CCL400PS48

XP Power 

## 400 Watts 

- 400 W Convection-cooled 

- Conduction Cooling For Higher Ambient Operation 

- 94% Efficiency 

- 85 VAC to 264 VAC Input 

- 5V Standby 

- <1W Standby Power 

- IT & Medical Safety Approvals 

- Power Fail & Inhibit Signals 

- 3 Year Warranty 

Dimensions: 

The universal AC input CCL400 provides 400W of convection cooled output power over the temperature range -40°C to +50°C with derating to +70°C. The temperature range can be extended by the use of conduction cooling to the full 400W at +70°C. Approved for IT and Medical and with a feature set including a 5V standby output, <0.5W standby power, power fail and inhibit signals the CCL400 is ideal for a wide range of applications where fan cooling is not desirable. 

CCL400: 7.00 x 3.95 x 1.57” (178 x 100 x 40 mm) CCL400-C: 7.39 x 4.04 x 1.92” (189.9 x 107.3 x 48.9 mm) 

Models & Ratings 

|Output Voltage 1|Output Current V1|Standby Supply V2|Output Power|Model Number(1,2)|
|---|---|---|---|---|
|12 V|33.3 A|5.0 V / 0.5 A|400 W|CCL400PS12|
|24 V|16.6 A|5.0 V / 0.5 A|400 W|CCL400PS24|
|30 V|13.3 A|5.0 V / 0.5 A|400 W|CCL400PS30|
|48 V|8.3 A|5.0 V / 0.5 A|400 W|CCL400PS48|



_1. Add suffix ‘-C’ for cover version e.g. CCL400PS24-C_ 

_2. Add suffix ‘-SC’ for a right angled input screw terminal connector on a covered version e.g. CCL400PS24-SC._ 

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Detail A, Scale 1:1 1.0 7.12 (180.86) 2 x M3 max depth<br>Signals Connector CON4 (25.4) 6.6 (167.64) 0.16 (4.0)<br>10 way JST B10B-PHDSS<br>TF 7<br>Pin 2 Pin 1<br>aU 1.57<br>(39.88)<br>OF} [| G2@2@COO@GO FOO | ff<br>Pin 10 Pin 9 0.4 (10.16)<br>7.0 (177.8) 0.9 (22.86) 5.2 (132.08)<br>Output<br>A Voltage Control<br>3.95<br>(100.33)<br>‘I oN ZN 2) BS) 2.45<br>leant 06 = +—ee- —_— +VE (62.23) ®<br>‘oil Nd" ~ e = qf) ed ©<br>1 -VE<br>2<br>3<br>Input Connector CON1 6.6 (167.64) 2 x M3 max depth  Output TerminalM4 Screw in  0.75 (19.05) 4 x M3 max depth 0.12 (3.0)<br>0.4 (10.16) 0.16 (4.0) 2 positions<br>@) OXOKOM ONS ® © @® @ Torque to<br>8lbs-in (90 cNm) max.<br>1.0<br>(25.4) a ® ® )<br>**----- End of picture text -----**<br>


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Input<br>Characteristic Minimum Typical Maximum Units Notes & Conditions<br>po<br>Input Voltage - Operating 85 115/230 264 VAC Derate output power < 100 VAC for convection cooling or<br><90 VAC for conduction cooling. See fig. 1<br>a<br>pf Input Voltage - Fault Condition 300 VAC 5 seconds max<br>pf Input Frequency 47 50/60 63 Hz Agency approval, 47-63 Hz<br>EN61000-3-2 class A compliant<br>Power Factor >0.95<br>EN61000-3-2 class C for loads  ≥ 10%<br>pe<br>a Input Current - Full Load OG 3.8/1.9 A GO 115/230 VAC<br>pf No Load Input Power 1 W All models, when inhibit activated<br>pf Inrush Current 35 60 A 230 VAC<br>a Earth Leakage Current DD 90/180 250 DO μ A Typ. 115/230 VAC 50 Hz, Max 264 VAC 60 Hz<br>Ge Input Protection F10.0 A 250 V internal fuse in both AC lines<br>Input Voltage Derating<br>Figure 1<br>Conduction Cooled with and without cover<br>|<br>400<br>Convection Cooled without cover<br>350<br>300<br>Convection Cooled with cover<br>200<br>100<br>0<br>< <<br>85 90 100 264<br>Input Voltage (V)<br>Output<br>po Characteristic Minimum Typical Maximum Units Notes & Conditions<br>Ge Output Voltage 12 48 VDC See Models and Ratings table<br>eG Initial Set Accuracy ±0.5 % 50% load, 115/230 VAC<br>Ge Output Voltage Adjustment ±3 %<br>a Minimum Load 0 A<br>a Start Up Delay 1.5 2.0 s 115/230 VAC full load from input AC turn on<br>Ge Hold Up Time 30 ms<br>eGGe DriftLine Regulation DD ±0.20.5 %% After 20 min warm up<br>Load Regulation 0.5 %<br>ee DD<br>Transient Response <4 % Recovery within 1% in less than 500  μ s<br>GO for a 50-75%-50% load change<br>a Ripple & Noise 1 % pk-pk 20 MHz bandwidth<br>Ge Overvoltage Protection 115 140 % Vnom DC. Output 1, recycle input to reset<br>eG Overload Protection 110 150 % Trip & Restart characteristic V1<br>(OO Short Circuit Protection Shutdown and auto recovery<br>Ge Temperature Coefficient 0.05 (OO %/ ˚ C<br>PY Overtemperature Protection ( (O Shutdown and auto recovery<br>Output Power (W)<br>**----- End of picture text -----**<br>


