TEPS65F24

**AC-DC Power Supplies PCB Mount Type** ~~Po~~ World wide Safety EMI Inrush OCP OVP Approvals current limiting 

## **TEPS-series** 

## nl 

## **CE marking** 

## **Feature** 

Small and Lightweight High efficiency Harmonic attenuator (Complies with IEC61000-3-2) Universal input (85-264VAC) 

Low Voltage Directive RoHS Directive 

## **UKCA marking** 

Built-in inrush current, overcurrent and overvoltage protection circuits ClassII 

Electrical Equipment Safety Regulations RoHS Regulations 

## ~~™a~~ **EMI** 

## **Safety agency approvals** 

Complies with CISPR11-B, CISPR32-B, EN55011-B, EN55032-B, FCC Part 15-B, FCC Part 18-B, VCCI-B 

UL62368-1, C-UL (equivalent to CAN/CSA-C22.2 No.62368-1), EN62368-1 Complies with DEN-AN 

~~a~~ **EMS Compliance** : EN61204-3, EN61000-6-2 

## ~~a~~ **5-year warranty (refer to Instruction Manual)** 

EN61000-4-2 EN61000-4-3 EN61000-4-4 EN61000-4-5 EN61000-4-6 EN61000-4-8 EN61000-4-11 

**TEPS-1** 

www.cosel.co.jp/en/ 

June 10, 2024 

**==> picture [260 x 49] intentionally omitted <==**

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AC-DC Power Supplies PCB Mount Type<br>TEPS45F<br>|<br>**----- End of picture text -----**<br>


## **Ordering information** 

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**----- Start of picture text -----**<br>
-<br> TEP  S  45  F  OO O<br>1  2  3  4  5  6<br>1Series name<br>R Example recommended EMI/EMC filterEAM-03-000 2Single output<br>3Output wattage<br>cis (D) C €  A | > 4Universal input<br>RoHS — 56Output voltageOptional  [*][1]<br>E2: Capacitor between Input<br>and Output is changed<br>H : with the function to be<br>acceptable to output<br>High voltage pulse noise type : EAP series peak current (12V,24V)<br>150KHz-1MHz (To safety ground the secondary   N : with cover<br>side) : EAC serie<br>*A higher current rating EMI/EMC filter<br>may be recommended in view of the<br>other devices that could be connected<br>in parallel with the power supply.<br>**----- End of picture text -----**<br>


## **ClassⅡ** 

This power supply is manufactured by SMD technology. The stress to PCB like twisting or bending causes the defect of the unit, so handle the unit with care. 

*Make sure necessary tests will be carried out on your end equipment with the power supply installed in accordance with any required EMC/EMI regulations. 

