.5)<br>———|7|
||Maximum Power<br>Re<br>Rs<br>ee|W<br>Rs<br>Gr|198<br>GO<br>Rs|300<br>GO<br>Rs<br>GO|324<br>GO<br>Rs<br>GO|330<br>GO<br>Rs<br>||336<br>|||
||Maximum Line Regulation<br>(*6)<br>Rs<br>Gn<br>ee|mV<br>Rs<br>Gr<br>Gn|20<br>Rs<br>Gn<br>GO||48<br>Rs<br>Gn<br>GO|60<br>Rs<br>Gn<br>||96<br>Gn<br>||192|
||Maximum Load Regulation<br>(*7)<br>Gn<br>ee|mV<br>Gn|30<br>Gn<br>GO||72<br>Gn<br>GO|90<br>Gn<br>||144<br>Gn<br>||288|
||Temperature Coefficient<br>ee<br>Po||Less than 0.02% /℃<br>GO<br>|||||||
||Maximum Ripple & Noise (0<Ta<70℃) (*5) <br>ee<br>Po<br>G~~n~~<br>e~~e~~|mVp-p<br>~~n~~|120<br>GO<br>QO||150<br>GO<br>|<br>QO|||350|
||Maximum Ripple & Noise (－10~~<~~Ta< 0℃) (*5) <br>G~~n~~<br>e~~e~~|mVp-p<br>~~n~~|180<br>QO||200<br>QO|||400|
||Hold-up Time (typ)<br>(*10)<br>e~~e~~<br>P~~o~~|ms|20<br>nnGQ<br>|||||||
||Voltage Adjustable Range<br>e~~e~~<br>P~~o~~<br>~~G~~<br>_|VDC<br>~~G~~<br>OG|2.64-3.96<br>~~G~~<br>nn<br>OG|4.0-6.0<br>~~G~~n<br>GQ<br>OG|9.6-14.4<br>n<br>GQ<br>GO|12.0-18.0<br>n<br>|<br>GO|19.2-28.8<br>n<br>||38.4-52.8|
|Function<br>_|Over Current Protection<br>(*8)<br>~~G~~<br>~~R~~<br>_|A<br>~~G~~<br>~~R~~<br>OG|>63<br>~~G~~<br>nn <br>~~R~~<br>OG|>63<br>~~G~~n<br> GQ<br>~~R~~e<br>OG|>28.4<br>n<br>GQ<br>e<br>GO|>23.1<br>n<br>|<br>e<br>GO|>16.7<br>n<br>|<br>e|>7.4|
||Over Voltage Protection<br>(*9) <br>~~R~~<br>_|VDC<br>~~R~~<br>OG|4.13-4.95<br>~~R~~<br>OG|6.25-7.25<br>~~R~~e<br>OG|15.0-17.4<br>e<br>GO|18.8-21.8<br>e<br>GO|30.0-34.8<br>e|55.2-64.8|
||Remote Sensing<br>_Po<br>ee|OG<br>ee|Possible<br>OGGO<br>ee||||||
||Remote ON/OFF Control<br>_Po<br>ee|OG<br>ee<br>ee|Possible<br>OG GO<br>ee<br>ee||||||
||Parallel Operation<br>Po<br>ee <br>ee|ee<br>ee<br>ee<br>ee|Possible<br>ee<br>ee<br>ee||||||
||Series Operation<br>Po<br>ee<br>ee|ee<br>ee<br>ee<br>ee<br>ee|Possible<br>ee<br>ee<br>ee||||||
||Monitoring Signal<br>ee<br>ee|ee<br>ee<br>ee<br>ee|PF (Open collector output)<br>ee<br>ee||||||
||Line DIP<br>ee<br>oo|ee<br>ee<br>oo|Designed to meet SEMI-F47 (200VAC Line only)<br>ee||||||
|Environment|Operating Temperature<br>(*12)(*13)<br>oo|℃<br>oo<br>ee|-10 to +71 (-10 to +50: 100%, +71: 50%)<br>Guarantee Start up at -40 to -10<br>ee||||||
||Storage Temperature<br>oo<br>ee|℃<br>oo<br>ee<br>ee<br>ee|-40 to +85<br>ee<br>ee||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee<br>ee<br>ee<br>ee|10 - 90 (No dewdrop)<br>ee<br>ee||||||
||Storage Humidity<br>ee<br>TY|％RH<br>ee<br>ee<br>TY|10 - 95 (No dewdrop)<br>ee||||||
||Vibration<br>(*14)<br>TY|TY|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.<br>Designed to meet MIL-STD-810F 514.5 Category 4,10||||||
||Shock (In package)<br>TY|TY|Less than 196.1m/s²<br>Designed to meet MIL-STD-810F 516.5 Procedure I, VI||||||
||Cooling||Forced air by blower fan||||||
|Isolation|Withstand Voltage||Input - FG : 2.5kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG: 500VAC (100mA), Output-CNT: 100VAC(100mA) for 1min||||||
||Isolation Resistance||More than 100MΩOutput - FG : 500VDC<br>More than 10MΩOutput -CNT : 100VDC at 25℃and 70%RH||||||
|Standards|Safety Standards<br>(*15)<br>—e|—e|Approved by  UL60950-1, CSA C22.2 No.60950-1, EN60950-1, EN50178<br>Designed to meet  DENAN||||||
||PFHC<br>—e|—e|Designed to meet IEC61000-3-2||||||
||EMI<br>—e|—e|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B||||||
||Immunity<br>—e|—e|Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||||
|Mechanical|Weight (typ)<br>—e<br>ee|g<br>—e<br>ee|1000||||||
||<br>Size (W x H x D)<br>ee<br>ee|mm<br>ee<br>ee|61 x 82 x 165 (Refer to outline drawing)||||||



(*1) (   ): Peak output current at 200VAC. Operaing time at peak output is less than 10sec, duty is less than 35%. 

(*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

(*3) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

(*4) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

(*5) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. 

(*6) 85 - 265VAC, constant load. 

(*7) No load-Full load, constant input voltage. 

(*8) 3.3, 5V model:   Constant current limit and hiccup with automatic recovery. 

12 - 48V model: Constant current limit with automatic recovery. 

**●Recommended EMC Filter** 

Avoid to operate at over load or short circuit condition for more than 30 seconds. 

(*9) OVP circuit will shut the output down, manual reset (CNT reset or re power on). 

(*10) At 100/200VAC, nominal output voltage and maximum output current. 

(*11) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

(*12) Ratings  - Derating at standard mounting. Refer to output derating curve. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

(*13) For -40 ° C to -10 ° C need 3minutes to stabilize the output voltage. 

(*14) Category 4 exposure levels : Truck transportation over U.S. highways, composite two-wheeled trailer. 

(*15) As for DENAN, designed to meet at 100VAC. 

RSEN-2006 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-128 

・All specifications are subject to change without notice. 

**HWS300/HD** 

**HWS /HD** 

## **Outline Drawing** 

## **【HWS300/HD】** 

**==> picture [473 x 364] intentionally omitted <==**

**----- Start of picture text -----**<br>
（10.7）7.3 NAME PLATE<br>（8.9） SEE NOTE A AIR FLOW<br>4-M4<br>HWS300-24/HD<br>SEE NOTE B<br>(TAPPED AT THE BOTTOM CHASSIS)<br>FAN<br>3-M4 （14.6） 25 105±0.5<br>（46.9）<br>61±1 165±1<br>25 120±0.5<br>== NOTES ==<br>A : MODEL NAME, NOMINAL OUTPUT VOLT-<br>AGE AND MAXIMUM OUTPUT CURRENT<br>ARE SHOWN IN THE NAME PLATE  IN<br>ACCORDANCE WITH THE SPECIFICA- 22 MAX<br>TIONS.<br>B : M4 TAPPED HOLES (8) FOR CUSTOMER  SEE NOTE B<br>CHASSIS MOUNTING.(SCREW<br>PENETRATION DEPTH 6m/m MAX.)<br>18 MAX<br>== ACCESSORIES ==<br>* COVER FOR BARRIER TERMINAL STRIP ------1 5 MAX<br>(ATTACHED ON TERMINAL AT SHIPMENT)<br>* SHORT PIECE ---------------------1 [unit：mm]<br>7.2<br>11<br>15<br>14<br>11<br>82±1 60±0.5<br>（66.6）<br>10<br>（47）<br>10<br>（34.5）<br>11<br>（9.5）<br>40±0.5<br>10.5<br>**----- End of picture text -----**<br>


- SHORT PIECE ---------------------1 SHORTING +Vm   +S, -Vm   -S, CNT   TOG (ATTACHED ON CN1 AT SHIPMENT) 

|== OPTIONAL MODELS ==|== OPTIONAL MODELS ==|== OPTIONAL MODELS ==|== OPTIONAL MODELS ==|== OPTIONAL MODELS ==|
|---|---|---|---|---|
||MODEL|||COATING|
||HWS300-*||||
||HWS300-*|/CO|||
||HWS300-*|/HD|||



== SIGNAL CONNECTOR USED == 

**==> picture [196 x 89] intentionally omitted <==**

**----- Start of picture text -----**<br>
PART DESCRIPTION PART NAME MANUFACT<br>PIN HEADER S12B-PHDSS JST<br>== MATCHING HOUSINGS , PINS & TOOL ==<br>PART DESCRIPTION PART NAME MANUFACT<br>SOCKET HOUSING PHDR-12VS JST<br>TERMINAL PINS SPHD-002T-P0.5(AWG28~24) JST<br>SPHD-001T-P0.5(AWG26~22)<br>HAND CRIMPING TOOL YRS-620(SPHD-002T-P0.5) JST<br>YC-610R(SPHD-001T-P0.5)<br>**----- End of picture text -----**<br>


## **OUTPUT DERATING** 

**==> picture [199 x 123] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>100<br>80<br>60<br>40<br>20<br>0<br>10 0 10 20 30 40 50 60 70 [71] 80<br>Ta (°C)<br>LOAD (%)<br>**----- End of picture text -----**<br>


**==> picture [234 x 138] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD(%)<br>Ta(°C)<br>MOUNTING A MOUNTING B<br>－10 to +50 100<br>71 20<br>MOUNTING A MOUNTING B DON'T USE<br>(STANDARD MOUNTING)<br>**----- End of picture text -----**<br>


**GO!!** 

**●Please refer to instraction manual.** 

**A-161** 

A-129 

・All specifications are subject to change without notice. 

**HWS600/HD** 

**HWS /HD** 

## **HWS600/HD Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**HWS600-3/HD **<br>||**HWS600-5/HD **<br>1|**HWS600-12/HD **<br>||**HWS600-15/HD **<br>1|**HWS600-24/HD **<br>_|**HWS600-48/HD**|
|---|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*3)<br>~~|~~<br>ee|V<br>~~|~~|AC85 - 265 or DC120 - 330<br>|<br>1<br>|<br>1_||||||
||Frequency<br>(*3)<br>~~|~~<br>ee<br>+~~+~~|Hz<br>~~|~~<br>~~+~~|47 - 63<br>|<br>1<br>|<br>1 _||||||
||Power Factor (100/200VAC)(typ) (*2)<br>+~~+~~<br>ee|~~+~~<br>nD|0.99 / 0.95<br>nD<br>I(O||||||
||Efficiency (100/200VAC)(typ)<br>(*2)<br>+~~+~~<br>ee<br>~~n~~|％<br>~~+~~<br>~~n~~<br>nD|75 / 78<br>~~n~~<br>nD|80 / 83<br>~~n~~y<br>I(O||81 / 84<br>y<br>(O|82 / 85<br>y|83 / 86|
||Current (100/200VAC)(typ)<br>(*2)<br>~~n~~<br>ee|A<br>~~n~~<br>nD<br>ee|5.4 / 2.6<br>~~n~~<br>nD<br>ee|7.5 / 3.6<br>~~n~~y<br>I<br>ee|8.1 / 3.9<br>y<br>I(O||||
||Inrush Current (100/200VAC)(typ) (*4)<br>ee<br>PO|A<br>ee|20 / 40<br>ee||||||
||Leakage Current<br>(*11)<br>ee<br>PO<br>Po<br>SS|mA<br>ee<br>SS|Less than 0.75.  (0.2 (typ) at 100VAC / 0.44 (typ) at 230VAC)<br>ee<br>SS||||||
|Output<br>——————————|Nominal Voltage<br>Po<br>SS|VDC<br>SS<br>nn|3.3<br>SS|5<br>SS<br>(On|12<br>SS<br>(On|15<br>SS|24<br>SS<br>||48<br>||
||Maximum Current<br>(*1)<br>SS<br>ns<br>nD|A<br>SS<br>ns<br>nn<br>nD|120<br>SS<br>ns<br>(On<br>(OU||53<br>SS<br>ns<br>(On<br>(OU|43<br>SS<br>ns<br>(OU|27 (31)<br>SS<br>ns<br>||13<br>||
||Maximum Power<br>ns<br>nD|W<br>ns<br>nn<br>nD<br>ny|396<br>ns<br>ne|600<br>ns<br>(On<br>(OU<br>ne|636<br>ns<br>(On<br>(OU<br>(OU|645<br>ns<br>(OU<br>(OU|648<br>ns<br>||624<br>||
||Maximum Line Regulation<br>(*6)<br>nD<br>ey<br>——————————|mV<br>nD<br>ey<br>ny<br>——————————|20<br>(OU<br>ey<br>ne<br>——————————||48<br>(OU<br>ey<br>(OU<br>——————————|60<br>(OU<br>ey<br>(OU<br>——————————|96<br>ey<br>——————————|192|
||Maximum Load Regulation<br>(*7)<br>ey<br>——————————|mV<br>ey<br>ny<br>——————————|30<br>ey<br>ne<br>——————————||72<br>ey<br>(OU<br>——————————|90<br>ey<br>(OU<br>——————————|144<br>ey<br>——————————|288|
||Temperature Coefficient<br>——————————<br>Po|——————————<br>nn|Less than 0.02% /℃<br>——————————<br>nn(||||||
||Maximum Ripple & Noise (0<Ta<70℃) (*5) <br>——————————<br>Po<br>e<br>~~e~~|mVp-p<br>——————————<br>e<br>nn<br>~~e~~|120<br>——————————<br>ey<br>nn<br>~~e~~e||150<br>——————————<br>y<br>(<br>e|||350|
||Maximum Ripple & Noise (－10~~<~~Ta< 0℃) (*5) <br>e<br>~~e~~|mVp-p<br>e<br>nn<br>~~e~~|180<br>ey<br>nn <br>~~e~~e||200<br>y<br> (<br>e|||400|
||Hold-up Time (typ)<br>(*10)<br>~~e~~<br>P~~o~~|ms<br>~~e~~<br>nD|20<br>~~e~~e<br>(GO||||||
||Voltage Adjustable Range<br>~~e~~<br>P~~o~~<br>~~e~~|VDC<br>~~e~~<br>~~e~~<br>nD<br>I|2.64-3.96<br>~~e~~<br>~~e~~|4.0-6.0<br>~~e~~e<br>~~e~~n<br>(GO<br>(||9.6-14.4<br>e<br>n<br>(GO<br>(||12.0-18.0<br>e<br>n<br>(GO<br>(||19.2-28.8<br>e<br>n<br>(||38.4-52.8|
|Function<br>———————————<br> <br>fF|Over Current Protection<br>(*8)<br>~~e~~<br>~~n~~<br>———————————|A<br>~~e~~<br>nD<br>~~n~~<br>I<br>———————————|>126<br>~~e~~n<br>(GO<br>~~n~~D<br>(|<br>———————————||>55.7<br>n<br>(GO<br>D<br>(|<br>———————————|>45.2<br>n<br>(GO<br>D<br>(|<br>———————————|>31.4<br>n<br>D<br>(|<br>———————————|>13.7|
||Over Voltage Protection<br>(*9) <br>~~n~~<br>———————————|VDC<br>~~n~~<br>I<br>———————————|4.13-4.95<br>~~n~~<br>———————————|6.25-7.25<br>~~n~~D<br>(|<br>———————————|15.0-17.4<br>D<br>(|<br>———————————|18.8-21.8<br>D<br>(|<br>———————————|30.0-34.8<br>D<br>(|<br>———————————|55.2-64.8|
||Remote Sensing<br>———————————<br>**e**e|———————————|Possible<br>———————————||||||
||Remote ON/OFF Control<br>———————————<br>**e**e|———————————|Possible<br>———————————||||||
||Parallel Operation<br>**e**e<br>ee|ee|Possible||||||
||Series Operation<br> **e**e<br>ee<br>e|ee<br>e|Possible||||||
||Monitoring Signal<br>e<br>ee<br>fF|e<br>ee<br>|PF (Open Collector Output)||||||
||Line DIP<br>ee<br>fFr—sS<br>|ee<br>r—sS<br>||Designed to meet SEMI-F47 (200VAC Line only)<br>|||||||
|Environment<br>fF<br>fF|Operating Temperature<br>(*12)(*13)<br>fFr—sS<br>ee|℃<br>r—sS<br>ee||-10 to +71 (-10 to +50: 100%, +71: 50%) Guarantee start up at -40 to -10<br>|||||||
||Storage Temperature<br>ee<br>ee|℃<br>ee|<br>ee|-40 to +85<br>|||||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee<br>ee|10 - 90%RH (No dewdrop)||||||
||Storage Humidity<br>ee<br>7|％RH<br>ee<br>7|10 - 95%RH (No dewdrop)||||||
||Vibration<br>(*14)<br>7<br>fF|7<br>|At no operating, 10 - 55Hz (sweep for 1min) 19.6m/s² constant, X, Y, Z 1hour each.<br>Designed to meet MIL-STD-810F 514.5 Category 4, 10||||||
||Shock (In package)<br>7<br>fF—<br>ee|7<br>—<br>ie|Less than 196.1m/s² Designed to meet MIL-STD-810F 516.5 Procedure I, VI<br>ie||||||
||Cooling<br>fF<br>ee|ie|Forced air by blower fan<br>ie||||||
|Isolation|Withstand Voltage<br>ee|ie|Input - FG : 2.5kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA),Output - CNT : 100VAC(100mA) for 1min<br>ie||||||
||Isolation Resistance<br>ee <br>|ie<br>a|More than 100MΩOutput - FG : 500VDC<br>More than 10MΩOutput - CNT : 100VDC at 25℃and 70%RH<br>ie<br>a||||||
|Standards|Safety Standards<br>(*15)<br>ee|eea|Approved by UL60950-1, CSA C22.2 No 60950-1, EN60950-1, EN50178<br>Designed to meet DENAN<br>a||||||
||PFHC<br>ee|eea|Designed to meet IEC61000-3-2<br>a||||||
||EMI<br>ee<br>TT|eea<br>TT|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B<br>a||||||
||Immunity<br>TT<br>|TT<br>||Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>|||||||
|Mechanical|Weight (typ)<br>TT<br>es<br>|g<br>TT<br>es|<br>||1600<br>|<br>|||||||
||<br>Size (W x H x D)<br><br>ee|mm<br>|<br>ee||100 x 82 x 165 (Refer to outline drawing)<br>|<br>|||||||



- (*1) (   ): Peak output current at 200VAC. Operating time at peak output is less than 10sec, duty is less than 35%. 

- (*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*3) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

(*4) Not applicable for the in-rush current to noise filter for less than 0.2ms. Inrush Current is 30A (typ) when PFHC start-up. 

- (*5) Measure with JEITA RC-9131A probe, bandwidth of scope : 100MHz. 

- (*6) 85 - 265VAC, constant load. 

(*7) No load - Full load, constant input voltage. 

- (*8) 3V and 5V model: Constant current limit and hiccup with automatic recovery. 

   - 12 - 48V model:    Constant current limitwith automatic recovery. 

**●Recommended EMC Filter** 

Avoid to operate at over load or short circuit condition for more than 30 seconds. 

- (*9) OVP circuit will shut the output down, manual reset (CNT reset or Re-power on). 

- (*10) At 100/200VAC, nominal output voltage and maximum output current. 

- (*11) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

- (*12) Ratings - Derating at standard mounting. Refer to output derating curve. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

- (*13) For -40 ℃ to -10 ℃ need 3 minutes to stabilize the output voltage. 

- (*14) Category 4 exposure levels : Truck transportation over U.S. highways, composite two-wheeled trailer. 

- (*15) As for DENAN, designed to meet at 100VAC. 

RSEN-2016 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-130 

・All specifications are subject to change without notice. 

**HWS600/HD** 

**HWS /HD** 

## **Outline Drawing** 

## **【HWS600/HD】** 

**==> picture [489 x 334] intentionally omitted <==**

**----- Start of picture text -----**<br>
NAME PLATE<br>4-M5 16 17.5 16 （37.7） SEE NOTE A SEE NOTE B AIR FLOW<br>HWS600-5 /ME<br>26MAX<br>18MAX 25 120±0.5<br>10 10 （10）<br>165±1<br>（88.8） 3-M4<br>7.2 （79.5） 20 110±0.5<br>100±1<br>== OPTIONAL MODELS ==<br>MODEL COATING<br>HWS600-* ー<br>HWS600-*/CO<br>HWS600-*/HD SEE NOTE B<br>== SIGNAL CONNECTOR USED == 5 MAX<br>82±1 40±0.5<br>（63.9）<br>15 （14.6）<br>（44.5）<br>（14.6） 21<br>60±0.5<br>20<br>**----- End of picture text -----**<br>


**==> picture [224 x 95] intentionally omitted <==**

**----- Start of picture text -----**<br>
PART DESCRIPTION PART NAME MANUFACT<br>PIN HEADER S12B-PHDSS JST<br>== MATCHING HOUSINGS, PINS & TOOL ==<br>PART DESCRIPTION PART NAME MANUFACT<br>SOCKET HOUSING PHDR-12VS JST<br>TERMINAL PINS SPHD-002T-P0.5(AWG28SPHD-001T-P0.5(AWG26 ～～ 24)22) JST<br>HAND CRIMPING TOOL YRS-620(SPHD-002T-P0.5) JST<br>YC-610R(SPHD-001T-P0.5)<br>**----- End of picture text -----**<br>


- == NOTES == 

- A: MODEL NAME, NOMINAL OUTPUT VOLTAGE AND [unit：mm] MAXIMUM OUTPUT CURRENT ARE SHOWN IN THE NAME PLATE IN ACCORDANCE WITH THE SPECIFICATIONS. 

- B: M4 TAPPED HOLES (8) FOR CUSTOMER CHASSIS MOUNTING. (SCREW PENETRATION DEPTH 6m/m MAX.) 

- == ACCESSORIES == 

- COVER FOR BARRIER TERMINAL STRIP -----1 (ATTACHED ON TERMINAL AT SHIPMENT) 

- SHORT PI ~~ECE --------------------1~~ SHORTING +Vm - +S, -Vm - -S, CNT TOG (ATTACHED ON CN1 AT SHIPMENT) 

## **Derating Curve** 

**==> picture [193 x 92] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>100<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 [71] 80<br>Ta （℃）<br>LOAD (%)<br>**----- End of picture text -----**<br>


**==> picture [235 x 140] intentionally omitted <==**

**----- Start of picture text -----**<br>
LOAD（％）<br>Ta（℃）<br>MOUNTING A MOUNTING B<br>－10 to ＋50 100<br>71 50<br>MOUNTING A MOUNTING B DON’T USE<br>（STANDARD MOUNTING）<br>**----- End of picture text -----**<br>


**●Please refer to instraction manual.** 

**GO!! A-161** 

A-131 

・All specifications are subject to change without notice. 

**HWS1500/HD** 

**HWS /HD** 

## **HWS1500/HD Specifications** 

|**ITEMS/UNITS**<br>**MODEL **<br>———_||**ITEMS/UNITS**<br>**MODEL **<br>———_||**ITEMS/UNITS**<br>**MODEL **<br>———_||**HWS1500-12/HD **<br>———_|<br>||**HWS1500-15/HD **<br>—_||**HWS1500-24/HD **<br>|—_||**HWS1500-36/HD **<br>—_|—__]|**HWS1500-48/HD**<br>—__]|
|---|---|---|---|---|---|---|---|
|Input<br>—<br>-—|Voltage Range<br>(*2)<br>———_|<br>Oo|V<br>———_||AC85 - 265<br>———_|<br>|<br>—_|—_|—__]|||||
||Frequency<br>(*2)<br>———_|<br>Oo<br>or<br>—|Hz<br>———_|<br>or<br>|47 - 63<br>———_|<br>|<br>—_| —_| —__]<br>|||||
||Power Factor (100/230VAC)(typ) (*1)<br>or<br>—<br>S|or<br><br>ee|0.98 / 0.94<br><br>eeee|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>or<br>—**e**<br>S|％<br>or<br>**e**<br>ee|82 / 85<br>**e**s<br>ee|83 / 87<br>s<br>ee|84 / 88<br>s||86 / 90|
||Current (100/200VAC)(typ)<br>(*1)<br>**e**<br>S|A<br>**e**<br>ee|19.0 / 10.0<br>**e**s<br>eeee|||||
||Inrush Current (100/200VAC)(typ) (*3)<br>**e**<br>S<br>|<br>-—|A<br>**e**<br>ee<br>|<br>|20 / 40<br>**e**s<br>ee ee<br>|||||
||Leakage Current (100/240VAC) (*10)<br>|<br>-—|mA<br>|<br>|1.5 max<br>|||||
|Output<br>-—<br>—<br>-—<br>—<br>|Nominal Voltage<br>|<br>-—A|V<br>|<br>A|12<br>A|15<br>A|24<br>A|36<br>A|48|
||Maximum Current (100/200VAC)<br>A<br>A|A<br>A<br>A|125 / 125<br>A<br>A|100 / 100<br>A<br>A|65 / 70<br>A<br>A|42 / 46.5<br>A<br>A|32 / 32|
||Maximum Peak Current (200VAC) (*13)<br>A<br>a|A<br>A<br>a|－<br>A<br>a||105<br>A<br>a|70<br>A<br>a|－|
||Maximum Power (100VAC)<br>a<br>a|W<br>a<br>a<br>a|1500<br>a<br>a<br>a||1560<br>a<br>a<br>a|1512<br>a<br>a<br>a|1536<br>a|
||Maximum Power (200VAC)<br>a<br>A|W<br>a<br>a<br>A|1500<br>a<br>a<br>A||1680<br>a<br>a<br>A|1674<br>a<br>a<br>A|1536<br>a|
||Maximum Peak Power (200VAC) (*13)<br>A<br>a|W<br>A<br>a|－<br>A<br>a||2520<br>A<br>a||－|
||Maximum Line Regulation<br>(*5)<br>A<br>a<br>a<br>—|mV<br>A<br>a<br>a<br>ee|48<br>A<br>a<br>a<br>ee|60<br>A<br>a<br>a<br>ee|96<br>A<br>a<br>a<br>ee|144<br>A<br>a<br>a|192|
||Maximum Load Regulation<br>(*6)<br>a<br>es<br>—|mV<br>a<br>es<br>ee|72<br>a<br>es<br>ee|90<br>a<br>es<br>ee|144<br>a<br>es<br>ee|150<br>a<br>es|288|
||Temperature Coefficient<br>es<br>—|es<br>ee|Less than 0.02%/℃<br>es<br>eeeeee|||||
||Maximum Ripple & Noise (0 to +71℃) (*4) <br>es<br>—a<br>es|mVp-p<br>es<br>ee|150<br>es<br>ee ee <br>ee||200<br>es<br> ee<br>ee|||
||Maximum Ripple & Noise (－10 to 0℃) (*4) <br>a<br>es<br>-—|amVp-p<br>|200<br>ee<br>|||240<br>|400|
||Hold-up Time (typ)<br>(*9)<br>es<br>-—<br>—<br>|ms<br><br>|20<br>ee<br><br>eseee**e**<br>|||||
||Voltage Adjustable Range<br>es<br>-—ee<br>—<br>|VDC<br>ee<br>|9.6 - 14.4<br>ee<br>es<br>|12.0 - 18.0<br>ee<br>ee<br>ee<br>|19.2 - 28.8<br>ee<br>ee<br>e<br>|28.8 - 43.2<br>ee<br>e**e**|38.4 - 52.8|
|Function<br><br>—<br>|Over Current Protection<br>(*7)<br>ee<br>—<br>**e**|ee<br>**e**s|>105%<br>ee<br>eseee**e**<br>see<br>e|||||
||Over Voltage Protection<br>(*8)<br>ee<br>—<br>**e**|V<br>ee<br>**e**s|15.0 - 17.4<br>ee<br>es<br>s|18.7 - 21.8<br>ee<br>ee<br>s|30.0 - 34.8<br>ee<br>e<br>ee|45.0 - 49.7<br>ee<br>e**e**<br>e|55.2 - 64.8<br>e|
||Remote Sensing<br>—<br> **e**<br>e|**e**s|Possible<br>es ee e**e**<br>see<br>e|||||
||Remote ON/OFF Control<br> **e**<br>e<br>ee|**e**s<br>ee|Possible<br>s ee<br>e|||||
||Parallel Operation<br>ee<br>ee|ee<br>ee|Possible|||||
||Series Operation<br>ee<br>eo|ee<br>eo|Possible|||||
||Monitoring Signal<br>eo<br>ee|eo<br>ee|PF (Open collector output)|||||
||Line DIP<br>ee<br>ee|ee<br>ee|Designed to meet SEMI-F47 (200VAC Line only)|||||
||Other Function<br>ee<br>OT|ee<br>OT|PCB Coating on solder side and component side.|||||
|Environment<br>-—<br>-—|Operating Temperature<br>(*11)<br>OT<br>-—|℃<br>OT|-10 to +71 ( -10 to +50: 100%, +60: 75%,+71: 50%),<br>Guarantee start up at -40 to -10|||||
||Storage Temperature<br>OT<br>-—<br>-—|℃<br>OT<br>|-40 to +85|||||
||Operating Humidity<br>-—<br>-—|％RH<br>|10 - 90 (No dewdrop)|||||
||Storage Humidity<br>-—I|％RH<br>I|10 - 95 (No dewdrop)|||||
||Vibration<br>(*14)<br>I|I|At no operating, 10 - 55Hz (sweep for 1min.) 19.6m/s² constant, X,Y,Z 1h each.<br>Designed to meet MIL-STD-810F 514.5 Category4 figure 514.5C-1|||||
||Shock (In package)<br>I<br>ee|I<br>ee|Less than 196.1m/s2|||||
||Cooling<br>ee<br>OT|ee<br>OT|Forced air by blower fan|||||
|Isolation|Withstand Voltage<br>OT|OT|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output-FG : 500VAC (300mA), Output-CNT:100VAC (100mA) for 1min.|||||
||Isolation Resistance<br>OT|OT|More than 100Mohm Output - FG ... 500VDC<br>More than 10Mohm Output - CNT ... 100VDC   at 25℃and 70%RH|||||
|Standards|Safety Standards<br>(*12)<br>—=|—=|Built to meet UL60950-1, CSA C22.2 NO,60950-1, EN60950-1, EN50178.<br>Designed to meet DENAN.|||||
||PFHC<br>—=|—=|Designed to meet IEC61000-3-2|||||
||EMI<br>—=|—=|Designed to meet EN55011/EN55022-A, FCC-ClassA, VCCI-ClassA.|||||
||Immunity<br>—=<br>ee|—=<br>ee|Designed to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11|||||
|Mechanical|Weight (typ)<br>—=<br>ee|g<br>—=<br>ee|3800|||||
||<br>Size (W x H x D)<br>ee|mm<br>ee|126.5 x 82 x 280 (Refer to outline drawing)|||||



(*1) At Ta=25 ℃ and maximum output power. 

(*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, input voltage range will be 100 - 240VAC (50/60Hz). 

- (*3) First in-rush current. Not applicable for the in-rush current to noise filter less than 0.2ms. 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope :100MHz. （ at 22uF electric capacitor and 0.47uF film capacitor on the test fixture board.) 

- (*5) 85 - 265VAC , constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Constant current limit with automatic recovery. An output will be intercepted if it continues for about 5 seconds. 

- (*8) OVP circuit will shut down output, manual reset (power cycle) or ON/OFF CNT signal reset. 

**●Recommended EMC Filter** 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, CSA, EN and DENAN (at 60Hz), Ta=25 ℃ . 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- For conditions of start up at -40 ℃ to -10 ℃ , refer to derating curve. 

- (*12) As for DENAN, designed to meet at 100VAC. 

- (*13) Peak output current is less than 10 seconds, and duty 35% max. 

(*14) Category 4 exposure levels : Track transportation over U.S. highways. 

RSEN-2030 **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-132 

・All specifications are subject to change without notice. 

**HWS1500/HD** 

**HWS /HD** 

## **Outline Drawing** 

## **【HWS1500/HD】** 

**==> picture [502 x 689] intentionally omitted <==**

**----- Start of picture text -----**<br>
SEE NOTE B<br>82±1 8-M4 (BOTH SIDES)<br>（56.8） SEE NOTE A<br>（23.3） 20 BUS BAR SPACER 46MAX 10 260±0.5<br> (RED)<br>BUS BAR SPACER<br> (BLACK) AIR<br>OUTPUT TERMINAL FLOW<br>SEE NOTE C<br>INPUT TERMINAL<br>SEE NOTE C<br>（14.6） 4-M4 NAME PLATE<br>35±1<br>20±1 8-M4 (BOTH SIDES)<br>SEE NOTE A<br>4-M4<br>NOTES<br>A: M4 TAPPED HOLES (16) FOR CUSTOMER CHASSIS<br>MOUNTING.<br>〔 SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY  10 260±0.5<br>MORE THAN 6m/m. 〕 20MAX 280±1 4MAX<br>RECOMMENDED M4 SCREWS TORQUE : 1.27N ・ m<br>B: I/O SIGNAL CONNECTOR<br>CONNECTOR  : S12B-PHDSS(LF)(SN)  (JST) [Unit ： mm]<br>MATCHING HOUSING   : PHDR-12VS   (JST)<br>MATCHING CONTACT   : SPHD-002T-P0.5(AWG28 ～ 24)  (JST) OR  ACCESSORIES<br>  SPHD-001T-P0.5(AWG26 ～ 22)  (JST) OR * ATTACHED CONNECTOR<br>  BPHD-001T-P0.5(AWG26 ～ 22)  (JST) SHORTING +S ～ +V, -S ～ -V, PV ～ REF & CNT ～ TOG<br>HAND CRIMPING TOOL  : YRS-620(SPHD-002T-P0.5)  (JST) ATTACHED ON CN01 AT SHIPMENT<br>  YC-610R(SPHD-001T-P0.5)  (JST)<br>  YC-610R(BPHD-001T-P0.5)  (JST)<br>C: RECOMMENDED TORQUE FOR THE TERMINAL PIECE.<br>INPUT TERMINAL (M4 SCREW)    : 1.27N ・ m<br>OUTPUT TERMINAL (M8 BOLT & NUT)   : 10.8N ・ m<br>OUTPUT TERMINAL (M4 SCREW)  : 1.27N ・ m<br>OUTPUT DERATING<br>LOAD（％） LOAD（％）<br>Ta（℃） MOUNTING A, B, C, D Ta（℃） MOUNTING A, B, C, D<br>85V ＞90V 85V ＞90V<br>－10 to ＋50 80 100 －40 to －20 40 40<br>60 60 75 －20 80 100<br>71 40 50 －10 80 100<br>100 120<br>100<br>80<br>80<br>60<br>85V 60 85V<br>＞90V ＞90V<br>40<br>40<br>20 20<br>0 0<br>-10 0 10 20 30 40 50 60 70 80 -50 -40 -30 -20 -10<br>Ta (℃)<br>Ta （℃） =NOTES=<br>1) Input voltage: Not gradual start up.<br>2) No dewdrop.<br>3) Output voltage becomes more stable by performing the following.<br>a) Electrolytic capacitor is added to an output.<br>+12V : LXZ 25V 2700uF (NIPPON CHEMI-CON) x3 parallel<br>+15V : LXZ 25V 2700uF (NIPPON CHEMI-CON) x3 parallel<br>+24V : LXZ 35V 1800uF (NIPPON CHEMI-CON) x3 parallel<br>(STANDARD MOUNTING)MOUNTING A MOUNTING B MOUNTING C +36V : LXZ 50V 1000uF (NIPPON CHEMI-CON) x3 parallel+48V : LXZ 63V 8200uF (NIPPON CHEMI-CON) x3 parallel<br>b) Remote sensing function is used.<br>Connect "+S" terminal to "+" terminal of the electrolytic capacitor<br>and "-S" terminal to "-" terminal of the electrolytic capacitor with sensing wires.<br>4) Pay attention to above items before using the unit. Incorrect usage could lead to unstable<br>output voltage.<br>MOUNTING D Inhibit<br>2-φ9<br>7.25<br>（9.1） 23.7±1<br>3<br>（11.2）<br>25±1<br>（73.6）<br>3<br>126.5±1 11 112±0.5<br>11<br>11<br>HD HD<br>22 10<br>20<br>60±0.5<br>45.5±1<br>11<br>LOAD （%） LOAD (%)<br>**----- End of picture text -----**<br>


## **●Please refer to instruction manual.** 

**GO!!** 

**A-169** 

A-133 

・All specifications are subject to change without notice. 

**==> picture [213 x 32] intentionally omitted <==**

A-134 

**Single Output 30W-1500W** 

## HWS/ME **SERIES** 

**==> picture [66 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
DENAN a warranty 5 YEARS<br>**----- End of picture text -----**<br>


## **■ Features** 

- ●AC-DC switching power supply for medical equipment. 

- ・Approval UL60601-1 (see note) 

- ~~・Appro~~ val EN60601-1 (see note) 

- ~~・Appro~~ val CSA C22.2 No.601.1-M90 (see note) 

- ~~●Environ~~ mentally-friendly: Conforming to RoHS directives 

High-efficiency technology reduces power loss by ~~heat g~~ eneration. Fan stopping in power-off by exter- ~~nal con~~ trol realizes silence and energy saving. 

- ●Easy to use: All models in the same hight of 82mm. Mountable in 2U-height racks without dead space. 