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## General 

|Characteristic||Minimum|Minimum||Typical||Maximum|Maximum|Units|Units|Notes & Conditions|Notes & Conditions|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Efficiency|||||93-94|||||%|230 VAC full load|230 VAC full load|
|Isolation: Input to Output||4000||||||||VAC|2 x MOPP||
|Input to Ground||1500||||||||VAC|1 X MOPP||
|Output to Ground||500||||||||VDC|||
||||60||||300|||kHz|PFC||
|Switching Frequency|||||75|||||kHz|Main converter||
||||||70|||||kHz|Standby||
|Power Density|||||||9.1||W/in3||||
|Mean Time Between Failure|||||172|||||kHrs|MIL-HDBK-217F, Notice 2 +25 °C GB||
|Weight<br>2.12 (960)<br>lb (g)<br>CCL400PSxx<br>2.46 (1115)<br>CCL400PSxx-C<br>**Efficiency Vs Load**<br>Figure 2<br>12 V Models<br>0.00%<br>10.00%<br>20.00%<br>30.00%<br>40.00%<br>50.00%<br>60.00%<br>70.00%<br>80.00%<br>90.00%<br>100.00%<br>Efficiency<br>115V<br>230V<br>~~——~~|||||||||||||
||||20%|30%|30%<br>40%|50%|60%|70%|80%|80%<br>90%|100%||
|Figure 3|||||||Load||||||
|24 V Models|||||||||||||
|Efficiency|0.00%<br>10.00%<br>20.00%<br>30.00%<br>40.00%<br>50.00%<br>60.00%<br>70.00%<br>80.00%<br>90.00%<br>100.00%||115V<br>230V<br>~~=~~||||||||||
||||20%|30%|30%<br>40%|50%|60%|70%|80%|80%<br>90%|100%||
||||||||Load||||||
|Figure 4|||||||||||||
|48 V Models<br>Efficiency|0.00%<br>10.00%<br>20.00%<br>30.00%<br>40.00%<br>50.00%<br>60.00%<br>70.00%<br>80.00%<br>90.00%<br>100.00%||~~=~~|||||||||115V<br>230V|
||||20%|30%|30%<br>40%|50%|60%|70%|80%|80%<br>90%|100%||
||||||||Load||||||