||**MODEL**<br>~~CC~~|**MODEL**<br>~~CC~~|**TEPS45F05**<br>~~CC~~|**TEPS45F12**<br>~~CC~~|**TEPS45F12-H**<br>~~CC~~|**TEPS45F24**<br>~~CC~~|**TEPS45F24-H**|
|---|---|---|---|---|---|---|---|
|**INPUT**<br>~~Po~~|**VOLTAGE[VAC]**<br>*2 <br>~~Po~~<br>~~el~~<br>~~eee~~||85-264 1f(Refer to “Derating” and Instruction Manual 3.1)<br>~~eee~~|||||
||**CURRENT [A]**<br>~~el~~<br>~~Po~~|**ACIN 100V** <br>~~eee~~|0.80typ<br>~~eee~~|0.90typ||||
|||**ACIN 230V** <br>~~eee~~<br>~~a~~<br>~~Po~~|0.45typ<br>~~eee~~|0.50typ<br>~~ee~~||||
||**FREQUENCY[Hz]**<br>~~el~~<br>~~eee~~<br>~~Po~~<br>~~|~~||50 / 60(45 - 66)<br>~~eee~~<br>~~ee~~<br>~~esee~~<br>~~eeeee~~|||||
||**EFFICIENCY [%]**<br>~~Po~~<br>~~ee~~|**ACIN 100V** <br>~~Po~~<br>~~ee~~<br>~~|~~|90.0typ<br>~~ee~~<br>~~es~~|90.5typ<br>~~ee~~<br>~~ee~~|90.5typ<br>~~ee~~<br>~~ee~~<br>~~ee~~|91.5typ<br>~~ee~~<br>~~ee~~<br>~~eee~~|91.5typ<br>~~eee~~|
|||**ACIN 230V** <br>~~ee~~<br>~~|~~|90.5typ<br>~~ee~~<br>~~es~~|91.5typ<br>~~ee~~<br>~~ee~~|91.5typ<br>~~ee~~<br>~~ee~~|92.5typ<br>~~ee~~<br>~~eee~~|92.5typ<br>~~eee~~|
||**INRUSH CURRENT [A]** <br>~~PE~~|**ACIN 100V** <br>~~|~~<br>~~PE~~|30typ (Io=100%)Ta=25Cat cold start<br>~~es ee~~<br>~~ee eee~~|||||
|||<br>**ACIN 230V** <br>~~PE~~|65typ (Io=100%)Ta=25Cat cold start|||||
||**LEAKAGE CURRENT[mA]**<br>~~es~~<br>~~a~~||0.25max(ACIN 240V,60Hz,Io=100%,Accordingto IEC62368-1,and DEN-AN)<br>~~es~~<br>~~Re~~|||||
|**OUTPUT**<br>~~|~~<br>~~|~~<br>~~Po~~|**VOLTAGE[V]**<br>~~a~~<br>~~re~~||5<br>~~Re~~<br>~~re~~|12<br>~~GG~~|12<br>~~GG~~|24|24|
||**CURRENT[A]**<br>*2 <br>~~a ~~<br>~~re~~||8.0<br> ~~Re~~<br>~~re~~|3.8<br>~~GG~~|3.8(Peak5.45)<br>~~GG~~|1.9|1.9(Peak 2.75)|
||**LINE REGULATION[mV]**<br>*3 <br>~~re~~<br>~~eG~~||20max<br>~~re~~<br>~~eG~~|48max<br>~~GG~~<br>~~eG~~|48max<br>~~GG~~<br>~~eG~~|96max<br>~~eG~~|96max|
||**LOAD REGULATION[mV]**<br>*3 <br>~~GG~~<br>~~esQQ~~||40max<br>~~GG~~<br>~~QQ~~|100max<br>~~GG~~<br>~~QQ~~|100max<br>~~GG~~<br>~~QQ~~|150max<br>~~GG~~<br>~~QQ~~|150max|
||**RIPPLE[mVp-p]**<br>*4 <br>~~es~~<br>~~es~~|**-10 to +50**C<br>*5 <br>~~QQ~~|240max<br>~~QQ~~|300max<br>~~QQ~~|300max<br>~~QQ~~|360max<br>~~QQ~~|360max|
||**RIPPLE NOISE[mVp-p]** *4 <br>~~es~~<br>~~es~~|**-10 to +50**C<br>*5 <br>~~QQ~~|300max<br>~~QQ~~|380max<br>~~QQ~~|380max<br>~~QQ~~|480max<br>~~QQ~~|480max|
||**TEMPERATURE**<br>**REGULATION[mV]**<br>~~es~~<br>~~fe~~|**0 to +50**C*5 <br>~~fe~~|50max<br>~~fe~~|120max<br>~~fe~~|120max<br>~~fe~~|240max<br>~~fe~~|240max|
|||**-10 to +50**C<br>*5 <br>~~fe~~<br>~~a~~|60max<br>~~fe~~<br>~~GG~~|150max<br>~~fe~~<br>~~GG~~|150max<br>~~fe~~<br>~~GG~~|290max<br>~~fe~~<br>~~GG~~|290max|