- ●Safety and reliability: “Safety terminal” covering current flowing part secures safety for users. “No screw-dropping” design prevents from losing screws during maintenance operation. 

## **■ Model naming method** 

**〔HWS30-150〕 HWS 50 − 5 / ME** Series name Output power ME: Without cover, approved by safety standardss for medical equipment Oe ] — **HWS** Nominal output voltage    ex. 3: 3.3V, 5: 5V, 48: 48V **/ME** 

## **〔HWS300-1500〕 HWS 300 − 5 / ME** 

Series name Output power ~~a~~ | 7 

ME: With cover and forced air cooling by builtin fan, approved safety standards for medical equipment (except for HWS1000) 

Nominal output voltage ex. 3: 3.3V, 5: 5V, 48: 48V 

- ●HWS1500-48 realizes as high efficiency as 90%. Synchronous rectifier circuit improved efficiency of low voltage models by over 10% (HWS150-5). 

## **■ Applications** 

## **■ Conformity to RoHS Directive** 

This means that, in conformity with EU Directive 2002/95/ EC, lead, cadmium, mercury, hexavalent chromium, and specific bromine-based flame retardants, PBB and PBDE, have not been used, except for exempted applications. 

## **■ Product Line up** 

|||30W||50W||100W||150W|
|---|---|---|---|---|---|---|---|---|
|Output Voltage|Output Current|Model|Output Current|Model|Output Current|Model|Output Current<br>Model||
|5V|6A|HWS30-5/ME|10A|HWS50-5/ME|20A|HWS100-5/ME||30A<br>HWS150-5/ME|
|12V|2.5A|HWS30-12/ME|4.3A|HWS50-12/ME|8.5A|HWS100-12/ME||13A<br>HWS150-12/ME|
|15V|2A|HWS30-15/ME|3.5A|HWS50-15/ME|7A|HWS100-15/ME||10A<br>HWS150-15/ME|
|24V|1.3A|HWS30-24/ME|2.2A|HWS50-24/ME|4.5A|HWS100-24/ME||6.5A<br>HWS150-24/ME|
|48V|0.65A|HWS30-48/ME|1.1A|HWS50-48/ME|2.1|HWS100-48/ME||3.3A<br>HWS150-48/ME|
|||300W||600W||1500W||(Note) The following con-<br>ditions are required.|
|Output Voltage|Output Current|Model|Output Current<br>（Peak）|Model|Output Current<br>（＊）<br>(Peak）<br>Model|||● Please use the insu-<br>lating material for the<br>equipment chassis when|
|5V|−|−|−|−|−|−||the power supply is<br>used in the equipment|
|12V|27A|HWS300-12/ME|−|−|−|−||near patients.|
|15V|22A|HWS300-15/ME|−|−|−|−||● Approved with the ba-<br>sic insulation, an addi-|
|24V|14A（16.5A）HWS300-24/ME||27A（31A）HWS600-24/ME||65A/70A（105A）HWS1500-24/ME|||tional insulation circuit|
|36V|−|−|−|−|42A/46.5A（70A）HWS1500-36/ME|||is required outside of<br>the power supply.|
|48V|7A|HWS300-48/ME|−|−|32A/32A（−）HWS1500-48/ME|||(＊) (100Vin/200Vin)|



A-135 

・All specifications are subject to change without notice. 

**HWS30/ME** 

**HWS /ME** 

## **HWS30/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>fH<br>fF|**ITEMS/UNITS**<br>**MODEL**<br>fH<br>fF|**ITEMS/UNITS**<br>**MODEL**<br>fH<br>fF|**HWS30-5/ME**<br>fH|**HWS30-12/ME**|**HWS30-15/ME**|**HWS30-24/ME**|**HWS30-48/ME**|
|---|---|---|---|---|---|---|---|
|Input<br>fFfF|Voltage Range<br>(*2)<br>fH<br>fFfF|V<br>fH|AC85 - 265 or DC120 - 370<br>fH|||||
||Frequency<br>(*2)<br>fH<br>fFfF<br>rr—s—sssssS|Hz<br>fH<br>rr—s—sssssS|47 - 63<br>fH|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>fF<br>rr—s—sssssS<br>ee|％<br>rr—s—sssssS<br>ee|77 / 80<br>ee|81 / 83<br>ee||83 / 86<br>ee|82 / 83|
||Current (100/200VAC)(typ)<br>(*1)<br>ee<br>Po|A<br>ee|0.8 / 0.4<br>ee|||||
||Inrush Current (100/200VAC)(typ)(*3)<br>ee<br>Po<br>+]|A<br>ee<br>+]|14 / 28 at Ta=25℃, cold start<br>ee|||||
||Leakage Current<br>(*10)<br>+]<br>Po|mA<br>+]<br>ns|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>(OG|||||
|Output<br>————————————|Nominal Voltage<br>+]<br>Po<br>rs|VDC<br>+]<br>rs<br>ns|5<br>rs<br>(OG|12<br>rs<br>(OG|15<br>rs<br>(OG|24<br>rs<br>(OG|48|
||Maximum Current<br>rs<br>or<br>ns|A<br>rs<br>ns<br>or<br>GO|6<br>rs<br>(OG<br>or|2.5<br>rs<br>(OG<br>or|2<br>rs<br>(OG<br>or|1.3<br>rs<br>(OG<br>or|0.65|
||Maximum Power<br>or<br>ns<br>ns|W<br>or<br>GO|30<br>or<br>GO|||31.2<br>or||
||Maximum Line Regulation<br>(*5)<br>or<br>ns<br>ns<br>————————————|mV<br>or<br>GO<br>————————————|20<br>or<br>GO<br>————————————|48<br>or<br>GO<br>————————————|60<br>or<br>GO<br>————————————|96<br>or|192|
||Maximum Load Regulation<br>(*6)<br>ns<br>————————————|mV<br>————————————|40<br>GO<br>————————————|96<br>GO<br>————————————|120<br>GO<br>————————————|192|384|
||Temperature Coefficient<br>————————————<br>Po|————————————|Less than 0.02% /℃<br>————————————|||||
||Maximum Ripple & Noise (0≤Ta≤70℃) (*4) <br>————————————<br>Po<br>eG|mVp-p<br>————————————<br>eG|120<br>————————————<br>eG|150<br>————————————<br>eG||200||
||Maximum Ripple & Noise (－10≤Ta＜0℃) (*4) <br>eG<br>Bf|mVp-p<br>eG<br>Bf|160<br>eG|180<br>eG||240||
||Hold-up Time (typ)<br>(*9)<br>Bf<br>ee|ms<br>Bf|20<br>GO<br>DO|||||
||Voltage Adjustable Range<br>dn|VDC<br>dn|4.0 - 6.0<br>dn<br>GO|9.6 - 14.4<br>dn<br>GO|12.0 - 18.0<br>dn<br>DO|19.2 - 28.8<br>dn|38.4 - 52.8|
|Function|Over Current Protection<br>(*7)<br>dn<br>(OG|A<br>dn<br>(OG|>6.3<br>dn<br>GO<br>(OG|>2.62<br>dn<br>GO<br>(OG|>2.1<br>dn<br>DO<br>(OG|>1.36<br>dn<br>(OG|>0.68|
||Over Voltage Protection<br>(*8) <br>(OG<br>a|VDC<br>(OG<br>a|6.25 - 7.25<br>(OG<br>a|15.0 - 17.4<br>(OG<br>a|18.8 - 21.8<br>(OG<br>a|30.0 - 34.8<br>(OG<br>a|55.2 - 64.8|
||Remote Sensing<br>a<br>Po<br>|a<br>||-<br>a<br>||||||
||Parallel Operation<br>a<br>Po<br>es|a<br>es||-<br>a<br>||||||
||Series Operation<br>es<br>ee|es|<br>ee|Possible<br>||||||
||Line DIP<br>ee<br>ee|ee<br>ee|Designed to meet SEMI-F47 (200VAC Line only)|||||
|Environment<br>fF|Operating Temperature<br>(*11)<br>ee<br>**ee**<br>ee|℃<br>ee<br>**ee**|-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)|||||
||Storage Temperature<br>**ee**<br>ee|℃<br>**ee**|-30 to +85|||||
||Operating Humidity<br>**ee**<br>ee|％RH<br>**ee**|30 - 90 (No dewdrop)|||||
||Storage Humidity<br>**ee**<br>J|％RH<br>**ee**<br>J|10 - 95 (No dewdrop)|||||
||Vibration<br>J<br>fF|J|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.|||||
||Shock (In package)<br>fF<br>rr—s—sssS|rr—s—sssS|Less than 196.1m/s²|||||
||Cooling<br>fF<br>TT|TT|Convection cooling|||||
|Isolation|Withstand Voltage<br>TT|TT|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min|||||
||Isolation Resistance<br>TT<br>ee|TT<br>ee|More than 100MΩat 25℃and 70%RH Output - FG : 500VDC|||||
|Standards|Safety Standards<br>(*12)<br>ee<br>ee|ee<br>ee|Approved by UL60601-1, EN60601-1, CSA-C22.2 No.601.1-M90|||||
||PFHC<br>ee<br>ee|ee<br>ee|Designed to meet IEC61000-3-2|||||
||Voltage Fluctuations / Flicker Emissions<br>ee<br>ee<br>or|sions<br>ee<br>ee|Designed to meet IEC61000-3-3|||||
||EMI<br>ee<br>or|ee|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B|||||
||Immunity<br>or<br>|||Designed to meet IEC61000-4-2(Level 3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>||||||
|Mechanical|Weight (typ)<br>or<br>es|g<br>es||220<br>||||||
||<br>Size (W x H x D)<br>es<br>ee|mm<br>es|<br>ee|26.5 x 82 x 95 (Refer to outline drawing)<br>||||||



(*2) For cases where conformance to various safety specs (UL, EN, CSA) are required, to be described as 100 - 230VAC (50/60Hz). 

(*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

**●Recommended EMC Filter** 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope:100MHz. 

For start up at low ambient temperature and low input voltage, output ripple noise might not meet specification. However, there is no overshoot at start up and output ripple noise specification can be met after one second. 

(*5) 85 - 265VAC, constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Foldback current limit with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

(*8) OVP circuit will  shutdown output, manual reset (re power on). 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

RSEL-2001WL **Please refer to "TDK-Lambda EMC Filters" catalog.** 

(*10) Measured by the each measuring method of UL, EN and CSA (at 60Hz). When using it as a patient care equipment, all outer surfaces of the equipment shall be constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

(*11) Ratings  - Derating at standard mounting. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

- As for other mountings, refer to derating curve. 

(*12) As for UL60601-1, EN60601-1 and CSA-C22.2 No.601.1-M90, basic insulation. 

A-136 

・All specifications are subject to change without notice. 

**HWS30/ME** 

**HWS /ME** 

## **Outline Drawing** 

## **【HWS30/ME】** 

**==> picture [439 x 188] intentionally omitted <==**

**----- Start of picture text -----**<br>
（10.1） VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>5-M3.5<br>＋V<br>－V<br>FG<br>AC(L)<br>AC(N)<br>（14） （10） 77±0.5 8<br>26.5±1 19MAX 95±1<br>＋V<br>7.3 －V<br>68±0.5 82±1<br>FG<br>(67.5)<br>L<br>8.4<br>N<br>（17） 8<br>**----- End of picture text -----**<br>


**==> picture [412 x 91] intentionally omitted <==**

**----- Start of picture text -----**<br>
NOTES SEE NOTE B<br>A : MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT<br>VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF<br>MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH<br>THE SPECIFICATIONS. NAME PLATE<br>B : M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR  SEE NOTE A<br>CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PRO-<br>TRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. HWS30 - 5 /ME<br>C : M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING.  INPUT : 100-230VAC  0.9 A Max.  50/60HzOUTPUT :  5 V  6 A<br>SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY<br>MORE THAN 6m/m.<br>（5） 82±0.5 8<br>17<br>15<br>（5.5）<br>**----- End of picture text -----**<br>


## **Derating Curve** 

**==> picture [269 x 204] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>MOUNTING A,B,C,D<br>100<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta（℃）<br>MOUNTING A MOUNTING B MOUNTING C MOUNTING D DON’T USE<br>(STANDARD MOUNTING)<br>LOAD（%）<br>**----- End of picture text -----**<br>


**GO!! A-155** 

**●Please refer to instraction manual.** 

A-137 

・All specifications are subject to change without notice. 

**HWS50/ME** 

## HWS50 

## **HWS50/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>e~~e~~|**ITEMS/UNITS**<br>**MODEL**<br>e~~e~~|**ITEMS/UNITS**<br>**MODEL**<br>e~~e~~|**HWS50-5/ME**<br>ee|**HWS50-12/ME**<br>ee|**HWS50-15/ME**<br>ee|**HWS50-24/ME**|**HWS50-48/ME**|
|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>e~~e~~<br>ee|V<br>~~e~~|AC85 - 265 or DC120 - 370<br>ee<br>eeee|||||
||Frequency<br>(*2)<br>e~~e~~<br>ee<br>+~~+~~|Hz<br>~~e~~<br>~~+~~|47 - 63<br>ee<br>ee ee|||||
||Power Factor (100/200VAC)(typ) (*1)<br>+~~+~~<br>Po<br>———————|~~+~~<br>———————|0.99 / 0.95<br>———————|||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>+~~+~~<br>Po<br>———————|%<br>~~+~~<br>———————|82 / 84<br>———————|81 / 83<br>———————||82 / 84<br>———————|83 / 85|
||Current (100/200VAC)(typ)<br>(*1)<br>———————<br>ee|A<br>———————|0.7 / 0.35<br>———————|||||
||Inrush Current (100/200VAC)(typ)(*3)<br>———————<br>ee<br>——|A<br>———————<br>——|14/28at, Ta=25℃, cold start<br>———————|||||
||Leakage Current<br>(*10)<br>——<br>Po|mA<br>——<br>nd|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>DO|||||
|Output<br>——|Nominal Voltage<br>——<br>Po<br>en|VDC<br>——<br>en<br>nd<br>nn|5<br>en<br>DO|12<br>en<br>DO<br>(OU|15<br>en<br>DO<br>(OU|24<br>en|48|
||Maximum Current<br>en<br>ns|A<br>en<br>nd<br>ns<br>nn<br>nD|10<br>en<br>DO<br>ns<br>(On|4.3<br>en<br>DO<br>ns<br>(OU<br>(On|3.5<br>en<br>DO<br>ns<br>(OU|2.2<br>en<br>ns|1.1|
||Maximum Power<br>ns<br>nD|W<br>ns<br>nn<br>nD<br>nD|50<br>ns<br>nD<br>(On<br>nD|51.6<br>ns<br>(OU<br>nD<br>(On<br>(OU|52.5<br>ns<br>(OU<br>nD<br>(OU|52.8<br>ns||
||Maximum Line Regulation<br>(*5)<br>nD<br>nd<br>————————————|mV<br>nD<br>nD<br>nd<br>—————————|20<br>nD<br>(On<br>nd<br>nD<br>—————————|48<br>nD<br>(On<br>nd<br>(OU<br>—————————|60<br>nD<br>nd<br>(OU<br>—————————|96<br>nd<br>—————————|192|
||Maximum Load Regulation<br>(*6)<br>nd<br>————————————|mV<br>nd<br>—————————|40<br>nd<br>nD<br>—————————|96<br>nd<br>(OU<br>—————————|120<br>nd<br>(OU<br>—————————|192<br>nd<br>—————————|384|
||Temperature Coefficient<br>————————————<br>Po|—————————<br>nd|Less than 0.02% /℃<br>—————————<br>nD(OU|||||
||Maximum Ripple & Noise (0<Ta<70℃) (*4) <br>————————————<br>Po<br>~~e~~|mVp-p<br>—————————<br>~~e~~<br>nd|120<br>—————————<br>~~e~~n<br>nD|150<br>—————————<br>n<br>(OU|||200|
||Maximum Ripple & Noise (－10~~<T~~a< 0℃) (*4) <br>~~e~~<br>~~a~~|mVp-p<br>~~e~~<br>nd <br>~~a~~|160<br>~~e~~n<br> nD<br>~~a~~|180<br>n<br>(OU<br>~~a~~|||240|
||Hold-up Time (typ)<br>(*9)<br>~~a~~<br>P~~o~~|ms<br>~~a~~<br>nd|20<br>~~a~~<br>nDRn(|||||
||Voltage Adjustable Range<br>~~a~~<br>P~~o~~<br>~~n~~|VDC<br>~~a~~<br>~~n~~<br>nd<br>I|4.0 - 6.0<br>~~a~~<br>~~n~~s<br>nD|9.6 - 14.4<br>~~a~~<br>s<br>Rn<br>(OO|12.0 - 18.0<br>~~a~~<br>s<br>(<br>(OO|19.2 - 28.8<br>~~a~~<br>s|38.4 - 52.8|
|Function<br>———————————E<br>fF<br>|Over Current Protection<br>(*7)<br>~~n~~<br>~~e~~<br>———————————E|A<br>~~n~~<br>nd<br>~~e~~<br>I<br>———————————E|>10.5<br>~~n~~s<br>nD<br>~~e~~e<br>———————————E|>4.51<br>s<br>Rn<br>e<br>(OO<br>———————————E|>3.67<br>s<br>(<br>e<br>(OO<br>———————————E|>2.31<br>s<br>e<br>———————————E|>1.15|
||Over Voltage Protection<br>(*8)<br>~~e~~<br>———————————E|VDC<br>~~e~~<br>I<br>———————————E|6.25 - 7.25<br>~~e~~e<br>———————————E|15.0 - 17.4<br>e<br>(OO<br>———————————E|18.8 - 21.8<br>e<br>(OO<br>———————————E|30.0 - 34.8<br>e<br>———————————E|55.2 - 64.8|
||Remote Sensing<br>———————————E<br>Po<br><br>fF|———————————E<br>ee<br>|-<br>———————————E<br>ee|||||
||Parallel Operation<br>———————————E<br>Po<br>ee<br>fF|———————————E<br>eeee<br>|-<br>———————————E<br>ee|||||
||Series Operation<br>ee<br>fFrrr—sS|eeee<br>rrr—sS|Possible<br>ee|||||
||Line DIP<br><br>fFrrr—sS<br>es<br>ee|ee<br>rrr—sS<br>es|Designed to meet SEMI-F47 (200VAC Line only)<br>ee|||||
|Environment<br>|Operating Temperature<br>(*11)<br>es<br>ee|℃<br>es|-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)|||||
||Storage Temperature<br>ee<br>ee|℃<br>ee|-30 to +85|||||
||Operating Humidity<br> ee<br>ee<br>ee|％RH<br>ee<br>ee|30 - 90 (No dewdrop)|||||
||Storage Humidity<br>ee<br>J|％RH<br>ee<br>J|10 - 95 (No dewdrop)|||||
||Vibration<br>J|J|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.|||||
||Shock (In package)<br>J<br>ee|J<br>ee|Less than 196.1m/s²|||||
||Cooling<br>ee<br>I|ee<br>I|Convection cooling|||||
|Isolation <br>fo|Withstand Voltage<br>I<br>fo|I<br>|Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min|||||
||Isolation Resistance<br>I<br>for—s—sS<br>|I<br>r—s—sS<br>||More than 100MΩat 25℃and 70%RH Output - FG : 500VDC<br>||||||
|Standards<br>fo|Safety Standards<br>(*12)<br>for—s—sS<br>es|r—s—sS<br>es||Approved by UL60601-1, EN60601-1, CSA-C22.2 No.601.1-M90<br>||||||
||PFHC<br><br>ee||<br>ee|Designed to meet IEC61000-3-2<br>||||||
||Voltage Fluctuations / Flicker Emissions<br>ee<br>ee|ee<br>ee|Designed to meet IEC61000-3-3|||||
||EMI<br>ee<br>J|ee<br>J|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B|||||
||Immunity<br>J|J|Designed to meet IEC61000-4-2(Level 3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11|||||
|Mechanical|Weight (typ)<br>J<br>es<br>|g<br>J<br>es<br>||280<br>||||||
||<br>Size (W x H x D)<br>es<br>es|mm<br>es<br>es||26.5 x 82 x 120 (Refer to outline drawing)<br>||||||



- (*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

## **●Recommended EMC Filter** 

- (*2) For cases where conformance to various safety specs (UL, EN, CSA) are required, to be described as 100 - 230VAC (50/60Hz). 

(*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. 

(*5) 85 - 265VAC, constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Constant current limit and Hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

(*8) OVP circuit will  shutdown output, manual reset (re power on). 

RSEL-2001WL **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*9) At 100/200VAC, nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, EN and CSA (at 60Hz). 

When using it as a patient care equipment, all outer surfaces of the equipment shall be constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- (*12) As for UL60601-1, EN60601-1 and CSA-C22.2 No.601.1-M90, basic insulation. 

A-138 

・All specifications are subject to change without notice. 

**HWS50/ME** 

**HWS /ME** 

## **Outline Drawing** 

## **【HWS50/ME】** 

**==> picture [412 x 307] intentionally omitted <==**

**----- Start of picture text -----**<br>
VOLTAGE ADJUSTMENT<br>SEE NOTE C<br>LED<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>**----- End of picture text -----**<br>


**==> picture [258 x 67] intentionally omitted <==**

**----- Start of picture text -----**<br>
NAME PLATE<br>SEE NOTE A<br>NOTES<br>**----- End of picture text -----**<br>


- A :MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH THE SPECIFICATIONS. 

**==> picture [127 x 31] intentionally omitted <==**

**----- Start of picture text -----**<br>
Recommended Solderless Terminal<br>Qty<br>2 pcs<br>**----- End of picture text -----**<br>


- B :M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. 

- C :M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m. 

## **OUTPUT DERATING** 

**==> picture [270 x 204] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>MOUNTING A,B<br>100<br>MOUNTING C,D<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta(℃)<br>MOUNTING A MOUNTING B MOUNTING C MOUNTING D DON’T USE<br>(STANDARD MOUNTING)<br>LOAD(%)<br>**----- End of picture text -----**<br>


**GO!!** 

**●Please refer to instraction manual.** 

**A-155** 

A-139 

・All specifications are subject to change without notice. 

**HWS100/ME** 

**HWS /ME** 7 

## HWS100 

## **HWS100/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>ee|**ITEMS/UNITS**<br>**MODEL**<br>ee|**ITEMS/UNITS**<br>**MODEL**<br>ee|**HWS100-5/ME**<br>ee|**HWS100-12/ME**<br>ee|**HWS100-15/ME **<br>ee|**HWS100-24/ME **|**HWS100-48/ME**|
|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>ee<br>ee<br>|V<br>ee<br>||AC85 - 265 or DC120 - 370<br>ee<br>eeee<br>||||||
||Frequency<br>(*2)<br>ee<br>ee<br>ee|Hz<br>ee<br>ee||47 - 63<br>ee<br>ee ee<br>||||||
||Power Factor (100/200VAC)(typ)(*1)<br>ee<br>es|ee|<br>es|0.99 / 0.95<br>||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>es<br>dd<br>|％<br>es<br>dd<br>||83 / 86<br>dd<br>||||84 / 87||
||Current (100/200VAC)(typ)<br>(*1)<br>dd<br>ee|A<br>dd<br>ee||1.3 / 0.65<br>dd<br>||||||
||Inrush Current (100/200VAC)(typ)(*3)<br>ee<br>——|A<br>ee|<br>——|14/28 at, Ta=25℃, cold start<br>||||||
||Leakage Current<br>(*10)<br>——<br>Po|mA<br>——|Less than 0.5. (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>nDOO|||||
|Output<br>B|Nominal Voltage<br>——<br>Po<br>Dd|VDC<br>——<br>Dd<br>I|5<br>Dd<br>nD<br>nn|12<br>Dd<br>OO<br>(OO|15<br>Dd<br>OO<br>(OO|24<br>Dd|48|
||Maximum Current<br>Dd<br>ns|A<br>Dd<br>ns<br>I<br>dD|20<br>Dd<br>nD<br>ns<br>nn<br>dD|8.5<br>Dd<br>OO<br>ns<br>(OO<br>(OU|7<br>Dd<br>OO<br>ns<br>(OO<br>(OO|4.5<br>Dd<br>ns<br>(OO|2.1|
||Maximum Power<br>ns<br>ns|W<br>ns<br>I <br>ns<br>dD<br>nd|100<br>ns<br> nn<br>ns<br>dD<br>nDRU|102<br>ns<br>(OO<br>ns<br>(OU<br>RU|105<br>ns<br>(OO<br>ns<br>(OO<br>GO|108<br>ns<br>ns<br>(OO|100.8|
||Maximum Line Regulation<br>(*5)<br>ns<br>nn|mV<br>ns<br>dD<br>nn<br>nd|20<br>ns<br>dD<br>nn<br>nDRU|48<br>ns<br>(OU<br>nn<br>RU|60<br>ns<br>(OO<br>nn<br>GO|96<br>ns<br>(OO<br>nn|192|
||Maximum Load Regulation<br>(*6)<br>nn<br>r|mV<br>nn<br>nd<br>r|40<br>nn<br>nDRU<br>rr|96<br>nn<br>RU<br>r|120<br>nn<br>GO<br>r|192<br>nn<br>r|384|
||Temperature Coefficient<br>r<br>Po<br>e~~e~~|r<br>nd|Less than 0.02% /℃<br>rr<br>(ORR|||||
||Maximum Ripple & Noise(0~~<~~Ta~~<~~70℃) (*4) <br>r<br>Po<br>e~~e~~<br>B~~e~~|mVp-p<br>r<br>nd|120<br>rr<br>(ORR|150<br>r<br>(ORR|||200|
||Maximum Ripple & Noise (－10~~<T~~a< 0℃) (*4) <br>e~~e~~<br>B~~e~~|mVp-p<br>nd|160<br>(ORR|180<br>(ORR|||240|
||Hold-up Time (typ)<br>(*9)<br>B~~e~~<br>e~~e~~<br>n~~d~~|ms<br>~~d~~|20<br>DO|||||
||Voltage Adjustable Range<br>B~~e~~<br>e~~e~~<br>n~~d~~|VDC<br>~~d~~<br>nn|4.0 - 6.0<br>DO<br>nn|9.6 - 14.4<br>DO<br>(OU|12.0 - 18.0<br>DO<br>(OU|19.2 - 28.8|38.4 - 52.8|
|Function<br>|Over Current Protection<br>(*7)<br>n~~d~~<br>~~e~~<br>——————————E|A<br>~~d~~<br>~~e~~<br>nn<br>——————————E|>21.0<br>DO<br>~~e~~s<br>nn<br>——————————E|>8.92<br>DO<br>s<br>(OU<br>——————————E|>7.35<br>DO<br>s<br>(OU<br>——————————E|>4.72<br>s<br>——————————E|>2.20|
||Over Voltage Protection<br>(*8) <br>~~e~~<br>——————————E|VDC<br>~~e~~<br>nn<br>——————————E|6.25 - 7.25<br>~~e~~s<br>nn<br>——————————E|15.0 - 17.4<br>s<br>(OU<br>——————————E|18.8 - 21.8<br>s<br>(OU<br>——————————E|30.0 - 34.8<br>s<br>——————————E|55.2 - 64.8|
||Remote Sensing<br>——————————E<br>ee|——————————E<br>ee|Possible<br>——————————E<br>ee|||||
||Parallel Operation<br>——————————E<br>ee<br>ee<br>|——————————E<br>ee<br>ee<br>||-<br>——————————E<br>ee<br>||||||
||Series Operation<br>ee<br>ee|ee<br>ee<br>ee||Possible<br>ee<br>||||||
||Line DIP<br>ee<br>es<br>ee|ee|<br>es|Designed to meet SEMI-F47 (200VAC Line only)<br>||||||
|Environment<br>|Operating Temperature<br>(*11)<br>es<br>ee<br>|℃<br>es<br>||-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)<br>||||||
||Storage Temperature<br>ee<br>es<br>|℃<br>es|<br>||-30 to +85<br>|<br>||||||
||Operating Humidity<br> ee<br>es<br>ee|％RH<br>es|<br>ee||30 - 90 (No dewdrop)<br>|<br>||||||
||Storage Humidity<br>ee|％RH<br>ee||10 - 95 (No dewdrop)<br>||||||
||Vibration||At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.|||||
||Shock (In package)<br>ee<br>oo|ee|Less than 196.1m/s²|||||
||Cooling<br>ee<br>oo|ee|Convection cooling|||||
|Isolation|Withstand Voltage<br>oo<br>|||Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min<br>||||||
||Isolation Resistance<br>oo<br>ee<br>|ee|<br>||More than 100MΩat 25℃and 70%RH Output - FG : 500VDC<br>|<br>||||||
|Standards|Safety Standards<br>(*12)<br>ee<br>ee|ee|<br>ee|<br>ee|Approved by UL60601-1, EN60601-1, CSA-C22.2 No.601.1-M90<br>|<br>|<br>ee|||||
||PFHC<br><br>es||<br>es<br>ee|Designed to meet IEC61000-3-2<br>|<br>ee|||||
||Voltage Fluctuations / Flicker Emissions<br>es<br>ee|es<br>ee<br>ee|Designed to meet IEC61000-3-3<br>ee|||||
||EMI<br>ee<br>J|ee<br>J|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B|||||
||Immunity<br>J<br>|J<br>||Designed to meet IEC61000-4-2(Level 3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>||||||
|Mechanical|Weight (typ)<br>J<br>ee|g<br>J<br>ee|<br>ee|450<br>|<br>ee|||||
||<br>Size (W x H x D)<br><br>ee|mm<br>|<br>ee<br>ee|28 x 82 x 160 (Refer to outline drawing)<br>|<br>ee|||||



- (*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*2) For cases where conformance to various safety specs (UL, EN, CSA) are required, to be described as 100 - 230VAC (50/60Hz). 

**●Recommended EMC Filter** 

(*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

(*4) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. 

(*5) 85 - 265VAC, constant load. 

(*6) No load-full load, constant input voltage. 

(*7) Constant current limit and Hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

(*8) OVP circuit will  shutdown output, manual reset (re power on). 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

RSEL-2002WL **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*10) Measured by the each measuring method of UL, EN and CSA (at 60Hz). 

When using it as a patient care equipment, all outer surfaces of the equipment shall be constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

- (*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- (*12) As for UL60601-1, EN60601-1 and CSA-C22.2 No.601.1-M90, basic insulation. 

A-140 

・All specifications are subject to change without notice. 

**HWS100/ME** 

**HWS /ME** 

## **Outline Drawing** 

## **【HWS100/ME】** 

**==> picture [483 x 371] intentionally omitted <==**

**----- Start of picture text -----**<br>
VOLTAGE ADJUSTMENT<br>SEE NOTE C<br>LED<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>D t<br>NOTES<br>A: MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT<br>CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH<br> Recommended Solderless Terminal THE SPECIFICATIONS.<br>Terminal B: M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER CHASSIS<br>D （max） ｔ（max）   Qty（max） MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>＋V / －V 8.1mm 0.8mm  2 pcs C: M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PRO-TRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>1.0mm  1 pc<br> Others  6.8mm  0.8mm  2 pcs ACCESSORIES<br>**----- End of picture text -----**<br>


- SHORT PIECE (NET 2) FOR SHORTING PURPOSE (+S to +V, -S to -V) : MOUNTED AT TIME OF SHIPMENT. 

## **OUTPUT DERATING** 

**==> picture [473 x 122] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>MOUNTING A<br>100<br>MOUNTING B, C, D<br>80<br>60<br>40<br>MOUNTING A MOUNTING B<br>20 (STANDARD MOUNTING)<br>DON’T USE<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>MOUNTING C MOUNTING D<br>Ta (℃)<br>LOAD (%)<br>**----- End of picture text -----**<br>


**GO!! A-155** 

**●Please refer to instraction manual.** 

A-141 

・All specifications are subject to change without notice. 

**HWS150/ME** 

**HWS /ME** 7 

## HWS150 

## **HWS150/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>ee|**ITEMS/UNITS**<br>**MODEL**<br>ee|**ITEMS/UNITS**<br>**MODEL**<br>ee|**HWS150-5/ME**<br>ee|**HWS150-12/ME**<br>ee|**HWS150-15/ME**<br>ee|**HWS150-24/ME**|**HWS150-48/ME**|
|---|---|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>ee<br>ee<br>|V<br>ee<br>||AC85 - 265 or DC120 - 370<br>ee<br>eeee<br>||||||
||Frequency<br>(*2)<br>ee<br>ee<br>ee|Hz<br>ee<br>ee||47 - 63<br>ee<br>ee ee<br>||||||
||Power Factor (100/200VAC)(typ)<br>(*1)<br>ee<br>es|ee|<br>es|0.99 / 0.95<br>||||||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>es<br>dd<br>|％<br>es<br>dd<br>||83 / 86<br>dd<br>||||85 / 88||
||Current (100/200VAC)(typ)<br>(*1)<br>dd<br>ee|A<br>dd<br>ee||1.9 / 0.95<br>dd<br>||||||
||Inrush Current (100/200VAC)(typ)<br>(*3)<br>ee<br>——|A<br>ee|<br>——|14 / 28 at Ta=25℃, cold start<br>||||||
||Leakage Current<br>(*10)<br>——<br>Po|mA<br>——<br>nn|Less than 0.5.  (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>nD(OG|||||
|Output|Nominal Voltage<br>——<br>Po<br>nn|VDC<br>——<br>nn<br>nn<br>I|5<br>nn<br>nD<br>I|12<br>nn<br>(OG<br>(OO|15<br>nn<br>(OG<br>(OO|24<br>nn|48|
||Maximum Current<br>nn<br>ns|A<br>nn<br>nn<br>ns<br>I<br>dD|30<br>nn<br>nD<br>ns<br>I<br>dD|13<br>nn<br>(OG<br>ns<br>(OO<br>(OU|10<br>nn<br>(OG<br>ns<br>(OO<br>(OO|6.5<br>nn<br>ns<br>(OO|3.3|
||Maximum Power<br>ns<br>ns|W<br>ns<br>I<br>ns<br>dD<br>nd|150<br>ns<br>I<br>ns<br>dD<br>nDRU|156<br>ns<br>(OO<br>ns<br>(OU<br>RU|150<br>ns<br>(OO<br>ns<br>(OO<br>GO|156<br>ns<br>ns<br>(OO|158.4|
||Maximum Line Regulation<br>(*5)<br>ns<br>nn|mV<br>ns<br>dD<br>nn<br>nd|20<br>ns<br>dD<br>nn<br>nDRU|48<br>ns<br>(OU<br>nn<br>RU|60<br>ns<br>(OO<br>nn<br>GO|96<br>ns<br>(OO<br>nn|192|
||Maximum Load Regulation<br>(*6)<br>nn<br>r|mV<br>nn<br>nd<br>r|40<br>nn<br>nDRU<br>rr|96<br>nn<br>RU<br>r|120<br>nn<br>GO<br>r|192<br>nn<br>r|384|
||Temperature Coefficient (%)<br>r<br>ee<br>m~~n~~|r<br>nd|Less than 0.02% /℃<br>rr<br>(OU|||||
||Maximum Ripple & Noise (0~~<T~~a~~<7~~0℃) (*4) <br>r<br>ee<br>m~~n~~|mVp-p<br>r<br>nd|120<br>rr<br>(OU|150<br>r<br>(OU|||200|
||Maximum Ripple & Noise (－10<Ta< 0℃) (*4) <br>m~~n~~<br>~~B~~|mVp-p<br>nd<br>~~B~~|160<br>(OU<br>~~B~~f|180<br>(OU<br>f|||240|
||Hold-up Time (typ)<br>(*9)<br>~~B~~<br>e~~e~~|ms<br>~~B~~|20<br>~~B~~f<br>OU<br>(O|||||
||Voltage Adjustable Range<br>~~B~~<br>e~~e~~<br>~~n~~|VDC<br>~~B~~<br>~~n~~<br>nn|4.0 - 6.0<br>~~B~~f<br>~~n~~d<br>OU|9.6 - 14.4<br>f<br>d<br>OU<br>GO|12.0 - 18.0<br>f<br>d<br>(O<br>GO|19.2 - 28.8<br>f<br>d|38.4 - 52.8|
|Function<br>|Over Current Protection<br>(*7)<br>~~n~~<br>~~n~~<br>——————————E|A<br>~~n~~<br>~~n~~<br>nn<br>——————————E|>31.5<br>~~n~~d<br>OU<br>~~n~~s<br>——————————E|>13.6<br>d<br>OU<br>s<br>GO<br>——————————E|>10.5<br>d<br>(O<br>s<br>GO<br>——————————E|>6.82<br>d<br>s<br>——————————E|>3.46|
||Over Voltage Protection<br>(*8) <br>~~n~~<br>——————————E|VDC<br>~~n~~<br>nn<br>——————————E|6.25 - 7.25<br>~~n~~s<br>——————————E|15.0 - 17.4<br>s<br>GO<br>——————————E|18.8 - 21.8<br>s<br>GO<br>——————————E|30.0 - 34.8<br>s<br>——————————E|55.2 - 64.8|
||Remote Sensing<br>——————————E<br>ee|——————————E<br>ee|Possible<br>——————————E<br>ee|||||
||Parallel Operation<br>——————————E<br>ee<br>ee<br>|——————————E<br>ee<br>ee<br>||-<br>——————————E<br>ee<br>||||||
||Series Operation<br>ee<br>ee|ee<br>ee<br>ee||Possible<br>ee<br>||||||
||Line DIP<br>ee<br>es<br>ee|ee|<br>es|Designed to meet SEMI-F47 (200VAC Line only)<br>||||||
|Environment<br>|Operating Temperature<br>(*11)<br>es<br>ee<br>|℃<br>es<br>||-10 to +70 (-10 to +50: 100%, +60: 60%, +70: 20%)<br>||||||
||Storage Temperature<br>ee<br>es<br>|℃<br>es|<br>||-30 to +85<br>|<br>||||||
||Operating Humidity<br> ee<br>es<br>ee|％RH<br>es|<br>ee||30 - 90 (No dewdrop)<br>|<br>||||||
||Storage Humidity<br>ee|％RH<br>ee||10 - 95 (No dewdrop)<br>||||||
||Vibration||At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.|||||
||Shock (In package)<br>ee<br>oo|ee|Less than 196.1m/s²|||||
||Cooling<br>ee<br>oo|ee|Convection cooling|||||
|Isolation|Withstand Voltage<br>oo<br>|||Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC (100mA) for 1min<br>||||||
||Isolation Resistance<br>oo<br>ee<br>|ee|<br>||More than 100MΩat 25℃and 70%RH Output - FG : 500VDC<br>|<br>||||||
|Standards|Safety Standards<br>(*12)<br>ee<br>ee|ee|<br>ee|<br>ee|Approved by UL60601-1, EN60601-1, CSA-C22.2 No.601.1-M90<br>|<br>|<br>ee|||||
||PFHC<br><br>es<br>||<br>es<br>ee<br>||Designed to meet IEC61000-3-2<br>|<br>ee<br>||||||
||Voltage Fluctuations / Flicker Emissions<br>es<br>ee|es<br>ee<br>ee||Designed to meet IEC61000-3-3<br>ee<br>||||||
||EMI<br>ee<br>TS|ee|<br>TS|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B<br>||||||
||Immunity<br>TS<br>|TS<br>||Designed to meet IEC61000-4-2(Level 3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>||||||
|Mechanical|Weight (typ)<br>TS<br>ee|g<br>TS<br>ee|<br>ee|500<br>|<br>ee|||||
||<br>Size (W x H x D)<br><br>ee|mm<br>|<br>ee<br>ee|37 x 82 x 160 (Refer to outline drawing)<br>|<br>ee|||||



- (*1) At 100/200VAC, Ta=25 ℃ and maximum output power. 