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Signals & Controls<br>Characteristic Notes & Conditions<br>Uncomitted opto isolated transistor, normally off when AC is good (see fig.5)<br>Power Fail (AC-OK) Provides 5 - 15ms warning of loss of output from AC failure off when AC is healthy.<br>Inhibit Uncommited isolated optocoupler diode, powered diode inhibits the supply (see fig.6 & 7)<br>Standby Supply 5V/0.5A Isolated supply present when AC applied.<br>a Remote Sense Compensates for 0.25V per lead, 0.5V total drop.<br>Power Fail Inhibit (High) Inhibit (Low)<br>Figure 5  Figure 6  Figure 7<br>5 V 5 V<br>POWER SUPPLY<br>POWER SUPPLY POWER SUPPLY<br>8V Max 3 mA Pin 6 CON 4Power Fail 5 mA, 8 V, Max 1K 1K<br>Collector  Inhibit Hi  8 V Max<br>Pin 8 CON 4 Inhibit Hi<br>Transistor On: Input & Output Not OK Pin 8<br>Power Fail Transistor Off: Input & Output OK CON 4<br>Emitter<br>Pin 5 CON 4 Inhibit Lo Inhibit Lo<br>( 1 Pin 7 CON 4 5 mA, max Pin 7 CON 4<br>Signal Connector Pin 3 CON 4VI RTN Signal Connector Pin 3 CON 4VI RTN Signal Connector<br>Environmental<br>Characteristic Minimum Typical Maximum Units Notes & Conditions<br>Operating Temperature -40 +70 °C See derating curve, fig.8. and Thermal Considerations on page 8.<br>Storage Temperature -40 +85 °C<br>Convection or conduction-cooled with 0.5 °C/W or<br>Cooling better heatsink<br>Humidity 95 %RH Non-condensing<br>Operating Altitude 5000 m<br>Shock ±3 x 30g shocks in each plane, total 18 shocks. 30g = 11ms (±0.5msec), half sine. Conforms to EN60068-2-27 & EN60068-2-47<br>Vibration Single axis 10 - 500 Hz at 2g sweep and endurance at resonance in all 3 planes. Conforms to EN60068-2-6<br>—<br>Temperature Derating Curve<br>400 Conduction-cooled<br>Figure 8 - No Cover Fitted  ≥ 90 - 264 VAC<br>300<br>Convection-cooled 100 - 264 VAC<br>&<br>200<br>Conduction-cooled 90 - 264 VAC<br>176 W<br>100<br>0<br>-40 -30 -20 -10 0 10 20 30 40 50 60 70<br>Ambient Temperature (°C)<br>Figure 9 - Cover Fitted<br>400<br>Conduction-cooled 90 - 264 VAC<br>322<br>300 Convection-cooled 90 - 264 VAC<br>200 201 W<br>161 W<br>100<br>0 =<br>-40 -30 -20 -10 0 10 20 30 40 50 60 70<br>Ambient Temperature (°C)<br>may not be met<br>Output Power (W)<br>Some specification parameters<br>Output Power (W) may not be met<br>Some specification parameters<br>**----- End of picture text -----**<br>


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## EMC: Emissions 

|Phenomenon|Standard|Test Level|Notes & Conditions|
|---|---|---|---|
|Conducted|EN55032/11|Class B||
|Radiated|EN55032/11|Class A||
|||Class B|With 1 turn Wurth 742-700-81 core or similar on all 3<br>conductors of input lead and 2 turns Kitagawa<br>R1-18-28-10 core or similar on both conductors of output<br>lead.|
|Harmonic Current|EN61000-3-2|Class A||



## EMC: Immunity 

||Phenomenon|Standard|Test Level|Criteria|Notes & Conditions|
|---|---|---|---|---|---|
||Low Voltage PSU EMC|EN61204-3|High severity level|as below||
||||Class A||All models|
||Harmonic Current|EN61000-3-2||||
||||Class C||>40 W|
||Radiated|EN61000-4-3|3|A||
||EFT|EN61000-4-4|3|A||
||Surges|EN61000-4-5|Installation class 3|A||
||Conducted|EN61000-4-6|3|A||
||||Dip>95%(0 VAC),8.3ms|A||
|||EN55035 (100 VAC)|Dip 30% (70 VAC), 416ms|B||
||||Dip >95% (0 VAC), 4160ms|B||
||||Dip >95% (0 VAC), 10.0ms|A||
|||EN55035 (240 VAC)|Dip 30% (168 VAC), 500ms|A||
||||Dip >95% (0 VAC), 5000ms|B||
||||Dip >95% (0 VAC), 10.0ms|A||
||Dips and Interruptions|EN60601-1-2 (100 VAC)|Dip 60% (40 VAC), 100ms<br>Dip 30% (70 VAC), 500ms|A<br>A|Derate output power to 200 W<br>Derate output power to 200 W|
||||Dip >95% (0 VAC), 5000ms|B||
||||Dip >95% (0 VAC), 10.0ms|A||
|||EN60601-1-2 (240 VAC)|Dip 60% (96 VAC), 100ms<br>Dip 30% (168 VAC), 500ms|A<br>A||
||||Dip >95% (0 VAC), 5000ms|B||
|||SEMI F47|||Compliant|
|Safety Approvals<br>Safety Certification<br>Safety Standard<br>Notes & Conditions<br>CB Report<br>IEC60950-1:2005, IEC62368-1:2014<br>Information Technology<br>IEC60601-1 Ed 3.1 Including Risk Management<br>Medical<br>UL<br>UL60950-1 (2014), CSA 22.2 No.60950-1-1:08,<br>UL62368-1 (2014), CSA22.2 No.62368-1-14<br>Information Technology<br>ANSI/AAMI ES60601-1 & CSA C22.2, No.60601-1:08<br>Medical<br>EN<br>EN60950-1:2006, EN62368-1: 2014<br>Information Technology<br>EN60601-1/A12:2006<br>Medical<br>Equipment Protection Class<br>Class I<br>See safety agency conditions of acceptibility for details<br>CE<br>Meets all applicable directives<br>UKCA<br>Meets all applicable legislation<br>Means of Protection<br>Category<br>Primary to Secondary<br>2 x MOPP (Means of Patient Protection)<br>IEC60601-1 Ed 3.1<br>Primary to Earth<br>1 x MOPP (Means of Patient Protection)<br>~~——~~||||||
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XP Power 