||**DRIFT[mV]**<br>*6 <br>~~PG~~<br>~~|~~||20max<br>~~PG~~|48max<br>~~PG~~|48max<br>~~PG~~|96max<br>~~PG~~|96max|
||**START-UP TIME[ms]**<br>~~|~~<br>~~|~~||200typ (ACIN 100V,Io=100%)<br>~~TY~~|||||
||**HOLD-UP TIME[ms]**<br>~~|~~<br>~~|~~||10typ (ACIN 100V,Io=80%)/ 60typ (ACIN 230V,Io=100%)<br>~~TY~~|||||
||**OUTPUT VOLTAGE SETTING[V]** <br>~~|~~<br>~~RG~~<br>~~Po~~||4.90 to 5.30<br>~~RG~~|11.50 to 12.50<br>~~RG~~|11.50 to 12.50<br>~~RG~~<br>~~TS~~|23.00 to 25.00<br>~~TY~~<br>~~TS~~|23.00 to 25.00<br>~~TY~~|
|**PROTECTION**<br>**CIRCUIT AND**<br>**OTHERS**<br>~~|~~<br>~~Po~~|**OVERCURRENT PROTECTION**<br>~~|~~<br>~~Po~~<br>~~a~~||Works over 105% of rating (works over 101% ofpeak current at option -H)and recovers automatically<br>~~TY~~<br>~~TS~~<br>~~Ge~~|||||
||**OVERVOLTAGE PROTECTION[V]** <br>~~Po~~<br>~~a~~||5.50 to 6.50<br>~~Ge~~|13.20 to 15.60|13.20 to 15.60<br>~~TS~~|26.40 to 31.20<br>~~TS~~|26.40 to 31.20|
||**OPERATING INDICATION**<br>~~Po~~<br>~~a~~<br>~~|~~||Notprovided<br>~~TS~~<br>~~Ge~~|||||
||**REMOTE SENSING**<br>~~a~~||Notprovided|||||
|**ISOLATION**|**INPUT-OUTPUT**<br>~~Po~~||3,000VAC 1minute,Cutoff current = 10mA,500VDC 50MWmin(At Room Temperature)|||||
|**ENVIRONMENT**<br>~~|~~|**OPERATING TEMP.,HUMID.AND ALTITUDE** *2 <br>~~Po~~||-10 to +70C,20 - 90%RH(Non condensing), (Refer to “Derating”),5,000m(16,500feet)max|||||
||**STORAGE TEMP.,HUMID.AND ALTITUDE**<br>~~Po~~||-20 to +75C,20 - 90%RH(Non condensing),9,000m(30,000feet)max|||||
||**VIBRATION**<br>~~Po~~<br>~~|~~<br>~~C—“‘CSCSCs*zCY~~||10 - 55Hz 19.6m/s2 (2G),3minutesperiod,60minutes each alongX,Y and Z axis<br>~~C—“‘CSCSCs*zCY~~|||||
||**IMPACT**<br>~~|~~<br>~~C—“‘CSCSCs*zCY~~||196.1m/s2 (20G),11ms,once each X,Y and Z axis<br>~~C—“‘CSCSCs*zCY~~|||||
|**SAFETY AND**<br>**NOISE**<br>**REGULATIONS**<br>~~|~~<br>~~|~~|**AGENCY APPROVALS**<br>~~|~~<br>~~C—“‘CSCSCs*zCY~~<br>~~Po~~||UL62368-1,C-UL(equivalent to CAN/CSA-C22.2 No.62368-1),EN62368-1,Complies with DEN-AN<br>~~C—“‘CSCSCs*zCY~~|||||
||**CONDUCTED NOISE**<br>*7 <br>~~Po~~<br>~~|~~<br>~~C—“‘;‘“CSCSCts*C~~||Complies with CISPR11-B,CISPR32-B,EN55011-B,EN55032-B,FCC Part 15-B,FCC Part 18-B,VCCI-B|||||
||**HARMONIC ATTENUATOR** *8 <br>~~|~~<br>~~C—“‘;‘“CSCSCts*C~~||Complies with IEC61000-3-2(Class A) (No built-inpower factor correction)|||||
|**OTHERS**<br>~~|~~<br>~~|~~|**CASE SIZE/WEIGHT**<br>~~|~~<br>~~C—“‘;‘“CSCSCts*C~~<br>~~Po~~<br>~~|~~||25.4X24.0X58.5mm[1.00X0.94X2.30 inches] (WXHXD)/ 60gmax(with cover : 80gmax)|||||
||**COOLING METHOD**<br>*2 <br>~~|~~<br>C“(t‘“CSSC*t*zr||Convection/Forced air(Requires external fan)(Refer to “Derating”)|||||