- (*2) For cases where conformance to various safety specs (UL, EN, CSA) are required,to be described as 100 - 230VAC (50/60Hz). 

- (*3) Not applicable for the in-rush current to noise filter for less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. 

**●Recommended EMC Filter** 

- (*5) 85 - 265VAC, constant load. 

- (*6) No load-full load, constant input voltage. 

- (*7) Constant current limit and Hiccup with automatic recovery. Not operate at over load or dead short condition for more than 30 seconds. 

- (*8) OVP circuit will shutdown output, manual reset (re power on). 

- (*9) At 100/200VAC, nominal output voltage and maximum output current. 

- (*10) Measured by the each measuring method of UL, EN and CSA (at 60Hz). 

When using it as a patient care equipment, all outer surfaces of the equipment shall be constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

- (*11) Ratings  - Derating at standard mounting. 

RSEL-2003WL **Please refer to "TDK-Lambda EMC Filters" catalog.** 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- (*12) As for UL60601-1, EN60601-1 and CSA-C22.2 No.601.1-M90, basic insulation. 

A-142 

・All specifications are subject to change without notice. 

**HWS150/ME** 

**HWS /ME** 

## **Outline Drawing** 

## **【HWS150/ME】** 

**==> picture [479 x 369] intentionally omitted <==**

**----- Start of picture text -----**<br>
(10.7) VOLTAGE ADJUSTMENT SEE NOTE C<br>LED<br>2-M4<br>＋S<br>＋V<br>5-M3.5<br>－V<br>－S<br>FG<br>AC(L)<br>AC(N)<br>(14.6) (17) 135±0.5 8<br>37±1 19MAX 160±1<br>SEE NOTE B<br>NAME PLATE<br>SEE NOTE A<br>HWS150 - 5 /ME<br>D t OUTPUT :  5 VINPUT : 100-240VAC   2.0 A  50/60Hz  30 A<br>(15) 131±0.5 14<br>NOTES<br>A: MODEL NAME, INPUT VOLTAGE RANGE, NOMINAL OUTPUT VOLTAGE, MAXIMUM OUTPUT<br>CURRENT AND COUNTRY OF MANUFACTURE ARE SHOWN HERE IN ACCORDANCE WITH<br> Recommended Solderless Terminal THE SPECIFICATIONS.<br>Terminal<br>D （max）  ｔ（max）  Qty （max） B: M3 EMBOSSED, TAPPED AND COUNTERSUNK HOLES (2) FOR CUSTOMER CHASSIS<br>MOUNTING. SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br>＋V / －V 8.1mm 0.8mm  2 pcs C: M3 TAPPED HOLES (2) FOR CUSTOMER CHASSIS MOUNTING. SCREWS MUST NOT PRO-<br>1.0mm  1 pc TRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.<br> Others  6.8mm  0.8mm  2 pcs ACCESSORIES<br>8.6 ＋S<br>M4 ＋V<br>10<br>29 . (75) M4 －V 68±0.5 82±1<br>－S<br>7.3 FG<br>L<br>8.4<br>N<br>(9) 8<br>17<br>18.5<br>(6.1)<br>**----- End of picture text -----**<br>


- SHORT PIECE (NET 2) FOR SHORTING PURPOSE (+S to +V, -S to -V) : MOUNTED AT TIME OF SHIPMENT. 

## **OUTPUT DERATING** 

**==> picture [261 x 227] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>MOUNTING B<br>100 MOUNTING A<br>MOUNTING C, D<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta(℃)<br>MOUNTING A MOUNTING B<br>(STANDARD MOUNTING) DON’T USE<br>MOUNTING C MOUNTING D<br>LOAD(%)<br>**----- End of picture text -----**<br>


**==> picture [169 x 9] intentionally omitted <==**

**----- Start of picture text -----**<br>
●Please refer to instraction manual.<br>**----- End of picture text -----**<br>


**==> picture [13 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
GO!!<br>**----- End of picture text -----**<br>


**A-155** 

A-143 

・All specifications are subject to change without notice. 

**HWS300/ME** 

## HWS300 

## **HKS300/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**ITEMS/UNITS**<br>**MODEL**|**HWS300-12/ME**|**HWS300-15/ME**|**HWS300-24/ME**|**HWS300-48/ME**|
|---|---|---|---|---|---|---|
|Input<br>BP|Voltage Range<br>(*3)<br>ee<br>|V<br>|_|<br>||AC85 - 265 or DC120 - 330<br>|||||
||Frequency<br>(*3)<br>ee<br>ee|Hz<br>|_|<br>ee||47 - 63<br>|||||
||Power Factor (100/200VAC)(typ) (*2)<br>ee<br>ee|ee|<br>ee<br>nd|0.99 / 0.95<br>|<br>|||||
||Efficiency (100/200VAC)(typ)<br>(*2)<br>ee<br>es<br>|％<br>ee<br>es<br>nd<br>||80 / 83<br>es<br>|<br>|||82 / 85||
||Current (100/200VAC)(typ)<br>(*2)<br>es<br>es<br>BP|A<br>es<br>nd<br>es|<br>BP|4.1 / 2.1<br>es<br>|<br>|||||
||Inrush Current (100/200VAC)(typ) (*4)<br>es<br>BP|A<br>es|<br>BP|20 / 40<br>|||||
||Leakage Current<br>(*11)<br>BP<br>Po<br>nD|mA<br>BP<br>nD|Less than 0.5.  (0.15 (typ) at 100VAC / 0.39 (typ) at 230VAC)<br>(|||||
|Output<br>BP|Nominal Voltage<br>BP<br>Po<br>nD|VDC<br>BP<br>nD<br>(D|12<br>(||15<br>(||24<br>(||48|
||Maximum Current<br>(*1)<br>nD<br>nn|A<br>nD<br>nn<br>(D<br>DD|27<br>(|<br>nn<br>DD|22<br>(|<br>nn<br>(||14 (16.5)<br>(|<br>nn<br>(||7|
||Maximum Power<br>nn<br>ns|W<br>nn<br>(D<br>ns<br>DD|324<br>nn<br>ns<br>DD<br>nD|330<br>nn<br>ns<br>(|<br>||336<br>nn<br>ns<br>(|<br>||336<br>||
||Maximum Line Regulation<br>(*6)<br>ns<br>nn|mV<br>ns<br>DD<br>nn|48<br>ns<br>DD<br>nn<br>nD|60<br>ns<br>(|<br>nn<br>||96<br>ns<br>(|<br>nn<br>||192<br>||
||Maximum Load Regulation<br>(*7)<br>nn<br>o|mV<br>nn<br>o|72<br>nn<br>nD<br>oo|90<br>nn<br>|<br>o|144<br>nn<br>|<br>o|288<br>||
||Temperature Coefficient<br>o<br>Po|o<br>ns|Less than 0.02% /℃<br>oo<br>|||||
||Maximum Ripple & Noise (0<Ta<70℃) (*5) <br>o<br>Po<br>~~e~~|mVp-p<br>o<br>~~e~~<br>ns|150<br>oo<br>~~e~~n<br>||||350|
||Maximum Ripple & Noise (－10<Ta< 0℃) (*5) <br>~~e~~<br>~~e~~|mVp-p<br>~~e~~<br>ns<br>~~e~~|200<br>~~e~~n<br>|<br>~~e~~e|||400|
||Hold-up Time (typ)<br>(*10)<br>~~e~~<br>P~~o~~<br>n~~s~~|ms<br>~~e~~|20<br>~~e~~e<br>|||||
||Voltage Adjustable Range<br>~~e~~<br>P~~o~~<br>n~~s~~|VDC<br>~~e~~|9.6 - 14.4<br>~~e~~e|12.0 - 18.0<br>e<br>||19.2 - 28.8<br>e<br>||38.4 - 52.8|
|Function<br>|Over Current Protection<br>(*8)<br>n~~s~~<br>~~n~~|A<br>~~n~~|>28.4<br>~~n~~n|>23.1<br>|<br>n|>16.7<br>|<br>n|>7.4|
||Over Voltage Protection<br>(*9) <br>~~n~~<br>a|VDC<br>~~n~~|15.0 - 17.4<br>~~n~~n|18.8 - 21.8<br>n|30.0 - 34.8<br>n|55.2 - 64.8|
||Remote Sensing<br>a<br>Po||Possible||||
||Remote ON/OFF Control<br>Po<br>ee<br>|ee<br>||Possible<br>|||||
||Parallel Operation<br>ee<br>es|ee<br>es||Possible<br>|||||
||Series Operation<br>es<br>es<br>ee|es|<br>es|Possible<br>|||||
||Monitoring Signal<br>es<br>ee<br>|es<br>||PF (Open collector output)<br>|||||
||Line DIP<br>ee<br>es|es||Designed to meet SEMI-F47 (200VAC Line only)<br>|||||
|Environ-<br>ment<br>|Operating Temperature<br>(*12)<br> ee<br>es<br>ee|℃<br>es|<br>ee<br>ee|-10 to +70 (-10 to +50: 100%, +70: 50%)<br>|<br>ee||||
||Storage Temperature<br>ee<br>ee<br>|℃<br>ee<br>ee<br>ee<br>||-30 to +85<br>ee<br>|||||
||Operating Humidity<br>ee<br>ee|％RH<br>ee<br>ee<br>ee||10 to 90 (No dewdrop)<br>ee<br>|||||
||Storage Humidity<br>ee<br>J|％RH<br>ee|<br>J|10 to 95 (No dewdrop)<br>|||||
||Vibration<br>J<br>|J<br>||At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X, Y, Z 1hour each.<br>|||||
||Shock (In package)<br>J<br>es|J<br>es||Less than 196.1m/s²<br>|||||
||Cooling<br>es|es||Forced air by blower fan<br>|||||
|Isolation|Withstand Voltage<br>dL|dL|Input - FG : 2.5kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG: 500VAC (100mA), Output-CNT: 100VAC(100mA) for 1min||||
||Isolation Resistance<br>dL|dL|More than 100MΩOutput - FG : 500VDC<br>More than 10MΩOutput -CNT : 100VDC at 25℃and 70%RH||||
|Standards|Safety Standards<br>(*13)<br>dL|dL|Approved by UL60601-1, EN60601-1, CSA-C22.2 No601.1-M90||||
||PFHC<br>dL<br>ee<br>|dL<br>ee<br>||Designed to meet IEC61000-3-2<br>|||||
||Voltage Fluctuations / Flicker Emissions<br>ee<br>ee|ee<br>ee||Designed to meet IEC61000-3-3<br>|||||
||EMI<br>ee<br>J|ee|<br>J|Designed to meet EN55011/EN55022-B, FCC-B, VCCI-B<br>|||||
||Immunity<br>J|J|Designed to meet IEC61000-4-2(Level 3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11||||
|Mechanical|Weight (typ)<br>J<br>es|g<br>J<br>es<br>ee|1000<br>ee||||
||<br>Size (W x H x D)<br>ee|mm<br>ee<br>ee|61 x 82 x 165 (Refer to outline drawing)<br>ee||||



(*1) (   ):Peak output current at 200VAC. Operaing time at peak output is less than 10 sec, duty is less than 35%. 

(*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

**●Recommended EMC Filter** 

(*3) For cases where conformance to various safety specs (UL, EN, CSA) are required, to be described as 100 - 240VAC (50/60Hz). 

(*4) Not applicable for the inrush current to noise filter for less than 0.2ms. 

(*5) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. 

(*6) 85 - 265VAC, constant load. 

(*7) No load-full load, constant input voltage. 

(*8) Constant current limit with automatic recovery. Avoid to operate at over load or short circuit condition for more than 30 seconds. 

(*9) OVP circuit will  shut the output down, manual reset (CNT reset or re power on). 

RSEN-2006L **Please refer to "TDK-Lambda EMC Filters" catalog.** 

(*10) At 100/200VAC, nominal output voltage and maximum output current. 

(*11) Measured by the each measuring method of UL, EN, and CSA (at 60Hz), Ta=25 ℃ . When using it as a patient care equipment, all outer surfaces of the equipment shall be constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

(*12) Ratings  - Derating at standard mounting. Refer to output derating curve. 

- Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

(*13) As for UL60601-1, EN60601-1 and CSA-C22.2No601.1-M90, basic insulation. 

A-144 

・All specifications are subject to change without notice. 

**HWS300/ME** 

**HWS /ME** 

## **Outline Drawing** 

## **【HWS300/ME】** 

**==> picture [473 x 350] intentionally omitted <==**

**----- Start of picture text -----**<br>
（10.7）7.3 NAME PLATE<br>（8.9） SEE NOTE A AIR FLOW<br>4-M4<br>HWS300-24/HD<br>SEE NOTE B<br>(TAPPED AT THE BOTTOM CHASSIS)<br>FAN<br>3-M4 （14.6） 25 105±0.5<br>（46.9）<br>61±1 165±1<br>25 120±0.5<br>22 MAX<br>SEE NOTE B<br>18 MAX<br>== NOTES == 5 MAX<br>7.2<br>11<br>15<br>14<br>11<br>82±1 60±0.5<br>（66.6）<br>10<br>（47）<br>10<br>（34.5）<br>11<br>（9.5）<br>40±0.5<br>10.5<br>**----- End of picture text -----**<br>


- A : MODEL NAME, NOMINAL OUTPUT VOLTAGE AND MAXIMUM OUTPUT CURRENT ARE SHOWN IN THE NAME PLATE IN ACCORDANCE WITH THE SPECIFICATIONS. 

**==> picture [32 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
UNITS mm<br>**----- End of picture text -----**<br>


- B : M4 TAPPED HOLES (8) FOR CUSTOMER CHASSIS MOUNTING. (SCREW PENETRATION DEPTH 6m/m MAX.) 

## == SIGNAL CONNECTOR USED == 

== ACCESSORIES == 

|==|PART DESCRIPTION|PART NAME|MANUFACT|＊COVER FOR BARRIER TERMINAL STRIP ------1<br>(ATTACHED ON TERMINAL AT SHIPMENT)<br>＊SHORT PIECE ---------------------1<br> SHORTING +Vm―+S, -Vm―-S, CNT―TOG<br>(ATTACHED ON CN1 AT SHIPMENT)|
|---|---|---|---|---|
||PIN HEADER|S12B-PHDSS|JST||
||MATCHING HOUSINGS , PINS & TOOL ==||||
||PART DESCRIPTION|PART NAME|MANUFACT||
||SOCKET HOUSING|PHDR-12VS|JST||
||TERMINAL PINS|SPHD-002T-P0.5(AWG28～24)<br>SPHD-001T-P0.5(AWG26～22)|JST||
||HAND CRIMPING TOO|L<br>YRS-620(SPHD-002T-P0.5)<br>YC-610R(SPHD-001T-P0.5)|JST||



## **OUTPUT DERATING** 

**==> picture [477 x 124] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>100<br>80<br>MOUNTING A MOUNTING B<br>60 (STANDARD MOUNTING) DON’T USE<br>40<br>20<br>0<br>GO!!<br>-10 0 10 20 30 40 50 60 70 80 ●Please refer to instraction manual. A-161<br>Ta(℃)<br>LOAD(%)<br>**----- End of picture text -----**<br>


**A-161** 

A-145 

・All specifications are subject to change without notice. 

**HWS600/ME** 

**HWS /ME** 

## **HWS600/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**ITEMS/UNITS**<br>**MODEL**<br>~~|~~|**HWS600-24/ME**<br>~~|~~|
|---|---|---|---|
|Input|Voltage Range<br>(*3)<br>es<br>|V<br>es~~|~~<br>~~|~~|AC85 - 265 or DC120 - 330<br>~~|~~<br>~~|~~|
||Frequency<br>(*3)<br>es<br>ee|Hz<br>es~~|~~<br>ee~~|~~|47 - 63<br>~~|~~<br>~~|~~|
||Power Factor (100/200VAC)(typ) (*2)<br>ee<br>es<br>|ee~~|~~<br>es<br>~~|~~|0.99 / 0.95<br>~~|~~<br>~~|~~|
||Efficiency (100/200VAC)(typ)<br>(*2)<br>es<br>ee<br>|％<br>es<br>ee~~|~~<br>~~|~~|82 / 85<br>~~|~~<br>~~|~~|
||Current (100/200VAC)(typ)<br>(*2)<br>ee<br>es|A<br>ee~~|~~<br>es~~|~~|8.1 / 3.9<br>~~|~~<br>~~|~~|
||Inrush Current (100/200VAC)(typ) (*4)<br>es<br>ee<br>|A<br>es~~|~~<br>ee<br>~~|~~|20 / 40<br>~~|~~<br>~~|~~|
||Leakage Current<br>(*11)<br>ee<br>ee<br>|mA<br>ee<br>ee~~|~~<br>~~|~~|Less than 0.5.(0.12(typ)at 100VAC / 0.34(typ)at 230VAC)<br>~~|~~<br>~~|~~|
|Output|Nominal Voltage<br>ee<br>ee|VDC<br>ee~~|~~<br>ee~~|~~|24<br>~~|~~<br>~~|~~|
||Maximum Current<br>(*1)<br>ee<br>ee<br>|A<br>ee~~|~~<br>ee<br>~~|~~|27(31)<br>~~|~~<br>~~|~~|
||Maximum Power<br>ee<br>ee|W<br>ee<br>ee~~|~~|648<br>~~|~~|
||Maximum Line Regulation<br>(*6)<br>ee<br>ee|mV<br>ee~~|~~<br>ee|96<br>~~|~~|
||Maximum Load Regulation<br>(*7)<br>ee<br>ee<br>|mV<br>ee<br>ee<br>~~|~~|144<br>~~|~~|
||Temperature Coefficient (%)<br>ee<br>ee|ee<br>ee~~|~~|Less than 0.02% /℃<br>~~|~~|
||Maximum Ripple & Noise (0<Ta<70℃) (*5) <br>ee<br>ee|mVp-p<br>ee~~|~~<br>ee|150<br>~~|~~|
||Maximum Ripple & Noise (－10<Ta< 0℃) (*5) <br>ee<br>ee<br>|mVp-p<br>ee<br>ee<br>~~|~~|200<br>~~|~~|
||Hold-up Time (typ)<br>(*10)<br>ee<br>ee<br>|ms<br>ee<br>ee~~|~~<br>~~|~~|20<br>~~|~~<br>~~|~~|
||Voltage Adjustable Range<br>ee<br>ee|VDC<br>ee~~|~~<br>ee~~|~~|19.2 - 28.8<br>~~|~~<br>~~|~~|
|Function|Over Current Protection<br>(*8)<br>ee<br>ee<br>|A<br>ee~~|~~<br>ee<br>~~|~~|>31.4<br>~~|~~<br>~~|~~|
||Over Voltage Protection<br>(*9) <br>ee<br>es<br>|VDC<br>ee<br>es~~|~~<br>~~|~~|30.0 - 34.8<br>~~|~~<br>~~|~~|
||Remote Sensing<br>es<br>ee|es~~|~~<br>ee~~|~~|Possible<br>~~|~~<br>~~|~~|
||Remote ON/OFF Control<br>ee<br>ee<br>|ee~~|~~<br>ee<br>~~|~~|Possible<br>~~|~~<br>~~|~~|
||Parallel Operation<br>ee<br>es<br>|ee<br>es~~|~~<br>~~|~~|Possible<br>~~|~~<br>~~|~~|
||Series Operation<br>es<br>ee|es~~|~~<br>ee~~|~~|Possible<br>~~|~~<br>~~|~~|
||Monitoring Signal<br>ee<br>ee<br>|ee~~|~~<br>ee<br>~~|~~|PF(Open collector output)<br>~~|~~<br>~~|~~|
||Line DIP<br>ee<br>es<br>|ee<br>es~~|~~<br>~~|~~|Designed to meet SEMI-F47(200VAC Line only)<br>~~|~~<br>~~|~~|
|Environment|Operating Temperature<br>(*12)<br>es<br>ee|℃<br>es~~|~~<br>ee~~|~~|-10 to +70(-10 - +50: 100%,+70: 50%)<br>~~|~~<br>~~|~~|
||Storage Temperature<br>ee<br>ee<br>|℃<br>ee~~|~~<br>ee<br>~~|~~|-30 to +85<br>~~|~~<br>~~|~~|
||Operating Humidity<br>ee<br>es|％RH<br>ee<br>es~~|~~|10 - 90(No dewdrop)<br>~~|~~|
||Storage Humidity<br>es<br>TS|％RH<br>es~~|~~<br>TS|10 - 95(No dewdrop)<br>~~|~~|
||Vibration<br>TS|TS|At no operating, 10 - 55Hz (sweep for 1min)<br>19.6m/s² constant, X,Y,Z 1hour each.|
||Shock (In package)<br>TS<br>ee|TS<br>ee|Less than 196.1m/s²|
||Cooling<br>ee|ee|Forced air byblower fan|
|Isolation|Withstand Voltage||Input - FG : 2.5kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output - FG : 500VAC(100mA), Output - CNT : 100VAC(100mA)for 1min|
||Isolation Resistance<br>|~~|~~|More than 100MΩOutput - FG : 500VDC<br>More than 10MΩOutput - CNT : 100VDC at 25℃and 70%RH<br>~~|~~|
|Standards|Safety Standards<br>(*13)<br>ee|ee~~|~~|Approved byUL60601-1,EN60601-1,CSA-C22.2 No601.1-M90<br>~~|~~|
||PFHC<br><br>ee|~~|~~<br>ee|Designed to meet IEC61000-3-2<br>~~|~~|
||Voltage Fluctuations / Flicker Emissions<br>ee<br>ee|ee<br>ee|Designed to meet IEC61000-3-3|
||EMI<br>ee<br>TS|ee<br>TS|Designed to meet EN55011/EN55022-A,FCC-A,VCCI-A|
||Immunity<br>TS<br>|TS<br>~~|~~|Designed to meet IEC61000-4-2(Level 3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11<br>~~|~~|
|Mechanical|Weight (typ)<br>TS<br>ee<br>|g<br>TS<br>ee~~|~~<br>~~|~~|1600<br>~~|~~<br>~~|~~|
||<br>Size (W x H x D)<br><br>es|mm<br>~~|~~<br>es~~|~~|100 x 82 x 165(Refer to outline drawing)<br>~~|~~<br>~~|~~|



- (*1) (   ): Peak output current at 200VAC. Operaing time at peak output is less than 10 sec, duty is less than 35%. 

- (*2) At 100/200VAC, Ta=25 ℃ and maximum output power. 

**●Recommended EMC Filter** 

- (*3) For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100 - 240VAC (50/60Hz). 

- (*4) Not applicable for the inrush current to noise filter for less than 0.2ms. Inrush current is 30A (typ) when PFHC start-up. 

- (*5) Measure with JEITA RC-9131A probe, bandwidth of scope: 100MHz. 

- (*6) 85 - 265VAC, constant load. 

- (*7) No load - full load, constant input voltage. 

- (*8) Constant current limit with automatic recovery. 

Avoid to operate at over load or short circuit condition for more than 30 seconds. 

RSEN-2016L **Please refer to "TDK-Lambda EMC Filters" catalog.** 

- (*9) OVP circuit will shut the output down, manual reset (CNT reset or re-power on). 

- (*10) At 100/200VAC, nominal output voltage and maximum output current. 

(*11) Measured by the each measuring method of UL, EN, and CSA (at 60Hz), Ta=25 ℃ . When using it as a patient care equipment, all outer surfaces of the equipment shall be constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

- (*12) Ratings  - Derating at standard mounting. Refer to output derating curve. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

- (*13) As for UL60601-1, EN60601-1 and CSA-C22.2 No601.1-M90, basic insulation. 

A-146 

・All specifications are subject to change without notice. 

**HWS600/ME** 

**HWS /ME** 

## **Outline Drawing** 

## **【HWS600/ME】** 

**==> picture [485 x 364] intentionally omitted <==**

**----- Start of picture text -----**<br>
NAME PLATE<br>4-M5 16 17.5 16 （37.7） SEE NOTE A SEE NOTE B AIR FLOW<br>HWS600-5 /ME<br>26MAX<br>18MAX 25 120±0.5<br>10 10 （10）<br>165±1<br>（88.8） 3-M4<br>7.2 （79.5） 20 110±0.5<br>100±1<br>SEE NOTE B<br>== SIGNAL CONNECTOR USED ==<br>== NOTES == 5 MAX<br>PART DESCRIPTION PART NAME MANUFACT A : MODEL NAME, NOMINAL OUTPUT VOLTAGE AND<br>PIN HEADER S12B-PHDSS JST MAXIMUM OUTPUT CURRENT ARE SHOWN IN THE  [UNITS mm]<br>NAME PLATE IN ACCORDANCE WITH THE<br>SPECIFICATIONS.<br>82±1 40±0.5<br>（63.9）<br>15 （14.6）<br>（44.5）<br>（14.6） 21<br>60±0.5<br>20<br>**----- End of picture text -----**<br>


## == SIGNAL CONNECTOR USED == 

|== MATCHING HOUSINGS , PINS & TOOL ==|== MATCHING HOUSINGS , PINS & TOOL ==|
|---|---|
|PART DESCRIPTION<br>|MANUFACT<br>PART NAME|
|SOCKET HOUSING<br>|PHDR-12VS<br>JST|
|TERMINAL PINS<br>SPHD-<br>SPHD-|002T-P0.5(AWG28～24)<br>001T-P0.5(AWG26～22)<br>JST|
|HAND CRIMPING TOOL<br>YRS-6<br>YC-61|20(SPHD-002T-P0.5)<br>0R(SPHD-001T-P0.5)<br>JST|



- B : M4 TAPPED HOLES (8) FOR CUSTOMER CHASSIS MOUNTING. 

   - (SCREW PENETRATION DEPTH 6m/m MAX.) 

== ACCESSORIES == 

- *COVER FOR BARRIER TERMINAL STRIP -----1 

- (ATTACHED ON TERMINAL AT SHIPMENT) 

*SHORT PIECE --------------------1 

SHORTING +Vm ― +S, -Vm ― -S, CNT ― TOG 

(ATTACHED ON CN1 AT SHIPMENT) 

## **OUTPUT DERATING** 

**==> picture [198 x 121] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>100<br>80<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta (℃)<br>LOAD (%)<br>**----- End of picture text -----**<br>


**==> picture [218 x 45] intentionally omitted <==**

**==> picture [194 x 13] intentionally omitted <==**

**----- Start of picture text -----**<br>
MOUNTING A MOUNTING B<br>(STANDARD MOUNTING) DON’T USE<br>**----- End of picture text -----**<br>


**==> picture [13 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
GO!!<br>**----- End of picture text -----**<br>


**●Please refer to instraction manual.** 

**A-161** 

A-147 

・All specifications are subject to change without notice. 

**HWS1500/ME** 

**HWS /ME** 

## **HWS1500/ME Specifications** 

|**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**ITEMS/UNITS**<br>**MODEL**<br>||**HWS1500-24/ME**<br>||**HWS1500-36/ME**|**HWS1500-48/ME**|
|---|---|---|---|---|---|
|Input|Voltage Range<br>(*2)<br>es|V<br>es||AC85 - 265<br>||||
||Frequency<br>(*2)<br>es<br>ee|Hz<br>es|<br>ee|47 - 63<br>||||
||Power Factor (100/230VAC)(typ) (*1)<br>ee<br>es|ee<br>es|0.98 / 0.94|||
||Efficiency (100/200VAC)(typ)<br>(*1)<br>es<br>ss<br>|%<br>es<br>ss<br>||84 / 88<br>ss<br>|||86 / 90|
||Current (100/200VAC)(typ)<br>(*1)<br>ss<br>ee|A<br>ss<br>ee||19.0 / 10.0<br>ss<br>||||
||Inrush Current (100/200VAC)(typ) (*3)<br>ee<br>ee<br>|A<br>ee|<br>ee<br>||20 / 40<br>|<br>||||
||Leakage Current<br>(*10)<br>ee<br>es|mA<br>ee<br>es|<br>nD|Less than 0.5.  (0.2 (typ) at 100VAC / 0.4 (typ) at 230VAC)<br>|<br>nn|||
|Output<br>a|Nominal Voltage<br>es<br>nD|VDC<br>es|<br>nD<br>nD|24<br>|<br>nD<br>nn|36<br>nD|48|
||Maximum Current (100/200VAC)<br>nD<br>ns|A<br>nD<br>nD <br>ns<br>ns|65 / 70<br>nD<br> nn<br>ns|42 / 46.5<br>nD<br>ns|32 / 32|
||Maximum Peak Current (200VAC) (*13)<br>ns<br>es<br>a|A<br>ns<br>es<br>ns<br>nD<br>|105<br>ns<br>es<br>nn<br>|70<br>ns<br>es<br>(<br>|-|
||Maximum Power (100/200VAC)<br>es<br>nD<br>a|W<br>es<br>ns<br>nD<br>nD<br>|1560 / 1680<br>es<br>nD<br>nn<br>|1512 / 1674<br>es<br>nD<br>(<br>|1536 / 1536|
||Maximum Peak Power (200VAC) (*13)<br>nD<br>a|W<br>nD<br>nD<br><br>nn|2520<br>nD<br>nn(<br>||-|
||Maximum Line Regulation<br>(*5)<br>ans|mV<br>nD <br>ns<br>nn<br>ns|96<br> nn <br>ns|144<br> (<br>ns|192|
||Maximum Load Regulation<br>(*6)<br>ns<br>ns|mV<br>ns<br>nn<br>ns<br>ns|144<br>ns<br>ns|150<br>ns<br>ns|288|
||Temperature Coefficient<br>ns<br>es<br>|ns<br>ns<br>es<br>||Less than 0.02%/℃<br>ns<br>||||
||Maximum Ripple & Noise (0～+70℃) (*4) <br>es<br>ee|mVp-p<br>es<br>ee||200<br>||||
||Maximum Ripple & Noise (-10～0℃) (*4) <br>ee<br>sD|mVp-p<br>ee|<br>sD|240<br>|<br>sD||400|
||Hold-up Time (typ)<br>(*9)<br>sD<br>ee|ms<br>sD<br>ee<br>nD|20<br>sD|||
||Voltage Adjustable Range<br>ee<br>nD|VDC<br>ee<br>nD<br>nD|19.2 - 28.8<br>nD|28.8 - 43.2<br>nD|38.4 - 52.8|
|Function|Over Current Protection<br>(*7)<br>nD<br>ee|nD<br>nD<br>ee|>105%<br>nD|||
||Over Voltage Protection<br>(*8) <br>ee<br>ns|VDC<br>ee<br>ns|30.0 - 34.8<br>ns|45.0-49.7<br>ns|55.2 - 64.8|
||Remote Sensing<br>ns<br>es|ns<br>es|Possible<br>ns|||
||Remote ON/OFF Control<br>es<br>ee|es<br>ee<br>ee|Possible<br>ee|||
||Parallel Operation<br>ee<br>ee<br>|ee<br>ee<br>ee<br>||Possible<br>ee<br>||||
||Series Operation<br>ee<br>ee<br>|ee<br>ee<br>ee|<br>||Possible<br>ee<br>|<br>||||
||Monitoring Signal<br>ee<br>ee|ee|<br>ee||PF (Open collector output)<br>|<br>||||
||Line DIP<br>ee<br>ee<br>|ee|<br>ee<br>||Built to meet SEMI-F47 (200VAC Line only)<br>|<br>||||
|Environment|Operating Temperature<br>(*11)<br>ee<br>ee<br>|℃<br>ee<br>ee|<br>||-10 to +70 ( -10 to +50: 100%, +60: 75%, +70: 50%), start up -20 to 70<br>|<br>||||
||Storage Temperature<br>ee<br>ee|℃<br>ee|<br>ee||-30 to +85<br>|<br>||||
||Operating Humidity<br>ee<br>ee<br>|%RH<br>ee|<br>ee<br>||10 - 90 (No dewdrop)<br>|<br>||||
||Storage Humidity<br>ee<br>ee<br>|%RH<br>ee<br>ee|<br>||10 - 95 (No dewdrop)<br>|<br>||||
||Vibration<br>ee<br>ee|ee|<br>ee||At no operating, 10 - 55Hz (sweep for 1min.) 19.6m/s² constant, X, Y, Z 1h each.<br>|<br>||||
||Shock (In package)<br>ee<br>ee<br>oo|ee|<br>ee|Less than 196.1m/s²<br>||||
||Cooling<br>ee<br>oo|ee|Forced air by blower fan|||
|Isolation|Withstand Voltage<br>oo||Input - FG : 2kVAC (20mA), Input - Output : 3kVAC (20mA)<br>Output-FG : 500VAC (300mA), Output-CNT:100VAC (100mA) for 1min.|||
||Isolation Resistance<br>oo||More than 100Mohm Output - FG ... 500VDC<br>More than 10Mohm Output - CNT ... 100VDC   at 25℃and 70%RH|||
|Standards|Safety Standards<br>(*12)<br>ee|ee|Built to meet  UL60601-1, EN60601-1, CSA-C22.2 No.601.1-M90 (C-UL)|||
||PFHC<br>ee<br>ee|ee<br>ee|Built to meet IEC61000-3-2|||
||Voltage Fluctuations / Flicker Emissions<br>ee<br>es|ee<br>es|Built to meet IEC61000-3-3|||
||EMI||Built to meet EN55011 / EN55022-A, FCC-Class A, VCCI-Class A|||
||Immunity||Built to meet IEC61000-4-2(Level 2,3), -3(Level 3), -4(Level 3),<br>-5(Level 3,4), -6(Level 3), -8(Level 4), -11|||
|Mechanical|Weight (typ)<br>ee<br>|g<br>ee<br>||3800<br>||||
||<br>Size (W x H x D)<br>ee<br>ee|mm<br>ee<br>ee||126.5 x 82 x 280 (Refer to outline drawing)<br>||||



- (*1) At Ta=25 ℃ and maximum output power. 

- (*2) For cases where conformance to various safety specs (UL, CSA, EN) are required, input voltage range will be 100 - 240VAC (50/60Hz). 

- (*3) First in-rush current. Not applicable for the in-rush current to noise filter less than 0.2ms. 

- (*4) Measure with JEITA RC-9131A probe, Bandwidth of scope :100MHz. (at 22uF electric capacitor and 0.47uF film capacitor on the test fixture board.) 

- (*5) 85 - 265VAC, constant load. 

- (*6) No load-Full load, constant input voltage. 

(*7) Constant current limit with automatic recovery. An output will be intercepted if it continues for about 5 seconds. 

- (*8) OVP circuit will  shut down output, manual reset (Power cycle) or ON/OFF CNT signal reset. 

## **●Recommended EMC Filter** 

(*9) At 100/200VAC, nominal output voltage and maximum output current. 

(*10) Measured by the each measuring method of UL, EN and CSA (at 60Hz). 

When using it as a patient care equipment, all outer surfaces of the equipment shall be 

constructed of nonconductive material. See clause 19.5DV.2 of UL60601-1. 

(*11) Ratings  - Derating at standard mounting. 

   - Load (%) is percent of maximum output power or maximum output current, whichever is greater. 

   - As for other mountings, refer to derating curve. 

- (*12) As for UL60601-1, EN60601-1 and CSA-C22.2 No.601.1-M90 (C-UL) basic insulation. 

- (*13) Peak output current is less than 10 seconds, and duty 35% max. 

RSEN-2030L **Please refer to "TDK-Lambda EMC Filters" catalog.** 

A-148 

・All specifications are subject to change without notice. 

