DATASHEET CLP0412 Open Frame Power Supply 90 - 265Vac Input 12Vdc Output 450W Output Power Trapezoidal 75-130Vac Input 12Vdc Output . Description 3 Offering a W/in power density in a 1U high, less form the a broad range of in new products from industrial equipment and (OEMs). Higher temperature operation is possible at derated output The utilizes a unique design approach at power level, leveraging zero switching in conjunction power factor (PFC) circuits. Protection features include overvoltage (OVP) Applications include: Industrial Equipment Telecommunications Equipment CATV Equipment (Trapezoidal Input) Features Compact size 76.2 mm x 127 mm x 36.8 mm (3 in x 5 in x Output overcurrent protection (non-latching) 3 1.45 in) with density of 20.7 W/in Overtemperature and output over-voltage protections Universal AC Input Range (90 - 265VAC ) Minimum of 11ms of holdup time at 450W out Trapezoid AC Input Range (75V - 130VAC) Parallelable with output current sharing Output voltage of 12V or 54V (adjustable 3% ) Active power factor corrected input Standby output of 5V 1A (standard versions) Conducted EMI - meets CISPR22 (EN55022) and FCC Class Maximum output current of 37.5A 12Vout (450W) B requirements High efficiency (92% at Full Load, 230VAC in ) Meets IEC61000-4-5, Level 4 (2kV/4kV) 450W capability at 42 and 1m/s airflow with derating at UL and cUL approved to UL/CSA60950-1, TUV (EN60950- higher temperatures or lower airflows 1), CE Mark (for LVD) and CB Report available Capable of 320W output in sealed enclosure applications, ISO** 9001 and ISO 14001 certified manufacturing facilities with enclosure ambient at 55 Capable of 225W at 75Vin Trapezoidal inside sealed enclosure with enclosure outside ambient at 55 See footnotes on page 4 Page 1 2020 ABB. All rights reserved. Technical Specifications Absolute Maximum Ratings Stresses over the absolute maximum ratings can cause permanent damage to the device. These are absolute stress ratings only. Functional operation of the device is not implied at these or any other conditions over those given in the operations sections of the data sheet. Exposure to absolute maximum ratings for extended periods can adversely affect the device reliability. Parameter Device Min Max Unit Input Voltage - Continuous Operation All 90 265 Vac For up to 10 seconds operation All 90 275 Vac Input Voltage-continuous-CATV Powering trapezoidal wave- CLP0412-FPXXX- form (Note: Output power is limited to 254W when 75V input, 75 130 V RMS Z05A 275W when 90V input, 320W when 130V input Operating Ambient Temperature All -40 85 C (see Thermal Considerations section) Storage Temperature All -40 85 C Humidity (non-condensing) All 5 95 % Altitude All 5000 m Isolation VoltageInput to output All 3000 Vac Input to safety ground All 1500 Vac Outputs to safety ground All 50 Vac Electrical Specifications Parameter Device Min Typ Max Unit All 90 115/230 265 Vac Operating Input Voltage CLP0412FPXXXZ05A 75 90 130 V RMS Input Source Frequency All 47 50/60 63 Hz Input Current (V = 90Vac) All 5.57 A IN RMS Input Power Factor (230Vac, Full Load) All 0.95 Inrush Transient Current (V = 265Vac, T = 25C) All 60 A Peak IN amb Leakage Current to earth ground (V = 265Vac) All 3.5 mA IN Output Voltage Setpoint All 12 Vdc Output Voltage Tolerance (due to set point, temperature variations, load All -2 2 % and line regulation) Output Voltage Adjustment Range (adjust potentiometer see page 9) Z01A 45 51 Vdc Output Remote Sense Range All 250 mVdc Output Load Regulation All 1 %Vout Output Line Regulation All 0.5 %Vout Output Ripple and Noise measured with 0.1F ceramic capacitor 1 and 470F polymer capacitor in parallel. Peak-to-peak (20MHz All 240 mV p-p Bandwidth) Dynamic Load Response 50% to 100% load transient, 1/s slew rate Output voltage deviation All 5% % Settling Time All 500 s Output Current Z01A 0 37.5 Adc Z03A 0 37.5 Adc Z05A 0 26.7 Adc Output Current Limit Inception All 105 140 % I O,max Maximum Output Capacitance All 1000 F Standby Output Voltage All 5 Vdc Standby Output Current All 1 Adc -continued on next page- See footnotes on page 4 Page 2 2020 ABB. All rights reserved.