- *1 The listed options may affect the published standard specifications. Please contact us for detailed product specifications. 

- *2 Derating is required. ( ) means peak current. There is a possibility that an internal device is damaged when the specification is exceeded. Please contact us about the detail. 

- *3 At low load conditions, the burst mode operation will start. To check load regulation, you will need to measure the characteristics at average mode with instruments. 

- *4 This is the value that measured on measuring board with capacitor of 22μF and 0.1μF at 50mm from output terminal. (Refer to Instruction Manual) 

- *5 5V, 12V output product, the maximum temperature of 40C. 

- *6 Drift is the change in DC output for an eight hour period after a half-hour warm-up at 25C, with the input voltage held constant at the rated input/output. 

- *7 When secondary circuit will be connected to earth, the spec will be changed. (Refer to Instruction Manual 2) 

- *8 Please contact us about another class. When two or more units are operating it may not comply with the IEC61000-3-2. Please contact us for details. 

- To meet the specification, do not operate overload condition. 

- Parallel operation is not possible. 

- Sound noise may be emitted from the power supply depending on operating conditions. 

**TEPS-2** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **TEPS45F** 

## **External view** 

**==> picture [481 x 391] intentionally omitted <==**

**----- Start of picture text -----**<br>
Name plate<br>Standard type<br>AC(L)<br>-Vout<br>AC(N) +Vout<br>¶  Pin shapes<br>58.5<br>[2.3] f 1.7<br>[ f 0.07]<br>f 1.0 ± 0.1<br>[ f 0.04]<br>¶  Recommended size for processing PCB<br>(TOP VIEW)<br>4- f 1.5<br>2.58 53.34 ± 0.5<br>[0.1] [2.1]<br>53.34 ± 0.5<br>[2.1] ¶  Dimensions in: [mm]<br>［inch］<br>¶  Div.:0.1inch<br>¶  Dimensions in mm, [  ]=inches<br>¶  Tolerance :  ± 1.5 [ ± 0.06]<br>¶  Weight : 60g max<br>¶  PCB Material / thickness : FR-4 / 1.1 [0.04]<br>¶  Pin material ： Copper<br>¶  Plating treatment of pin ： Lead free plating<br>25.4 [1.0]<br>0.2<br>±<br>4.0 [0.16]<br>24.0 [0.94]<br>0.5<br>±<br>[0.8] 0.5 ±<br>20.32 [0.5]<br>2.54 [0.1] 12.7<br>0.5<br>0.5 ± ± [0.5]<br>12.7<br>[0.8]<br>20.32<br>**----- End of picture text -----**<br>


**TEPS-3** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **External view** 

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Cover type<br>Name plate<br>AC(L)<br>-Vout<br>AC(N) +Vout<br>62.5<br>¶  Recommended size for processing PCB<br>[2.46]<br>(TOP VIEW)<br>4- f 1.5<br>53.34 ± 0.5<br>[2.1] ¶  Dimensions in: [mm]<br>［inch］<br>¶  Div.:0.1inch<br>f 1.0 ± 0.1<br>[ f 0.04]<br>4.58 53.34±0.5 ¶¶  Dimensions in mm, [  ]=inches Tolerance :  ± 1.5 [ ± 0.06]<br>[0.18] [2.1] ¶  Weight : 80g max<br>¶  Case Material : PBT<br>¶  Pin material ： Copper<br>¶  Plating treatment of pin ： Lead free plating<br>30.6 [1.21]<br>0.5<br>±<br>[0.8] 0.5 ±<br>20.32 [0.5]<br>27.6 [1.09] 12.7<br>3.1<br>[0.12]<br>5.14 [0.2]<br>±0.5<br>±0.5 12.7 [0.5]<br>20.32 [0.8]<br>**----- End of picture text -----**<br>


**TEPS-4** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **TEPS45F** 

**TEPS-5** 

www.cosel.co.jp/en/ 

June 10, 2024 

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**----- Start of picture text -----**<br>
AC-DC Power Supplies PCB Mount Type<br>TEPS65F<br>a<br>**----- End of picture text -----**<br>


## **Ordering information** 

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**----- Start of picture text -----**<br>
-<br> TEP  S  65  F  OO O<br>1  2  3  4  5  6<br>1Series name<br>Example recommended EMI/EMC filter<br>EAM-03-000 2Single output<br>3Output wattage<br>4Universal input<br>5Output voltage<br>6Optional  [*][1]<br>E2: Capacitor between Input<br>and Output is changed<br>H : with the function to be<br>acceptable to output<br>High voltage pulse noise type : EAP series peak current (12V,24V)<br>150KHz-1MHz (To safety ground the secondary   N : with cover<br>side) : EAC serie<br>*A higher current rating EMI/EMC filter<br>may be recommended in view of the<br>other devices that could be connected<br>in parallel with the power supply.<br>**----- End of picture text -----**<br>