**HWS1500/ME** 

## **Outline Drawing** 

## **【HWS1500/ME】** 

SEE NOTE B 

**==> picture [528 x 349] intentionally omitted <==**

**----- Start of picture text -----**<br>
 8-M4<br>82±1  (BOTH SIDES)<br>（56.8） BUS BAR  SEE NOTE A<br>（23.3） 20 SPACER 46MAX 10 260±0.5<br> (RED)<br>BUS BAR<br>SPACER<br> (BLACK) OUTPUT  AIR<br>TERMINAL FLOW<br>SEE NOTE C<br>INPUT<br>TERMINAL<br>SEE NOTE C<br>（14.6） 4-M4 NAME PLATE NAME PLATE<br>35±1  8-M4<br> (BOTH SIDES)<br>20±1 SEE NOTE A<br>4-M4 HWS<br>/ME<br>10 260±0.5<br>20MAX 280±1 4MAX<br>NOTES<br>A: M4 TAPPED HOLES (16) FOR CUSTOMER CHASSIS MOUNTING.<br>〔 SCREWS MUST NOT PROTRUDE INTO POWER SUPPLY BY MORE THAN 6m/m.RECOMMENDED M4 SCREWS TORQUE : 1.27N ・ m 〕 (unit : mm)<br>B : I/O SIGNAL CONNECTOR<br>CONNECTOR   : S12B-PHDSS(LF)(SN) (JST)<br>MATCHING HOUSING   : PHDR-12VS (JST) ACCESSORIES<br>MATCHING CONTACT   : SPHD-002T-P0.5(AWG28 ～ 24) (JST) OR<br> SPHD-001T-P0.5(AWG26 ～ 22) (JST) OR  * ATTACHED CONNECTOR<br>HAND CRIMPING TOOL : YRS-620(SPHD-002T-P0.5) (JST) BPHD-001T-P0.5(AWG26 ～ 22) (JST) SHORTING +S to +V, -S to -V, PV - REF & CNT - TDG<br>2-φ9<br>7.25<br>23.7±1<br>（9.1）<br>3<br>（11.2）<br>25±1<br>（73.6）<br>3<br>126.5±1 11 112±0.5<br>11<br>11<br>ME ME<br>22 10<br>20<br>60±0.5<br>45.5±1<br>11<br>**----- End of picture text -----**<br>


      - ATTACHED CONNECTOR SHORTING +S to +V, -S to -V, PV - REF & CNT - TDG ATTACHED ON CN01 AT SHIPMENT 

   - YC-610R(SPHD-001T-P0.5) (JST) 

   - YC-610R(BPHD-001T-P0.5) (JST) 

- C : RECOMMENDED TORQUE FOR THE TERMINAL PIECE. INPUT TE ~~RMINAL (M4 SCREW) : 1.27N ・ m~~ OUTPUT TERMINAL (M8 BOLT & NUT) : 10.8N ・ m OUTPUT TERMINAL (M4 SCREW) : 1.27N ・ m 

## **OUTPUT DERATING** 

**==> picture [200 x 122] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>MOUNTING A, B, C, D<br>100<br>90V～<br>80<br>60<br>85V<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ta（℃）<br>LOAD（%）<br>**----- End of picture text -----**<br>


**==> picture [198 x 56] intentionally omitted <==**

**==> picture [214 x 95] intentionally omitted <==**

**----- Start of picture text -----**<br>
MOUNTING A MOUNTING B MOUNTING C<br>（STANDARD MOUNTING）<br>MOUNTING D Inhibit<br>**----- End of picture text -----**<br>


**GO!!** 

**●Please refer to instraction manual.** 

**A-180** 

A-149 

・All specifications are subject to change without notice. 

**HWS15-150** 

## **Block Diagram** 

## **【HWS15, HWS30】** 

**HWS** 

**==> picture [429 x 190] intentionally omitted <==**

**----- Start of picture text -----**<br>
L<br>＋<br>Input Output<br>85 - 265VAC<br>－<br>N<br>FG<br>OCP<br>Circuit<br>OVP Photo- OVP<br>Circuit Coupler Sensing<br>Photo- Output<br>Coupler Sensing<br>●Circuit topology, swtching frequency ●Fuse rating<br> Flyback topology 70kHz（fixed）  HWS15：2A, HWS30：3.15A<br>ine Filter<br>L<br>Limit Circuit<br>Inrush Current<br>Rectifier & Filter Switching Circuit Rectifier & Filter<br>Control Circuit<br>**----- End of picture text -----**<br>


## **【HWS50】** 

**==> picture [402 x 416] intentionally omitted <==**

**----- Start of picture text -----**<br>
L ＋<br>Input<br>85 - 265VAC Output<br>－<br>N<br>OCP<br>Circuit<br>FG<br>OVP Photo- OVP<br>Circuit Coupler Sensing<br>Photo- Output<br>Coupler Sensing<br>Remote ON/OFF Photo- ＋R<br>● Circuit topology, switching frequency Control Coupler ＊Optional－R<br>  Single-ended forward topology 130kHz（fixed）<br>  PFHC circuit：activ filter 90kHz（fixed） ● Fuse rating：2A<br>【HWS80, HWS100, HWS150】<br>＋S<br>L ＋V<br>Input<br>85 - 265VAC Output<br>－V<br>N<br>OCP －S<br>Circuit<br>FG<br>OVP Photo- OVP<br>Circuit Coupler Sensing<br>Photo- Output<br>Coupler Sensing<br>Remote ON/OFF Photo- ＋R<br>Control Coupler －R<br>＊Optional<br>Filter<br>Line Filter Rectifier<br>PFHC Circuit<br>Switching Circuit Rectifier & Filter<br>Inrush Current Limit Circuit<br>Control Circuit Control Circuit<br>Filter<br>Line Filter Rectifier<br>PFHC Circuit<br>Switching Circuit Rectifier & Filter<br>Inrush Current Limit Circuit<br>Control Circuit Control Circuit<br>**----- End of picture text -----**<br>


## **【HWS80, HWS100, HWS150】** 

- Circuit topology, switching frequency Cascade forward topology 120kHz（fixed） PFHC circuit：activ filter 80kHz（fixed） 

- Fuse rating： 

HWS80, HWS100：3.15A, HWS150：5A 

A-150 

・All specifications are subject to change without notice. 

**HWS300-1000** 

**HWS** 

## **Block Diagram** 

## **【HWS300, HWS600】** 

**==> picture [382 x 239] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S<br>＋Vm<br>L ＋<br>Input Output<br>85 - 265VAC<br>－<br>N －Vm<br>OCP －S<br>Circuit<br>COM<br>FG<br>OVP Photo- OVP<br>Circuit Coupler Sensing<br>PV<br>Photo-Coupler Output Sensing ＊Optional<br>Output Current Balance<br>PC<br>Photo-Coupler Power Fail<br>Fan ALM<br>PF<br>Remote ON/OFF CNT<br>Photo-Coupler Control TOG<br>Filter<br>Line Filter Rectifier<br>PFHC Circuit<br>Switching Circuit Rectifier & Filter<br>Inrush Current Limit Circuit<br>Control Circuit Control Circuit<br>**----- End of picture text -----**<br>


- Circuit topology, switching frequency Cascade forward topology 190kHz（fixed） PFHC circuit : activ filter HWS300 : 80kHz（fixed）, HWS600 : 90kHz（fixed） 

- Fuse rating： 

HWS300：10A, HWS600：15A 

## **【HWS1000】** 

**==> picture [373 x 278] intentionally omitted <==**

**----- Start of picture text -----**<br>
Primary Circuit  Secondary Circuit<br>+S<br>L +<br>85-265VAC FilterLine CurrentCircuitInrushLimit Rectifier CircuitPFHC Filter SwitchingCircuit RectifierFilter& Output<br>N<br>FG<br>OCP Thermal<br>Chassis   ground Circuit Protection<br>OVP<br>Latch OVP Sensing<br>Circuit Circuit<br>LVP Delay Low outputVoltage<br>Circuit Timer Detection<br>PFHC<br>ControlCircuit SwitchingConroltCircuit SensingOutput PV<br>Output<br>Current<br>Balance PC<br>SupplementalPower supply REFERENCE Voltage REF<br>PF<br>BlowerFan RemoteON/OFFControl CNTTOG<br>SELV Circuit<br>**----- End of picture text -----**<br>


- SWITCHING CIRCUIT 

- PFHC   CIRCUIT       ACTIVE  FILTER  (63kHz) 

- FUSE   RATING      20A 

- FG      FUNCTION  GROUND 

A-151 

・All specifications are subject to change without notice. 

**HWS1500, 1800T** 

## **Block Diagram** 

## **【HWS1500】** 

**==> picture [471 x 278] intentionally omitted <==**

**----- Start of picture text -----**<br>
Primary Circuit  Secondary Circuit<br>+S<br>L +<br>85-265VAC FilterLine CurrentCircuitInrushLimit Rectifier CircuitPFHC Filter SwitchingCircuit RectifierFilter& Output<br>N<br>FG<br>OCP Thermal<br>Chassis   ground Circuit Protection<br>OVP<br>Latch OVP Sensing<br>Circuit Circuit<br>LVP Delay Low outputVoltage<br>Circuit Timer Detection<br>PFHC<br>ControlCircuit SwitchingConroltCircuit SensingOutput PV<br>Output<br>Current<br>Balance PC<br>Supplemental<br>HWS Power supply<br>PF<br>BlowerFan RemoteON/OFFControl CNTTOG<br>SELV Circuit<br>**----- End of picture text -----**<br>


**==> picture [126 x 33] intentionally omitted <==**

**----- Start of picture text -----**<br>
●  Switching circuit<br>       Half - bridge converter : 70kHz<br>●  PFHC circuit  : Active filter 65kHz<br>●  Fuse rating  : 30A<br>●  FG  : Function ground<br>**----- End of picture text -----**<br>


## **【HWS1800T】** 

**==> picture [389 x 283] intentionally omitted <==**

**----- Start of picture text -----**<br>
Primary Circuit  Secondary Circuit<br>+S<br>L1 +<br>Input L2 FilterLine Rectifier CurrentCircuitInrushLimit CircuitPFHC Filter SwitchingCircuit RectifierFilter& Output<br>L3<br>FG<br>CircuitOCP ProtectionThermal COM<br>OVP<br>Sensing<br>Latch OVP<br>Circuit Circuit Low output<br>Voltage<br>Detection<br>LVP Delay<br>Circuit Timer<br>DetectionPhaseOpen ControlCircuitPFHC SwitchingConrolt SensingOutput PV<br>Circuit Output<br>Current<br>Balance PC<br>Supplemental ReferenceVoltage REF<br>Power supply<br>PF<br>BlowerFan RemoteON/OFFControl CNTTOG<br>SELV Circuit<br>(60V: Hazardous Voltage Circuit)<br>**----- End of picture text -----**<br>


● Switching circuit Half - bridge converter : 3 - 5V 45kHz (fixed), 6 - 7V 55kHz (fixed), 12 - 60V 70kHz (fixed) ● PFHC circuit : Active filter 65kHz (fixed) ● Fuse rating : 20A ● FG : FUNCTION GROUND 

A-152 

・All specifications are subject to change without notice. 

**HWS300, 600, 1000** 

**HWS** 

## **Sequence Time Chart** 

## **【HWS300, HWS600】** 

**==> picture [472 x 629] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input Voltage 0V<br>OVP Point （＊2） PF Monitor Point（65 - 80% of Nominal Voltage）<br>Vout<br>Output Voltage<br>0V<br>Remote ON/OFF  H（CNT）<br>Control（＊1）<br>L（TOG）<br>Power Fail H（PF）<br>PF Signal<br>(Open Collector) L（TOG）<br>（＊1）Level （＊2）OVP Point<br>2.4V ≦ H ≦ 12V or Open 3V          ： 125 - 150%<br>   0V ≦ L ≦ 0.8V or Short 5 - 24V    ： 125 - 145%<br>48V         ： 115 - 135%<br>【HWS1000】<br>0V<br>Input Voltage PF Monitor Point OCP Point（＊3）<br>（Less than 80%） OVP Point（＊2） OCP Point（＊3） OCP（Shutdown） OVP Point （＊2） （More than 105％） OCP（Shutdown）<br>Vout<br>0V<br>Output Voltage<br>H<br>5sec 5sec 5sec 5sec<br>（TYP） （TYP） （TYP） （TYP）<br>Remote ON/OFF L<br>Control（＊1）<br>PF Signal H<br>(Open Collector)<br>L<br>（＊1）Level （＊2）OVP Point  （＊3） OCP Point<br>2.4V ≦ H ≦ 12V or Open  3 - 7V     ：125 - 140％ ・Peak current： 120％-7.5V Model, 114%-12V～60V Model.<br>   0V ≦ L ≦ 0.8V or Short 12， 15， 24V：125 - 145％  Peak current is less than 10 seconds, and duty 35% max.<br>  36V       ：125 - 138％  When peak current continued more than 10 seconds,<br> 48， 60V   ：115 - 125％  the output is shut down.<br>INPUT ON REMOTE OFF REMOTE ON OVP ACT ON INPUT OFF INPUT ON OVER LOAD CONDITION OVER LOAD RELEASED FAN STOP OTP ACT ON INPUT OFF INPUT ON OVP ACT ON REMOTE OFF REMOTE ON INPUT OFF<br>INPUT ON REMOTE OFF REMOTE ON INPUT OFF INPUT ON OVP ACT ON INPUT OFF INPUT ON OCP ACT ON OCP RESET OCP ACT ON OCP SHUTDOWN INPUT OFF INPUT ON FAN STOP FAN ALM ACT ON INPUT OFF INPUT ON OTP ACT ON INPUT OFF INPUT ON OVP ACT ON REMOTE OFF REMOTE ON OCP ACT ON OCP SHUTDOWN REMOTE OFF REMOTE ON FAN STOP FAN ALM ACT ON REMOTE OFF REMOTE ON OTP ACT ON REMOTE OFF REMOTE ON<br>**----- End of picture text -----**<br>


## **【HWS1000】** 

- ・Peak current： 120％-7.5V Model, 114%-12V～60V Model. Peak current is less than 10 seconds, and duty 35% max. When peak current continued more than 10 seconds, the output is shut down. 

・OCP Point： More than 120%-3.3V～6V Model, 115% 7.5V～60V Model. 

A-153 

・All specifications are subject to change without notice. 

**HWS 1500, 1800T** 

## **Sequence Time Chart** 

## **【HWS1500】** 

## **HWS** 

**==> picture [469 x 597] intentionally omitted <==**

**----- Start of picture text -----**<br>
0V<br>Input Voltage PF Monitor Point OCP Point OCP Point<br>(Less than 80%) OVP Point（＊2） (More than 105%) OCP SHUTDOWN OVP Point（＊2） (More than 105%) OCP （Shutdown）<br>Vout （＊3） （＊3）<br>0V<br>Output Voltage<br>H<br>5sec 5sec 5sec 5sec<br>（TYP） （TYP） （TYP） （TYP）<br>Remote ON/OFF L<br>Control（＊1）<br>PF Signal  H<br>(Open Collector)<br>L<br>（＊1）Level （＊2）OVP Point （＊3）・OCP Point<br>2.4V ≦ H ≦ 12V or Open 12, 15, 24V ： 125 - 145% (24V, 36V models only, input voltage AC180 - 265V)<br>   0V ≦ L ≦ 0.8V or Short 36V          ： 125 - 138% ・Peak Current： 150%<br>48V          ： 115 - 135% Peak current is less than 10 seconds, and duty 35% max.<br>When peak current continued more than 10 seconds, the<br>output is shut down.<br>・OCP Point ： More than 150%<br>【HWS1800T】<br>Open Phase<br>0V<br>Input Voltage PF Monitor Point OCP Point OCP Point（＊3）<br>(Less than 80％) OVP Point（＊2） (More than 105％) OCP（Shutdown） OVP Point（＊2） (More than105％) OCP（Shutdown）<br>Vout （＊3）<br>0V<br>Output Voltage<br>H<br>5sec 5sec 5sec 5sec<br>（TYP） （TYP） （TYP） （TYP）<br>Remote ON/OFF L<br>Control（＊1）<br>PF Signal H<br>(Open Collector)<br>L<br>INPUT ON REMOTE OFF REMOTE ON INPUT OFF INPUT ON OVP ACT ON INPUT OFF INPUT ON OCP ACT ON OCP RESET OCP ACT ON OCP SHUTDOWN INPUT OFF INPUT ON FAN STOP FAN ALM ACT ON INPUT OFF INPUT ON OTP ACT ON INPUT OFF INPUT ON OVP ACT ON REMOTE OFF REMOTE ON OCP ACT ON OCP SHUTDOWN REMOTE OFF REMOTE ON FAN STOP FAN ALM ACT ON REMOTE OFF REMOTE ON OTP ACT ON REMOTE OFF REMOTE ON<br>INPUT ON REMOTE OFF REMOTE ON INPUT OFF INPUT ON OVP ACT ON INPUT OFF INPUT ON OCP ACT ON OCP RESET OCP ACT ON OCP SHUTDOWN INPUT OFF INPUT ON FAN STOP FAN ALM ACT ON INPUT OFF INPUT ON OTP ACT ON INPUT OFF INPUT ON OPEN PHASE ACT ON OUTPUT SHUTDOWN INPUT OFF INPUT ON OVP ACT ON REMOTE OFF REMOTE ON OCP ACT ON OCP SHUTDOWN REMOTE OFF REMOTE ON FAN STOP FAN ALM ACT ON REMOTE OFF REMOTE ON OTP ACT ON REMOTE OFF REMOTE ON<br>**----- End of picture text -----**<br>


## **【HWS1800T】** 

（＊3）・OCP Point ・Peak Current： 120％（6V - 15V），140％（24V - 60V） 

- （＊1）Level （＊2）OVP Point 2.4V ≦ H ≦ 12V or Open 3 - 7V   ： 125 - 140％ 0V ≦ L ≦ 0.8V or Short 12，15，24V： 125 - 145％ 36V     ： 125 - 138％ 48，60V  ： 115 - 125％ 

- ・Peak current is less than 10 seconds, and duty 35% max. When peak current continued more than 10 seconds, the output is shut down. 

- ・OCP Point： More than 120％（6V - 15V）， More than 140％ （24V - 60V） 

A-154 

・All specifications are subject to change without notice. 

**HWS15, 30, 50, 80, 100, 150** 

**HWS** 

## **HWS 15 -150 Series Instruction Manual** 

## **BEFORE USING THE POWER SUPPLY UNIT** 

Pay attention to all warnings and cautions before using the unit. Incorrect usage could lead to an electric shock, damage to the unit or a fire hazard. 

## **WARNING and CAUTION** 

- Do not modify. 

- Do not touch the internal components, they may have high voltage or high temperature. You may get electric shock or burned. 

- When the unit is operating, keep your hands and face away 

- from it, you may get injured by an accident. 

- This power supply is primarily designed and manufactured to be used and enclosed in other equipment. Stick the WARNING label for users on the system equipment and describe the notice in the instruction manual. 

- Never operate the unit under over current or shorted conditions for long time, which could result in damage or insulation failure. There is no possibility for fire or burning. 

- Confirm connections to input/output terminals are correct as indicated in the instruction manual. 

- Do not use the product in the environment with strong electromagnetic field, corrosive gas and conductive substance. 

## **Note : CE MARKING** 

CE Marking, when applied to a product covered by this handbook, indicates compliance with the low voltage directive (73/23/EEC) as modified by the CE Marking Directive (93/68/ EEC) which complies with EN60950 

## **Notes for HWS30-150/ME IEC/EN/UL60601-1** 

## **Notes** 

- The product should be completely enclosed in the application according to the specifications, and contact to the I/O part with the patient be limited. Be careful when designing the outline. Please refer to section 16, IEC/EN/UL60601-1. 

- This product is not suitable for the use of the combustible narcotic that oxygen or the nitrous oxide mixed. 

- It is necessary to fuse it in two poles of the main power supply in the overall equipment into which this product is built excluding the permanent installation type equipment defined by IEC/EN/UL60601-1 section 57.6. The fuse is installed in the monopole of the input of this product (live line). 

- Between I/O of this product is evaluated as the basic insulation by IEC/EN/UL60601-1. Please add further insulation for safe contact to the output part. 

- Please refer to local regulations for the disposal of the product 

- that passes the life. 

- The leake current of this product in normal condition is 500uA or less. (At input voltage 230VAC.) The unit is suitable for medical equipment as provided by IEC/EN/UL60601-1. In the application according to the UL60601 requirement, it is assumed that surfaces of all equipment is assembled with the insulating materials. 

- This product is not evaluated by IEC/EN/UL60601-1-2(EMC). However, EMC test data is available at Densei-Lambda. 

## 1. Terminal Explanation 

## **1 HWS15, HWS30, HWS50** 

**==> picture [179 x 129] intentionally omitted <==**

**----- Start of picture text -----**<br>
9<br>6 8<br>7<br>1<br>2<br>3<br>4<br>5<br>**----- End of picture text -----**<br>


- ① ＋Ｖ: ＋Output terminal (Standard type: 10A max./terminal) 

- ② −Ｖ: −Output terminal (Standard type: 10A max./terminal) 

- ③ FG: Frame Ground 

- ④  Ｌ: Input terminal   Live line (Fuse in line) 

- ⑤  Ｎ: Input terminal   Neutral line 

- ⑥ Output voltage adjustment trimmer 

- ⑦ Output monitoring indicator (Green LED) 

## **HWS50/R＊ (Option)** 

- ⑧ −Ｒ: Remote ON/OFF control (HWS50: Option) 

- ⑨ ＋Ｒ: Remote ON/OFF control (HWS50: Option) 

Connector (JST) for Remote ON/OFF control 

|Connector|Housing|Terminal Pin|
|---|---|---|
|B2B-XH-AM (LF)|XHP-2|BXH-001T-P0.6 or SXH-001T-P0.6|



A-155 

・All specifications are subject to change without notice. 

**HWS15, 30, 50, 80, 100, 150** 

## **2 HWS80, HWS100, HWS150** 

**==> picture [431 x 133] intentionally omitted <==**

**----- Start of picture text -----**<br>
① ＋Ｖ: ＋Output terminal<br>10<br>8     (30A max./terminal, M4 screw)<br>11<br>9 ② −Ｖ: −Output terminal<br>    (30A max./terminal, M4 screw)<br>6<br>③ FG: Frame Ground<br>1 ④  Ｌ: Input terminal   Live line (Fuse in line)<br>2 ⑤  Ｎ: Input terminal   Neutral line<br>⑥ ＋Ｓ: ＋Remote sensing terminal<br>7 ⑦ −Ｓ: −Remote sensing terminal<br>3 ⑧ Output voltage adjustment trimmer<br>4 ⑨ Output monitoring indicator (Green LED)<br>5 HWS80/R＊, HWS100/R＊, HWS150/R＊ (Option)<br>⑩ −Ｒ: Remote ON/OFF control (Option)<br>**----- End of picture text -----**<br>


⑪ ＋Ｒ: Remote ON/OFF control (Option) 

＊Connector (JST) for Remote ON/OFF control 

|Housing|Terminal Pin|
|---|---|
|XHP-2|BXH-001T-P0.6 or SXH-001T-P0.6|



**HWS** 

## 2. Terminal connecting method 

- Input must be off when making connection. 

   - Remote ON/OFF control lines shall be twisted or use shielded wire. 

- Connect FG terminal to ground terminal of the equipment. 

   - Use the output connector specified in outline drawing. Also, use recommended crimping tool. 

- The output load line and input line shall be separated and twisted to improve noise sensitivity. 

- Remote sensing lines shall be twisted or use shielded wire. 

**HWS15, HWS30, HWS50** 

**==> picture [64 x 78] intentionally omitted <==**

**----- Start of picture text -----**<br>
+<br>Load<br>-<br>**----- End of picture text -----**<br>


## **HWS80, HWS100, HWS150** 

## **Remote sensing connection** 

## **Basic connection (Local sensing)** 

Connect “+S” terminal to “+V” terminal of load, and “-S” terminal to “-V” output terminal of load with wires. When remote sensing terminals are opened, output is shut down. 

Connect “+S” terminal to “+V” terminal, and “-S” terminal to “-V” terminal with the attached short pieces. 

**==> picture [247 x 129] intentionally omitted <==**

**----- Start of picture text -----**<br>
+ +<br>Load Load<br>- -<br>**----- End of picture text -----**<br>


## 3. Explanation of Functions and Precautions 

## **1 Input Voltage Range** 

Input voltage range is single phase 85-265VAC (47-63Hz) or 120-370VDC. Input voltage which is out of specification may cause unit damage. For cases where conformance to various safety specs (UL, CSA, EN) are required, to be described as 100-240VAC (50/60Hz). 

## **2 Output Voltage Range** 

V.ADJ trimmer on the front panel side can adjust the output voltage within the range. Output voltage range is 

within +/- 20% (3.3V: +20% /-10% , 48V: +10%/-20%) of nominal output voltage. To turn the trimmer clockwise, the output voltage will be increased. Note over voltage protection (OVP) function may trigger if the output voltage is increased excessively. 

## **3 Inrush Current** 

This series uses Power Thermistor to protect the circuit from Inrush Current. Please carefully select input switch and fuse in cases of the high temperature and the power re-input. 

A-156 

・All specifications are subject to change without notice. 

**HWS15, 30, 50, 80, 100, 150** 

**HWS** 

## **4 Over Voltage Protection (OVP)** 

The OVP function (inverter shut down method, manual reset type) is provided. When OVP triggers, the output will be shut down. The input shall be removed for a few minutes, and then re-input for recovery of the output. OVP setting shall be fixed and not to be adjusted externally. Never apply more than rated output voltage to output terminal, which may lead damage. In the case of inductive load, use decoupling diode at output line. 

## **5 Over Current Protection (OCP)** 

Constant current limiting and Hiccup (except HWS15, HWS30, which characterized fold back), automatic recovery. OCP function operates when the output current exceeds 105% of maximum output current on specification. The output will automatically recovered when the overload condition is canceled. Never operate the unit under over current or shorted conditions for more than 30 seconds, which could result in damage. 

## **6 Remote Sensing (+S, -S terminal) (For HWS80, HWS100, HWS150)** 

This function compensates voltage drop of wiring from output terminals to load terminals. Connect “+S” terminal to “+V” terminal of load and “-S” terminal to “-V” terminal of load with sensing wires. The total line voltage drop (+ side line and - side line) shall be less than 0.3V. In case that sensing line is too long, it is necessary to put an electrolytic capacitor in following 3 places; 

1) Across the load terminal, 

2) Between “+S” terminal and “+V” terminal, 

3) Between “-S” terminal and “-V” terminal. 

If remote sensing terminals are opened, the output will rise and OVP may be triggered. 

**==> picture [139 x 79] intentionally omitted <==**

**----- Start of picture text -----**<br>
+S<br>+<br>+V +<br>Power + Load<br>Supply -V -<br>+<br>-S<br>**----- End of picture text -----**<br>


## **7 Output Ripple & Noise** 

The standard specification for maximum ripple value is measured according to measurement circuit specified by JEITA RC-9131A. When load lines are longer, ripple will become larger. In this case, electrolytic capacitor, film capacitor, etc. might be necessary to use across the load terminal. The output ripple cannot be measure accurately if the probe ground lead of oscilloscope is too long. 

For start up at low ambient temperature and low voltage, output ripple noise of HWS15, HWS30 might not meet specification. However, there is no overshoot at start up and output ripple noise specification can be met after one second. 

**==> picture [189 x 67] intentionally omitted <==**

**----- Start of picture text -----**<br>
Power Load<br>Supply<br>Coaxial Cable Oscillo-<br>1.5m   50Ω R scope<br>R:50Ω C 100MHz<br>C:4700pF<br>**----- End of picture text -----**<br>


## **8 Series Operation** 

For series operation, either method (A) or (B) is possible. 

**==> picture [188 x 95] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method（A） Method（B）<br>Power  Power<br>Supply Supply<br>+V +V +<br>Output Output<br>Terminal Terminal Load<br>-V -V -<br>Load<br>+V +V +<br>Output Output<br>Terminal Terminal Load<br>-V -V -<br>**----- End of picture text -----**<br>


Note : In case of (A), please connect diodes to prevent the reverse voltage. 

## **9 Parallel Operation** 

- （A）Operation to increase the Output Current is not possible. 

- （B）Operation as a Backup Power Supply is possible as follows. 

   1. Set the power supply output voltage higher by the amount of forward voltage drop (VF) of the diode. 

   2. Please adjust the output voltage of each power supply to be the same. 

   3. Please use within the specifications for output voltage and output current. 

**==> picture [173 x 67] intentionally omitted <==**

**----- Start of picture text -----**<br>
+V +V<br>Power Power<br>Supply Load Supply Load<br>-V -V<br>+V +V<br>Power Power<br>Supply Supply<br>-V -V<br>（A） （B）<br>**----- End of picture text -----**<br>


## **� Remote ON/OFF Control ( HWS50 - 150 Optional Spec.)** 

Remote ON/OFF control function is available as option with model name followed by /R. Using this function allows the user to turn the output on and off without having to turn the AC input on and off. It is controlled by the voltage applied to +R and -R. This circuit is in the Secondary (output) side of the power supply unit. Do not connect in the Primary (input) side. And this circuit is isolated from the output by a photocoupler. 

**==> picture [117 x 43] intentionally omitted <==**

**----- Start of picture text -----**<br>
PowerSupply ＋R SW<br>1kΩ R<br>E<br>－R<br>**----- End of picture text -----**<br>


The control mode is shown below. 

＋R & −R terminal condition output condition External voltage level：E External resistance：R SWON（Higher than 4.5V） ON 4.5 〜12.5VDC No required SWOFF（Lower than 0.8V） OFF 12.5 〜24.5VDC 1.5kΩ 

A-157 

・All specifications are subject to change without notice. 

**HWS15, 30, 50, 80, 100, 150** 

## **� Isolation Test** 

Isolation resistance between output and FG shall be more than 100MΩ at 500VDC. For safety, voltage setting of DC isolation tester must be done before the test. Ensure that it is fully discharged after the test. 

**==> picture [108 x 73] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output～FG AC（L） +S<br>AC（N） +V<br>-V<br>-S<br>Isolation<br>Tester +R<br>FG<br>-R<br>**----- End of picture text -----**<br>


500VDC, 100MΩ or more 

## **� Withstand Voltage** 

testing withstand voltage, set current limit of withstand voltage test equipment at 20mA (Output-FG : 100mA). The applied voltage must be gradually increased from zero to testing value and then gradually decreased for shut down. When timer is used, the power supply may be damaged by high impulse voltage at timer switch on and off. Connect input and output as follows. 

**==> picture [195 x 109] intentionally omitted <==**

**----- Start of picture text -----**<br>
Withstand<br>Voltage AC（L） +S AC（L） +S<br>Tester AC（N） +V AC（N） +V<br>-V -V<br>-S Withstand -S<br>Voltage<br>+R Tester +R<br>FG FG<br>-R -R<br>Input-FG：solid line Output-FG<br> 2.0kVAC, 1min （20mA）  500VAC, １min（100mA）<br>Input-Output：dotted line<br> 3.0kVAC, 1min<br>**----- End of picture text -----**<br>


This series is designed to withstand 3.0kVAC between input and output, 2.0kVAC between input and FG and **HWS** 500VAC between output and FG each for 1 minute. When 

## 4. Mounting Directions 

## **1 Output Derating according to the Mounting Directions** 

Recommended standard mounting is method (A). Method (B), (C) and (D) are also possible. Refer to the derating below. Please do not use installation method (E), where the PCB will be on the topside and heat will be trapped inside the unit. In the following derating curve, the maximum output current is considered to be 100% . 

## Standard Mounting（A） 

**==> picture [214 x 65] intentionally omitted <==**

**----- Start of picture text -----**<br>
Standard Not Possibl<br>Mounting （B） （C） （D） （E）<br>（A）<br>**----- End of picture text -----**<br>


## Output Derating 

**==> picture [200 x 172] intentionally omitted <==**

**----- Start of picture text -----**<br>
(A) Standard Mounting Direction (Open frame)<br>(%)<br>100<br>80<br>60<br>40<br>20<br>0<br>-10 0 20 40 50 60 70<br>Ambient Temperature (℃)<br>Output Current<br>**----- End of picture text -----**<br>


## Open Frame (Without Cover) 

|Model|HWS15|HWS15|HWS30|HWS30|HWS30|HWS50|HWS50|HWS50|HWS50|HWS80, HWS100|HWS80, HWS100|HWS80, HWS100|HWS80, HWS100|HWS150|HWS150|HWS150|HWS150|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Amb. Temp.|A<br>|B<br>C<br>D|A<br>|B<br>C|D|A|B|C|D|A|B|C|D|A|B|C|D|
|−10 to ＋30℃|100<br>1|00<br>100<br>10|0<br>100<br>1|00<br>100|100|100|100|100|100|100|100|100|100|100|100|100|100|
|40℃|100<br>1|00<br>100<br>10|0<br>100<br>1|00<br>100|100|100|100|100|100|100|100|100|100|100|100|90|90|
|50℃|100<br>1|00<br>100<br>10|0<br>100<br>1|00<br>100|100|100|100|60|60|100|80|80|80|100|80|80|80|
|60℃|60<br>6|0<br>60<br>6|0<br>60<br>6|0<br>60|60|60|60|20|20|60|60|60|60|60|60|60|60|
|70℃|20<br>2|0<br>20<br>2|0<br>20<br>2|0<br>20|20|20|20|−|−|20|20|20|20|20|20|20|20|



## With Cover ( /RA Option) 

|Model|HWS15|HWS15|HWS30|HWS30|HWS30|HWS50|HWS50|HWS50|HWS50|HWS80, HWS100|HWS80, HWS100|HWS80, HWS100|HWS80, HWS100|Model|HWS150|HWS150|HWS150|HWS150|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Amb. Temp.|A<br>|B<br>C<br>D|A<br>|B<br>C|D|A|B|C|D|A|B|C|D|Amb. Temp.|A|B|C|D|
|−10 to ＋30℃|100<br>1|00<br>100<br>10|0<br>100<br>1|00<br>100|100|100|100|100|100|100|100|100|100|−10 to ＋25℃|100|100|100|100|
|40℃|100<br>1|00<br>100<br>10|0<br>100<br>1|00<br>100|100|100|100|60|60|100|80|80|80|40℃|100|76|76|76|
|50℃|60<br>6|0<br>60<br>6|0<br>60<br>6|0<br>60|60|60|60|20|20|60|60|60|60|50℃|60|60|60|60|
|60℃|20<br>2|0<br>20<br>2|0<br>20<br>2|0<br>20|20|20|20|−|−|20|20|20|20|60℃|20|20|20|20|



A-158 

・All specifications are subject to change without notice. 

**HWS15, 30, 50, 80, 100, 150** 

**HWS** 

## **2 Mounting Method** 

- （1）  This is convection cooling type power supply. In the consideration for the heat radiation and safety. Please take a distance more than 15mm between the power supply and the peripheral parts. When lining up multiple units, please make sure to place them 15mm or more apart from each other. 

Be sure to insert the insulating spacer （MIN 5mm) on 

the component side of without-cover models. 

- （2）  The maximum allowable penetration of mounting screws is 6mm. 

- （3）  Recommended torque for mounting screw 

- HWS15-150（M3 screw）：0.49N･m（5.0kgf･cm） 

**==> picture [201 x 135] intentionally omitted <==**

**----- Start of picture text -----**<br>
15mm or more 15mm or more<br>Air flow<br>Sheet Metal<br>Provide punching, etc. to allow air to pass.<br>component<br>side<br>5mm以上の<br>絶縁距離（空間）<br>**----- End of picture text -----**<br>


## 5. Wiring Method 

- The output load line and input line shall be separated and twisted to improve noise sensitivity. 

- The sensing lines shall be twisted and separated from the output lines. 

- Use all lines as thick and short as possible to make lower impedance. 

- Noise can be eliminated by attaching a capacitor to the load terminals. 

- In HWS15-50, the output current of each output terminal is limited to 10A. 

- In HWS80-150, the output current of each output terminal is limited to 30A. 

- For safety and EMI considerations, connect the FG terminal of HWS15-150 to mounting set ground terminal. 

- The recommended wire type : 

|MODEL|Recommen<br>wire|ded<br>Recommended torque|Recommended crimp-type terminal|Recommended crimp-type terminal|Recommended crimp-type terminal||φ|t|
|---|---|---|---|---|---|---|---|---|
||||D（MAX）|t（MAX）|Mounting<br>piece（MAX）||||
|HWS15 ー50|AWG14-2|2<br>M3.5 Screws<br>1.0N･m（9.8kgf･cm）-1.4N･m（13.7kgf･cm）|6.8mm|0.8mm|２ pieces||||
|HWS80,100|AWG12-2|2<br>M4 Screws<br>1.2N･m（11.8kgf･cm）-1.6N･m（15.6kgf･cm）<br>2|8.1mm|1.0mm|1 piece||||
||||||||||
||AWG12-2|||0.8mm|２ pieces||||
||AWG14-2|2<br>M3.5 Screws<br>1.0N･m（9.8kgf･cm）-1.4N･m（13.7kgf･cm）|6.8mm|0.8mm|２ pieces||||
|HWS150|AWG10-2|2<br>M4 Screws<br>1.2N･m（11.8kgf･cm）-1.6N･m（15.6kgf･cm）<br>2|8.1mm|1.0mm|1 piece||||
||AWG10-2|||0.8mm|２ pieces||||
||AWG14-2|2<br>M3.5 Screws<br>1.0N･m（9.8kgf･cm）-1.4N･m（13.7kgf･cm）|6.8mm|0.8mm|２ pieces||||



Note 1 : When using separate loads, use of two pcs. of 0.8mm thick crimp-type terminal is recommended. 

Note 2 : For recommended diameter, refer to wire maker recommended allowable current and voltage drop. 

- Especially, for 3V or 5V models, output current is large. Thick diameter wire is recommended. 

A-159 

・All specifications are subject to change without notice. 

**HWS15, 30, 50, 80, 100, 150** 

## 6. External Fuse Rating 

Refer to the following fuse rating when selecting the external fuses that are to be used on input line. Surge current flows when line turns on. Use slow-blow fuse or time-lug fuse. Do not use fast-blow fuse. Fuse rating is specified by in-rush current value at line turn-on. Do not select the fuse 

according to input current (rms.) values under the actual load condition. 

HWS15, HWS50：2A  HWS30, HWS80, HWS100：3.15A HWS150：5A 

## 7. Before concluding that the unit is at fault… 

Before concluding that the unit is at fault, make the following checks. 

   - Check if the rated input voltage is connected. 

   - Check if the wiring of input and output is correct. 

   - Check if the wire size is not too thin. 

- Check if the output voltage control (V.ADJ) is properly 

- **HWS** adjusted. 

   - Audible noise can be heard during Dynamic-Load operation. 

   - Audible noise can be heard when input voltage waveform is not sinusoidal wave. 

   - Ensure that a large capacitor is not connected on the output side. Please use within maximum capacitance shown below. 

- Check if the Remote ON/OFF control connector is not opened, when use Remote ON/OFF control function. 

