CCP550PS24-A

**CCP550** Series 

AC-DC POWER SUPPLIESAC-DC POWER SUPPLIES 

## 550W 

## **FAN COOLED** 400W **CONDUCTION COOLED** 300W **CONVECTION COOLED** 

The CCP550 series of compact single output AC-DC power supplies are designed to operate in convection cooled, conduction cooled, and fan cooled applications with power ratings from 300 to 550W. CCP550 offers high power density in a low profile design, high efficiency, and quiet operation for noise sensitive applications. 

CCP550, with Class B conducted emissions, worldwide industrial and medical safety approvals, 2 x MOPP isolation and low leakage currents, is designed for easy integration into a wide range of BF rated medical applications including respiratory care, imaging, patient monitoring, patient treatment, and industrial applications such as process control, test & measurement, and industrial printing. 

## **Applications** 

## **Features** QD 

- 550W fan cooled, 400W conduction cooled 

- Universal, single phase input: 80 to 264VAC 

- 127.0 x 76.2mm footprint, 37.5mm profile 

- High efficiency, up to 92% 

- Low leakage currents: <400µA earth leakage, <90µA patient leakage 

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Healthcare Instrumentation<br>Process Control Robotics Technology<br>**----- End of picture text -----**<br>


- Medical (BF) & ITE safety approvals 

- Standard fan supply on all models 

- Optional 5VDC standby & remote on/off 

## **Dimensions** 

127.0 x 76.2 x 37.5 mm (5.00” x 3.00” x 1.48”) 

- 3 year warranty 

## **Models & Ratings** GQ» 

|Model number(2)<br>CCP550PS12|Output Current|Output Current|Output Current|Output Voltage<br>12.0V|Standby Power(2)<br>Convection/<br>Conduction cooled<br>Fan cooled(1)<br>5 V/1.0A<br>5 V/2.0A|Standby Power(2)<br>Convection/<br>Conduction cooled<br>Fan cooled(1)<br>5 V/1.0A<br>5 V/2.0A|Fan output<br>12 V/0.5A|Efficiency(3)<br>90%|
|---|---|---|---|---|---|---|---|---|
||Convection<br>cooled<br>25.00A|Conduction<br>cooled(4)<br>33.30A|Fan cooled(1)<br>45.80A||||||
|CCP550PS15|20.00A|26.67A|36.63A|15.0V|5 V/1.0A|5 V/2.0A|15 V/0.5A(5)|90%|
|CCP550PS18|16.67A|22.22A|30.56A|18.0V|5 V/1.0A|5 V/2.0A|12 V/0.5A|90%|
|CCP550PS24|12.50A|16.67A|22.90A|24.0V|5 V/1.0A|5 V/2.0A|12 V/0.5A|92%|
|CCP550PS36|8.33A|11.10A|15.27A|36.0V|5 V/1.0A|5 V/2.0A|12 V/0.5A|92%|
|CCP550PS48|6.25A|8.33A|11.45A|48.0V|5 V/1.0A|5 V/2.0A|12 V/0.5A|92%|



## Notes: 

## 1. Requires 34m[3] /h. 

2. Optional standby and remote on/off. Add suffix -A to model number, eg. CCP550PS12-A. 

3. Typical value at 230VAC input and 550W load. 

4. Thermal resistance for conduction cooling ≤1°C/W. 

5. Requires post regulation for use with 12VDC fan. 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **Input** 

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Characteristic Minimum Typical Maximum Units Notes & Conditions<br>**----- End of picture text -----**<br>


|Characteristc|Minimum|Typical|Maximum|Units|Notes & Conditons|
|---|---|---|---|---|---|
|Input Voltage - Operating|80|115/230|264|VAC|Derate output linearly from 550W at 115VAC to 430W at 90VAC &<br>360W at 80VAC – Fan cooled|
||||||Derate output linearly from 400W at 125VAC to 290W at 90VAC &<br>250W at 80VAC – Conduction cooled|
||||||Derate output linearly from 300W at 125VAC to 240W at 90VAC &<br>220W at 80VAC – Convection cooled 48 models and from 270W at<br>125VAC to 220W at 90VAC & 200W a80VAC - Convection cooled,<br>12-36V models, PSU must be mounted on stand-offs with minimum<br>length of 8mm|
|Input Frequency|47|50/60|63|Hz|Agency approval, 47-63Hz|
|Power Factor||>0.9|||230VAC, 100% load EN61000-3-2 class A|
|Input Current - Full Load||5.6/2.7||A|115/230 VAC|
|Inrush Current||110||A|230 VAC cold start, 25°C|
|Earth Leakage Current|||400|µA|264 VAC/60Hz (Max)|
|No load Input Power|||0.5|W|When main output is Inhibited|
|Input Protection|T10A/250 V Internal fuse ftted in line and neutral.|||||