||||1Series name Series name<br>2Single outputSingle output<br>**Example recommended EMI/EMC filter**|
|---|---|---|---|
|R|||2Single output Single output<br>3Output wattage Output wattage<br>**Example recommended EMI/EMC filter**<br>**EAM-03-000**|
||||4Universal input Universal input|
|RoHS|||5Output voltage Output voltage<br>6Optional Optional[*][1][1]|
||||E2: Capacitor between Input Capacitor between Input|
||||and Output is changed|
||||H : with the function to be with the function to be|
||||acceptable to output|
||||peak current (12V,24V)<br>N : with cover<br>High voltage pulse noise type : EAP series<br>150KHz-1MHz (To safety ground the secondary<br>side) : EAC serie|
||||*A higher current rating EMI/EMC filter<br>A higher current rating EMI/EMC filter|
||||may be recommended in view of the|
||||other devices that could be connected|
||||in parallel with the power supply.|
||||**ClassⅡ**<br>3<br>~~4~~<br>~~.~~|
|This power supply is manufactured by SMD technology. The stress to PCB like twisting or bending causes the defect of the unit, so handle the unit with care.||||
|*Make sure necessary tests will be carried out on your end equipment with the power supply installed in accordance with any required EMC/EMI regulations.|||Make sure necessary tests will be carried out on your end equipment with the power supply installed in accordance with any required EMC/EMI regulations.|
|**MODEL**|||**TEPS65F05**<br>**TEPS65F12**<br>**TEPS65F12-H**<br>**TEPS65F24**<br>**TEPS65F24-H**|
|**MAX OUTPUT WATTAGE[W]**<br>*2|||**50.0**<br>**65.4**<br>**65.4(90.0)**<br>**66.0**<br>**66.0(90.0)**|
|**DC OUTPUT**<br>*2|||**5V 10.0A**<br>**12V 5.45A**<br>**12V 5.45(7.50)A**<br>**24V 2.75A**<br>**24V 2.75(3.75)A**|
|**SPECIFICATIONS**||||
||**MODEL**<br>**TEPS65F05**<br>**TEPS65F12**<br>**TEPS65F12-H**<br>**TEPS65F24**<br>**TEPS65F24-H**<br>**VOLTAGE[VAC]**<br>*2 85 - 264 1f(Refer to “Derating” and Instruction Manual 3.1)<br>**CURRENT [A]**<br>**ACIN 100V** 1.00typ<br>1.25typ<br>**ACIN 230V** 0.55typ<br>0.70typ<br>~~a~~<br>~~_—eo~~<br>~~se~~|||
|**INPUT**|**FREQUENCY[Hz]**<br>**EFFICIENCY [%]**<br>**ACIN 100V** <br>**ACIN 230V** <br>**INRUSH CURRENT [A]** **ACIN 100V** <br>**ACIN 230V** <br>**LEAKAGE CURRENT[mA]**<br>**VOLTAGE[V]**<br>~~ET~~<br>~~ee ces eee~~<br>~~a~~<br>~~PE~~<br>~~-a~~||50 / 60(45 - 66)<br> 90.0typ<br>91.5typ<br>91.5typ<br>92.5typ<br>92.5typ<br> 91.5typ<br>93.0typ<br>93.0typ<br>93.5typ<br>93.5typ<br> 30typ (Io=100%)Ta=25Cat cold start<br> 65typ (Io=100%)Ta=25Cat cold start<br>0.25max(ACIN 240V,60Hz,Io=100%,Accordingto IEC62368-1,and DEN-AN)<br>5<br>12<br>12<br>24<br>24<br>~~eee~~<br>~~ees Gees~~<br>~~ee~~|
|||**CURRENT[A]**<br>*2 <br>~~a~~|10.0<br>5.45<br>5.45 (Peak 7.50)<br>2.75<br>2.75 (Peak 3.75)<br>~~a~~|
|||**LINE REGULATION[mV]**<br>*3 <br>~~a~~|20max<br>48max<br>48max<br>96max<br>96max|
|||**LOAD REGULATION[mV]**<br>*3 <br>~~a~~|40max<br>100max<br>100max<br>150max<br>150max<br>~~a~~|
|||**RIPPLE[mVp-p]**<br>*4 **-10 to +50**C*5 240max<br>300max<br>300max<br>360max<br>360max<br>~~aa~~||
|**OUTPUT**||**RIPPLE NOISE[mVp-p]** *4 **-10 to +50**C*5 300max<br>380max<br>380max<br>480max<br>480max<br>**TEMPERATURE**<br>**REGULATION[mV]**<br>**0 to +50**C*5 50max<br>120max<br>120max<br>240max<br>240max<br>**-10 to +50**C*5 60max<br>150max<br>150max<br>290max<br>290max<br>**DRIFT[mV]**<br>*6 20max<br>48max<br>48max<br>96max<br>96max<br>~~a~~<br>~~a~~<br>~~—————E~~<br>~~ee~~<br>~~ee~~<br>~~a~~<br>~~a~~||
|||**START-UP TIME[ms]**<br>~~Ee~~|500typ (ACIN 100V,Io=100%)|
|||**HOLD-UP TIME[ms]**<br>~~ES~~|10typ (ACIN 100V,Io=80%)/ 60typ (ACIN 230V,Io=100%)|
|||**OUTPUT VOLTAGE SETTING[V]** 4.90 to 5.30<br>11.50 to 12.50<br>11.50 to 12.50<br>23.00 to 25.00<br>23.00 to 25.00<br>~~a~~||
|**PROTECTION**<br>**CIRCUIT AND**<br>**OTHERS**<br>**ISOLATION**|**PROTECTION**<br>**CIRCUIT AND**<br>**OVERCURRENT PROTECTION**<br>**OVERVOLTAGE PROTECTION[V]** <br>**OPERATING INDICATION**<br>**REMOTE SENSING**<br>**INPUT-OUTPUT**<br>**OPERATING TEMP.,HUMID.AND ALTITUDE** *2 <br>~~ee~~<br>~~a~~<br>~~ES~~<br>~~ES~~<br>~~——~~||Works over 105% of rating (works over 101% ofpeak current at option -H)and recovers automatically<br> 5.50 to 6.50<br>13.20 to 15.60<br>13.20 to 15.60<br>26.40 to 31.20<br>26.40 to 31.20<br>Notprovided<br>Notprovided<br>3,000VAC 1minute,Cutoff current = 10mA,500VDC 50MWmin(At Room Temperature)<br> -10 to +70C,20 - 90%RH(Non condensing), (Refer to “Derating”),5,000m(16,500feet)max<br>~~a~~|
|**ENVIRONMENT**||**STORAGE TEMP.,HUMID.AND ALTITUDE**<br>**VIBRATION**<br>~~ES~~<br>~~ET~~|-20 to +75C,20 - 90%RH(Non condensing),9,000m(30,000feet)max<br>10 - 55Hz 19.6m/s2 (2G),3minutesperiod,60minutes each alongX,Y and Z axis|
|||**IMPACT**<br>~~ET~~|196.1m/s2 (20G),11ms,once each X,Y and Z axis|
|**SAFETY AND**||**AGENCY APPROVALS**<br>~~——~~|UL62368-1,C-UL(equivalent to CAN/CSA-C22.2 No.62368-1),EN62368-1,Complies with DEN-AN|
|**NOISE**||**CONDUCTED NOISE**<br>*7 <br>~~ES~~|Complies with CISPR11-B,CISPR32-B,EN55011-B,EN55032-B,FCC Part 15-B,FCC Part 18-B,VCCI-B|
|**REGULATIONS**<br>**OTHERS**|**HARMONIC ATTENUATOR** *8 <br>**CASE SIZE/WEIGHT**<br>**COOLING METHOD**<br>*2 <br>~~EF~~<br>~~——~~<br>~~FE~~||Complies with IEC61000-3-2(Class A) (No built-inpower factor correction)<br>25.4X27.5X58.5mm[1.00X1.08X2.30 inches] (WXHXD)/ 70gmax(with cover : 90gmax)<br> Convection/Forced air(Requires external fan) (Refer to “Derating”)|