- Check if the output current and output wattage dose not exceed specification. 

|exceed specifcation.|||||||
|---|---|---|---|---|---|---|
|MODEL|Maximum external capacitance||||||
||3.3V|5V|12V|15V|24V|48V|
|HWS15|10,000uF||5,000uF|2,000uF|1,000uF|500uF|
|HWS30, HWS50|10,000uF||5,000uF||2,000uF|500uF|
|HWS80, HWS100, HWS150|10,000uF||||5,000uF|1,000uF|



## 8. Range of free warranty 

Conditions of usage at the free of charge warranty are as follows. 

- Average operating temperature (ambient temperature of the power supply unit) is under 40ºC. 

- Average load factor is 80% or less. 

- Installation method : Standard installation. However, the maximum rating is within the output derating. 

Following cases are not covered by warranty. 

- Improper usage like dropping products, applying shock and defects from operation exceeding specification of the units. 

- Defects resulting from natural disaster (fire, flood). 

- Unauthorized modifications or repair by the buyers defects not cause by DENSEI LAMBDA. 

A-160 

・All specifications are subject to change without notice. 

**HWS300, 600** 

**HWS** 

## **HWS300, 600 Series Instruction Manual** 

## **BEFORE USING THE POWER SUPPLY UNIT** 

Be sure to read the following precautions thoroughly before using this power supply unit. 

Pay attention to all warnings and cautions before using the unit. Incorrect usage could lead to an electric shock, damage or a fire hazard. 

## **WARNING** 

- Do not make unauthorized changes to power supply unit, otherwise you may have electric shock and void warranty. 

- Do not touch the internal components, they may have high voltage or high temperature. You may get electric shock or burned. 

- When the unit is operating, keep your hands and face away from it; an accident may injure you. 

- Do not use unit under unusual condition such as emission of smoke or abnormal smell and sound etc.  It might cause fire and electric shock. 

- In such case, please contact us; do not repair by yourself, as it is dangerous for the user. 

- Do not drop or insert anything into unit. It might cause failure and fire, when using the unit under such condition. 

- Do not operate these units at the condition of condensation. It may cause fire and electric shock. 

- The outputs of these products must be earthed in the end use equipment to maintain SELV. 

- If the outputs are not earthed, they must be considered hazardous and must not be made user accessible. 

## **CAUTION** 

- This power supply is primarily designed and manufactured to use and enclose in other equipment. 

- This power supply unit has a built-in fan for air-cooling. Do not block air intake and exhaust. It might cause fire. 

- Input voltage, output current, output power, ambient temperature and ambient humidity should be within specifications, otherwise the unit will be damaged. 

- The unit might be broken down by accident or unexpected situation. For application equipment, which requires very high reliability (nuclear related equipment, traffic control equipment, medical equipment, etc.), please provide fail safety function in the equipment. 

- Do not make an improper wiring to input and output terminals. It may cause damage. 

- Do not use in environment such as strong electromagnetic field, erosive gas etc, or any environment where conductive foreign substance may enter. 

- Do not operate and store this unit at the condition of condensation. In such case, waterproof treatment is necessary. 

- Do not operate this unit after it falls down. 

- The output voltage of this power supply is considered to be a hazardous energy level, and must not be accessible to an operator. 

## **Notes for HWS30-150/ME IEC/EN/UL60601-1** 

## **NOTES** 

- The product should be completely enclosed in the application according to the specifications, and contact to the I/O part with the patient be limited. Be careful when designing the outline. Please refer to section 16, IEC/EN/UL60601-1. 

- This product is not suitable for the use of the combustible narcotic that oxygen or the nitrous oxide mixed. 

- The signal port connects only the device that suits IEC/EN/ UL60601-1. 

- It is necessary to fuse it in two poles of the main power supply in the overall equipment into which this product is built excluding the permanent installation type equipment defined by IEC/EN/UL60601-1 section 57.6. The fuse is installed in the monopole of the input of this product (live line). 

- Between I/O of this product is evaluated as the basic insulation by IEC/EN/UL60601-1. Please add further insulation for safe contact to the output part. 

- Please refer to local regulations for the disposal of the product that passes the life. 

- The leake current of this product in normal condition is 500uA or less. (At input voltage 230VAC.) The unit is suitable for medical equipment as provided by IEC/EN/UL60601-1. In the application according to the UL60601 requirement, it is assumed that surfaces of all equipment is assembled with the insulating materials. 

- This product is not evaluated by IEC/EN/UL60601-1-2(EMC). However, EMC test data is available at Densei-Lambda. 

A-161 

・All specifications are subject to change without notice. 

**HWS 300, 600** 

## 1. Terminal Explanation 

Please pay extra attention to the wiring. Incorrect connection will damage the power supply. 

## **1 Front Panel Explanation** 

## **● HWS300** 

## **● HWS600** 

**==> picture [136 x 125] intentionally omitted <==**

**HWS** 

- ① V.ADJ: Output voltage adjustment trimmer. 

- (The output voltage rises when a trimmer is turned clockwise.) 

- ② ON: Output (Power On) indication LED (The indicator turns on when the power supply output is in normal operating condition.) 

- ③ CN1, CN2: Remote sensing, ON/OFF control signal, Current balance signal, Power fail signal, Output voltage external control signal.  (Refer to 2-2.) 

- ④ : Protective Earth (Frame ground), M4 screw. 

- ⑤ AC input terminal L: Live Line (Fuse in line), M4 screw. 

- ⑥ AC input terminal N: Neutral line, M4 screw. 

- ⑦ ＋: ＋ Output terminal 

- (HWS300: M4 screw x 2 / HWS600: M5 screw x 2) 

- ⑧ −: − Output terminal 

- (HWS300: M4 screw x 2 / HWS600: M5 screw x 2) 

## 2 CN1, ~~CN2~~ Connector pin Configuration and Function 

CN1 and CN2 are same pin configuration and function. 

They are connected to each other in this power supply unit. 

When the pin ~~of CN~~ 1 side is shorted, the same function pins of CN2 side are also shorted. Please note that the function cannot be separately set with CN1 and CN2. 

**==> picture [469 x 264] intentionally omitted <==**

**----- Start of picture text -----**<br>
 Pin No  Configuration  Function<br> 1  ＋Vm +Output monitor ter m inal. Connected to +Output terminal in this Power supply unit.<br>(+Vm terminal can not supply load current.)<br>Remote sensing terminal for +output. 2 1<br> 2  ＋S  (For remote sensing function, which compensates for line drop between power supply terminals and  4 3<br>load terminals.  Connect to +Vm terminal when remote sensing function unnecessary.) 6 5<br> 3  −Vm -Output monitor terminal. Connected to -Output terminal in this Power supply unit.  8 7<br>(-Vm terminal can not supply load current.) 10 9<br>Remote sensing terminal for -output. 12 11<br> 4  −S  (For remote sensing function, which compensates for line drop between power supply terminals and<br>load terminals.  Connect to -Vm terminal when remote sensing function unnecessary.) CN1<br> 5  PC  Current balance terminal. (For output current balancing in parallel operation.)<br> 6  COM  GND for PC and PV signals.<br>PV Output voltage external control terminal.  2 1<br> 7               (Optional)  (For power supply output voltage control with an external voltage.  Standard models don’t have this function and indicate NC mark at panel. 46 35<br> 8  NC  No connect 8 7<br> 9  CNT  Remote ON/OFF control terminal. (Power supply ON/OFF control with an external signal. ) 10 9<br> 10  TOG  GND for CNT and PF signals. (Same as Pin No.12) 12 11<br>Power fail signal (PF signal) output terminal.<br> 11  PF  (As the output voltage drops, or FAN stops and AC input voltage down, “Power Fail” terminal will<br>CN2<br> output “High”.<br> 12  TOG  GND for CNT and PF signals. (Same as Pin No.10)<br>CN1 1 3 5 7 9 11<br>2 4 6 8 10 12<br>CN2 1 3 5 7 9 11<br>2 4 6 8 10 12<br>Output voltage detection circuit<br>300,<br>Output current signal circuit<br>Output ON/OFF control cuicuit<br>Power fail signal generation circuit<br>**----- End of picture text -----**<br>


- Output ON/OFF control circuit and the power fail signal circuit are insulated with other circuits in the power supply (insulating voltage AC100V). 

## CN1, CN2 Connector & Housing & Terminal Pin 

|PART DESCRIPTION|PART NAME|MANUFACT|
|---|---|---|
|PIN HEADER|S12B-PHDSS|JST|
|SOCKET HOUSING|PHDR-12VS|JST|
|TERMINAL PINS|SPHD-002T-P0.5 (AWG28-24)<br>SPHD-001T-P0.5 (AWG26-22)|JST|
|HAND CRIMPING TOOL|YRS-620 (SPHD-002T-P0.5)<br>YC-610R (SPHD-001T-P0.5)|JST|



A-162 

・All specifications are subject to change without notice. 

**HWS 300, 600** 

**HWS** 

## 2. Terminal Connection Method 

Please pay extra attention to the wiring. Incorrect connection will damage the power supply. 

- When connecting input and output wiring, and CN1, CN2, input AC-Line should be off. 

- Input wiring and output wring shall be separated to improve noise sensibility. 

- The protective earth (PE) must be connected to the terminal or chassis. 

- Remote sensing lines shall be twisted or used with shielded wired. 

- Remote ON/OFF control lines shall be twisted or used 

- shielded wires. Separate from load line. 

- Output current of each terminal screw shall be less than 40A for HWS300. And shall be less than 60A for HWS600. 

## **HWS300 Panel Side (Common HWS600)** 

## Basic connection (Local sensing) 

Connect “＋S” terminal to “＋Vm” terminal and “−S” terminal to “−Vm” terminal . Connect 

## Remote sensing required 

Connect “+S” terminal to “+” terminal of load and “-S” terminal to “-” output terminal of load with wires. 

“CNT” terminal to “TOG” terminal with the attached connector. 

**==> picture [118 x 65] intentionally omitted <==**

**----- Start of picture text -----**<br>
V.ADJ<br>CN ON CN1(or CN2)<br>1<br>2<br>L<br>N<br>+<br>LOAD<br>-<br>**----- End of picture text -----**<br>


**==> picture [133 x 65] intentionally omitted <==**

**----- Start of picture text -----**<br>
V.ADJ A<br>CN ON CN1(or CN2)<br>1<br>2 A<br>twist  or  s<br>B<br>B<br>L<br>N<br>+<br>LOAD<br>-<br>**----- End of picture text -----**<br>


## Attached connector when shipping 

|ttached connector when shipping|ttached connector when shipping|ttached connector when shipping|ttached connector when shipping|ttached connector when shipping|ttached connector when shipping|
|---|---|---|---|---|---|
|Red<br>Black<br>Yellow||||||
|1|3|5<br>|7|9|11|
|2|4|6<br>|8|10|12|
|Twisted wire||||||



## ON/OFF control required 

“TOG” terminal is ground for “CNT” terminal. 

## Connecting circuit with CN1 or CN2 connector 

**==> picture [193 x 60] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>"+" of load<br>"-" of load<br>**----- End of picture text -----**<br>


## PF signal output required 

Open collector method shown below shall be used. 

“TOG” terminal is ground for “PF” terminal. 

**==> picture [171 x 127] intentionally omitted <==**

**----- Start of picture text -----**<br>
V.ADJ<br>CN ON CN1(or CN2)<br>1<br>2<br>L<br>N<br>Connecting circuit with CN1 or CN2 connector<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>+<br>LOAD<br>-<br>**----- End of picture text -----**<br>


**==> picture [170 x 142] intentionally omitted <==**

**----- Start of picture text -----**<br>
V.ADJ<br>CN ON CN1(or CN2)<br>1<br>2<br>PF<br>signal<br>L output<br>N<br>signal<br>ground<br>Connecting circuit with CN1 or CN2 connector<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>PF signal output<br>signal ground<br>+<br>LOAD<br>-<br>**----- End of picture text -----**<br>


A-163 

・All specifications are subject to change without notice. 

**HWS 300, 600** 

## 3. Functions and Precautions 

## **1 Input Voltage Range** 

Input voltage range is single phase 85-265VAC (47-63Hz) or 120-330VDC. Input voltage, which is out of specification, may cause unit damage. Rated input voltage for safety standard application is 100VAC-240VAC (50/60Hz). 

when the output voltage becomes within 65-80% of rated value caused by either the drop or brownout of the input voltage or OCP, OVP and OTP function operation. When the built-in FAN motor of this power supply unit stops, PF signal will turn to “H”. The PF signal is isolated from input and output by a photo-coupler. It uses the open collector method shown below. 

## **2 Output Voltage Range** 

Output voltage is set to the rated value at shipment. V.ADJ trimmer on the front panel side may be used to adjust the output voltage within the range specified. 

Output voltage range is within ±20% of rated output voltage (48V Output Model: -20% to +10% ). 

To turn the trimmer clockwise, the output voltage will be in- **HWS** creased. Take note when the output voltage is increased excessively, over voltage protection (OVP) function may trigger and output voltage will be shut down. 

## **3 Over Voltage Protection (OVP)** 

The OVP function (inverter shutdown method, manual reset type) is provided. OVP function operates within 125-145% of the rated output voltage value (48V type: 115-135%), and the output will be shut down when OVP function triggers.  To reset OVP, remove the input of power supply for a few minutes, and then re-input. Or, use CNT reset (remote ON/OFF: OFF to ON). OVP value is fixed and not to be adjusted externally. Never apply more than rated output voltage to output terminal, which may lead damage. In the case of inductive load, use decoupling diode at output line. 

**==> picture [52 x 41] intentionally omitted <==**

**==> picture [68 x 30] intentionally omitted <==**

**----- Start of picture text -----**<br>
PF VCE max： 30V<br>IC max： 20mA<br>TOG<br>**----- End of picture text -----**<br>


## **7 Remote Sensing (+S, -S terminal)** 

This function compensates voltage drop of wiring from output terminals to load terminals. Connect “+S” terminal to “+” terminal of load and “-S” terminal to “-” terminal of load with sensing wires. The total line voltage drop (+ side line and - side line) shall be less than 0.3V. In case that sensing lines are too long, it is necessary to put an electrolytic capacitor in following 3 places; 

**==> picture [198 x 59] intentionally omitted <==**

**----- Start of picture text -----**<br>
+S<br>1） across the load terminal, +<br>2） between “+S” terminal and + +<br>3） between “‐S” terminal and “+” terminal, PowerSupply- + -Load<br>“‐”terminal. +<br>-S<br>**----- End of picture text -----**<br>


When the function of remote sensing is not used, connect +S terminal to +Vm terminal, and –S terminal to –Vm terminal by the attachment connector. 

If remote sensing terminals are opened, the stability and the accuracy of the output deteriorated. Therefore, terminal  +S, -S must be connected. 

## **4 Over Current Protection (OCP)** 

The OCP function is provided. OCP characteristic is constant current limiting, (less than 5V output model: with Hiccup operation) automatic recovery. OCP function operates when the output current exceeds 105% (24V output model: 119%) of maximum DC output current specification. The output will be automatically recovered when the overload condition is canceled. Never operate the unit under over current or shorted conditions for more than 30 seconds, which may lead damage. OCP setting is fixed and not to be adjusted externally. 

## **5 Over Temperature Protection (OTP)** 

The OTP function (manual reset type) is provided. When ambient or internal temperature rises abnormally, OTP function operates and output will be shut down. After shut down, remove the input and cool it down to reset OTP. Then  re-input. 

## **8 Remote ON/OFF Control** 

Remote ON/OFF control is provided. 

Using this function, output on/off is allowed to control without input voltage on/off. The output is turned to ON when TOG and CNT terminals are shorted, and the output is turned to OFF when these terminals are opened. When the function is not used, connect TOG and CNT terminals. The standards for this function are as follows. “TOG” terminal is return for “CNT” terminal. 

- (1)  TTL compatible. The maximum input voltage to CNT terminal is 12V, and the maximum allowable reverse voltage is -1V. The sink current for CNT terminal is 3.5mA. 

- (2)  A switch and relay or a transistor can be used as ON/ OFF switch. 

- (3) Remote ON/OFF control circuit is isolated from the input and output by a photo-coupler and can be controlled regardless of the output potential (+ or -). Connect TOG terminal to ground of control signal. 

## **6 Low Output Detection Circuit (PF)** 

Low output voltage detection circuit is provided. Power Fail (PF) signal will turn “High” level to indicate the abnormal status 

A-164 

・All specifications are subject to change without notice. 

**HWS 300, 600** 

**HWS** 

## **The mode of control** 

|**he mode of control**|||
|---|---|---|
|CNT Level for TOG Terminal<br>|Output<br>|Built-in Fan<br>|
|Short or L (0V - 0.8V)|ON|Rotate|
|Open or H (2.4V - 12V)<br>OFF<br>Stop|||
|TOG<br>CNT<br>Sink Current：3.5mA<br>Relay,Transistor<br>TTL,etc.|||



## **9 Output Ripple & Noise** 

The standard specification for maximum ripple value is measured specified measurement circuit (JEITA-RC9131A). When load lines are longer, ripple becomes larger. In this case, electrolytic capacitor, film capacitor, etc. might be necessary to use across the load terminal. The output ripple cannot be measured accurately if the probe ground lead of oscilloscope is too long. 

**==> picture [137 x 64] intentionally omitted <==**

**----- Start of picture text -----**<br>
+<br>Power Load<br>Supply<br>- R:50Ω<br>C:4700pF<br>Coaxial Cable Oscillo<br>1.5m   50Ω R scorp<br>C 100MHz<br>**----- End of picture text -----**<br>


## **� Series Operation** 

For series operation, both method (A) and (B) are possible. There might be a step in the output rise waveform during series operation. 

**==> picture [173 x 93] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method（A） Method（B）<br>Power Supply Power Supply<br>+S +S<br>+Vm +Vm<br>Load Load<br>-Vm -Vm<br>-S -S<br>+S +S<br>+Vm +Vm<br>Load<br>-Vm -Vm<br>-S -S<br>**----- End of picture text -----**<br>


## **� Parallel Operation** 

Current balancing function is provided. Both operations mode (A) and (B) are possible. 

- (A) To Increase the Output Current Correct PC to PC terminal and COM to COM terminal, the current balancing function activates and output current of each power supply is equivalently supplied to load. Wires to PC terminals, COM terminals shall be as short as possible and same length and twisted. 

   1. Adjust the output voltage of each power supply to be same value within 1% or 100mV whichever is smaller. 

   2.  Use same length and type of wires for all load lines. 

   3.  Use the power supply within the rated output current for all paralleled models. 

   4.  Parallel operation is possible up to 5 units. 

- (B) To Use as a Backup Power Supply 

   1. Adjust the output voltage of each power supply to be same value. 

   2. Set power supply output voltage higher by the forward voltage drop of diode. 

   3. Use within the specifications for output voltage and output current. 

**==> picture [222 x 99] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method（A） Method（B）<br>Power Supply Power Supply Output Power（W）=（Vo + Vf） x Io<br>+S +S<br>+Vm +Vm Io<br>Load Vo + Vf Vo Load<br>PC COM --VmS --VmS<br>PC COM +S +S<br>+Vm +Vm<br>Vo + Vf<br>-Vm -Vm<br>-S -S<br>**----- End of picture text -----**<br>


## **� Isolation Test** 

Isolation resistance between output and (chassis) shall be more than 100MΩat 500VDC and between output and CNT･PF shall be more than 10MΩ at 100VDC. For safety operation, voltage setting of DC isolation tester must be done before the test. Ensure that it is fully discharged after the test. 

**==> picture [202 x 107] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output-FG (chassis) :  Output-CNT · PF:<br>500VDC 100MΩ or more 100VDC 10MΩ or more<br>+S +S<br>AC（L） +Vm AC（L） +Vm<br>AC（N） +- AC（N） +- IsolationTester<br>-Vm -Vm<br>-S -S<br>PC PC<br>COM COM<br>PV PV<br>Isolation CNT CNT<br>Tester TOG TOG<br>PF PF<br>**----- End of picture text -----**<br>


## **� Withstand Voltage** 

This series is designed to withstand 3.0kVAC between input and output, 2.5kVAC between input and (chassis), 500VAC between output and (chassis), and 100VAC between output and CNT･PF terminal each for 1 minute. When testing withstand voltage, set current limit of withstand voltage test equipment at 20mA. 

(Output(chassis) and Output-Control: 100mA). 

The applied voltage must be gradually increased from zero to testing value and then gradually decreased for shut down. When timer is used, the power supply may be damaged by high impulse voltage at timer switch on and off. Connect input and output as follows. 

**==> picture [181 x 200] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input-Output (dotted line):  3.0kVAC 1min. (20mA)<br>Input-   (chassis) (solid line): 2.5kVAC 1min. (20mA)<br>+S<br>AC（L） +Vm<br>AC（N） +-<br>-Vm<br>-S<br>PC<br>COM<br>PV<br>CNT<br>Withstand TOG<br>Voltage PF<br>Tester<br>Output -   (chassis) : Output - CNT· PF:<br>500VAC 1min. (100mA) 100VAC 1min. (100mA)<br>+S +S<br>AC（L） +Vm AC（L） +Vm<br>AC（N） +- AC（N） +-<br>-Vm -Vm<br>-S -S<br>PC PC Withstand<br>COM COM Voltage<br>PV PV Tester<br>Withstand CNT CNT<br>Voltage TOG TOG<br>Tester PF PF<br>**----- End of picture text -----**<br>


*This product have monolithic ceramic capacitor in secondary circuit to frame ground. 

Some of the withstand voltage tester may generate high voltage at the matching with monolithic ceramic capacitor and may cause the unit damage. 

A-165 

・All specifications are subject to change without notice. 

So, please check the waveform of test voltage. 

## **HWS 300, 600** 

- Note 1. Regarding output voltage adjustment below 20%, please consult our sales. 

**==> picture [32 x 25] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS<br>**----- End of picture text -----**<br>


## **� Output Voltage External Control(PV)** 

Output voltage external control function is available as option with model name followed by “/PV”. Output voltage can be varied by applying an external voltage (1–6V) to “PV” terminal and “COM” terminal. Note if an external voltage is not applied, there will be no output. And if the below connection method is attempted with the standard models internal components could be damaged. Please consider the following characteristics. 

**==> picture [193 x 290] intentionally omitted <==**

**----- Start of picture text -----**<br>
Connection method Power Supply<br>+S<br>+Vm<br>Load<br>-Vm<br>-S<br>COM<br>External voltage<br>PV<br>Output Voltage Linearity<br>120%<br>110%<br>Nominal<br>Output<br>Voltage<br>20%<br>0 1V 5V 5.5V 6V<br>PV voltage (Nominal Input Voltage)<br>Output Voltage Derating<br>120%<br>110%<br>Nominal<br>Output<br>Voltage<br>20%<br>0 83%90% 100%<br>Load Current<br>Output Voltage<br>Output Voltage<br>**----- End of picture text -----**<br>


- Note 2.  For 48V output model only, spaces below must be followed. Limit output voltage variation range at 20% -110% . At PV voltage variation 1V-5.5V. 

## **� Output Peak Current** 

For 24V output model, please meet the following condition. Reduce peak current value according to output derating as section 5-1. 

**==> picture [208 x 133] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input Voltage range:  AC180V-265V<br>Continuous Peak output time (  ): Within 10 seconds<br>Peak output current (    ):  Within the rated peak output current<br>Average DC output current (    ): Within the rated output current<br>Duty： up to 35(%)<br>Duty =   x 100（%）<br> ： Peak output current(A)<br>  ： Rated output current (A)<br>  ： Average output current (A)<br>： Peak current pulse width (sec)<br>： Period (sec)<br>**----- End of picture text -----**<br>


## 4. Mounting Directions 

## **1 Output Derating according to the Mounting Directions** 

## **2 Output Derating** 

Recommended standard mounting method is (A). Method (B) is also possible. Refer to the derating below. 

**==> picture [231 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
HWS300<br>（A） Standard （B） （C） Inhibit （D） Inhibit<br>Mounting<br>HWS600<br>（A） Standard （B） （C） Inhibit （D） Inhibit<br>Mounting<br>**----- End of picture text -----**<br>


**==> picture [223 x 46] intentionally omitted <==**

**==> picture [200 x 147] intentionally omitted <==**

**----- Start of picture text -----**<br>
120<br>100<br>80<br>60 Mounting A, B<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70 80<br>Ambient Temperature（℃）<br>Load （%）<br>Ta（℃）<br>Mounting（A） Mounting（B）<br>-10 to +50 100<br>+70 50<br>Load（%）<br>**----- End of picture text -----**<br>


A-166 

・All specifications are subject to change without notice. 

**HWS 300, 600** 

**HWS** 

## **3 Mounting Method** 

- (1) Forced air cooling type power supply. 

This power supply has ventilating holes on the front and back side panels. Keep these two areas freely as much as possible. 

- (2) The maximum allowable penetration is 6mm. Incomplete thread of mounting screw should not be penetrated. 

- (3) Recommended torque for mounting screw: M4 screw: 1.27 N · m (13.0kgf · cm) 

**==> picture [159 x 72] intentionally omitted <==**

**----- Start of picture text -----**<br>
More than 50mm More than 50mm<br>Air flow Fan Top<br>Back Side Front Side<br>**----- End of picture text -----**<br>


## 5. Wiring Method 

- (1) The output load line and input line shall be separated to improve noise sensitivity. 

- (2) The sensing lines shall be twisted and separated from the output lines for remote sensing. 

- (3) Use all lines as thick and short as possible to make lower impedance. 

- (4) Attaching a capacitor to the load terminals can eliminate noise. 

- (5) For safety and EMI considerations, connect terminal to the mounting set ground terminal. 

- (6) Recommended torque for the terminal; 

Fig.1. 

Note 4. For AWG#28, #26, #24, use UL1007 type. For AWG #22, use UL1061 type. Fig.1 

**==> picture [46 x 32] intentionally omitted <==**

**==> picture [16 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
Good<br>**----- End of picture text -----**<br>


Fig.2: Examples of defective crimping 

- HWS600 Output terminal (M5 screw): 2.50 N · m (25.5kgf · cm) 

- HWS300 Input, Output terminal & HWS600 Input terminal (M4 screw): 1.27 N · m (13.0kgf · cm) 

**==> picture [131 x 70] intentionally omitted <==**

**----- Start of picture text -----**<br>
Circuit HWS300, 600<br>AC（L）protector Noise Filter AC（L） ＋<br>AC（L） AC（L） Load<br>AC（N） AC（N） AC（N） AC（N） －<br>Chassis<br>**----- End of picture text -----**<br>


Wire conductor protruding Wire conductor protruding Wire conductor length is long. length is short. comes off. Wire  barrel bites wire Wire  insulation is not insulation. crimped sufficiently. 

Check of crimping appearance visually for correct crimping as referring to above Fig.2 Check the tensile strength at crimped part when operation finishes. 

## **[The PHD connector manufacture method ]** 

This product is using SPHD-001T-P0.5 or SPHD-002T-0.5 connector made from JAPAN SOLDERLESS TERMINAL MFG CO LTD. 

Regarding to manufacture of a connector, it becomes the regulation as following. 

## **a). Appricable Wire and Crimping tool** 

Wire size is AWG#26-AWG#22 and insulation outer dia is φ1.0-φ1.5mm. 

Appreciable wire per barrel size is UL1007 (standard wire) and its equivalent standard wire can be used. 

Regarding the AWG#22, use UL1061 or its equivalent standard wire, because wire insulation outer diameter of UL1061 is samll. Crimping tool is as below. 

Crimping tool Crimping applicator Dies 

Table of tensile strength at crimped part. SPHD-001T-P0.5 

|<br>SPHD-001T-P0.5|.||
|---|---|---|
|Wire size|Requirement N min.|Actual value N|
|UL1007 AWG#26|20|39.2 - 45.1|
|UL1007 AWG#24|30|68.6 - 74.5|
|UL1007 AWG#22|40|92.1 - 96.0|



SPHD-002T-P0.5 

|SPHD-002T-P0.5|||
|---|---|---|
|Wire size|Requirement N min.|Actual value N|
|UL1007 AWG#28|15|27.0 - 34.3|
|UL1007 AWG#26|20|44.1 - 48.0|
|UL1007 AWG#24|30|66.6 - 71.5|



AP-K2 or AP-KS MKS-LS-10 or MKS-L-10 SPHD-001-05/SPHD-002-05 

## **c). Inserting contact into housing** 

## **b). Crimping Operation** 

The reference value of wire strip is 2.3mm. As wire strip length differs depending on type of wire and crimping method, decide the best wire strip length considering processing condition. When wire is stripped, do not damage or cut off wire conductores. 

Table of crimp height 

SPHD-001T-P0.5 

|SPHD-001T-P0.5|SPHD-001T-P0.5||||
|---|---|---|---|---|
|Wire<br>Type<br>Size||Insulation O.D (mm)|Crimpheight(mm)<br>ConductorpartInsulationpart||
|<br>UL1007|<br>AWG #26|<br>1.3|<br>0.60-0.70|<br>1.7|
|UL1007|AWG #24|<br>1.5|0.65-0.75|1.8|
|UL1061|AWG #22|<br>1.4|0.70-0.80|1.8|



Inserting crimped contact into housing 

- (1)  Do not apply any pulling force to crimped part, and insert contact parallel to housing 

- (2) Insert contact into housing without stopping to innermost 

(3)  Check secure locking per each insertion by pulling wire softly in order to check that contact does not come off housing. Besides, check whether there is the backlash in the direction of insertion axis. 

Defect example of slation insertion 

**==> picture [212 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
Cover of contacting part<br>Cover of contacting part<br>Housing<br>Contact  lnsert with slanting<br>**----- End of picture text -----**<br>


## **d). Mating and Unmating Connector** 

- (1) Inserting connector 

## SPHD-002T-P0.5 

|SPHD-002T-P0.5|SPHD-002T-P0.5||||
|---|---|---|---|---|
|Wire||Insulation O.D (mm)|Crimpheight(mm)||
|Type|Size||Conductorpart|Insulationpart|
|UL1007|AWG #28|<br>1.2|0.55-0.60|1.6|
|UL1007|AWG #26|<br>1.3|0.60-0.65|1.7|
|UL1007|AWG #24|<br>1.5|0.62-0.67|1.8|



- Note 1. Crimp height at wire barrel should be set to pre-determined dimensions. 

- Note 2. Adjust crimp height at wire insulation barrel to the extent that wire insulation is slightly pressed, and set it so that crimping is not excessivery. 

- Note 3. Crimping condition at wire insulation barrel is as below 

Hold receptacle housing securely and insert into header straight against to header post until click sounds. 

- (2) Unmating connector 

   - Hold all wires securely and fix receptacle housing by fingers so as to pry, and then, withdraw it on the mating axis. 

      - Fix receptacle housing Hold all wires 

**==> picture [19 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
Header<br>**----- End of picture text -----**<br>


## **e). Routing of Wire** 

Routing wire so as not to apply external force to connector except force to such an extent that wire slightly buckles, considering an enough length to route and fixing of wire. 

A-167 

・All specifications are subject to change without notice. 

**HWS SERIES** 

## 6. External Fuse Rating 

Refer to the following fuse rating when selecting the external fuses that are to be used on input line. Surge current flows when line turns on. Use slow-blow or time-lag type fuse, not fast-blow fuse. Fuse rating is specified by in-rush current value at line turn-on. Do not select the fuse according to input cur- 

rent (RMS.) values under the actual load condition. 

HWS300 : 10A HWS600 : 15A 

## 7. Fan life expectancy 

The Fan-life has limitation. Therefore, periodic maintenance by exchanging the life-expired fan is required for the power supply. The following figure shows the life of fan. 

Fan exhaust temperature (℃) 

Measurement point of fan exhaust temperature 

Measuring point Air Flow P.S. 50mm The difference between the intake temperature and the exhaust temperature of the power supply at Io=100% : HWS300: 4℃ HWS600: 8℃ 

## 8. Before concluding that the unit is at fault… 

**HWS** 

Before concluding that the unit is at fault, make the following checks. 

- (1) Check if the rated input voltage is connected. 

- (2) Check if the wiring of input and output is correct. 

- (3)  Check if the I/O terminal connection is properly tighten by regulated torque. 

- (4) Check if the wire thickness is enough. 

- (5)  Check if the output voltage control (V.adj) is properly adjusted. OVP might be trigged and output is shut down. 

- (6)  If use function of the Remote ON/OFF control, check if the Remote ON/OFF control connector is not opened. If in open condition, power supply will not output. 

- (7)  Check if the built-in FAN is not stopped. Is FAN stopped by 

something irregulars or etc? If FAN stops, the PF signal turn “High” level and OTP might be activated. 

- (8)  Power supply has ventilating holes on the front and back panels. Check if there is any irregulars or dust, etc. 

- (9)  Is the chassis of power supply hot abnormally? The output is shut down by OTP operation. 

   - Please re-input after the unit to cool down sufficiently. 

- (10)  Check if the output current and output wattage does not exceed specification. 

- (11)  Audible noise can be heard when input voltage waveform is not sinusoidal. 

- (12) Audible noise can be heard during dynamic load operation. 

## 9. Range of free warranty 

This product is warranted for a period of 5 years from the date of shipment. As for the breakdown under a normal use during free warrantee term, repair is at free of charge. However, the built-in FAN motor replacement is charged. Please contact to our sales office for FAN replacement. 

Conditions of usage at the free of charge warrantee are as follows. 

- (1) Average operating temperature (ambient temperature of the power supply unit) is under 40ºC 

- (3) Installation method : Standard installation. However, the maximum rating is within the output derating. 

Following cases are not covered by warranty. 

   - (1) Improper usage like dropping products, applying shock and defects from operation exceeding specification of the units. 

   - (2) Defects resulting from natural disaster (fire, flood). (3) Unauthorized modifications or repair by the buyers defects not cause by DENSEI LAMBDA. 

- (2) Average load factor is 80% or less. 

## 10. Option 

## **1 Fan unit for replacement** 

We have prepared an optional fan unit for replacement. 

**==> picture [486 x 224] intentionally omitted <==**

**----- Start of picture text -----**<br>
Name of fan unit for replacement Applicable models Appearance Pin assignments Price<br>Housing ＝PAP-03-V-S (J.S.T.)<br>Contact ＝ SPHD-001T-P0.5 or<br>PSHD-002T-P0.5（J.S.T.）<br>HWS300  Pin No.  Description<br>300-FAN-01 （of standard  1  Power supply Open<br>specifications） 2  Fan alarm<br>3  GND<br>Length of fan harness ＝55 ±10mm<br>Wind direction<br>Housing ＝PAP-03-V-S（J.S.T.）<br>Contact ＝ SPHD-001T-P0.5 or<br>PSHD-002T-P0.5（J.S.T.）<br>HWS600<br> Pin No.  Description<br>600-FAN-01 （of standard  1  Power supply Open<br>specifications）<br>2  Fan alarm<br>3  GND<br>Length of fan harness ＝70±10mm<br>Wind direction<br>**----- End of picture text -----**<br>


Ask us for replacement of the fan. This will be a charged service. If you are replacing the fan by yourself, note the following. 

- *1. Be careful in handling the fan unit so as not to cause an impact by dropping it or hitting it, etc. 

- *2. Shut down the input before starting the replacement operation. 

- *3. Check that there are no loose parts in connectors or harness tucking, etc. 

- *4. Safety standards (UL, CE, etc.) are not applicable. 

A-168 

**HWS1000** 

**HWS** 

## **HWS 1000 Series Instruction Manual** 

## **BEFORE USING THE POWER SUPPLY UNIT** 

Be sure to read the following precautions thoroughly before using this power supply unit. 

Pay attention to all warnings and cautions before using the unit. Incorrect usage could lead to an electric shock, damage to the unit or a fire hazard. 

## **WARNING** 

- Do not make unauthorized changes to power supply unit, otherwise you may have electric shock and void your warranty. 

- Do not touch the internal components; they may have high voltage or high temperature. You may get electric shock or burned. 

- When the unit is operating, keep your hands and face away from it; an accident may injure you. 

- Do not use unit under unusual condition such as emission of smoke or abnormal smell and sound etc. It might cause fire and electric shock. 

- In such case, please contact us; do not repair by yourself, as it is dangerous for the user. 

- Do not drop or insert anything into unit. It might cause failure and fire, when using the unit under such condition. 

- Do not operate these units at the condition of condensation. It may cause fire and electric shock. 

- This power supply has a possibility that hazardous voltage may occur in output terminal depending on failure mode. 

- The outputs of these products must be earthed in the end use equipment to maintain SELV. 

- If the outputs are not earthed, they must be considered hazardous and must not be made user accessible. 

## **CAUTION** 

- This power supply is primarily designed and manufactured to use and enclose in other equipment. 

- This power supply unit has a built-in fan for air-cooling. Do not block air intake and exhaust. It might cause fire. 

- Input voltage, output current, output power, ambient temperature and ambient humidity should be used within specifications, otherwise the unit will be damaged. 

- The unit might be broken down by accident or unexpected situation. For application equipment, which requires very high reliability (nuclear related equipment, traffic control equipment, medical equipment, etc.), please provide fail safety function in the equipment. 

- Do not make an improper wiring to input and output terminals. It may cause damage. 

- Do not use in environment such as strong electromagnetic field, erosive gas etc, or any environment where conductive foreign substance may enter. 

- Do not operate and store this unit at the condition of condensation. In such case, waterproof treatment is necessary. 

- Do not operate this unit after it falls down. 

- The output voltage of this power supply unit is considered to be a hazardous energy level (The voltage is 2V or more and the electric power is 240VA or more), prevention from direct contact with voltage output is highly necessary. While installing or servicing this power supply unit, avoid dropping tools by mistake or direct contact with voltage output. This might cause an electrical shock. 

While repairing this power supply unit, the AC input power must be switch off and the I/O terminal voltage should be less than the safety level. 

## 1. Terminal Explanation 

Please pay extra attention to the wiring. Incorrect connection will damage the power supply. 

- When connecting input and output wiring, input AC-Line 

- should be off. 

- Input wiring and output wiring shall be separated, otherwise noise susceptibility of power supply unit will be weak. 

- The protective earth (PE) must be connected to the instrument chassis and the chassis of this power supply unit. 