## **CCL400** 

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Detail A, Scale 1:1 1.0 7.12 (180.86) 2 x M3 max depth<br>Signals Connector CON4 (25.4) 6.6 (167.64) 0.16 (4.0)<br>10 way JST B10B-PHDSS<br>cnen<br>Pin 2 Pin 1<br>1.57<br>(39.88)<br>OF | ©©OG@O@ © OO !<br>Pin 10 Pin 9 0.4 (10.16)<br>7.0 (177.8)<br>Output<br>A Voltage Control<br>+VE<br>1 | 8 3 Pa -VE<br>2<br>3<br>Input Connector CON1<br>Output Terminal<br>6.6 (167.64) 2 x M3 max depth  M4 Screw in<br>0.4 (10.16) 0.16 (4.0)<br>2 positions<br>Torque to<br>8lbs-in (90 cNm) max.<br>1.0 @ }<br>(25.4) 7 BK [g][,] (ORCKO M ONC) @) | ]<br>0.9 (22.86) 5.2 (132.08)<br>i | 2 = ni- 2 ) I}<br>3.95<br>(100.33)<br>D<br>2.45 I © I<br>(62.23)<br>e | ee _ |<br>ee ©)<br>0.75 (19.05) 4 x M3 max depth 0.12 (3.0)<br>**----- End of picture text -----**<br>


## ~~**Notes**~~ 

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1. Dimensions shown in inches (mm).<br>**----- End of picture text -----**<br>


|CON1 Input Connector<br>(Dinkle 166-03P3)|CON1 Input Connector<br>(Dinkle 166-03P3)|||Output Connector|Output Connector|
|---|---|---|---|---|---|
|Pin|Function||Pin||Function|
|1|Line||1||+V1|
|2|Neutral||2||+ V1 RTN|
|3|Earth|||||



2. CON4 Mating Plug: JST-PHDR-10VS Contact: 26-22-AWG (JST-SPHD-001T-P0.5 

|CON4 Signals Connector|
|---|
|(JST B10B-PHDSS)|
|Pin<br>Function|
|1<br>+ Standby|
|2<br>+ Standby|
|3<br>- Standby|
|4<br>- Standby|
|5<br>Power Fail(Emitter)|
|6<br>Power Fail(Collector)|
|7<br>Inhibit(Cathode)|
|8<br>Inhibit(Anode)|
|9<br>- Sense|
|10<br>+ Sense|