- *1 The listed options may affect the published standard specifications. Please contact us for detailed product specifications. 

- *2 Derating is required. ( ) means peak current. There is a possibility that an internal device is damaged when the specification is exceeded. Please contact us about the detail. 

- *3 At low load conditions, the burst mode operation will start. To check load regulation, you will need to measure the characteristics at average mode with instruments. 

- *4 This is the value that measured on measuring board with capacitor of 22μF and 0.1μF at 50mm from output terminal.(Refer to Instruction Manual) 

- *5 12V output product, the maximum temperature of 45C. 

- *6 Drift is the change in DC output for an eight hour period after a half-hour warm-up at 25C, with the input voltage held constant at the rated input/output. 

- *7 When secondary circuit will be connected to earth, the spec will be changed. (Refer to Instruction Manual 2) 

- *8 Please contact us about another class. When two or more units are operating it may not comply with the IEC61000-3-2. Please contact us for details. 

- To meet the specification, do not operate overload condition. 

- Parallel operation is not possible. 

- Sound noise may be emitted from the power supply depending on operating conditions. 

**TEPS-6** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **TEPS65F** 

## **External view** 

**==> picture [481 x 397] intentionally omitted <==**

**----- Start of picture text -----**<br>
Name plate<br>Standard type<br>AC(L)<br>-VOUT<br>AC(N) +VOUT<br>58.5 ¶  Pin shapes<br>[2.3] f 1.7<br>[ f 0.07]<br>f 1.0 ± 0.1<br>[ f 0.04]<br>¶  Recommended size for processing PCB<br>(TOP VIEW)<br>4- f 1.5<br>2.58 53.34 ± 0.5<br>[0.1] [2.1]<br>53.34 ± 0.5<br>[2.1] ¶  Dimensions in: [mm]<br>［inch］<br>¶  Div.:0.1inch<br>¶  Dimensions in mm, [  ]=inches<br>¶  Tolerance :  ± 1.5 [ ± 0.06]<br>¶  Weight : 70g max<br>¶  PCB Material / thickness : FR-4 / 1.1 [0.04]<br>¶  Pin material ： Copper<br>¶  Plating treatment of pin ： Lead free plating<br>25.4 [1.0]<br>0.2<br>±<br>4.0 [0.16]<br>27.5 [1.08]<br>0.5<br>±<br>[0.8] 0.5 ±<br>20.32 [0.5]<br>12.7<br>2.54 [0.1]<br>0.5<br>±0.5 12.7 ± [0.5]<br>20.32 [0.8]<br>**----- End of picture text -----**<br>