- Remote sensing lines shall be twisted or use the shielded wire. 

- Remote ON/OFF control lines shall be twisted or use the shielded wire. 

## **1 Front Panel Explanation** 

**==> picture [214 x 122] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2<br>3 NAMEPLATE<br>4<br>9<br>5<br>7<br>6 8<br>**----- End of picture text -----**<br>


- ① ＋: ＋ Output terminal 

- ② −: − Output terminal 

- ③ ON: Output (Power On) indication green LED (The indicator turns on when the power supply output is in normal operating condition.) 

- ④ V.ADJ: Output voltage adjust trimmer (The output voltage rises when trimmer is turned clockwise.) 

- ⑤ CN01: Remote sensing, ON/OFF control signal, Current balance signal,⑥ CN02: Output voltage external control signal and Power fail signal output ｝ connector. 

- ⑦ N: AC input terminal N : Neutral line 

- ⑧ L: AC input terminal L : Live Line (Fuse in line) 

- ⑨ FG: Function Ground terminal (Frame ground) 

A-169 

・All specifications are subject to change without notice. 

**HWS1000** 

## **2 CN01, CN02 Connector pin configuration and function** 

CN01, CN02 pin configuration and function are the same. They are connected to each other in this power supply unit. When the pin of CN01 side is shorted the same function pins of CN02 side are shorted. Please note that the function cannot be separately set with CN01 and CN02. 

**HWS** 

|||||Pin No.|Pin No.|Confguration|Confguration|Function|Function|Function||
|---|---|---|---|---|---|---|---|---|---|---|---|
|4<br>2<br>6<br>8<br>10<br>12<br>4<br>2<br>6<br>8<br>10<br>12||||1|||+V|Connected to +Output terminal in this power supply unit.<br>(+V terminal can not supply load current.)||||
|||||2||||||||
||||||||+S|~~Remot~~<br>(For re|~~e sensing te~~ <br>mote sensin|rminal for +Output<br>gfunction,which compensates for line dropbetweenpower supplyterminals and||
|||||||||load te|rminals. Co|nnect to +V terminal when remote sensing function is unnecessary.)||
|||||3|||-V|~~Conne~~|~~cted to -Out~~|put terminal in this power supply unit.||
|||||||||<br>(-V ter|<br>minal can no|<br>t supply load current.)||
|||||4|||-S|Remot<br>|e sensing te<br>|rminal for -0utput<br>||
|||||||||~~(For re~~<br>load te<br>|~~mote sensin~~ <br>rminals. Co<br>|g function, which compensates for line drop between power supply terminals and<br>nnect to -V terminal when remote sensing function is unnecessary.)<br>||
|||||5|||PC|Curren<br>(For ou|t balance te<br>tput current|rminal<br>balancing in parallel operation.)||
|||||6||C|OM|~~Groun~~|~~for PC and~~|PV signal||
|||||||||||.||
|||||7|||PV|Output<br>|voltage ext<br>|ernal control terminal<br>||
|||||||||~~(For po~~<br>when|~~wer supply~~ <br>PV function|output voltage control with an external voltage. Connect it with the terminal REF<br>is unnecessary.)||
|||||||||||||
|||||8||R|EF|Refere<br>(REF a|nce voltage<br>nd PV are c|terminal for Output voltage control<br>onnected when shipping.)||
|||||9||C|NT|Remot<br>(When|e ON/OFF c<br>the CNT is|ontrol terminal<br>pulled to TTL low, the power supply turns on.)||
|||||10||T|OG|Groun|d for CNT an|d PF signal.||
|||||11|||PF|||||
|||||||||~~Power~~ <br>~~(As th~~|fail signal o<br>~~output volt~~|utput terminal.<br>~~a~~ge drops FAN stops and AC input voltage down open collector output||
|||||||||<br>“Powe|<br>r Fail” signa|,       ,   ,<br>l will output “High”.)||
|||||12||T|OG|Groun|d for CNT an|d PF signal.||
|||||||||||||



## CN01，CN02 are connected in this power supply unit as follows. 

**==> picture [374 x 300] intentionally omitted <==**

**----- Start of picture text -----**<br>
CN01<br>１ ３ ５ ７ ９ 11<br>２ ４ ６ ８ 10 12<br>CN02  １ ３ ５ ７ ９ 11<br>２ ４ ６ ８ 10 12<br>Output voltage<br>detection circuit<br>Output current<br>signal circuit<br>Reference voltage<br>generation circuit<br>Output ON/OFF<br>Control circuit<br>Power fail signal<br>generation circuit<br>※Output ON/OFF control circuit and the Power fail signal circuit are insulated<br>with other circuits in the power supply. (Insulating voltage AC100V)<br>**----- End of picture text -----**<br>


A-170 

・All specifications are subject to change without notice. 

**HWS** 

## **HWS1000** 

## **3 Basic Connection (Local sensing)** 

- ① Connect “+S” terminal to “+V” terminal and “-S” terminal to “-V” terminal with sensing wires. 

- ② Connect “CNT” terminal to “TOG” terminal with wire. 

- ③ Connect “PV” terminal to “REF” terminal with wire. 

- ※ Please use attachment connector for each connection. 

- ※ In the following cases, the output is shut down. 

- When CNT and TOG is opened. 

- When PV and REF is opened. 

## **4 Remote sensing required** 

- ① Connect “+S” terminal to “+” terminal of load with sensing wire. 

- ② Connect “-S” terminal to “-” terminal of load with sensing wires. 

- ③ Connect “CNT” terminal to “TOG” terminal with wire. 

- ④ Connect “PV” terminal to “REF” terminal with wire. 

- ※ The accuracy of the output voltage will deteriorate when the sensing terminals are opened. 

- ※ In the following cases, the output is shut down. When CNT and TOG is opened. 

- When PV and ~~R~~ EF is opened. 

**==> picture [174 x 200] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for<br>＋ Loa d ー connecting to the load  l ine.<br>(These are not attached<br>to the product .）<br>N AM E PLATE<br>Connector : (JST) S12B-PHDSS<br>**----- End of picture text -----**<br>


**==> picture [104 x 29] intentionally omitted <==**

**----- Start of picture text -----**<br>
Attached connector when shipping<br>・Housing : (JST) PHDR-12VS<br>・Contact : (JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8, 9－10 are shorted.<br>**----- End of picture text -----**<br>


## Attached connector when shipping 

|Red|Red|Black|Black||Brown|Brown|Yellow|Yellow||
|---|---|---|---|---|---|---|---|---|---|
|１||３||５|７||９||11|
|２||~~４~~||~~６~~|~~８~~||~~10~~||~~12~~|



Twist wire 

**==> picture [196 x 285] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for<br>connecting to the load<br>＋ Load ー line.<br>(These are not attached<br>to the product.）<br>NAME PLATE<br>Connector : (JST) S12B-PHDSS<br>Remove standard attached connector, and use<br>the harness made by the customer.<br>・Housing : (JST) PHDR-12VS<br>・Contact : (JST) SPHD-001T-P0.5<br>2－”+” of load, 4－”-” of load should be<br>connected.<br>7－8, 9－10：should be shorted<br>＊Please use wire for contact and crimping<br>tool specified by maker.<br>**----- End of picture text -----**<br>


## Connecting circuit with CN01 or CN02 connector 

**==> picture [190 x 89] intentionally omitted <==**

**----- Start of picture text -----**<br>
１ ３ ５ ７ ９ 11<br>２ ４ ６ ８ 10 12<br>“+” of load<br>“-” of load<br>**----- End of picture text -----**<br>


A-171 

・All specifications are subject to change without notice. 

## **HWS1000** 

## **5 Remote ON/OFF control required** 

- ① Remove standard attached connector, and use the harness 

- made by the customer and connect external signal to between CNT and TOG terminal. 

## **6 PF signal output required** 

   - ① PF signal is an open collector output, therefore PF signal outputs is shown in circuit below. 

   - ② “TOG” terminal is ground for “PF” terminal. 

- ② “TOG” terminal is ground for “CNT” terminal. 

- In case this function is not used, please short between CNT and TOG terminal. 

**HWS** 

**==> picture [176 x 298] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for<br>connecting to the load line<br>＋ Load ー (These are not attached to<br>the product.）<br>NAMEPLATE<br>Connector : (JST) S12B-PHDSS<br>Remove standard attached connector, and<br>use the harness made by the customer.<br>・Housing : (JST) PHDR-12VS<br>・Contact : (JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8：should be shorted<br>9：CNT<br> Should be connected to ON/OFF control signal.<br>10：TOG<br> Should be connected to Signal Ground.<br>＊Please use wire for contact and crimping<br>tool specified by maker.<br>**----- End of picture text -----**<br>


## Connecting circuit with CN01 or CN02 connector 

**==> picture [187 x 51] intentionally omitted <==**

**----- Start of picture text -----**<br>
１ ３ ５ ７ ９ 11<br>２ ４ ６ ８ 10 12<br>ON<br>**----- End of picture text -----**<br>


**==> picture [173 x 298] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for<br>＋ Load ー connecting to the load line<br>(These are not attached to<br>the product.）<br>NAMEPLATE<br>Connector : (JST) S12B-PHDSS<br>Remove standard attached connector, and use<br>the harness made by the customer.<br>・Housing : (JST) PHDR-12VS<br>・Contact : (JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8, 9－10：should be shorted.<br>11：PF<br>  Should be connected to PF signal output<br>12：TOG<br>  Should be connected to Signal Ground.<br>＊Please use wire for contact and crimping tool<br>specified by maker.<br>**----- End of picture text -----**<br>


## Connecting circuit with CN01 or CN02 connector 

**==> picture [187 x 115] intentionally omitted <==**

**----- Start of picture text -----**<br>
１ ３ ５ ７ ９ 11<br>２ ４ ６ ８ 10 12<br>PF signal output<br>To signal ground<br>**----- End of picture text -----**<br>


A-172 

・All specifications are subject to change without notice. 

**HWS1000** 

**HWS** 

## 2. Functions and Precautions 

## **1 Input Voltage Range** 

Input voltage range is single phase 85−265VAC (47− 63Hz). Input voltage, which is out of specification, may cause unit damage. Rated input voltage range fix during safety standard application is from100V to 240VAC (50/60Hz). 

While applying input voltage from 85VAC to 90VAC, output load current derating is required. 

## **2 Output Voltage Range** 

Output voltage is set to the rated value at shipping. V.ADJ trimmer on the front panel side is use to adjust the output voltage within the range specified. Output voltage trimming range is within -20%−+20% of the rated output voltage (48V, 60V model: -20 % −+10 % ). Turn the trimmer clockwise to increase output voltage. Take note when the output voltage is increased excessively over voltage protection (OVP) function may trigger and output voltage will shut down. 

Use the output power of the power supply below the rated output power value when you raise the output voltage. 

## **3 Over Voltage Protection (OVP)** 

The OVP function (Inverter shut down method, manual reset type) is provided. OVP function operates within 125-145% of the rated DC output voltage value (3-7V model: 125-140%, 36V model: 125-138%, 48V, 60V model: 115-125%), and the output will be shut down when OVP function triggers. When OVP function operates, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal shall be input for recovery of the output. OVP value is fixed and can not be adjusted. 

## **4 Over Current Protection (OCP)** 

The OCP function (Constant current limiting, Time delay shutdown type) is provided. OCP function operates when the output current exceeds 105% of maximum DC output current specification and the over current or short circuit condition continues 5-second or more, the output will be shut down. When the OCP is triggered, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. The OCP setting is fixed and not to be adjusted externally. 

## **5 Over Temperature Protection (OTP)** 

Over temperature protection function (manual reset type) is provided. When ambient or internal temperature rises abnormally, OTP will shut down the output. When OTP is triggered, input power is cut off and allow sufficient cooling to reset the OTP function. Then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

## **6 Low Output Detection Circuit (PF)** 

Low output voltage detection circuit is provided. Power Fail signal (PF signal) will output when output voltage decrease by either the drop or brown out of the input voltage or OCP, OVP and OTP function operation. PF signal will turn “High” level to indicate the abnormal status of the power supply when the output voltage decrease to 80% of the output voltage setting value. However, there is a possibility that PF signal may not output during parallel operation. The PF signal circuit is insulated from the power supply input and output circuit and it is an open collector. TOG terminal is ground for PF terminal. 

When the Built-in Fan Motor of this power supply unit stops, PF signal will turn to “H” and the output power will shut down. The Built-in Fan Motor is a component with lifetime. We recommend a periodic replacement. Please contact our sales office. Replacement is at customer’s expenses. 

**==> picture [60 x 56] intentionally omitted <==**

**==> picture [85 x 37] intentionally omitted <==**

**----- Start of picture text -----**<br>
PF<br>Vce max：30V<br>Ic max：20mA<br>TOG<br>**----- End of picture text -----**<br>


## **7 Remote Sensing (+S, -S terminal)** 

Remote sensing function is provided to compensate for voltage drop across the wiring from the power supply output terminals to the load input terminals. Connect “+S” terminal to “+” terminal of the load and “-S” terminal to “-” terminal of the load with sensing wires. The total line voltage drop (+ side line and - side line) shall be less than 0.3V. In case that sensing line is too long, it is necessary to put an electrolytic capacitor across the load terminals. 

Please take note that the electrolytic capacitor has generation of heat etc. done by the ripple current depending on connected load. Therefore, the electrolytic capacitor must have a ripple current allowance higher than the output ripple current. If CN01 (or CN02) is in use, terminal +S, -S for CN02 (or CN01) must be in open condition. 

**==> picture [158 x 77] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S<br>＋ ＋<br>－ －<br>－S<br>**----- End of picture text -----**<br>


When the function of remote sensing is not in used, connect +S terminal to +V terminal, and -S terminal to -V terminal by the attachment connector. 

If remote sensing ter ~~minals are opene~~ d, the stability and the accuracy of the output deteriorate. Therefore, terminal +S, -S must be connected. 

## **8 Remote ON/OFF Control** 

Remote ON/OFF control is provided. Output can be remotely switch ON and OFF by using CNT terminal and TOG terminal even though input is connected. The output is turned to ON when TOG and CNT terminals are shorted and output is turned to OFF when these terminals are opened. When the function is not used, connect TOG and CNT terminals with short piece. The standards for this function are as follows. “TOG” terminal is ground for “CNT” terminal. 

**==> picture [126 x 73] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sink current：3.5mA<br>CNT<br>Relay<br>Transistor<br>TOG TTL,<br>and etc.<br>**----- End of picture text -----**<br>


## The Mode of control 

|The Mode of control|||
|---|---|---|
|CNT Level for TOG Terminal|Output|Built-in Fan Motor|
|Short or L（0−0.8V）|ON|Rotate|
|Open or H（2.4−12V）|OFF|Stop|



A-173 

・All specifications are subject to change without notice. 

## **HWS1000** 

**HWS** 

- 1）TTL compatible. The maximum input voltage to CNT terminal is 12V, and the maximum allowable reverse voltage is -1V. The sink current of CNT terminal is 3.5mA. 

- 2）Output ON/OFF control can be enable by a switch, relay or a transistor ON/OFF. When CNT terminal−TOG terminal is shorted power supply is turn ON, and when CNT terminal− TOG terminal is opened power supply is turn OFF. 

- 3）Remote ON/OFF control circuit is isolated from the input and output circuit of power supply. 

   - It is possible to use it regardless of the positive and negative of the power supply output. 

Please be aware that if CNT terminal and TOG terminal is short and input voltage is gradually increase, this will trigger the low output voltage detector protection circuit and will result to output voltage shut down. 

When the low output voltage detector protection circuit is triggered, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

## **9 Output Ripple & Noise** 

Maximum ripple & noise value in specifications is measured according to measurement circuit specified by JEITA-RC9131A. When Load lines are longer, ripple & noise becomes larger. In this case, electrolytic capacitor, film capacitor, etc. might be necessary to use across the load terminal. The output ripple & noise cannot be measured accurately if the probe ground lead of oscilloscope is too long. 

**==> picture [222 x 147] intentionally omitted <==**

**----- Start of picture text -----**<br>
150mm<br>＋S<br>＋<br>Load<br>Power Supply Unit<br>C2C3<br>－<br>－S<br>Co-axial cable Oscillo-<br>1.5m  50Ω R Scope<br>C1 Bandwidth<br>100MHz<br>R : 50Ω<br>C1:4700pF<br>C2:22uF<br>C3:0.47uF<br>**----- End of picture text -----**<br>


supplied to load. Wires to PC terminals shall be as short as possible, same length and twisted. 

There is a possibility that output could be unstable caused by external noise. For this case, disconnect COM terminal and connect -S terminal from parallel power supply to a single point on the load. Please refer connection Method (A)-2. 

   - 1） Adjust the output voltage of each power supply to be same value within 1% or 100mV, whichever is smaller. 

   - 2） Use same length and type of wires for all load lines. 

   - 3） Maximum value of output current in parallel is up to 80% of all paralleled models. The purpose of the current balancing function is the static powerup. Therefore the output voltage might decrease according to the condition of dynamic load. There might be a step in the rise waveform during parallel operation. 

   - 4） Up to 5 units can be connected in parallel. 

- **（B）To Use as a Backup Power Supply** 

   - 1） Set power supply output voltage higher by the forward voltage drop of diode. 

   - 2） Adjust the output voltage of each power supply to be same value. 

   - 3） Use within the specifications for output voltage and output power. 

**==> picture [225 x 184] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method (A)-1 Method (A)-2<br>Power Supply Power Supply<br>+S +S<br>Load Load<br>PC COM -S PC COM -S<br>PC COM +S PC COM +S<br>-S -S<br>Method (B)<br>Output Power(W)=(Vo+Vf)×Io<br>Power Supply+S Vf Io<br>Vo+Vf Vo Load<br>-S<br>Vf<br>+S<br>Vo+Vf<br>-S<br>**----- End of picture text -----**<br>


## **� Series Operation** 

For series operation, either method (A) or (B) is possible. There might be a step in the rise waveform during series operation. 

**==> picture [231 x 75] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method（A） Method（B）<br>＋ ＋ ＋<br>Power supply Power supply Load<br>－ ＋ － －<br>Load<br>＋ － ＋ ＋<br>Power supply Power supply Load<br>－ － －<br>(Note1)<br>**----- End of picture text -----**<br>


- (Note1) Please connect a diode for by-pass when using method 

(A) of the series operation. 

- Please use the diode with rated forward current is equal or more than load current and that the rated maximum reverse voltage is higher than output voltage for each power supply. 

## **� Parallel Operation** 

Current balancing function is provided. Either of operations mode (A) or (B) is possible. 

## **（A）To Increase the Output Current** 

Current balancing function activates by connecting PC-to-PC terminal and COM-to-COM terminal, and output current of each power supply is equivalently 

## **� Isolation Test** 

Isolation resistance between output and FG (chassis) shall be more than 100MΩ (at 500VDC and between output and CNT･PF shall be more than 10MΩ (at 100VDC. For safety operation, voltage setting of DC isolation tester must be done before the test. Ensure that it is fully discharged after the test. 

**==> picture [231 x 86] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output － FG (chassis) Output － CNT･PF<br>500VDC 100MΩ or more 100VDC 10MΩ<br>CNT TOG PF or more CNT TOG PF<br>PC PC<br>＋S ＋S<br>＋ Isolation ＋S<br>－ tester －<br>－S －S<br>FG FG<br>Isolationtester AC(L) AC(L)<br>AC(N) AC(N)<br>**----- End of picture text -----**<br>


## **� Withstand Voltage** 

This series is designed to withstand 3.0kVAC between input and output, 2.0kVAC between input and FG (chassis), 500VAC (60V model : 651VAC) between output and FG (chassis), and 100VAC between output and CNT･PF terminal each for 1 minute. When testing withstand voltage, set current limit of withstand voltage test equipment at 20mA. 

(Output-FG (chassis) : 300mA (60V model : 390mA), Out- 

A-174 

・All specifications are subject to change without notice. 

**HWS** 

## **HWS1000** 

## put- CNT･PF : 100mA). 

The applied voltage must be gradually increased from zero to testing value and then gradually decreased for shut down. When timer is used, the power supply may be damaged by high impulse voltage at timer switch on and off. Connect input and output as follows. If output is left open during test, output voltage might appear momentarily. This product have monolithic ceramic capacitor in secondary circuit to frame ground. 

Some of the withstand voltage tester may generate high voltage at the matching with monolithic ceramic capacitor and may cause the unit damage. 

So, please check the waveform of test voltage. 

**==> picture [193 x 305] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input － FG (chassis) (solid line) CNT TOG PF<br>2kVAC 1min. (20mA) PC<br>Input － Output (dotted line) ＋S<br>3kVAC 1min. (20mA) ＋<br>－<br>－S<br>Withstand Voltage Tester ～ FG<br>～ AC（L）<br>AC（N）<br>Output － FG (chassis)<br>500VAC 1min. (300mA)<br>CNT TOG PF<br>（60V model : 651VAC 1min (390mA）） PC<br>＋S<br>＋<br>－<br>－S<br>Withstand Voltage Tester ～<br>FG<br>AC（L）<br>AC（N）<br>Output － CNT･PF<br>100VAC 1min. (100mA)<br>CNT TOG PF<br>Withstand Voltage Tester ～ ＋SPC<br>＋<br>－<br>－S<br>FG<br>AC（L）<br>AC（N）<br>**----- End of picture text -----**<br>


## � Output Voltage External Control (PV) 

## **（A） Control by External Voltage** 

Output voltage external control function is provided. Output voltage can be varied by applying an external voltage (1−6V) to “PV” terminal and “COM” terminal. Note if an external voltage is not applied, there will be no output. Please consider the following characteristics below when operating the unit. 

**==> picture [159 x 73] intentionally omitted <==**

**----- Start of picture text -----**<br>
Connection Method<br>＋S<br>＋<br>Load<br>Power －<br>Supply －S<br>PV<br>1－6V<br>COM<br>**----- End of picture text -----**<br>


## Output Voltage Linearity 

**==> picture [158 x 100] intentionally omitted <==**

**----- Start of picture text -----**<br>
3-36V Model<br>120%<br>110% 48V, 60V Model<br>Nominal<br>Output<br>Voltage<br>30% [3V Model]<br>20%<br>1V 1.5V 5V 5.5V 6V<br>PV Voltage(Nominal Input Voltage)<br>Output (V)<br>**----- End of picture text -----**<br>


Note:  Only as for the model of 3V output, the output voltage is used from 30% to 120% at the PV voltage is from 1.5V to 6.0V 

Note:  Only as for the model of 5-36V output, the output voltage is used from 20 % to 120 % at the PV voltage is from 1V to 6.0V 

Note:  Only as for the model of 48V, 60V output, the output voltage is used from 20% to 110% at the PV voltage is from 1V to 5.5V. 

## Output Voltage Derating 

**==> picture [160 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
3-36V Model<br>120%<br>110% 48V, 60V Model<br>Nomina<br>Output<br>Voltage<br>Operating<br>Area<br>30% 3V Model<br>20%<br>0 83% 90%100%<br>Load Current<br>Output (V)<br>**----- End of picture text -----**<br>


Note:  Only as for the type of 48V, 60V output, the maximum output voltage is used up to 110% at 90% load current. 

＊Output voltage usage below 20 % (3V model: 30 % ) is not a guaranteed. There is a possibility that it cannot be used with certain product. Please conduct a thorough evaluation test before using it. 

## **（B） Control by External Variable Resistor** 

“PV” terminal and “COM” terminal usage is the same as explained in section 「“control by external voltage”」. But in this method voltage for control is supplied through REF terminal. Variable resistor is connected between REF terminal and COM terminal and the middle point of variable resistor is connected to PV terminal. Please use the output voltage within 20% - 120% of rated output voltage value (3V model : 30% - 120% , 48V, 60V model : 20% - 110% ). Wires for control lines must be as short as possible and use twisted wire or shielded wire. In addition, maximum variable voltage when control by external variable resistor is rated output voltage (100%). When output voltage must be externally control to 120% of rated output voltage (110% for 48V, 60V model), please follow the following procedure. 

- （1） PV terminal and REF terminal is short by using standard connector supplied. 

- （2） Set the power supply output voltage to maximum value of the output voltage variable range mentioned in specification standard by adjusting V.ADJ volume at the front panel. 

- （3） Remove standard connector after input is cut off. 

- （4） Connect external variable resistor (50kΩ) between REF terminal and COM terminal. Then connect middle point of external variable resistor to PV terminal. (sensing current is 1.4mA) 

**==> picture [150 x 97] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S<br>＋<br>Load<br>－<br>Power －S<br>supply Sensing current : 1.4mA<br>REF<br>VR1<br>PV Variable resistor<br>50kΩ<br>COM<br>Connection method<br>**----- End of picture text -----**<br>


When output voltage is over rated value, please make sure that maximum output power is below rated value. Moreover, when output voltage is below rated value, please make sure that maximum output current is below rated value. 

Please consider the following characteristic during usage. 

A-175 

・All specifications are subject to change without notice. 

## **HWS1000** 

**==> picture [223 x 113] intentionally omitted <==**

**----- Start of picture text -----**<br>
Rated output voltage:<br>120%<br>100%<br>80%<br>Output<br>120% of maximum setting value<br>voltage 60%<br>110% of maximum setting value<br>40%<br>20%<br>0%<br>0 10000 20000 30000 40000 50000<br>Variable resistor value for REF-PV（VR1） [Ω]<br>**----- End of picture text -----**<br>


＊Output voltage usage below 20% (3V model : 30%) is not a guaranteed. There is a possibility that it cannot be use with certain product. Please conduct a thorough evaluation test before using it. 

## **(C)  Control by External Variable Resistor (Parallel Connection)** 

“Control by External Variable Resistor” is connected in parallel. Voltage for control in this method is supplied through REF terminal. Variable resistor and an electrolytic **HWS** capacitor or a ceramic capacitor is connected between REF terminal and COM terminal and the middle point of variable resistor is connected to PV terminal. Please use the output voltage within 20%-120% of rated output voltage value (48V output type : 20%-110%). Wires for control lines must be twisted wire or shielded wire. Please use the variable resistor more than 20kΩ. Please use the electrolytic capacitor or ceramic capacitor with rating more than 16V and capacitance more than 10uF. In addition, maximum variable voltage when controlled by external variable resistor is rated output voltage (100%). When output voltage must be externally controlled to 120% of rated output voltage (110% for 48V output type), please follow the following procedure. 

- （1）  PV terminal and REF terminal is short by using standard connector supplied. 

- （2）  Rise each power supply output voltage to maximum value by adjusting V.ADJ volume at the front panel. 

- （3）  Remove standard connector after input is cut off. 

- （4）  The volume of an external variable resistor is adjusted to the position in which resistance becomes maximum between REF-PV and the power supply output voltage becomes 0V. 

- （5）  Connect external variable resistor (20KΩ) between REF terminal and COM terminal. Then connect middle point of external variable resistor to PV terminal. (Sensing current is 6mA.) 

Please use the connection method by a local sense or one point sense. 

**==> picture [231 x 133] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S ＋S<br>Powersupply REF－SPV＋－ Sensing current : 6mAVR1 Electrolytic capacitor Load Powersupply REF－SPV＋－ Sensing current : 6mAVR1 Electrolytic capacitor Load<br>COM Variable resistor 16V 10μF COM Variable resistor 16V 10μF<br>COM  20kΩ COM  20kΩ<br>PV PV<br>REF REF<br>Powersupply ＋S＋ Powersupply ＋S＋<br>－ －<br>－S －S<br>Local sense connection method  One point sense connection method<br>**----- End of picture text -----**<br>


**When output voltage is over rated value, please make sure that maximum output power is below rated value. More-** 

**over, when output voltage is below rated value, please make sure that maximum output current is below rated value.** 

**Please consider the following characteristic during usage.** 

**==> picture [237 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
Rated output :<br>voltage  120%<br>100%<br>80%<br>60%<br>40%<br>20%<br>0%<br>0 5000 10000 15000 20000<br>Variable resistor value for REF-PV（VR1） [Ω]<br>Output voltage<br>**----- End of picture text -----**<br>


- ＊Output voltage usage below 20% is not guaranteed. There is a possibility that it cannot be used with certain product. Please conduct a thorough evaluation test before using it. 

## **� Output Peak Current** 

For model with output peak current, please meet the following condition. 

Reduce peak current value according to output derating as section 4-1. 

The output is shut down by protection circuit when rated current and continuous peak output time (τ) exceeds rated value during usage. 

When protection circuit is activated, input is temporarily cut off for a few minutes and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

**Input voltage range： AC180V - 265V Continuous Peak output time（τ）： Within 10 seconds Peak output current（Ip）： Within the rated peak output current** 

**Duty：up to 35％** τ Duty = Ｔ[   ×100（%）] 

**==> picture [230 x 120] intentionally omitted <==**

**----- Start of picture text -----**<br>
Condition 1 Condition 2<br>Ip1<br>Ip aA<br>0A τ 0A τ<br>T T<br>√Ip￣￣2× τＴ [＜][ Irms max] √  Ip1￣￣￣￣￣￣￣2×  τＴ [+ a] 2 ×（1− τＴ [）] [＜] [Irms max]<br>Ip1:  Peak output current（A）<br>Irms: Effective current（A）<br>**----- End of picture text -----**<br>


τ: Peak current pulse width （sec） T: Cycle （sec） 

|Model|Irms max|
|---|---|
|HWS1000-7|94.7A|
|HWS1000-12|59.2A|
|HWS1000-15|47.3A|
|HWS1000-24|29.6A|
|HWS1000-36|19.7A|
|HWS1000-48|14.8A|
|HWS1000-60|11.8A|



A-176 

・All specifications are subject to change without notice. 

**HWS1000** 

**HWS** 

## 3. Mounting Directions 

## **1 Output Derating** 

Mounting directions are as follows. Standard mounting method is (A). Methods (B), (C) and (D) are also possible. Mounting methods besides (A),(B),(C) and (D) (example : (E) and (F)) are inhibited. 

**==> picture [224 x 359] intentionally omitted <==**

**----- Start of picture text -----**<br>
ONVADJ H<br>CNO1 FG N〔AC〕L<br>CNO2<br>（A）Standard<br>Mounting （B） （C）<br>ONVADJ H ONVADJ H<br>CNO1 FG N〔AC〕L CNO1 FG N〔AC〕L<br>CNO2 CNO2<br>（D） （E）Inhibit （F）Inhibit<br>HWS1000 Output Derating<br>LOAD（%）<br>Ta（℃）<br>A B C D<br>−10 to ＋35 100 100 100 100<br>50 (40) 100 100 100 100<br>71 50 50 50 50<br>(  ) : Only 5V model<br>Mounting<br>100 A, B, C, D<br>80<br>5VModel<br>60<br>40<br>20<br>0<br>－10 20 20 40 50 60 71<br>Ambient Temperature（℃）<br>CNO2 CNO1 VADJ H ON<br>FG<br>N〔AC〕L<br>Load（％）<br>**----- End of picture text -----**<br>


## **2 Mounting Method Caution** 

- （1） This Power supply unit is a forced air-cooling system with a built-in fan. 

- （2） This power supply has ventilating holes on the front and back panels. 

   - Keep these areas freely more than 100mm from front side and more than 50mm from rear side. 

- （3） Please note that ventilation will be worsened in a dusty environment. 

- （4） Built-in fan is limited life part, which require periodic replacement. (Replacement will be charged). 

- （5） The ambient temperature of this power supply is less than 50mm from the center of a front side. 

- （6） The maximum allowable penetration of mounting screw is 6mm. 

- （7） Recommended torque for mounting screw (M4) is 1.27N・m. 

**==> picture [147 x 73] intentionally omitted <==**

**----- Start of picture text -----**<br>
More than50mm More than100mm<br>(Top：HWS1000)<br>(Rear) (Front)<br>Fan motor<br>**----- End of picture text -----**<br>


## **4.** ~~**Wiri**~~ **ng** ~~**Meth**~~ **od** 

- （1） The output load line and input line shall be separated and twisted to improve noise sensitivity. 

- （2） The sensing lines shall be twisted or shield wire and separated from the output lines. 

- （3） Use all lines as thick and short as possible to make lower impedance. Wires are to be twisted or use shield wire to improve noise sensitivity. 

- （1） Attaching a capacitor to the load terminals can eliminate noise. 

- （2） FG terminal of this power supply is functional earthing. For safety purposes, connect protective earthing terminal to the mounting set ground terminal. 

（4） Recommended wiring 

**==> picture [213 x 102] intentionally omitted <==**

**----- Start of picture text -----**<br>
Circuit HWS1000<br>Protector Noise Filter<br>AC（L） ＋<br>AC（L）<br>AC（L） AC（L） Load<br>～<br>AC（Ｎ） AC（Ｎ） ＋<br>AC（Ｎ） AC（Ｎ）<br>FG<br>Chassis of the equipment<br>**----- End of picture text -----**<br>


- （3） Recommended torque for the terminal piece: 

Input terminal (M4 screw): 1.27 N･m Output terminal (M8 Bolt & Nut): 10.8N・m 

Recommended circuit protector:  AC250V20A Recommended noise filter: RSEN-2020 (TDK-Lambda) 

A-177 

・All specifications are subject to change without notice. 

**HWS1000** 

## 5. External Fuse Rating 

Refer to the following fuse rating when selecting the external fuses for input line. Surge current flows when line turns on. Use slow-blow fuse or time-lug fuse. Do not use fastblow fuse. Fuse rating is specified by in-rush current value 

at line turn-on. Do not select the fuse according to input current (rms.) values under the actual load condition. ●  HWS1000：20A 

## 6. Troubleshooting 

Before concluding that the unit is at fault, make the following checks. 

   - （1） Check if the rated input voltage is apply. 

   - （2） Check if the wiring of input and output is correct. 

   - （3） Check if the I/O terminal connection is properly tighten by a regulated tightening torque. 

   - （4） Check if the wire material is not too thin. 

- **HWS** （5） Check if the output voltage control (V.ADJ) is properly adjusted. OVP might be triggered and output is cut off. 

   - （6） Check if the wiring of “+S” and “-S” terminal is correct. If in open condition, when input voltage is apply, OVP is triggered and output is cut off. Output display LED will turn on for a moment. 

   - （7） If use function of the remote ON/OFF control, check if the remote ON/OFF control connector is not opened. 

      - If in open condition, output is cut off. 

   - （8） Check if the built-in fan is not stopped. Is fan stopped by something irregulars or dust, etc. 

If fan stops, the PF signal is turn on. 

Moreover, the output is intercepted with the protection circuit if fan stops. 

Fans are the limited life parts. 

   - This power supply has ventilating holes on the front and back panels. Check if there is any irregulars or dust, etc. 

- （9） Is the main body of the power supply abnormally hot? Please turn on the input again after allowing the unit to cool down sufficiently. The output shut down by over temperature protection function. 

- （10） Check if the output current and output power is not applied over specification. 

- （11） Check if the input voltage wave is sinusoidal. If this power supply unit is connected to a UPS, input voltage wave might not be sinusoidal. An audible noise is emmited from the power supply unit. 

- （12） Audible noise can be heard during Dynamic-Load operation. 

## 7. Warranty 

This product is warranted for a period of 5 years from the date of shipment. As for the breakdown under a normal use during free warrantee term, repair is at free of charge. However, the Built-in Fan Motor replacement is for a fee. Please contact your nearest sales office for replacement. 

Conditions of usage at the free of charge warrantee are as follows. 

- （1） Average operating temperature (ambient temperature of the power supply unit) is 40℃ 

- （2） Average load factor is 80% or less 

The Fan-life has limitation. Therefore, periodic maintenance by replacing the life-expired fan is required. The following figure shows the life of fan. 

- （3） Installation method: Standard installation. However, the maximum rating is within the output derating. 

Following cases are not covered by warranty. 

**==> picture [219 x 95] intentionally omitted <==**

**----- Start of picture text -----**<br>
10<br>7<br>5<br>3<br>2<br>1<br>0 10 20 30 40 50 60 70 80 90 100<br>Fan exhaust temperature (℃)<br>Life expectancy (years)<br>**----- End of picture text -----**<br>


- （1） Improper usage like dropping products, applying shock and defects from operation exceeding specification of the units. 

- （2） Defects resulting from natural disaster (fire, flood). 

- （3） Unauthorized modifications or repair by the buyers. 

- （4） Defects not cause by DENSEI LAMBDA. 

## ＊Life expectancy 

- Fan exhaust temperature 45℃ 45,000 hours 

- Fan exhaust temperature 80℃ 11,000 hours 

**==> picture [146 x 72] intentionally omitted <==**

**----- Start of picture text -----**<br>
Measuring point of fan  Measuring point<br>exhaust temperature<br>Air flow<br>P.S.<br>50mm<br>**----- End of picture text -----**<br>


A-178 

・All specifications are subject to change without notice. 

**HWS1000** 

**HWS** 

## 8. Option 

## **1 Fan unit for replacement** 

We have prepared an optional fan unit for replacement. 

|Name of fan unit for replacement|Applicable models|Appearance|Pin assignments|Price|
|---|---|---|---|---|
|1000-FAN-01|HWS1000<br>HWS1500<br>HWS1800T<br>(of standard<br>specifications)|Wind direction|Housing = XHP-3<br>(J.S.T.)<br>Contact = SXH-001T-P0.6<br>(J.S.T.)<br>Length of fan harness = 65 ±10mm<br>Pin No.<br>Description<br>1<br>Power supply<br>2<br>Fanalarm<br>3<br>GND|Open|



Ask us for replacement of the fan. This will be a charged service. If you are replacing the fan by yourself, note the following. 

- *1. Be careful in handling the fan unit so as not to cause an impact by dropping it or hitting it, etc. 

- *2. Shut down the input before starting the replacement operation. 

- *3. Check that there are no loose parts in connectors or harness tucking, etc. 

- *4. Safety standards (UL, CE, etc.) are not applicable. 

A-179 

・All specifications are subject to change without notice. 

**HWS 1500** 

## **HWS 1500 Series Instruction Manual** 

## **BEFORE USING THE POWER SUPPLY UNIT** 

Be sure to read the following precautions thoroughly before using this power supply unit. 