## **Output - Main Output** 

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Characteristic Minimum Typical Maximum Units Notes & Conditions<br>**----- End of picture text -----**<br>


|Characteristc|Minimum|Typical|Maximum|Units|Notes & Conditons|
|---|---|---|---|---|---|
|Output Voltage - V1|12||48|VDC|See Models and Ratings table|
|Initial Set Accuracy|||±1|%|50% load, 115/230VAC|
|Minimum Load|No minimum load required|||||
|Start Up Delay|||2|s|115/230VAC full load.|
|Hold Up Time|20/10|||ms|<400W / >400W at 25°C|
|Drift|||±0.02|A|After 20 min warm up|
|Line Regulation|||±0.5|%|90-264VAC|
|Load Regulation|||±0.5|%|0-100% load|
|Transient Response|||4|%|Recovery within 1% in less than 500µs for a 50-75% and 75-50%<br>load step|
|Over/Undershoot|||7|%|Full load|
|Ripple & Noise|||1|%|20MHz bandwidth and 10µF electrolytic capacitator in parallel with<br>0.1µF ceramic capacitator at 25°C|
|Overvoltage Protection|110||140|%|Vnom, recycle input to reset|
|Overload Protection|110||160|%|Inom|
|Short Circuit Protection|Trip & restart|||||
|Temperature Coeffcient|||0.02|%/˚C||
|Overtemperature Protection|Measured internally, auto resetting|||||
|Remote On/Off (-A option)|Connect pin 6 of CN3 to pin 1/8 to turn main output on. Connect to pin 2/7 or leave open to turn main output off|||||
|Cold Temperature Start Up Load|When ambient temperature is below 0°C and input volume is less than 90VAC, the following coniditions are imposed at start up.<br>Between 0°C and -10°C switch-on load is limited to 400W max at 85VAC and 320W max at 80VAC.  Between -10°C and -30°C,<br>switch-on load is limited to 350W max at 85VAC.  The power supply must be switched on for 5 seconds before full load can be<br>applied.|||||



2 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **Output - 5VDC Standby** 

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Characteristic Minimum Typical Maximum Units Notes & Conditions<br>**----- End of picture text -----**<br>


|Characteristc|Minimum|Typical|Maximum|Units|Notes & Conditons|
|---|---|---|---|---|---|
|Output Voltage||5||VDC||
|Initial Set Accuracy|||±1|%|50% load, 115/230VAC|
|Minimum Load|No minimum load required, see derating curve for low input voltage and low temperature derating|||||
|Start Up Delay|||0.5/1.0|s|115 & 230VAC full load, increases to 1s below 0°C ambient|
|Drift|||±0.02|%|After 20 min warm up|
|Line Regulation|||±0.5|%|90-264VAC|
|Load Regulation|||±0.5|%|0-100% load|
|Transient Response|||4|%|Recovery within 1% in less than 500µs<br>for a 50-75% and 75-50% load step|
|Over/Undershoot|||5|%|Full load|
|Ripple & Noise|||2|% pk-pk|20MHz bandwidth and 10µF electrolytic capacitator in parallel with<br>0.1µF ceramic capacitator at 25°C|
|Overload Protection||2.6|4|A||
|Short Circuit Protection|Trip and Restart|||||
|Temperature Coeffcient|||0.02|%/˚C||



## **General** 

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Characteristic Minimum Typical Maximum Units Notes & Conditions<br>Efficiency 92 % 230VAC, full load<br>**----- End of picture text -----**<br>


|Characteristc<br>Effciency|Minimum|Typical<br>92|Maximum|Units<br>%|Notes & Conditons<br>230VAC, full load|
|---|---|---|---|---|---|
|Isolation:  Input to Output<br>Input to Ground<br>Output to Ground|4000|||VAC|2 x MOPP|
||1500|||VAC|1 x MOPP|
||1500|||VAC|1 x MOPP|
|Switching Frequency|18||125|kHz|PFC, 30-550W|
||45||75||Main converter, 100-550W|
|Power Density|||1.465|W/cm3|Fan cooled|
|Patient Leakage Current|||90|µA||
|Mean Time Between Failure|230|300||khrs|MIL-HDBK-217F, 25°C GB.|
|Weight||390 (0.86)||g (lb)||