**TEPS-7** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **External view** 

**==> picture [467 x 366] intentionally omitted <==**

**----- Start of picture text -----**<br>
Cover type<br>Name plate<br>AC(L)<br>-Vout<br>AC(N) +Vout<br>62.5 ¶  Recommended size for processing PCB<br>[2.46] (TOP VIEW)<br>4- f 1.5<br>53.34 ± 0.5<br>[2.1] ¶  Dimensions in: [mm]<br>［inch］<br>¶  Div.:0.1inch<br>f 1.0 ± 0.1<br>[ f 0.04]<br>4.58 53.34±0.5 ¶¶  Dimensions in mm, [  ]=inches Tolerance :  ± 1.5 [ ± 0.06]<br>[0.18] [2.1] ¶  Weight : 90g max<br>¶  Case Material : PBT<br>¶  Pin material ： Copper<br>¶  Plating treatment of pin ： Lead free plating<br>30.6 [1.21]<br>0.5<br>±<br>[0.8] 0.5 ±<br>20.32 [0.5]<br>12.7<br>31.1 [1.22]<br>3.1<br>[0.12]<br>5.14 [0.2]<br>±0.5<br>±0.5 12.7 [0.5]<br>20.32 [0.8]<br>**----- End of picture text -----**<br>


**TEPS-8** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **TEPS-series** 

## **Pin Configuration** 

## ¿ `TEPS45F/TEPS65F` 

**==> picture [143 x 70] intentionally omitted <==**

**----- Start of picture text -----**<br>
2 AC(N) 3 ＋ Vout<br>Bottom view 4 － Vout<br>1 AC(L)<br>**----- End of picture text -----**<br>


**==> picture [225 x 34] intentionally omitted <==**

**----- Start of picture text -----**<br>
No. Pin connection Function<br>1 AC(L)<br>AC input<br>2 AC(N)<br>**----- End of picture text -----**<br>


||`No.`<br>1<br>2|`Pin connection`<br>`AC(L)`<br>`AC(N)`|`Function`<br>`AC input`|
|---|---|---|---|
||3|＋Vout|＋`DC output`|
||4|－Vout|－DC output|



## **Implementation・Mounting Method** 

## Mounting method 

- ¡ When two or more power supplies are used side by side, position them with proper intervals to allow enough air ventilation. The temperature around each power supply should not exceed the temperature range shown in derating curve. 

- ¡ Standard model can be mounted in the mounting position shown in the figure below. 

**==> picture [466 x 107] intentionally omitted <==**

**----- Start of picture text -----**<br>
(A) (B) (C) (D) (E) (F)<br>Input Output<br>Input Output<br>Input Output<br>Standard position<br>Output Input<br>Input Input<br>**----- End of picture text -----**<br>


- ¡ Option-N model can be mounted in the mounting position shown in the figure below. The installation of (F) possible only forced air cooling. 

**==> picture [466 x 107] intentionally omitted <==**

**----- Start of picture text -----**<br>
(A) (B) (C) (D) (E) (F)<br>Input Output<br>Input Output<br>Input Output<br>Standard position<br>Output Input<br>Input Input<br>**----- End of picture text -----**<br>


- ¡ Avoid placing the AC input line pattern layout underneath the unit.It will increase the line conducted noise. Make sure to leave an ample distance between the line pattern layout and the unit. Also avoid placing the DC output line pattern underneath the unit because it may increase the output noise. Lay out the pattern away from the unit. 

- ¡ When installing the components (inclusive chassis) or pattern which is a foreign potentials around the unit, keep the distance for more than 5mm (except -N model). 

**==> picture [205 x 60] intentionally omitted <==**

**----- Start of picture text -----**<br>
Top view<br>AC(L)<br>Recommended -Vout<br>Recommended<br>AC(N) +Vout<br>Not Recommended<br>**----- End of picture text -----**<br>


**==> picture [227 x 80] intentionally omitted <==**

**----- Start of picture text -----**<br>
d1 d1<br>d1<br>d1<br>d1 d1=5mm min<br>(a) Side view (b) Top view<br>**----- End of picture text -----**<br>


- ¡ Do not touch any SMD components on the unit and soldering points. 

## Soldering 

- ¡ Flow soldering: 260 C for up to 15 seconds. 

- ¡ Soldering iron (26W): 450 C for up to 5 seconds. 

**TEPS-9** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **TEPS-series** 

## **Implementation・Mounting Method** 

## Stress to the pins 

- ¡ Applying excessive stress to the input or output pins of the power module may damage internal connections. Avoid applying stress in excess of that shown in right figure. 

- ¡ Input/output pin are soldered to the PCB internally. Do not pull or bend a lead powerfully. 

- ¡ If it is expected that stress is applied to the input/output pin due to vibration or impact, reduce the stress to the pin by taking such measures as fixing the unit to the PCB by silicone rubber, etc. 