Pay attention to all warnings and cautions before using the unit. Incorrect usage could lead to an electric shock, damage to the unit or a fire hazard. 

## **WARNING** 

   - Do not make unauthorized changes to power supply unit, otherwise you may have electric shock and void your warranty. 

   - Do not touch the internal components; they may have high voltage or high temperature. You may get electric shock or burned. 

   - When the unit is operating, keep your hands and face away from it; an accident may injure you. 

- **HWS** ● Do not use unit under unusual condition such as emission of smoke or abnormal smell and sound etc. It might cause fire and electric shock. 

   - In such case, please contact us; do not repair by yourself, as it is dangerous for the user. 

   - Do not drop or insert anything into unit. It might cause failure and fire, when using the unit under such condition. 

   - Do not operate these units at the condition of condensation. It may cause fire and electric shock. 

   - This power supply has a possibility that hazardous voltage may occur in output terminal depending on failure mode. 

   - The outputs of these products must be earthed in the end use equipment to maintain SELV. 

   - This power supply unit has a built-in fan for air-cooling. Do not block air intake and exhaust. It might cause fire. 

   - Input voltage, Output current, Output power, ambient temperature and ambient humidity should be used within specifications, otherwise the unit will be damaged. 

   - The unit might be broken down by accident or unexpected situation. For application equipment, which requires very high reliability (nuclear related equipment, traffic control equipment, medical equipment, etc.), please provide fail safety function in the equipment. 

   - Do not make an improper wiring to input and output terminals. It may cause damage. 

   - Do not use in environment such as strong electromagnetic field, erosive gas etc, or any environment where conductive foreign substance may enter. 

   - Do not operate and store this unit at the condition of condensation. In such case, waterproof treatment is necessary. 

   - Do not operate this unit after it falls down. 

   - The output voltage of this power supply unit is considered to be a hazardous energy level (The voltage is 2V or more and the electric power is 240VA or more), prevention from direct contact with voltage output is highly necessary. While installing or servicing this power supply unit, avoid dropping tools by mistake or direct contact with voltage output. This might cause an electric shock. 

   - While repairing this power supply unit, the AC input power must be switch off and the I/O terminal voltage should be less than the safety level. 

- If the outputs are not earthed, they must be considered haz- 

- ardous and must not be made user accessible. 

## **CAUTION** 

- This power supply is primarily designed and manufactured to use and enclose in other equipment. 

## 1. Terminal Explanation 

Please pay extra attention to the wiring. Incorrect connection will damage the power supply. 

- When connecting input and output wiring, input AC-Line should be off. 

- Input wiring and output wiring shall be separated, otherwise noise susceptibility of power supply unit will be weak. 

- The protective earth (PE) must be connected to the instrument chassis and the chassis of this power supply unit. 

- Remote sensing lines shall be twisted or use the shielded wire. 

- Remote ON/OFF control lines shall be twisted or use the shielded wire. 

## **1 Front Panel Explanation** 

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- ① ＋ : ＋ Output terminal ② － : － Output terminal ③ ON : 

   - Output (Power On) indication green LED 

   - (The indicator turns on when the power supply output is in normal operating condition.) 

- ④ V.ADJ :  Output voltage adjust trimmer (The output voltage rises when trimmer is turned clockwise.) 

- ⑤ CN01 :     Remote sensing, ON/OFF control signal, Current balance signal,⑥ CN02 :      Output voltage external control signal and Power fail signal ｝ output connector. 

- ⑦ N : AC input terminal N : Neutral line 

- ⑧ L : AC input terminal L : Live Line (Fuse in line) 

- ⑨ FG : Function Ground terminal (Frame ground) 

A-180 

・All specifications are subject to change without notice. 

**HWS 1500** 

**HWS** 

## **2 CN01, CN02 Connector pin configuration and Function** 

CN01, CN02 pin configuration and function are the same. 

They are connected to each other in this power supply unit. 

When the pin of CN01 side is shorted the same function pins of CN02 side are shorted. Please note that the function cannot be separately set with CN01 and CN02. 

||Pin No.<br>C|onfiguration|onfiguration|Function|
|---|---|---|---|---|
|CN01<br>1<br>3<br>5<br>7<br>9<br>11<br>2<br>4<br>6<br>8<br>10<br>12<br>1<br>3<br>5<br>7<br>9<br>11<br>2<br>4<br>6<br>8<br>10<br>12<br>CN02|1|＋V<br>Connec||ted to ＋Output terminal in this Power supply unit. (+V terminal can not supply load current.)|
||2|＋S<br>Remote<br>power s||sensing terminal for + output (For remote sensing function, which compensates for line drop between<br>upply terminals and load terminals. Connect to +V terminal when remote sensing function is unnecessary)|
||3|−V|Connec|ted to −Output terminal in this Power supply unit. (-V terminal can not supply load current)|
||4|−S<br>|Remote<br>power s|sensing terminal for - output (For remote sensing function, which compensates for line drop between<br>upply terminals and load terminals. Connect to -V terminal when remote sensing function is unnecessary)|
||5|PC|Current|balance terminal (For output current balancing in parallel operation.)|
||6|COM<br>Ground||for PC and PV signal.|
||7|PV<br>Output<br> <br>Connec||voltage external control terminal (For power supply output voltage control with an external voltage.<br>t it with the terminal REF when PV function is unnecessary. )|
||8|REF|Referen|ce Voltage terminal for Output voltage control (REF and PV are connected when shipping.)|
||9|CNT|Remote|ON/OFF control terminal (When the CNT is pulled to TTL low, the power supply turns on.)|
||10|TOG|Ground|for CNT and PF signal.|
||11|PF<br>Power f<br> <br>collecto||ail signal output terminal. (As the output voltage drops, FAN stops and AC input voltage down, open<br>r output, “Power Fail” signal will output “High”.)|
||12|TOG<br>Ground||for CNT and PF signal.|



## **CN01，CN02 are connected in this power supply unit as follows.** 

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CN01<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>CN02<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>Output voltage detection circuit<br>Output current signal circuit<br>Reference voltage<br>generation circuit<br>Output ON/OFF Control circuit<br>Power fail signal generation circuit<br>**----- End of picture text -----**<br>


※Output ON/OFF control circuit and the Power fail signal circuit are insulated with other circuits in the power supply. (Insulating voltage AC100V) 

## **3 Basic Connection(Local sensing)** 

① Connect “+S” terminal to “+V” terminal and “-S” terminal to 

“-V” terminal with sensing wires. 

- ② Connect “CNT” terminal to “TOG” terminal with wire. 

- ③ Connect “PV” terminal to “REF” terminal with wire. 

- ※ Please use attachment connector for each connection. 

- ※ In the following cases, the output is shut down. When CNT and TOG is opened. 

- When PV and REF is opened. 

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**----- Start of picture text -----**<br>
M8 Bolts and nuts<br>for connecting to<br>the load line.<br>Load (These are not attached<br>to the product.）<br>Attached connector when<br>(JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8, 9－10<br>Attached connector when shipping<br>Red Black Brown Yellow<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>Twist wire<br>**----- End of picture text -----**<br>


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Connector :<br>(JST) S12B-PHDSS<br>Attached connector when<br>shipping<br>・Housing :<br>(JST) PHDR-12VS<br>・Contact :<br>(JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8, 9－10<br>are shorted.<br>**----- End of picture text -----**<br>


## Attached connector when shipping 

## **4 Remote sensing required** 

① Connect “+S” terminal to “+” terminal of load with sensing wire 

② Connect “-S” terminal to “-” terminal of load with sensing wires. 

- ③ Connect “CNT” terminal to “TOG” terminal with wire. 

- ④ Connect “PV” terminal to “REF” terminal with wire. 

- ※ The accuracy of the output voltage will deteriorate when the sensing terminals are opened. 

- ※ In the following cases, the output is shut down. When CNT and TOG is opened. When PV and REF is opened. 

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**----- Start of picture text -----**<br>
M8 Bolts and nuts<br>for connecting to<br>the load line.<br>Load (These are not attached<br>Connector : to the product.）<br>(JST) S12B-PHDSS<br>Remove standard attached<br>connector, and use the harness<br>made by the customer.<br>・Housing :<br>(JST) PHDR-12VS<br>・Contact :<br>(JST) SPHD-001T-P0.5<br>2－”+” of load, 4－”-” of load<br>should be connected.<br>7－8, 9－10：should be shorted<br>＊Please use wire for contact<br>and crimping tool specified by<br>maker.<br>**----- End of picture text -----**<br>


## Connecting circuit with CN01 or CN02 connector 

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**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>“＋”of load<br>**----- End of picture text -----**<br>


“－”of load 

A-181 

・All specifications are subject to change without notice. 

## **HWS 1500** 

## **5 Remote ON/OFF control required** 

① Remove standard attached connector, and use the harness made by the customer and connect external signal to between CNT and TOG terminal. 

## **6 PF signal output required** 

① PF signal is an open collector output, therefore 

PF signal outputs is shown in circuit below. ② “TOG” terminal is ground for “PF” terminal. 

② “TOG” terminal is ground for “CNT” terminal. 

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**----- Start of picture text -----**<br>
HWS<br>**----- End of picture text -----**<br>


In case this function is not used, please short between CNT and TOG terminal. 

**==> picture [171 x 187] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for connecting<br>to the load line<br>Load (These are not attached to the<br>product.）<br>Connector : (JST) S12B-PHDSS<br>Remove standard attached connector, and use the harness made by<br>the customer.<br>・Housing : (JST) PHDR-12VS<br>・Contact : (JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8：should be shorted<br>9：CNT<br> Should be connected to ON/OFF control signal.<br>10：TOG<br> Should be connected to Signal Ground.<br>＊Please use wire for contact and crimping tool specified by maker.<br>**----- End of picture text -----**<br>


- Connecting circuit with CN01 or CN02 connector 

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**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
ON<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
M8 Bolts and nuts for connecting<br>to the load line<br>Load (These are not attached to the<br>product.）<br>Connector : (JST) S12B-PHDSS<br>Remove standard attached connector, and use the harness made<br>by the customer.<br>・Housing : (JST) PHDR-12VS<br>・Contact : (JST) SPHD-001T-P0.5<br>1－2, 3－4, 7－8, 9－10：should be shorted.<br>11：PF<br>  Should be connected to PF signal output<br>12：TOG<br>  Should be connected to Signal Ground.<br>＊Please use wire for contact and crimping tool specified by maker.<br>**----- End of picture text -----**<br>


- Connecting circuit with CN01 or CN02 connector 

**==> picture [162 x 58] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>PF signal output<br>To signal ground<br>**----- End of picture text -----**<br>


## 2. Functions and Precautions 

## **1 Input Voltage Range** 

Input voltage range is single phase 85−265VAC (47− 63Hz). Input voltage, which is out of specification, may cause unit damage. Rated input voltage range fix during safety standard application is from100V to 240VAC (50/60Hz). 

While applying input voltage from 85VAC to 90VAC, output load current derating is required. 

## **2 Output Voltage Range** 

Output voltage is set to the rated value at shipping. V.ADJ trimmer on the front panel side is use to adjust the output voltage within the range specified. Output voltage trimming range is within -20% − +20% of the rated output voltage (48V Output Model: -20% − +10%). Turn the trimmer clockwise to increase output voltage. Take note when the output voltage is increased excessively over voltage protection (OVP) function may trigger and output voltage will shut down. 

Use the output power of the power supply below the rated output power value when you raise the output voltage. 

## **3 Over Voltage Protection (OVP)** 

The OVP function (Inverter shut down method, manual reset type) is provided. OVP function operates within 125-145% of the rated DC output voltage value (36V type: 125-138% , 48V type: 115-135% ), and the output will be shut down when OVP function triggers. When OVP function operates, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal shall be input for recovery of the output. OVP value is fixed and can not be adjusted. 

## **4 Over Current Protection (OCP)** 

The OCP function (Constant current limiting, Time delay shutdown type) is provided. OCP function operates when the output current exceeds 105% of maximum DC output current specification and the over current or short circuit 

condition continues 5-second or more, the output will be shut down. When the OCP is triggered, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. The OCP setting is fixed and not to be adjusted externally. 

## **5 Over Temperature Protection (OTP)** 

Over temperature protection function (manual reset type) is provided. When ambient or internal temperature rises abnormally, OTP will shut down the output. When OTP is triggered, input power is cut off and allow sufficient cooling to reset the OTP function. Then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

## **6 Low Output Detection Circuit (PF)** 

Low output voltage detection circuit is provided. Power Fail signal (PF signal) will output when output voltage decrease by either the drop or brown out of the input voltage or OCP, OVP and OTP function operation. PF signal will turn “High” level to indicate the abnormal status of the power supply when the output voltage decrease to 80 % of the output voltage setting value. The PF signal circuit is insulated from the power supply input and output circuit and it is an open collector. TOG terminal is ground for PF terminal. 

When the Built-in Fan Motor of this power supply unit stops, PF signal will turn to “H” and the output power will shut down. The Built-in Fan Motor is a component with lifetime. We recommend a periodic replacement. Please contact our sales office. Replacement is at customer’s expenses. 

**==> picture [44 x 37] intentionally omitted <==**

**==> picture [60 x 27] intentionally omitted <==**

A-182 

・All specifications are subject to change without notice. 

**HWS 1500** 

**HWS** 

## **7 Remote Sensing (+S, -S terminal)** 

Remote sensing function is provided to compensate for voltage drop across the wiring from the power supply output terminals to the load input terminals. Connect “+S” terminal to “+” terminal of the load and “-S” terminal to “-” terminal of the load with sensing wires. The total line voltage drop (+ side line and - side line) shall be less than 0.3V. In case that sensing line is too long, it is necessary to put an electrolytic capacitor across the load terminals. Please take note that the electrolytic capacitor has generation of heat etc. done by the ripple current depending on connected load. Therefore, the electrolytic capacitor must have a ripple current allowance higher then the output ripple current. If CN01 (or CN02) is in use, terminal +S, -S for CN02 (or CN01) must be in open condition. 

**==> picture [119 x 68] intentionally omitted <==**

**----- Start of picture text -----**<br>
+S<br>+ +<br>+<br>- -<br>-S<br>**----- End of picture text -----**<br>


When the function of remote sensing is not in used, connect +S terminal to +V terminal, and –S terminal to –V terminal by the attachment connector. 

If remote sensing terminals are opened, the stability and the accuracy of the output deteriorate. Therefore, terminal 

+S, -S must be connected. 

## **8 Remote ON/OFF Control** 

Remote ON/OFF control is provided. Output can be remotely switch ON and OFF by using CNT terminal and TOG terminal even though input is connected. The output is turned to ON when TOG and CNT terminals are shorted and output is turned to OFF when these terminals are opened. When the function is not used, connect TOG and CNT terminals with short piece. The standards for this function are as follows. “TOG” terminal is ground for “CNT” terminal. 

**==> picture [95 x 51] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sink current：3.5mA<br>CNT<br>Relay<br>Transistor<br>TTL,<br>TOG<br>and etc.<br>**----- End of picture text -----**<br>


## The Mode of control 

|TOG<br>The Mode of control|TTL,<br>and etc.||
|---|---|---|
|CNT Level for TOG Terminal|Output|Built-in Fan Motor|
|Short or L（0－0.8V）|ON|Rotate|
|Open or H（2.4－12V）|OFF|Stop|



- 1） TTL compatible. The maximum input voltage to CNT terminal is 12V, and the maximum allowable reverse voltage is -1V. The sink current of CNT terminal is 3.5mA. 

- 2） Output ON/OFF control can be enable by a switch, relay or a transistor ON/OFF. When CNT terminal－TOG terminal is shorted power supply is turn ON, and when CNT terminal－TOG terminal is opened power supply is turn OFF. 

- 3） Remote ON/OFF control circuit is isolated from the input and output circuit of power supply. It is possible to use it regardless of the positive and negative of the power supply output. 

Please be aware that if CNT terminal and TOG terminal is short and input voltage is gradually increase, this will trigger the low output voltage detector protection circuit and will result to output voltage shut down. 

When the low output voltage detector protection circuit is triggered, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

## **9 Output Ripple & Noise** 

Maximum ripple & noise value in specifications is mea- 

sured according to measurement circuit specified by JEITARC9131A. When Load lines are longer, ripple & noise becomes larger. In this case, electrolytic capacitor, film capacitor, etc. might be necessary to use across the load terminal. The output ripple & noise cannot be measured accurately if the probe ground lead of oscilloscope is too long. 

**==> picture [174 x 85] intentionally omitted <==**

**----- Start of picture text -----**<br>
150mm<br>+S<br>Power Supply Unit+- C2+ C3 Load<br>-S Co-axial cable Oscillo-<br>1.5m   50Ω R Scope<br>R:50Ω C1 Bandwidth<br>C1:4700pF 100MHz<br>C2:22μF<br>C3:0.47μF<br>**----- End of picture text -----**<br>


## **� Series Operation** 

For series operation, either method (A) or (B) is possible. There might be a step in the rise waveform during series operation. 

**==> picture [172 x 84] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method（A） Method（B）<br>+ + +<br>Power Power<br>supply - supply - -Load<br>Load<br>+ + +<br>Power Power<br>supply - supply - -Load<br>（Note1）<br>**----- End of picture text -----**<br>


（Note1） 

Please connect a diode for by-pass when using method (A) of the series operation. 

Please use the diode with rated forward current is equal or more than load current and that the rated maximum reverse voltage is higher than output voltage for each power supply. 

## **� Parallel Operation** 

Current balancing function is provided. Either of operations mode (A) or (B) is possible. 

- （A）To Increase the Output Current 

   - Current balancing function activates by connecting PC-to-PC terminal and COM-to-COM terminal, and output current of each power supply is equivalently supplied to load. Wires to PC terminals shall be as short as possible, same length and twisted. 

   - There is a possibility that output could be unstable caused by external noise. For this case, disconnect COM terminal and connect -S terminal from parallel power supply to a single point on the load. Please refer connection Method (A)-2. 

   - 1） Adjust the output voltage of each power supply to be same value within 1% or 100mV, whichever is smaller. 

   - 2） Use same length and type of wires for all load lines. 

   - 3）  Maximum value of output current in parallel is up to 80% of all paralleled models.The purpose of the current balancing function is the static powerup. Therefore the output voltage might decrease according to the condition of dynamic load. There might be a step in the rise waveform during parallel operation. 

   - 4） Up to 5 units can be connected in parallel. 

- （B）To Use as a Backup Power Supply 

   - 1） Set power supply output voltage higher by the forward voltage drop of diode. 

   - 2） Adjust the output voltage of each power supply to be same value. 

   - 3） Use within the specifications for output voltage and output power. 

- （C）In the case of parallel connections, it is possible to control the output voltage by adjusting the volume from only 1 unit. Choose 1 unit that would act as the master 

A-183 

・All specifications are subject to change without notice. 

## **HWS 1500** 

**HWS** 

and this unit's volume will determine the output voltage. The volume on each slave units must be turned clockwise to maximum position. Then adjust the master volume to set the output voltage. Connection for this application is shown in figure (c). 

**==> picture [161 x 159] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method（A）-1 Method（A）-2<br>PowerSupply +S+- Load PowerSupply+S+- Load<br>PC COM-S PC COM -S<br>PC COM+S PC COM+S<br>PowerSupply -+S- PowerSupply -S+-<br>Method（B） Method（C）<br>Output Power(W)=(Vo+Vf)×Io<br>PowerSupply+S-+S- Vo+VfVf →Io Vo Load PowerSupplyREF PV COM +PC- +-Load<br>PowerSupply+S-+S- Vo+VfVf REF PV COM +PC-<br>**----- End of picture text -----**<br>


## **� Isolation Test** 

Isolation resistance between output and FG (chassis) shall be more than 100MΩ at 500VDC and between output and CNT･PF shall be more than 10MΩ at 100VDC. For safety operation, voltage setting of DC isolation tester must be done before the test. Ensure that it is fully discharged after the test. 

**==> picture [221 x 79] intentionally omitted <==**

**----- Start of picture text -----**<br>
CNT PF CNT PF<br>Output － FG (chassis) PC TOG PC TOG<br>500VDC 100MΩ or more   +S +S<br>+ +<br>Isolation tester - Isolation tester -<br>-S -S<br>Output － CNT･PF<br>FG  100VDC 10MΩ or more FG<br>AC（L） AC（L）<br>AC（N） AC（N）<br>**----- End of picture text -----**<br>


## **� Withstand Voltage** 

This series is designed to withstand 3.0kVAC between input and output, 2.0kVAC between input and FG (chassis), 500VAC between output and FG (chassis), and 100VAC between output and CNT･PF terminal each for 1 minute. When testing withstand voltage, set current limit of withstand voltage test e ~~q~~ uipment at 20mA. 

(Output-FG (chassis) : 300mA, Output- CNT･PF : 100mA). The applied voltage must be gradually increased from zero to testing value and then gradually decreased for shut down. When timer is used, the power supply may be damaged by high impulse voltage at timer switch on and off. Connect input and output as follows. If output is left open during test, output voltage might appear momentarily. This product have monolithic ceramic capacitor in secondary circuit to frame ground. 

Some of the withstand voltage tester may generate high voltage at the matching with monolithic ceramic capacitor and may cause the unit damage. 

So, please check the waveform of test voltage. 

**==> picture [195 x 145] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input － FG (chassis) (solid line)2kVAC 1min. (20mA) PC CNTTOG PF<br>Input － Output (dotted line) +S<br>3kVAC 1min. (20mA) +<br>-<br>-S<br>Voltage TesterWithstand FG<br>AC（L）<br>AC（N）<br>CNT PF CNT PF<br>Output － FG (chassis)500VAC 1min. (300mA) +PCS TOG Withstand +PCS TOG<br>+ Voltage Tester +<br>- -<br>-S -S<br>Withstand<br>Voltage Tester Output － CNT･PF<br>FG 100VAC 1min. (100mA) FG<br>AC（L） AC（L）<br>AC（N） AC（N）<br>**----- End of picture text -----**<br>


## **� Output Voltage External Control (PV)** 

（A）Control by External Voltage 

Output voltage external control function is provided. Output voltage can be varied by applying an external voltage (1－6V) to “PV” terminal and “COM” terminal. Note if an external voltage is not applied, there will be no output. Please consider the following characteristics below when operating the unit. 

Connection Method 

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**----- Start of picture text -----**<br>
+S<br>+<br>Power - Load<br>Supply -S<br>PV 1－6V<br>COM<br>Output Voltage Linearity<br>120% 12－36Vmodel<br>110% 48Vmodel<br>Nominal<br>Output<br>Voltage<br>20%<br>0 1V 5V 5.5V 6V<br>PV Voltage (Nominal Input Voltage)<br>Output(V)<br>**----- End of picture text -----**<br>


Note:Only as for the type of 48V output, the output voltage is used from 20% to 110% at the PV voltage is from 1V to 5.5V 

**==> picture [162 x 89] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output Voltage Derating<br>120% 12－36Vmodel<br>110% 48Vmodel<br>Nominal<br>Output<br>Voltage<br>Operating Area<br>20%<br>0 83%90% 100%<br>Load Current<br>Output(V)<br>**----- End of picture text -----**<br>


Note:Only as for the type of 48V output, the maximum output voltage is used up to 110% at 90% load current. 

   - ＊Output voltage usage below 20% is not a guaranteed. There is a possibility that it cannot be use with certain product. Please conduct a thorough evaluation test before using it. 

- （B）Control by External Variable Resistor 

   - “PV” terminal and “COM” terminal usage is the same as explained in section ｢control by external voltage｣. But in this method voltage for control is supplied through REF terminal. Variable resistor is connected between REF terminal and COM terminal and the middle point of variable resistor is connected to PV terminal. Please use the output voltage within 20% - 120% of rated output voltage value (48V output type : 20% - 110% ). Wires for control lines must be as short as possible and use twisted wire or shield wire. In addition, maximum variable voltage when control by external variable resistor is rated output voltage (100% ). When output voltage must be externally control to 120% of rated output voltage (110% for 48V output type), please follow the following procedure. 

   - （1） PV terminal and REF terminal is short by using standard connector supplied. 

   - （2） Set the power supply output voltage to maximum value of the output voltage variable range mentioned in specification standard by adjusting V.ADJ volume at the front panel. 

   - （3）Remove standard connector after input is cut off. 

   - （4） Connect external variable resistor (50kΩ) between REF terminal and COM terminal. Then connect middle point of external variable resistor to PV terminal. (Sensing current is 1.4mA) 

A-184 

・All specifications are subject to change without notice. 

**HWS 1500** 

**HWS** 

Reduce peak current value according to output derating as section 4-1. 

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**----- Start of picture text -----**<br>
+S<br>+<br>Powersupply -S- Load<br>Sensing current：1.4mA<br>REF<br>PV VR1 Variable resistor 50kΩ<br>COM<br>Connection method<br>**----- End of picture text -----**<br>


When output voltage is over rated value, please make sure that maximum output power is below rated value. Moreover, when output voltage is below rated value, please make sure that maximum output current is below rated value. 

Please consider the following characteristic during usage. 

**==> picture [195 x 115] intentionally omitted <==**

**----- Start of picture text -----**<br>
120%<br>Rated output :    voltage 100%<br>80% 120% of maximum setting value<br>Output  60%<br>voltage 110% of maximum setting value<br>40%<br>20%<br>0%<br>0 10000 20000 30000 40000 50000<br>Variable resistor value for REF-PV（VR1）［Ω］<br>＊ Output voltage usage below 20% is not a guaranteed. There is a<br>possibility that it cannot be use with certain product. Please<br>conduct a thorough evaluation test before using it.<br>**----- End of picture text -----**<br>


The output is shut down by protection circuit when rated current and continuous peak output time (τ) exceeds rated value during usage. 

When protection circuit is activated, input is temporarily cut off for a few minutes and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

**==> picture [188 x 225] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input voltage range：    AC180V - 265V<br>Continuous Peak output time.（ ）：  Within 10 seconds<br>Peak output current（ ）：  Within the rated peak output current<br>Duty：up to 35％<br>Duty =   x  10 0（%）<br>Condition 1<br>Model Irms max<br>HWS1500-24 62.1A<br>HWS1500-36 41.4A<br>Irms max<br>Condition 2<br>1<br>a<br>Irms max<br>1  ： Peak output current（A）<br>Irms    ： Effective current（A）<br>： Peak current pulse width（sec）<br>： cycle（sec）<br>**----- End of picture text -----**<br>


## **� Output Peak Current** 

For model HWS1500-24 and HWS1500-36, please meet the following condition. 

## 3. Mounting Directions 

## **1 Output Derating** 

Mounting directions are as follows. 

Standard mounting method is (A). Methods (B), (C) and (D) are also possible. 

Mounting methods besides (A), (B), (C) and (D) (example: (E) and (F)) are inhibit. 

**==> picture [479 x 241] intentionally omitted <==**

**----- Start of picture text -----**<br>
（A） Standard （B） （C） HWS1500 Output Derating<br>Mounting<br>LOAD(%)<br>120 Mounting A, B, C, D Ta(℃) A B C D<br>100<br>80 -10 － +35 100 100 100 100<br>60 （D） （E） Inhibit （F） Inhibit 45 100 100 100 100<br>40 50 100 100 100 100<br>20 60 75 75 75 75<br>0<br>-10 0 10 20 30 40 50 60 70 70 50 50 50 50<br>Ambient Temperature (℃)<br>2 Mounting Method Caution<br>⑴  This Power supply unit is a forced air-cooling system with a  ⑹  The maximum allowable penetration of mounting screw is<br>built-in fan.  6mm.<br>⑵  This power supply has ventilating holes on the front and back  ⑺  Recommended torque for mounting screw (M4) is 1.27N・m.<br>panels.<br>More than50mm More than100mm<br>   Keep these areas freely more than 100mm from front side<br>and more than 50mm from rear side.<br>⑶  Please note that ventilation will be worsened in a dusty envi-<br>ronment.<br>⑷  Built-in fan is limited life part, which require periodic replace- （Top：HWS1500）<br>ment. (Replacement will be charge).<br>⑸  The ambient temperature of this power supply is less than<br>50mm from the center of a front side. （Rear） （Front）<br>Load (%)<br>Fan motor<br>**----- End of picture text -----**<br>


## **2 Mounting Method Caution** 

   - ⑹  The maximum allowable penetration of mounting screw is 6mm. 

- ⑴  This Power supply unit is a forced air-cooling system with a built-in fan. 

- ⑵  This power supply has ventilating holes on the front and back panels. 

- Keep these areas freely more than 100mm from front side and more than 50mm from rear side. 

- ⑶  Please note that ventilation will be worsened in a dusty environment. 

- ⑷  Built-in fan is limited life part, which require periodic replacement. (Replacement will be charge). 

- ⑸  The ambient temperature of this power supply is less than 50mm from the center of a front side. 

A-185 

・All specifications are subject to change without notice. 

**HWS 1500** 

## 4. Wiring Method 

- ⑴  The output load line and input line shall be separated and twisted to improve noise sensitivity. 

- ⑵  The sensing lines shall be twisted or shield wire and separated from the output lines. 

- ⑶  Use all lines as thick and short as possible to make lower impedance. Wires are to be twisted or use shield wire to improve noise sensitivity. 

- ⑷  Attaching a capacitor to the load terminals can eliminate noise. 

- ⑸  FG terminal of this power supply is functional earthing. 

- For safety purposes, connect protective earthing terminal to the mounting set ground terminal. 

- ⑹  Recommended torque for the terminal piece: 

Input terminal (M4 screw) : 1.27 N･m Output terminal (M8 Bolt & Nut) : 10.8N・m 

⑺  Recommended wiring 

**==> picture [196 x 92] intentionally omitted <==**

**----- Start of picture text -----**<br>
Circuit HWS1500<br>Protector Noise Filter<br>AC（L） AC（L） ＋<br>AC（L） AC（L） Load<br>AC（N） AC（N） －<br>AC（N） AC（N）<br>FG<br>Chassis of<br>the equipment<br>**----- End of picture text -----**<br>


Recommended circuit protector : AC250V30A Recommended noise filter : MXB1220 (DENSEI-LAMBDA) 

## 5. External Fuse Rating 

## **HWS** 

Refer to the following fuse rating when selecting the external fuses for input line. Surge current flows when line turns on. Use slow-blow fuse or time-lug fuse. Do not use fast-blow fuse. Fuse rating is specified by in-rush current value at line turn-on. Do not 

select the fuse according to input current (rms.) values under the actual load condition. 

HWS1500：30A 

## 6. Troubleshooting 

Before concluding that the unit is at fault, make the following checks. 

- ⑴  Check if the rated input voltage is apply. 

- ⑵  Check if the wiring of input and output is correct. 

- ⑶  Check if the I/O terminal connection is properly tighten by a regulated tightening torque. 

- ⑷  Check if the wire material is not too thin. 

- ⑸  Check if the output voltage control (V.ADJ) is properly adjusted. OVP might be trigged and output is cut off. 

- ⑹  Check if the wiring of “+S” and “-S” terminal is correct. 

- If in open condition, when input voltage is apply, OVP is trigged and output is cut off. Output display LED will turn on for a moment. 

- ⑺  If use function of the remote ON/OFF control, check if the remote ON/OFF control connector is not opened. 

- If in open condition, output is cut off. 

if fan stops. 

   - Fans are the limited life parts. 

   - This power supply has ventilating holes on the front and back panels. Check if there is any irregulars or dust, etc. 

   - ⑼  Is the main body of the power supply abnormally hot? 

   - Please turn on the input again after allowing the unit to cool down sufficiently. The output shut down by over temperature protection function. 

   - ⑽  Check if the output current and output power is not applied over specification. 

   - ⑾  Check if the input voltage wave is sinusoidal. If this power supply unit is connected to a UPS, input voltage wave might not be sinusoidal. An audible noise is emmited from the power supply unit. 

   - ⑿  Audible noise can be heard during Dynamic-Load operation. 

- ⑻  Check if the built-in fan is not stopped. Is fan stopped by something irregulars or dust, etc. 

- If fan stops, the PF signal is turn on. 

- Moreover, the output is intercepted with the protection circuit 

## 7. Warranty 

This product is warranted for a period of 5 years from the date of shipment. As for the breakdown under a normal use during free warrantee term, repair is at free of charge. However, the Built-in Fan Motor replacement is for a fee. Please contact your nearest sales office for replacement. The Fan-life has limitation. Therefore, periodic maintenance by replacing the life-expired fan is required. The following figure shows the life of fan. 

**==> picture [282 x 87] intentionally omitted <==**

**----- Start of picture text -----**<br>
10<br>7 Measuring point of fan exhaust temperature Measuring point<br>5<br>3 Air flow<br>2<br>P.S.<br>1 50mm<br>0 40 50 60 70 80 100<br>Fan exhaust temperature(℃)<br>Life expectancy  Fan exhaust temperature    45℃  45,000  hour<br>Fan exhaust temperature    80℃  11,000  hour<br>Life expectancy(years)<br>**----- End of picture text -----**<br>


Conditions of usage at the free of charge warrantee are as follows. 

- ⑴  Average operating temperature (ambient temperature of the power supply unit) is 40℃ 

- ⑵  Average load factor is 80% or less 

- ⑶  Installation method: Standard installation. However, the maximum rating is within the output derating. 

Following cases are not covered by warranty. 

- ⑴  Improper usage like dropping products, applying shock and defects from operation exceeding specification of the units. 

- ⑵  Defects resulting from natural disaster (fire, flood). 

- ⑶  Unauthorized modifications or repair by the buyers. 

- ⑷  Defects not cause by DENSEI LAMBDA. 

A-186 

・All specifications are subject to change without notice. 

**HWS 1500** 

**HWS** 

## 8. Option 

## **1 Fan unit for replacement** 

We have prepared an optional fan unit for replacement. 

|Name of fan unit for replacement|Applicable models|Appearance|Pin assignments|Price|
|---|---|---|---|---|
|1500-FAN-01|HWS1000<br>HWS1500<br>HWS1800T<br>(of standard<br>specifications)|風向|Housing = XHP-3(J.S.T.)<br>Contact = SXH-001T-P0.6(J.S.T.)<br>Length of fan harness = 65 ±10mm<br>Pin No.<br>Description<br>1<br>Power supply<br>2<br>Fanalarm<br>3<br>GND|Open|



Ask us for replacement of the fan. This will be a charged service. If you are replacing the fan by yourself, note the following. 

- *1. Be careful in handling the fan unit so as not to cause an impact by dropping it or hitting it, etc. 

- *2. Shut down the input before starting the replacement operation. 

- *3. Check that there are no loose parts in connectors or harness tucking, etc. 

- *4. Safety standards (UL, CE, etc.) are not applicable. 

A-187 

・All specifications are subject to change without notice. 

**HWS 1800T** 

## **HWS 1800T Series Instruction Manual** 

## **BEFORE USING THE POWER SUPPLY UNIT** 

Be sure to read the following precautions thoroughly before using this power supply unit. 

Pay attention to all warnings and cautions before using the unit. Incorrect usage could lead to an electrical shock, damage to the unit or a fire hazard. 

## **WARNING** 

   - Do not make unauthorized changes to power supply unit, otherwise you may have electric shock and void your warranty. 

   - Do not touch the internal components; they may have high voltage or high temperature. You may get electrical shock or burned. 

   - When the unit is operating, keep your hands and face away from it; an accident may injure you. 

- Do not use unit under unusual condition such as emission of 

- **HWS** smoke or abnormal smell and sound etc. It might cause fire and electric shock. 

   - In such case, please contact us; do not repair by yourself, as it is dangerous for the user. 

   - Do not drop or insert anything into unit. It might cause failure and fire, when using the unit under such condition. 

   - Do not operate these units at the condition of condensation. 

   - It may cause fire and electric shock. 

   - Power supplies with an output voltage of 48Vdc or less must be earthed in the end use equipment to maintain SELV. If the outputs are not earthed, they must be considered hazardous and must not be made user accessible. 

   - Power supplies with an output voltage of 60Vdc are considered to be non-SELV. As a result of this, the output must be guarded or a deflector fitted during installation to avoid a SERVICE ENGINEER making inadvertent contact with the output terminals, or dropping a tool onto them. The output of this product must not be connected to a SELV circuit. 

## **CAUTION** 

- This power supply is primarily designed and manufactured to use and enclose in other equipment. 

- This power supply unit has a built-in fan for air-cooling. Do not block air intake and exhaust. It might cause fire. 

- Input voltage, Output current, Output power, ambient temperature and ambient humidity should be used within specifications, otherwise the unit will be damaged. 

- The unit might be broken down by accident or unexpected situation. For application equipment, which requires very high reliability (nuclear related equipment, traffic control equipment, medical equipment, etc.), please provide fail safety function in the equipment. 

- Do not make an improper wiring to input and output terminals. It may cause damage. 

- Do not use in environment such as strong electromagnetic field, erosive gas etc, or any environment where conductive foreign substance may enter. 

- Do not operate and store this unit at the condition of condensation. In such case, waterproof treatment is necessary. 

- Do not operate this unit after it falls down. 

- The output voltage of this power supply unit is considered to be a hazardous energy level (The voltage is 2V or more and the electric power is 240VA or more), prevention from direct contact with voltage output is highly necessary. While installing or servicing this power supply unit, avoid dropping tools by mistake or direct contact with voltage output. This might cause an electrical shock. 

- While repairing this power supply unit, the AC input power must be switch off and the I/O terminal voltage should be less than the safety level. 

## 1. Terminal Explanation 

Please pay extra attention to the wiring. Incorrect connection will damage the power supply. 

- When connecting input and output wiring, input AC-Line should be off. 

- Input wiring and output wiring shall be separated, otherwise noise susceptibility of power supply unit will be weak. 

- The protective earth (PE) must be connected to the instrument chassis and the chassis of this power supply unit. 

- Remote sensing lines shall be twisted or use the shielded wire. 

- Remote ON/OFF control lines shall be twisted or use the shielded wire. 