## **Environmental** 

|Characteristc|Minimum|Typical|Maximum|Units|Notes & Conditons|
|---|---|---|---|---|---|
|Operating Temperature|-30||+70|°C|Derate linearly from 100% load at 50°C ambient to 50% load at 70°C<br>ambient. Refer to cold temperature start-up load spec on page 2.|
|Storage Temperature|-40||+85|°C||
|Cooling|34|||m3/h|For fan cooled operation|
|Humidity|5||95|%RH|Non-condensing|
|OperatingAltitude|||4000 / 5000|m|Medical/ITE|
|Vibration|Single axis 10-500Hz at 2g sweep and endurance at resonance in all 3 planes. Conforms to EN60068-2-6|||||
|Shock|±3 x 30g shocks in each plane, total 18 shocks. 30g = 11ms (±0.5msecs), half sine. Conforms to EN60068-2-27|||||
|Baseplate Temperature|||110|°C|When using conduction cooling, max baseplate temperature is<br>110°C but some components are not thermally connected to the<br>baseplate. The temperatures of these components may not exceed<br>temperatures shown in the thermal consideration section on page 7|



3 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **Input Derating Curve** 

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600<br>Fan cooled (side blown_20CFM)<br>500<br>Conduc�on cooled (1°C/W)<br>400<br>350<br>Convec�on cooled (48V)<br>300<br>250270 Convec�on cooled (12V-36V)<br>220<br>200<br>100<br>0 80 115 120 160 180 200 240 280<br>Input Voltage (VAC)<br>Output Power (W)<br>**----- End of picture text -----**<br>


## **Input Derating Curve - 5VDC Standby** 

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2.5<br>2<br>1.8<br>1.5<br>1.3 0°C to +50°C<br>1.2<br>-1°C to -20°C<br>1<br>-21°C to -30°C<br>0.5<br>0<br>80 90 100 120 140 160 180 200 220 240 260 280<br>Input Voltage (VAC)<br>EMC: Emissions<br>Output Current (A)<br>**----- End of picture text -----**<br>


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Phenomenon Standard Test Level Notes & Conditions<br>**----- End of picture text -----**<br>


|Phenomenon|Standard|Test Level|Notes & Conditons|
|---|---|---|---|
|Conducted|EN55032/EN55011|Class B||
|Radiated|EN55032/EN55011|Class A||
|Harmonic Currents|EN61000-3-2|Class A||
|Voltage Flicker|EN61000-3-3|||



4 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **EMC: Immunity** 

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Phenomenon Standard Test Level Criteria Notes & Conditions<br>**----- End of picture text -----**<br>


|Phenomenon<br>|Standard<br>|Test Level|Criteria|Notes & Conditons|
|---|---|---|---|---|
|Medical Device EMC|IEC60601-1-2|Ed.4.0 : 2014|as below||
|Low Voltage PSU EMC|EN55035,<br>EN55024||as below||
|ESD Immunity|EN61000-4-2|4|A|±8kV contact|
|Radiated Immunity|EN61000-4-3|3|A||
|EFT/Burst|EN61000-4-4|3|A||
|Surge|EN61000-4-5|Installation class 3|A||
|Conducted|EN61000-4-6|3|A||
|Magnetic Field|EN61000-4-8|4|A||
|Dips and Interruptions|EN55024<br>(100VAC)|Dip >95% (0VAC), 8.3ms|A||
|||Dip 30% (70VAC), 416ms|A||
|||Dip>95%(0VAC), 4160ms|B||
||EN55024<br>(240VAC)|Dip >95% (0VAC), 10ms|A||
|||Dip 30% (168VAC), 500ms|A||
|||Dip >95% (0VAC), 5000ms|B||
||EN60601-1-2<br>(100VAC)|Dip 100% (0VAC), 10ms|A||
|||Dip 100% (0VAC), 20ms|A/B|<400W / >400W|
|||Dip 60% (40VAC), 200ms|A/B|<200W / >200W|
|||Dip 30% (40VAC), 500ms|A/B|<400W / >400W|
|||Dip 100% (0VAC), 5000ms|B||
||EN60601-1-2<br>(240VAC)|Dip 100% (0VAC), 10ms|A||
|||Dip 100% (0VAC), 20ms|A/B|<400W / >400W|
|||Dip 60% (96VAC), 200ms|A||
|||Dip 30% (168VAC), 500ms|A||
|||Dip 100% (0VAC), 5000ms|B||



## **Safety Approvals** 

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Certification Standard Notes & Conditions<br>**----- End of picture text -----**<br>


|Certfcaton|Standard|Notes & Conditons|
|---|---|---|
|CB Report|IEC62368-1|Audio/Video, Information and Communication<br>Technology Equipment|
||IEC60601-1 Ed 3 Including Risk Management|Medical|
|UL|UL62368-1|Audio/Video, Information and Communication<br>Technology Equipment|
||ANSI/AAMI ES60601-1 & CSA C22.2 No.60601-1|Medical|
|EN|EN62368-1|Audio/Video, Information and Communication<br>Technology Equipment|
||EN60601-1|Medical|
|CE|Meets all applicable directives||
|UKCA|Meets all applicable legislation||



|Isolaton|Standard|Notes & Conditons|
|---|---|---|
|Primary to Secondary|2 x MOPP (Means of Patient Protection)|IEC60601-1 Ed.3|
|Primary to Earth|1 x MOPP (Means of Patient Protection)||
|Secondary to Earth|1 x MOPP (Means of Patient Protection)||



5 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **Mechanical Details** Qi.» 