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Less than Less than<br>19.6N(2kgf) 19.6N(2kgf)<br>Less than<br>19.6N(2kgf)<br>**----- End of picture text -----**<br>


## **Derating** 

## ¿ Derating curve for input voltage 

**==> picture [107 x 76] intentionally omitted <==**

**----- Start of picture text -----**<br>
100<br>80<br>85 90<br>Input voltage [VAC]<br>Load factor [%]<br>**----- End of picture text -----**<br>


## ¿ TEPS45F 

Ambient temperature derating curve at rated input (Reference value) 

**==> picture [220 x 124] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2 3<br>100<br>80<br>70<br>60<br>40<br>20<br>0<br>-10 0 10 20 30 40 50 60 70<br>Ambient temperature [ C ]<br>Load factor [%]<br>**----- End of picture text -----**<br>


|Cooling method|Output voltage|Mountingmethod|
|---|---|---|
|||A,B,C,D,E,F|
|Convection|5V|1|
||12V|1|
||24V|2|
|Forced air(0.5m<br>3/min)|5V,12V,24V|3|



- ¡ As example, these derating curves have been decided at the below PCB condition. 

- FR-4 (Double-sided) 

- 203.2mm×76.2mm×1.6mm 

- Copper foil thickness : 70μm 

## ¿ TEPS65F 

Ambient temperature derating curve at rated input (Reference value) 

**==> picture [220 x 124] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2 3 4 5<br>100<br>80<br>70<br>60<br>50<br>40<br>20<br>0<br>-10 0 10 20 30 40 45 50 60 70<br>Ambient temperature [ C ]<br>Load factor [%]<br>**----- End of picture text -----**<br>


|Cooling method|Output voltage|Mountingmethod|Mountingmethod|Mountingmethod|
|---|---|---|---|---|
|||A,B,C,E|D|F|
|Convection|5V|3|3|2|
||12V|2|1|1|
||24V|4|2|2|
|Forced air(0.5m<br>3/min)|5V,12V,24V|5|||



- ¡ As example, these derating curves have been decided at the below PCB condition. 

- FR-4 (Double-sided) 

- 203.2mm×76.2mm×1.6mm 

- Copper foil thickness : 70μm 

**TEPS-10** 

www.cosel.co.jp/en/ 

June 10, 2024 

## **TEPS-series** 

## ¿ TEPS45F-N 

Ambient temperature derating curve at rated input (Reference value) 

## ¿ TEPS65F-N 

- Ambient temperature derating curve at rated input (Reference value) 

**==> picture [482 x 200] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 2 3 1 2 3<br>10080 NG 10080 ><br>60 RA 60 Nee<br>50 50<br>40 40<br>pooper peep feUSeeee<br>20 20<br>—[}} tt ft ff | | ft tt tteS<br>0 [TTT tI 0 TT<br>Tt Pt tf<br>-10 0 10 20 30 40 50 60 70 -10 0 10 20 30 40 50 60 70<br>Ambient temperature [ C ]  Ambient temperature [ C ]<br>Installation condition Installation condition<br>Cooling method Output voltage Cooling method Output voltage<br>A, B, C, D, E F A, B, C, D, E F<br>5V 1 5V 2<br>Convection 12V 1 - Convection 12V 1 -<br>24V 2 24V 1<br>Forced air (0.5m3/min) 5V, 12V, 24V 3 Forced air (0.5m3/min) 5V, 12V, 24V 3<br>Load factor [%] Load factor [%]<br>**----- End of picture text -----**<br>


¡ In case of forced air cooling, ventilation must be uniform. ¡ In case of forced air cooling, ventilation must be uniform. 

## **Instruction Manual** ~~a~~ 

◆ Please see catalog and instructionmanual before you use. Instruction Manual https://www.cosel.co.jp/redirect/catalog/en/TEPS/ Before using our product https://en.cosel.co.jp/technical/caution/index.html 

**TEPS NOTICE** 

## **Basic Characteristics Data** ~~Bee~~ 

|Model|Circuit method|Switching<br>frequency<br>[kHz]|Input<br>current<br> *1[A]|Inrush<br>current<br>protection|PCB/Pattern|PCB/Pattern|PCB/Pattern|Series/Parallel<br>operation availability|Series/Parallel<br>operation availability|
|---|---|---|---|---|---|---|---|---|---|
||||||Material|Single<br>sided|Double<br>sided|Series<br>operation|Parallel<br>operation|
|TEPS45F|Flyback converter|20 to 250|0.9|Thermistor|FR-4||Yes|Yes|No|
|TEPS65F|Flyback converter|20 to 800|1.25|Thermistor|FR-4||Multilayer|Yes|No|



*1  The value of input current is at ACIN 100V and rated load. 

**TEPS-11** 

www.cosel.co.jp/en/ 

June 10, 2024