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## XP Power 

## **CCL400 Covered (-C)** 

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SIGNALS CONNECTOR CON4<br>10 WAY JST B10B-PHDSS<br>PIN2 PIN1<br>P } eof<br>1.92 (48.9)<br>° ° Su<br>7.47 (189.9) | CO C OOOO o@) ooC o ARARAAAOoO O oOoR g 002 0 @3230@ 0 :_ } PIN10 Orncs PIN9<br>DETAIL A<br>7.39 (187.8) SCALE 1 : 1<br>- poy ——C =<br>peaDOCS OIw eO S CUOCeat CCOORon Ieres CS SNOT SS—68C ee QY ae)<:| A fectho:<br>BOCOGW SSSIOSOOW UESCOVEGSONVOOO S< [ Hi<br>ulsisisie B SSSSSSOSS 0OCONOOONOOOO T F i = OUTPUT VOLTAGE<br>CONTROL<br>C O BO QOCOC OUC O R  OS E RESON) IJ ik<br>ct Sete wand e ee ea e Le<br>DSS q y O e ee eOC ae eU s® =: +VE<br>MOOS COOOOOOUONSONGOO TOIOOU UUTUSS |p el — @L<br>ace CR ESS | pet<br>1 EsaCOCCOO ow CO QCOOOOOWONOUO OOOEHOOOO O CO O OD oo<br>-VE<br>2<br>3 [a][b] i PrMmetLeGine<br>We [2] Ee NOOODOOOCe eeeeeOBOoc. WeES iilTat<br>OUTPUT TERMINALS<br>7 Sere Oo oO © M4 SCREWS IN 2 POSITIONS<br>Input Connector CON1 || OOOO@ OOOOOOOO OOO OO O O OO O O O To) | TORQUE TO 8 lbs-in (90 cNm) MAX.<br>D<br>Optional Input Connector CON1 (add suffix ‘-SC’)<br>0.79 (20.1)<br>T_[ | 6.45 (163.9)<br>1.25 (31.9)<br>0.52 (13.3)<br>3.24 (82.4)<br>3 Way DINKLE DT-2C-B14W-03<br>TORQUE TO 7lbs-in (80 cNm) MAX. M3 SCREWS IN 3 POSTIONS  f | ° OO|i|<br>i)<br>)<br>°<br>@<br>{ 6 oo O |<br>4.22 (107.3) 4x M3 Max depth 3mm [0.12]<br>4.04 (102.5)<br>**----- End of picture text -----**<br>


|CON1 Input Connector<br>(Dinkle 166-03P3)|CON1 Input Connector<br>(Dinkle 166-03P3)|||Output Connector|Output Connector|
|---|---|---|---|---|---|
|Pin|Function||Pin||Function|
|1|Line||1||+V1|
|2|Neutral||2||+ V1 RTN|
|3|Earth|||||



## ~~**Notes**~~ 

1. Dimensions shown in inches (mm). 3. For optional screw terminal input connector, add suffix ‘-S’ 2. CON4 Mating Plug: JST-PHDR-10VS to the model number. i.e. CCL400PS12-SC (contact sales Contact: 26-22-AWG (JST-SPHD-001T-P0.5 for availability). 

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CON4 Signals Connector<br>(JST B10B-PHDSS)<br>Pin Function<br>1 + Standby<br>2 + Standby<br>3 - Standby<br>4 - Standby<br>5 Power Fail (Emitter)<br>6 Power Fail (Collector)<br>7 Inhibit (Cathode)<br>8 Inhibit (Anode)<br>9 - Sense<br>10 + Sense<br>**----- End of picture text -----**<br>


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7 

**CCL400 Series AC-DC Power Supplies** a ~~a~~ 

XP Power 

In order to ensure safe operation of the PSU in the end-use equipment, the temperature of the components listed in the table below must not be exceeded. Temperature should be monitored using K type thermocouples placed on the hottest part of the component (out of direct air flow). See below for component locations. 

|Temperature Measurements (At Ambient 50 °C)|Temperature Measurements (At Ambient 50 °C)|
|---|---|
|Component|Max Temperature °C|
|L2 Coil|120 ° C|
|TR28 Body|120 ° C|
|C64|105 ° C|
|C39|105 ° C|



The estimated service life of the CCL400 Series is determined by the cooling arrangements and load conditions experienced in the end application. Due to the uncertain nature of the end application this estimated service life is based on the actual measured temperature of a key capacitors with in the product when installed by the end application. The worst case of the two figures should be taken as the indicative service life in 24/7 operation. 

The graph below expresses the estimated lifetime of a given component temperature and assumes continuous operation at this temperature. 

## **Estimated Service Life vs Component Temperature** 

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350000<br>300000<br>250000<br>200000<br>150000<br>100000<br>50000<br>0<br>105 95 85 75 65 55<br>C39 Temperature (°C)<br>180000<br>160000<br>140000<br>120000<br>100000<br>80000<br>60000<br>40000<br>20000<br>0<br>105 95 85 75 65 55<br>C64 Temperature (°C)<br>Lifetime (Hrs)<br>Lifetime (Hrs)<br>**----- End of picture text -----**<br>


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TR28<br>**----- End of picture text -----**<br>


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L2<br>C64<br>C39<br>**----- End of picture text -----**<br>


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01 July 2022