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 127 (5.00)<br> 6.35 (0.25)  115.6 (4.55)<br>faston ground tab<br>8 1<br>| >—fo = yee a. =<br>L4 CN3<br>x -—o {uo +Vout<br>COM<br>C47<br>3<br>CN1 C17 C18 TR1<br>1<br>2<br>! I:algG:: ‘be) ( COry 1 O&<br>Mounting Screw Holes (in 4 positions) CN2<br>Ø<br>3.1 (0.12)<br> 76.2 (3.00)  64.8 (2.55)<br> 37.6 (1.48)<br>**----- End of picture text -----**<br>


|Pin|CN1(3)|CN2(4)|CN3(5)|
|---|---|---|---|
|1|AC-N|-VFAN|+5V Standby|
|2||+VFAN|COM|
|3|AC-L||Power Good|
|4|||-Sense|
|5|||+Sense|
|6|||Remote On/Off|
|7|||COM|
|8|||+5V Standby|



Notes: 

1. All dimensions shown in mm (inches).  Tolerance: ±0.5 (0.02). 

2.  Weight:  Standard versions: 390g (0.86lbs) approx. 

   - -A versions: 400g (0.88lbs) approx. 

   4. Mates with Molex housing 22-01-1022 and 2759 crimp terminals. 

   5. Mates with JST Housing PHDR-08VS and SHPD-002T-P0.5. 

   6. DC output terminal screws are M3.5. 

3. Mates with JST Housing VHR-3N JST Series SVH-2T-P1.1 crimp terminals. 

6 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **Mechanical Details** 

Convection cooling 

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8mm<br>———— 81<br>L4<br>8mm<br>C48<br>D 2 GOD, : C47 8mm<br>3 C45<br>1 C17 C18 TR1 C46<br>1 [2]<br>8mm 8mm<br>8mm<br>**----- End of picture text -----**<br>


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Conduction cooling<br>8mm Edge A<br>Heat sink<br>LE Mg SL 8 D 1<br>L4<br>Edge B<br>8mm C48<br>All 3 O05 Osy C47 8mm<br>3 C45<br>1 C17 C18 TR1 C46<br>1 [2]<br>8mm<br>Heat sink Thermal grease<br>**----- End of picture text -----**<br>


Fan cooling 

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50mm<br>° Ile) ©<br>AaQQ00Oe®<br>34m [3] /h eo, aS]<br>Air Flow [a<br>FAN — |TeEiBB<br>|<br>i<br>lo 89 Gaye<br>34m [3] /h<br>Air Flow<br>= 9 J<br>8mm<br>FAN<br>8mm<br>ee 50mm esi<br>—_ ae<br>81 C45<br>C48 C47 C46 12<br>TR1<br>C18<br>L4<br>C17<br>3 1<br>**----- End of picture text -----**<br>


Notes: 

1. A gap of 8mm is required between the lower aluminium PCB and mounting surface to allow for air flow in convection and forced cooled applications. 

2. The thermal measurement point to determine base plate temperature in conduction cooled applications is 24mm from edge marked 'A' and 48mm from edge marked 'B' 

73 

AC-DC POWER SUPPLIES 

## **CCP550** Series 

## **Thermal Considerations** Co 

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 Mechanical Details for component locations. 

|Temperature Measurements (At Maximum Ambient)|Temperature Measurements (At Maximum Ambient)|
|---|---|
|Component|Max Temperature °C|
|L4 Coil|130°C|
|TR1 Coil|130°C|
|Q4|120°C|
|C17|105°C|
|C18|105°C|
|C47|105°C|
|Baseplate|110°C|



## **Service Life** C ~~o~~ 

The estimated service life of the CCP550 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 two key capacitors within the product when installed in the end application. 

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Lower Aluminium Substrate PCB Upper PCB<br>8 1<br>L4 L4<br>a go Os<br>C47<br>3<br>Q4 TR1 1 C17 C18 TR1<br>"9 Lh (; | Ele, h (\ =O<br>2<br>1<br>FSre Oe a], [__lig] ta ©<br>The graph below expresses the estimated lifetime of a given component temperature and assumes continuous operation at this temperature.<br>100000<br>80000<br>60000<br>C47 C17<br>40000<br>20000<br>0<br>105 95 85 75 65 55 45<br>Component Temperature (°C)<br>Lifetime (hrs)<br>**----- End of picture text -----**<br>


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

88 

07 March 2024