## **1 Front Panel Explanation** 

HWS1800T Front Panel 

**==> picture [215 x 124] intentionally omitted <==**

**----- Start of picture text -----**<br>
1  2<br>3<br>NAME PLATE<br>4<br>7<br>5  8<br>6  FG L3 L2 L1<br>**----- End of picture text -----**<br>


- ① ＋ : ＋ Output terminal 

- ② － : － Output terminal 

- ③ ON : Output (Power On) indication green LED (The indicator turns on when the power supply output is in normal operating condition.) 

- ④ V.ADJ : Output voltage adjust trimmer 

   - (The output voltage rises when trimmer is turned clockwise.) 

- ⑤ CN01 

   - :    Remote sensing, ON/OFF control signal, Current balance signal,:    Output voltage external control signal and Power fail signal output ｝ connector. 

- ⑥ CN02 

- ⑦ FG : Function Ground terminal (Frame ground) 

- ⑧ L1,L2,L3  : Three phase AC input terminal (Fuse in each line) 

A-188 

・All specifications are subject to change without notice. 

**HWS 1800T** 

**HWS** 

## **2 CN01, CN02 Connector pin configuration and function** 

CN01, CN02 pin configuration and function are the same. 

They are connected to each other in this power supply unit. When the pin of CN01 side is shorted the same function pins of CN02 side are shorted. Please note that the function cannot be separately set with CN01 and CN02. 

||Pin<br>No.|Confguration|Function|
|---|---|---|---|
|1<br>3<br>5<br>7<br>9<br>11<br>4<br>2<br>6<br>8<br>10<br>12<br>1<br>3<br>5<br>7<br>9<br>11<br>4<br>2<br>6<br>8<br>10<br>12<br>CN01<br>CN02|1|＋V|Connected to +Output terminal in this Power supply unit.<br>(+V terminal can not supply load current.)|
||2|＋S|Remote sensing terminal for + output<br>(For remote sensing function, which compensates for line drop between power supply<br>terminals and load terminals. Connect to +V terminal when remote sensing function is<br>unnecessary)|
||3|－V|Connected to -Output terminal in this Power supply unit.<br>(-V terminal can not supply load current)|
||4|－S|Remote sensing terminal for - output<br>(For remote sensing function, which compensates for line drop between power supply<br>terminals and load terminals. Connect to -V terminal when remote sensing function is<br>unnecessary)|
||5|PC|Current balance terminal<br>(For output current balancing in parallel operation.)|
||6|COM|Ground for PC and PV signal.|
||7|PV|Output voltage external control terminal<br>(For power supply output voltage control with an external voltage. Connect it with the<br>terminal REF when PV function is unnecessary. )|
||8|REF|Reference Voltage terminal for Output voltage control<br>(REF and PV are connected when shipping.)|
||9|CNT|Remote ON/OFF control terminal<br>(When the CNT is pulled to TTL low, the power supply turns on.)|
||10|TOG|Ground for CNT and PF signal.|
||11|PF|Power fail signal output terminal.<br>(As the output voltage drops, FAN stops and AC input voltage down, open collector<br>output,“Power Fail”signal will output“High”.)|
||12|TOG|Ground for CNT and PF signal.|



## CN01、CN02 are connected in this power supply unit as follows. 

**==> picture [376 x 288] intentionally omitted <==**

**----- Start of picture text -----**<br>
CN01<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>CN02<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>Output voltage<br>detection circuit<br>Output current<br>signal circuit<br>Reference voltage<br>generation circuit<br>Output ON/OFF<br>Control circuit<br>Power fail signal<br>generation circuit<br>※Output ON/OFF control circuit and the Power fail signal circuit are<br>insulated with other circuits in the power supply.<br> (Insulating voltage AC100V)<br>**----- End of picture text -----**<br>


A-189 

・All specifications are subject to change without notice. 

**HWS 1800T** 

**HWS** 

## **3 Basic Connection (Local sensing)** 

## ・3-7V model 

- ① Connect“+S” terminal to “+” terminal of output and“-S” terminal to“-” terminal of output with sensing wires. 

- ② Connect “CNT” terminal to “TOG” terminal with wire. 

- ③ Connect “PV” terminal to “REF” terminal with wire. 

- ※ Please use attachment connector for each connection. 

- ※ In the following cases, the output is shut down. 

- When C ~~N~~ T and T ~~OG~~ is opened. 

- When PV and REF is opened. 

**==> picture [196 x 184] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for connecting<br>to the load line.<br>＋ Load － (These are not attached to the<br>product.)<br>NAME PLATE<br>FG L3 L2 L1<br>**----- End of picture text -----**<br>


Connector : (JST) S12B-PHDSS Conn Attached connector when shipping Remo ･Housing : (JST) PHDR-12VS custo ･Contact : (JST) SPHD-001T-P0.5 ･Hou 2－”+”of output, 4－“-”of output are connected. ･Con 7－8, 9－10 are shorted 2－”+ 7－8 * Plea 

## Attached connector when shipping 

**==> picture [194 x 99] intentionally omitted <==**

**----- Start of picture text -----**<br>
Red Black Brown Yellow<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>“＋”of output<br>“－” of output<br>**----- End of picture text -----**<br>


## ・12-60V model 

- ① Connect“+S” terminal to “+V” terminal and “-S” terminal to 

- “-V” terminal with sensing wires. 

- ② Connect “CNT” terminal to “TOG” terminal with wire. 

- ③ Connect “PV” terminal to “REF” terminal with wire. 

- ※ Please use attachment connector for each connection. 

- ※ In the following cases, the output is shut down. 

- When CNT and TOG is opened. 

- When PV and REF is opened. 

**==> picture [226 x 322] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for connecting<br>to the load line.<br>＋ Loa d － (These are not attached to the<br>product.)<br>NAME PLATE<br>FG L3 L2 L1<br>Connector : (JST) S12B-PHDSS Conn<br>Attache d  connector when shipping Remo<br>･Housing : (JST) PHDR-12VS custo<br>･Contact : (JST) SPHD-001T-P0.5 ･Hou<br>1－2, 3－4, 7－8, 9－10 are shorted. ･Con<br>2－”<br>7－8<br>* Ple<br>Attached connector when shipping<br>Red Black Brown Yellow<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>Twist wire<br>**----- End of picture text -----**<br>


## Attached connector when shipping 

## **4 Remote sensing required** 

- ① Connect “+S” terminal to “+” terminal of load with sensing wire 

- ② Connect “-S” terminal to “-” terminal of load with sensing wires. 

- ~~③ Connect~~ “ ~~CNT~~ ” ~~terminal to~~ “ ~~TOG~~ ” ~~termi~~ nal with wire. 

- ④ Connect “PV” terminal to “REF” terminal with wire. 

- ※ The accuracy of the output voltage will deteriorate when the ~~sensing terminals are opened.~~ 

- ~~※ In the following cases, the output is~~ shut down. ~~When CNT and TOG is opened.~~ 

- When PV and REF is opened. 

**==> picture [239 x 181] intentionally omitted <==**

**----- Start of picture text -----**<br>
ting  M8 Bolts and nuts for connecting<br>to the load line.<br>e  ＋ Load ー (These are not attached to the<br>product.)<br>NAME PLATE<br>FG L3 L2 L1<br>**----- End of picture text -----**<br>


Connector : (JST) S12B-PHDSS 

Remove standard attached connector, and use the harness made by the customer. ･Housing : (JST) PHDR-12VS ･Contact : (JST) SPHD-001T-P0.5 2－”+”of load, 4－“-”of load should be connected. 

**==> picture [94 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
7－8, 9－10：should be shorted<br>**----- End of picture text -----**<br>


A-190 

・All specifications are subject to change without notice. 

**HWS 1800T** 

**HWS** 

Connecting circui ~~t~~ with C ~~N0~~ 1 or CN02 connector 

**==> picture [191 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>“＋”of load<br>“ －” of load<br>**----- End of picture text -----**<br>


## **5 Remote ON/OFF control required** 

- ① Remove standard attached connector, and use the harness made by the customer and connect external signal to between CNT and TOG terminal. 

- ② “TOG” terminal is ground for “CNT” terminal. In case this function is not used, please short between CNT and TOG terminal. 

**==> picture [196 x 184] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for connecting<br>to the load line.<br>＋ Load － (These are not attached to the<br>product.)<br>NAME PLATE<br>FG L3 L2 L1<br>**----- End of picture text -----**<br>


Conn ~~ector : (JST) S12B-PHDSS~~ 

Remo ~~ve standard attached connector, and use the harness made~~ by the customer. 

･Housing : (JST) PHDR-12VS ･Contact : (JST) SPHD-001T-P0.5 

(3-7V model) 2 ~~－~~ ” ~~+~~ ” ~~of output, 4－~~ ” ~~-~~ ” ~~of output：should be connected~~ (12-60V model) 1－2, 3－4：should be shorted 

7－8：should b ~~e shorted~~ 

9 : CNT 

Should be connected to ON/OFF control signal. 10 : TOG Should be connected to Signal Ground. * Please use wire for contact and crimping tool spectfed by maker. 

## Connecting ~~circuit with CN01 or CN02 connector~~ 

**==> picture [187 x 181] intentionally omitted <==**

**----- Start of picture text -----**<br>
(3-7V model)<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>“ ＋ ” of output<br>“－” of output<br>ON<br>(12-60V model)<br>1 3 5 7 9 11<br>2 4 6 8 10 12<br>ON<br>**----- End of picture text -----**<br>


## **6 PF signal output required** 

- ① PF signal is an open collector output, therefore PF signal outputs is shown in circuit below. 

- ② “TOG” terminal is ground for “PF” terminal. 

**==> picture [197 x 183] intentionally omitted <==**

**----- Start of picture text -----**<br>
M8 Bolts and nuts for connecting<br>to the load line.<br>＋ Load ー (These are not attached to the<br>product.)<br>NAME PLATE<br>FG L3 L2 L1<br>**----- End of picture text -----**<br>


C ~~onn~~ ector : (J ~~S~~ T) S12B-PHDSS 

Remove standard attached connector, and use the harness made by the customer. ･Housing : (JST) PHDR-12VS ･Contact : (JST) SPHD-001T-P0.5 

(3-7V model) 2－”+”of output, 4－”-”of output：should be connected (12-60V mod ~~el)~~ 1－2, 3－4：should be shorted 

7－8 , 9－10：should be shorted. 

11 : PF Should be connected to PF signal output 12 : TOG Should be connected to Signal Ground. 

## Connecting circuit with CN01 or CN02 connector 

## (3-7V model) 

**==> picture [187 x 144] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>“＋”of output<br>“－”  of output<br>PF signal output<br>To signal ground<br>**----- End of picture text -----**<br>


## ~~(12-60V model)~~ 

**==> picture [187 x 115] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 3 5 7 9 11<br>2 4 6 8 10 12<br>PF signal output<br>To signal ground<br>**----- End of picture text -----**<br>


A-191 

・All specifications are subject to change without notice. 

**HWS 1800T** 

## 2. Functions and Precautions 

## **1 Input Voltage Range** 

Input voltage range is three phase 170－265VAC(47－63Hz). Input voltage, which is out of specification, may cause unit damage. Rated input voltage range fix during safety standard application is from 200V to 240VAC (50/60Hz). 

## **2 Output Voltage Range** 

Output voltage is set to the rated value at shipping. V.ADJ trimmer on the front panel side is use to adjust the output voltage within the range specified. Output voltage trimming range is within -20% － +20% of the rated output voltage (48V, 60V model: -20% － +10% ). Turn the trimmer clockwise to increase output voltage. Take note when the output voltage is increased excessively over voltage protection (OVP) **HWS** function may trigger and output voltage will shut down. 

Use the output power of the power supply below the rated output power value when you raise the output voltage. 

## **3 Over Voltage Protection (OVP)** 

The OVP function (Inverter shut down method, manual reset type) is provided. OVP function operates within 125-145% of the rated DC output voltage value (3-7V model: 125-140%, 36V model: 125-138%, 48V, 60V model: 115-125%), and the output will be shut down when OVP function triggers. When OVP function operates, the input power is cut off for a few minutes, and then power is re-input or remote ON/ OFF control signal shall be input for recovery of the output. OVP value is fixed and can not be adjusted. 

## **4 Over Current Protection (OCP)** 

The OCP function (Constant current limiting, Time delay shutdown type) is provided. OCP function operates when the output current exceeds 105% of maximum DC output current specification and the over current or short circuit condition continues 5-second or more, the output will be shut down. When the OCP is triggered, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. The OCP setting is fixed and not to be adjusted externally. 

of the power supply when the output voltage decrease to 80% of the output voltage setting value. However, there is a possibility that PF signal may not output during parallel operation. The PF signal circuit is insulated from the power supply input and output circuit and it is an open collector. TOG terminal is ground for PF terminal. 

When the Built-in Fan Motor of this power supply unit stops, PF signal will turn to “H” and the output power will shut down. The Built-in Fan Motor is a component with lifetime. We recommend a periodic replacement. Please contact our sales office. Replacement is at customer’s expenses. 

**==> picture [81 x 44] intentionally omitted <==**

**----- Start of picture text -----**<br>
PF<br>Vce max：30V<br>Ic max：20mA<br>TOG<br>**----- End of picture text -----**<br>


**==> picture [47 x 39] intentionally omitted <==**

## **7 Remote Sensing (+S, -S terminal)** 

Remote sensing function is provided to compensate for voltage drop across the wiring from the power supply output terminals to the load input terminals. Connect “+S” terminal to “+” terminal of the load and “-S” terminal to “-” terminal of the load with sensing wires. The total line voltage drop (+ side line and - side line) shall be less than 0.3V. In case that sensing line is too long, it is necessary to put an electrolytic capacitor across the load terminals. 

Please take note that the electrolytic capacitor has generation of heat etc. done by the ripple current depending on connected load. Therefore, the electrolytic capacitor must have a ripple current allowance higher then the output ripple current. If CN01 (or CN02) is in use, terminal +S, -S for CN02 (or CN01) must be in open condition. 

**==> picture [142 x 70] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S<br>＋ ＋<br>ー ー<br>ーS<br>**----- End of picture text -----**<br>


When the function of remote sensing is not in used, connect +S terminal to +V terminal, and –S terminal to –V terminal by the attachment connector. 

If remote sensing terminals are opened, the stability and the accuracy of the output deteriorate. Therefore, terminal +S, -S must be connected. 

## **5 Over Temperature Protection (OTP)** 

Over temperature protection function (manual reset type) is provided. When ambient or internal temperature rises abnormally, OTP will shut down the output. When OTP is triggered, input power is cut off and allow sufficient cooling to reset the OTP function. Then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

## **6 Low Output Detection Circuit (PF)** 

## **8 Remote ON/OFF Control** 

Remote ON/OFF control is provided. Output can be remotely switch ON and OFF by using CNT terminal and TOG terminal even though input is connected. The output is turned to ON when TOG and CNT terminals are shorted and output is turned to OFF when these terminals are opened. When the function is not used, connect TOG and CNT terminals with short piece. The standards for this function are as follows. “TOG” terminal is ground for “CNT” terminal. 

Low output voltage detection circuit is provided. Power Fail signal (PF signal) will output when output voltage decrease by either the drop or brown out of the input voltage or OCP, OVP and OTP function operation. PF signal will turn “High” level to indicate the abnormal status 

A-192 

・All specifications are subject to change without notice. 

**HWS 1800T** 

**==> picture [115 x 59] intentionally omitted <==**

**----- Start of picture text -----**<br>
Sink current ： 3.5mA<br>CNT<br>Relay<br>Transistor<br>TOG  TTL,<br>and etc.<br>**----- End of picture text -----**<br>


## **The Mode of control** 

**==> picture [232 x 36] intentionally omitted <==**

**----- Start of picture text -----**<br>
CNT Level for TOG Terminal Output Built-in Fan Motor<br>Short or L（0－0.8V） ON Rotate<br>Open or H（2.4－12V） OFF Stop<br>**----- End of picture text -----**<br>


- 1） TTL compatible. The maximum input voltage to CNT terminal is 12V, and the maximum allowable reverse voltage is -1V. The sink current of CNT terminal is 3.5mA. 

- 2） Output ON/OFF control can be enable by a switch, relay or a transistor ON/OFF. When CNT terminal－TOG terminal is shorted power supply is turn ON, and when CNT terminal－TOG terminal is opened power supply is turn OFF. 

- 3） Remote ON/OFF control circuit is isolated from the input and output circuit of power supply. 

   - It is possible to use it regardless of the positive and negative of the power supply output. 

Please be aware that if CNT terminal and TOG terminal is short and input voltage is gradually increase, this will trigger the low output voltage detector protection circuit and will result to output voltage shut down. When the low output voltage detector protection circuit is triggered, the input power is cut off for a few minutes, and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

## **9 Output Ripple & Noise** 

Maximum ripple & noise value in specifications is measured according to measurement circuit specified by JEITA-RC9131A. When Load lines are longer, ripple & noise becomes larger. In this case, electrolytic capacitor, film capacitor, etc. might be necessary to use across the load terminal. The output ripple & noise cannot be measured accurately if the probe ground lead of oscilloscope is too long. 

**==> picture [209 x 136] intentionally omitted <==**

**----- Start of picture text -----**<br>
150mm<br>＋S<br>＋<br>Power  ＋<br>Supply  Load<br>Unit C2 C3<br>ー<br>ーS<br>Co-axial cable<br>Oscillo-<br> 1.5m 50Ω R Scope<br>R : 50Ω C1 Bandwidth<br>100MHz<br>C1 : 4700pF<br>C2 : 100uF,<br>C3 : 0.47uF<br>**----- End of picture text -----**<br>


## **� Parallel Operation** 

Current balancing function is provided. Either of operations mode (A) or (B) is possible. 

## **（A）To Increase the Output Current** 

   - Current balancing function activates by connecting PC-to-PC terminal and COM-to-COM terminal, and output current of each power supply is equivalently supplied to load. Wires to PC terminals shall be as short as possible, same length and twisted. There is a possibility that output could be unstable caused by external noise. For this case, disconnect COM terminal and connect -S terminal from parallel power supply to a single point on the load. Please refer connection Method (A)-2. 

   - 1）Adjust the output voltage of each power supply to be same value within 1% or 100mV, whichever is smaller. 

   - 2） Use same length and type of wires for all load lines. 

   - 3） Maximum value of output current in parallel is up to 80% of all paralleled models.The purpose of the current balancing function is the static power-up. Therefore the output voltage might decrease according to the condition of dynamic load. There might be a step in the rise waveform during parallel operation. 

   - 4） Up to 5 units can be connected in parallel. 

- **（B）To Use as a Backup Power Supply** 

   - 1） Set power supply output voltage higher by the forward voltage drop of diode. 

   - 2） Adjust the output voltage of each power supply to be same value. 

   - 3） Use within the specifications for output voltage and output 

      - power. 

**==> picture [228 x 153] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method(A)-1  Method (A)-2<br>Power Supply Power Supply<br>+S +S<br>Load<br>Load<br>PC COM -S PC COM -S<br>PC COM +S PC COM +S<br>-S -S<br>Method (B) Output Power(W)=(Vo+Vf)× Io<br>Power Supply+S Vf Io<br>Vo+Vf Vo Load<br>-S<br>Vf<br>+S<br>Vo+Vf<br>-S<br>**----- End of picture text -----**<br>


## **HWS** 

## **� Isolation Test** 

## **� Series Operation** 

For series operation, either method (A) or (B) is possible. 

There might be a step in the rise waveform during series operation. 

**==> picture [231 x 64] intentionally omitted <==**

**----- Start of picture text -----**<br>
Method （A）  Method （Ｂ）<br>＋ ＋ ＋<br>Power supply Power supply Load<br>ー ＋ ー ー<br>Load<br>＋ ー ＋ ＋<br>Power supply Power supply Load<br>ー （Note1） ー ー<br>**----- End of picture text -----**<br>


- (Note1) Please connect a diode for by-pass when using method (A) of the series operation. Please use the diode with rated forward current is equal or more than load current and that the rated maximum reverse voltage is higher than output voltage for each power supply. 

Isolation resistance between output and FG (chassis) shall be more than 100Ω at 500VDC and between output and CNT･PF shall be more than 10MΩ at 100VDC. For safety operation, voltage setting of DC isolation tester must be done before the test. Ensure that it is fully discharged after the test. 

**==> picture [225 x 83] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output－FG（chassis） CNT TOG  PF  Output－CNT-PF CNT TOG PF<br>500VDC 100MΩ PC 100VDC 10MΩ PC<br>or more ＋S or more ＋S<br>＋ Isolation ＋<br>ー tester ー<br>ーS ーS<br>FG FG<br>Isolation L1 L1<br>tester L2 L2<br>L3 L3<br>**----- End of picture text -----**<br>


A-193 

・All specifications are subject to change without notice. 

**HWS 1800T** 

**HWS** 

## **� Withstand Voltage** 

This series is designed to withstand 3.0kVAC between input and output, 2.0kVAC between input and FG (chassis), 500VAC (60V model: 651VAC) between output and FG (chassis), and 100VAC between output and CNT･PF terminal each for 1 minute. When testing withstand voltage, set current limit of withstand voltage test equipment at 20mA. 

(Output-FG (chassis): 300mA (60V model: 390mA), Output- CNT･PF : 100mA). 

The applied voltage must be gradually increased from zero to testing value and then gradually decreased for shut down. When timer is used, the power supply may be damaged by high impulse voltage at timer switch on and off. Connect input and output as follows. If output is left open during test, output voltage might appear momentarily. 

This product have monolithic ceramic capacitor in secondary circuit to frame ground. 

Some of the withstand voltage tester may generate high voltage at the matching with monolithic ceramic capacitor and may cause the unit damage. 

So, please check the waveform of test voltage. 

**==> picture [166 x 257] intentionally omitted <==**

**----- Start of picture text -----**<br>
Input－FG（chassis）（solid line） CNT TOG PF<br>  2kVAC 1min.（20mA） PC<br>Input－Output（dotted line） ＋S<br>  3kVAC 1min.（20mA） ＋ー<br>ーS<br>Withstand FG<br>Voltage Tester ～ ～ L1L2<br>L3<br>Output－FG（chassis）<br>  500VAC 1min.（300mA） CNT TOG PF<br>（60V model: 651VAC 1min.（390mA）） PC＋S<br>＋<br>ー<br>ーS<br>WithstandVoltage Tester ～ FG<br>L1<br>L2<br>L3<br>Output－CNT・PF<br>  100VAC 1min.（100mA）<br>CNT TOG PF<br>WithstandVoltage Tester ～ PC＋S<br>＋<br>ー<br>ーS<br>FG<br>L1<br>L2<br>L3<br>**----- End of picture text -----**<br>


## **� Output Voltage External Control (PV)** 

## (A) Control by External Voltage 

Output voltage external control function is provided. Output voltage can be varied by applying an external voltage  (1－6V) to “PV” terminal and “COM” terminal. Note if an external voltage is not applied, there will be no output. Please consider the following characteristics below when operating the unit. 

**==> picture [63 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
Connection Method<br>**----- End of picture text -----**<br>


**==> picture [165 x 76] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S<br>＋<br>Power ー Load<br>Supply ーS<br>PV<br>1ー6V<br>COM<br>**----- End of picture text -----**<br>


**==> picture [183 x 110] intentionally omitted <==**

**----- Start of picture text -----**<br>
Output Voltage Linearity<br>120%<br>110%<br>30%<br>20%<br>0 1V 1.5V  5V 5.5V 6V<br>PV Voltage（Nominal Input Voltage）<br>Nominal<br>Output<br>Voltage<br>）<br>（V<br>Output<br>**----- End of picture text -----**<br>


Note: Only as for the model of 3V output, the output voltage is used from 30% to 120% at the PV voltage is from 1.5V to 6V 

Note: Only as for the model of 5-36V output, the output voltage is used from 20% to 120% at the PV voltage is from 1V to 6V 

Note: Only as for the model of 48V, 60V output, the output voltage is used from 20% to 110% at the PV voltage is from 1V to 5.5V 

Output Voltage Derating 

**==> picture [180 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
120%<br>110%<br>Operating<br>Area<br>30%<br>20%<br>0  83% 90% 100%<br>Load Current<br>Nominal<br>Output<br>Voltage<br>）<br>（V<br>Output<br>**----- End of picture text -----**<br>


- Note: Only as for the model of 48V, 60V output, the maximum output voltage is used up to 110% at 90% load current. 

   - Output voltage usage below 20% (3V type: 30%) is not a guaranteed. There is a possibility that it cannot be use with certain product. Please conduct a thorough evaluation test before using it. 

## (B) Control by External Variable Resistor 

“PV” terminal and “COM” terminal usage is the same as explained in section ｢control by external voltage｣. But in this method voltage for control is supplied through REF terminal. Variable resistor is connected between REF terminal and COM terminal and the middle point of variable resistor is connected to PV terminal. Please use the output voltage within 20% - 120% of rated output voltage value (48V, 60V model: 20% - 110% ). Wires for control lines must be twisted wire or shield wire. In addition, maximum variable voltage when control by external variable resistor is rated output voltage (100% ). When output voltage must be externally control to 120% of rated output voltage (110% for 48V, 60V model), please follow the following procedure. 

- （1）PV terminal and REF terminal is short by using standard connector supplied. 

- （2）Set the power supply output voltage to maximum value of the output voltage variable range mentioned in specification standard by adjusting V.ADJ volume at the front panel. 

- （3）Remove standard connector after input is cut off. 

- （4）Connect external variable resistor (50kΩ) between REF terminal and COM terminal. Then connect middle point of external variable resistor to PV terminal.(sensing current is 1.4mA) 

**==> picture [165 x 94] intentionally omitted <==**

**----- Start of picture text -----**<br>
＋S<br>Powersupply ＋ー Load<br>ーS<br>Sensing current : 1.4mA<br>REF<br>VR1<br>PV Variable resistor 50kΩ<br>COM<br>Connection method<br>**----- End of picture text -----**<br>


When output voltage is over rated value, please make sure that maximum output power is below rated value. Moreover, when output voltage is below rated value, please make sure that maximum output current is below rated value. 

Please consider the following characteristic during usage. 

A-194 

・All specifications are subject to change without notice. 

**HWS** 

## **HWS 1800T** 

Please consider the following characteristic during usage. 

**==> picture [221 x 102] intentionally omitted <==**

**----- Start of picture text -----**<br>
120％<br>Rated output： 100％<br>voltage<br>80％<br>120% of maximum setting value<br>Output 60％<br>voltage 110% of maximum setting value<br>40％<br>20％<br>0％<br>0 10000 20000 30000 40000 50000<br>Variable resistor value for REF-PV（VR1）［Ω］<br>**----- End of picture text -----**<br>


* Output voltage usage below 20% (3V model: 30%) is not a guaranteed. There is a possibility that it cannot be use with certain product. Please conduct a thorough evaluation test before using it. 

## **� Output Peak Current** 

For model with output peak current, please meet the following condition. 

Reduce peak current value according to output derating as section 4-1. 

The output is shut down by protection circuit when rated current and continuous peak output time (τ) exceeds rated value during usage. 

When protection circuit is activated, input is temporarily cut off for a few minutes and then power is re-input or remote ON/OFF control signal should be input for recovery of the output. 

Continuous Peak output time.（τ）：Within 10 seconds Peak output current（Ip）：Within the rated peak output current Duty：up to 35% 

**==> picture [231 x 112] intentionally omitted <==**

**----- Start of picture text -----**<br>
τ<br>Duty =<br>Ｔ [   ×100（%）]<br>Condition 1  Condition 2<br>Ip 1<br>I p  aA<br>0A  0A<br>τ τ<br>T  T<br>  Ip￣￣2 × τ [＜]   Irms max        Ip1 ￣ 2×￣￣τ ￣￣ + a2 ×（1－￣￣τ  ） [＜]   Irms max<br>√ Ｔ √ Ｔ Ｔ<br>**----- End of picture text -----**<br>


**==> picture [169 x 162] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||
|---|---|
|Model|Irms max|
|HWS1800T-6|177.5A|
|HWS1800T-7|142.0A|
|HWS1800T-12|88.7A|
|HWS1800T-15|71.0A|
|HWS1800T-24|62.1A|
|HWS1800T-36|41.4A|
|HWS1800T-48|31.0A|
|HWS1800T-60|24.8A|
|Ip, Ip1 ： Peak output current（A）|
|Iav|： Rated output current（A）|
|Im|： Average output current（A）|
|τ|： Peak current pulse width（sec）|
|T|： cycle（sec）|

**----- End of picture text -----**<br>


## **� Input Open Phase Detection** 

If one of the 3-phase input line becomes open or one phase voltage falls below 160VAC, the output will be shut off in approximately 3 seconds. To restore the output to normal ~~, sh~~ ut off the input once, and apply a normal input line vol ~~tag~~ e again after for a while. 

## 3. Mounting Directions 

## **1 Output Derating** 

Mounting directions are as follows. 

Standard mounting method is (A). Methods (B), (C) and (D) are also possible. 

Mounting methods besides (A),(B),(C) and (D) (example : (E) and (F)) are inhibit. 

**==> picture [240 x 138] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
|（A）Standard|（B）|（C）|（D）|（E）Inhibit|（F）Inhibit|
|Mounting|
|HWS1800T  3V Output Derating|
|LOAD（W）|1000|
|Ta（℃）|A|B|C|D|800|
|ー10 － ＋40|990|990|990|990|600|
|50|825|825|825|825|400|Mounting A, B, C, D|
|60|660|660|660|660|200|
|71|495|495|495|495|0－10|0|20|40|50|60|71|

**----- End of picture text -----**<br>


## **HWS1800T  5V Output Derating** 

**==> picture [239 x 150] intentionally omitted <==**

**----- Start of picture text -----**<br>
|||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|LOAD（W）|1600|
|Ta（℃）|1400|
|A|B|C|D|1200|
|ー10 － ＋40|1500|1500|1500|1500|1000|
|50|1250|1250|1250|1250|800600|Mounting A, B, C, D|
|60|1000|1000|1000|1000|400200|
|71|750|750|750|750|0|
|－10|0|20|40|50|60|71|
|HWS1800T  6V-15V Output Deratin|g|
|Ta（℃）|LOAD（W）|16001400|
|A|B|C|D|1200|
|ー10 － ＋40|1500|1500|1500|1500|1000800|
|50|1500|1500|1500|1500|600|Mounting A, B, C, D|
|400|
|60|1125|1125|1125|1125|200|
|71|750|750|750|750|0|－10|0|20|40|50|60|7|1|

**----- End of picture text -----**<br>


## **HWS1800T  24V-60V Output Derati** ~~**ng**~~ 

**==> picture [239 x 62] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||
|---|---|---|---|---|---|---|
|LOAD（W）|2000|
|Ta（℃）|1800|
|A|B|C|D|1600|
|1400|
|ー10 － ＋40|1800|1800|1800|1800|1200|
|50|1680|1680|1680|1680|1000800|Mounting A, B, C, D|
|600|
|60|1300|1300|1300|1300|400|
|200|
|71|900|900|900|900|0|
|－10|0|20|40|50|60|71|

**----- End of picture text -----**<br>


A-195 

・All specifications are subject to change without noti ~~ce.~~ 

**HWS 1800T** 

## **2 Mounting Method Caution** 

- （1）This Power supply unit is a forced air-cooling system with a built-in fan. 

- （2）This power supply has ventilating holes on the front and back panels. 

   - Keep these areas freely more than 100mm from front side and more than 50mm from rear side. 

**==> picture [160 x 80] intentionally omitted <==**

**----- Start of picture text -----**<br>
More than50mm More than100mm<br>（Top：HWS1800T）<br>（Rear）<br>（Front）<br>Fan motor<br>**----- End of picture text -----**<br>


- （3）Please note that ventilation will be worsened in a dusty environment. 

- （4）Built-in fan is limited life part, which require periodic replacement. (Replacement will be charge). 

- （5）The ambient temperature of this power supply is less than 50mm from the center of a front side. 

- （6）The maximum allowable penetration of mounting screw is 6mm. 

- （7）Recommended torque for mounting screw (M4) is 1.27N・m. 

**HWS** 

## 4. Wiring Method 

- （1） The output load line and input line shall be separated and twisted to improve noise sensitivity. 

- （2）The sensing lines shall be twisted or shield wire and separated from the output lines. 

- （3）Use all lines as thick and short as possible to make lower impedance. Wires are to be twisted or use shield wire to improve noise sensitivity. 

- （4）Attaching a capacitor to the load terminals can eliminate noise. 

- （5）FG terminal of this power supply is functional earthing. For safety purposes, connect protective earthing terminal to the mounting set ground terminal. 

- （6）Recommended torque for the terminal piece: 

Input terminal (M4 screw) : 1.27 N･m Output terminal (M8 Bolt & Nut) : 10.8N・m 

## （7）Recommended wiring 

**==> picture [215 x 144] intentionally omitted <==**

**----- Start of picture text -----**<br>
Circuit Noise Filter HWS1800T<br>   Protector<br>L1  L1  L1  L1  ＋<br>L2  L2  L2  L2<br>Input<br>3φ L3  L3  L3  L3  ー Load<br>FG<br>Chassis of the equipment<br>Recommended circuit protector ：AC250V20A<br>Recommended noise filter  ：MC1320<br>  (DENSEI-LAMBDA)<br>**----- End of picture text -----**<br>


- （8）M4 screw for output terminal might damage the terminal's inner thread. This is mainly cause by the M4 screw's unthread section. Therefore, please select a washer, spring washer, etc. to avoid unthread screw section from penetrating into output terminal inner section. 

**==> picture [135 x 92] intentionally omitted <==**

**----- Start of picture text -----**<br>
Unthread section<br>Output terminal<br>**----- End of picture text -----**<br>


## 5. External Fuse Rating 

Refer to the following fuse rating when selecting the external fuses for input line. Surge current flows when line turns on. Use slow-blow fuse or time-lug fuse. Do not use fastblow fuse. Fuse rating is specified by in-rush current value at line turn-on. Do not select the fuse according to input 

current (rms.) values under the actual load condition. HWS1800T：20A 

A-196 

・All specifications are subject to change without notice. 

**HWS 1800T** 

**HWS** 

## 6. Troubleshooting 

Before concluding that the unit is at fault, make the following checks. 

- （1） Check if the rated input voltage is apply. 

- （2） Check if the wiring of input and output is correct. 

- （3） Check if the I/O terminal connection is properly tighten by a regulated tightening torque. 

- （4） Check if the wire material is not too thin. 

- （5） Check if the output voltage control (V.ADJ) is properly adjusted. OVP might be trigged and output is cut off. 

- （6） Check if the wiring of “+S” and “-S” terminal is correct. If in open condition, when input voltage is apply, OVP is trigged and output is cut off. Output display LED will turn on for a moment. 

- （7） If use function of the remote ON/OFF control, check if the remote ON/OFF control connector is not opened. If in open condition, output is cut off. 

- （8） Check if the built-in fan is not stopped. Is fan stopped by something irregulars or dust, etc. If fan stops, the PF signal is turn on. 

Moreover, the output is intercepted with the protection circuit if fan stops. 

Fans are the limited life parts. 

This power supply has ventilating holes on the front and back panels. Check if there is any irregulars or dust, etc. 

- （9） Is the main body of the power supply abnormally hot? Please turn on the input again after allowing the unit to cool down sufficiently. The output shut down by over temperature protection function. 

- （10） Check if the output current and output power is not applied over specification. 

- （11） Check if the input voltage wave is sinusoidal. If this power supply unit is connected to a UPS, input voltage wave might not be sinusoidal. An audible noise is emmited from the power supply unit. 

- （12） Audible noise can be heard during Dynamic-Load operation. 

## 7. Warranty 

This product is warranted for a period of 5 years from the date of shipment. As for the breakdown under a normal use during free warrantee term, repair is at free of charge. However, the Built-in Fan Motor replacement is for a fee. Please contact your nearest sales office for replacement. The Fan-life has limitation. Therefore, periodic maintenance by replacing the life-expired fan is required. The following figure shows the life of fan. 

**==> picture [209 x 103] intentionally omitted <==**

**----- Start of picture text -----**<br>
10<br>7<br>5<br>3<br>2<br>1<br>0 40 50 60 70 80 100<br>Fan exhaust temperature（℃）<br>）<br>（years<br>Life expectabcy<br>**----- End of picture text -----**<br>


## Life expectancy 

Fan exhaust temperature    45℃  45,000  hour Fan exhaust temperature    80℃  11,000  hour 

**==> picture [138 x 69] intentionally omitted <==**

**----- Start of picture text -----**<br>
Measuring point<br>Measuring point of fan exhaust temperature<br>Air flow<br>P.S.<br>50mm<br>**----- End of picture text -----**<br>


Conditions of usage at the free of charge warrantee are as follows. 

- （1）Average operating temperature (ambient temperature of the power supply unit) is 40℃ 

- （2）Average load factor is 80% or less 

- （3）Installation method: Standard installation. However, the maximum rating is within the output derating. 

Following cases are not covered by warranty. 

- （1） Improper usage like dropping products, applying shock and defects from operation exceeding specification of the units. 

- （2） Defects resulting from natural disaster (fire, flood). 

- （3） Unauthorized modifications or repair by the buyers. 

- （4） Defects not cause by DENSEI LAMBDA. 

## 8. Option 

## **1 Fan unit for replacement** 

We have prepared an optional fan unit for replacement. 

|Name of fan unit for replacement|Applicable models|Appearance|Pin assignments|Price|
|---|---|---|---|---|
|1500-FAN-01|HWS1500<br>HWS1800T<br>(of standard<br>specifications)|Wind direction|Housing = XHP-3(J.S.T.)<br>Contact = SXH-001T-P0.6(J.S.T.)<br>Length of fan harness = 65 ±10mm<br>Pin No.<br>Description<br>1<br>Power supply<br>2<br>Fanalarm<br>3<br>GND|Open|



Ask us for replacement of the fan. This will be a charged service. If you are replacing the fan by yourself, note the following. 

- *1. Be careful in handling the fan unit so as not to cause an impact by dropping it or hitting it, etc. 

- *2. Shut down the input before starting the replacement operation. 

- *3. Check that there are no loose parts in connectors or harness tucking, etc. 

- *4. Safety standards (UL, CE, etc.) are not applicable. 

A-197 

・All specifications are subject to change without notice. 

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A-198