WPA60R48D1510C

Corporate: www.cdtechno.com Corporate: www.cdtechno.com Product: www.cd4power.com WPA60R48DC Series 60 Watt Dual Output Quarter Brick DC/DC Converter RoHS Compliant 2.3" x 1.45" x 0.40" (58.42mm x 36.83mm x 10.16mm) Dual Outputs - Output 1/Output 2 Vdc: 1.5/1.0; 1.8/1.2; 2.2/1.5; 2.5/1.8; 3.3/1.2; 3.3/1.8; 3.3/2.5; 5.0/1.5; 5.0/3.3 Independently Regulated Outputs 36V - 75V Input Range Industry Standard Pinouts andard Pino s ard Pinout Input & Output Filtering put Output Filtering t Outp Remote On/Off Function Through-Hole Mounting Meets Basic Insulation Requirements of EN60950 UL/CUL 60950, VDE EN60950 Approved Fixed Frequency Operation No M No Minimum Load Requirements Hiccup Mode Output Over Current icc cu Protection Prote Pr tec Self-resetting Over Voltage Protection elf-re res The WPA60R48DC Series are high hig igh n performance DC/DC converters providing s providing ding iCo ng two independent regulated outputs. For uts ts. maximum flexibility, power can be traded e traded between outputs as required. The unit delivers high performance across all line and load conditions. The WPA60R48DC Series are assembled by a fully automated process using surface mount components for increased reliability. WPA DC-DC converter modules are certified to UL/CUL 60950, and VDE to cto t Fa Itt is designed to meet CISPR22/ EN60950. I designed EN6 EN6095 esigned tac EN55022/FCC15J Class B specs for EMI EN55022/FCC 22/FCC15J C levels with external filtering. w Other features include: Full Regulation Down to Zero Load Undervoltage Lock-Out Auto-Start Internal Temperature Shutdown Auto-Reset Soft Start rR ry fo me lace ep el Mod nt ISO9001 CERTIFIED Remote On/Off (Available in Positive or Negative Logic) Over Current Protection Overvoltage Protection Output Voltage Adjust on Both Outputs PRODUCT SELECTION CHART 1 NOMINAL INPUT VOLTAGE (VDC) 48 48 48 48 48 48 48 48 48 OUTPUT #1 1.5 1.8 2.2 2.5 3.3 3.3 3.3 5.0 5.0 OUTPUT #2 1.0 1.2 1.5 1.8 1.2 1.8 2.5 1.5 3.3 MIN 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 OUTPUT CURRENT MAX LOAD (A) 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 12.0 TYPICAL EFFICIENCY (%) 82 82 86 86 89 89 89 89 90 MODEL WPA60R48D1510C* WPA60R48D1812C* WPA60R48D2215C* WPA60R48D2518C* WPA60R48D3312C* WPA60R48D3318C* WPA60R48D3325C* WPA60R48D0515C* WPA60R48D0533C* LOAD(A) Input current at nominal input line = 1.45A (Output Power = 60W) *Models available with -1 option (negative logic) 1 Total output power not to exceed 60 Watts WPA60R48DC REV A: RoHS 08/2006 SPECIFICATIONS, ALL MODELS Specifications are at TA = +25°C, Airflow = 300LFM (1.5m/s) at nominal input voltage unless otherwise specified. PARAMETER INPUT Voltage Range Reflected Ripple Current INPUT CONTROL Temperature Shutdown Temperature Hysteresis Quiescent Standby Current Undervoltage Lockout Undervoltage Shutdown CONDITIONS Vin = 48V, Io=I Rated MIN 36 TYP 48 MAX 75 675 UNITS VDC mApk-pk INPUT PCB Vin = 48VDC 120 5 8 32.5 2 10 °C °C mA V V SPECIFICATIONS Specifications are at TA = +25°C, Airflow = 300LFM (1.5m/s) at nominal input voltage unless otherwise specified. put voltage othe oth PARAMETER ISOLATION Rated Voltage Resistance Capacitance Leakage Current OUTPUT Rated Power Voltage Setpoint Accuracy y Temperature Coefficient Output Voltage (Over all conditions of I/P voltage age ge load & temperature) Ripple & Noise (NOTE 1) Output Adjust Range Trim Up Trim Down Short Circuit and Overcurrent Protection Max Capacitive Load Overvoltage Protection GENERAL Switching Frequency MTTF per ML-HDBK-217 Ground Benign Package Weight TEMPERATURE Operation/Specification Storage Shutdown Temperature CONDITIONS MIN MIN 2000 2000 TYP TYP YP MAX UNITS VDC 240 VAC VAC ory Fact ct onta C for el 10 Mod10 1000 1000 ent cem 90 la Rep 60 ±1.5 ±0.005 2 8 90 8 5 120 10,000 15 M pF Arms W % %/°C % of Nom % of Nom mVp-p % % % F % GENERAL V1 V2 BW = 5Hz to 20MHz 350 Circuit Stress Method TA = +25° Unmodified Database 1,000,000 30 KHz Hr g PCB Temperature PCBTemperature PCB Temperature -40 -55 +120 +100 +125 °C °C °C NOTE 1: Measured at 20 MHz bandwidth across a 6 f multi layer ceramic capacitor located approximately 1” from output terminals. Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 2 MECHANICAL PIN FUNCTIONS 1 2 3 4 5 6 7 +Vin Remote On/Off -Vin +Vout2 Return Trim +Vout1 NOTES: Pin placement tolerance: +.010 Pin material: Brass Pin Finish: Tin/Lead over Nickel Converter weight: [24g] rR ry fo c ERIN NFORM OFaDto RDERI RDERING INFOR t R ERING INFORMATION acr To Find Model Numbe Model Number l ont m Model Numbers C WPA60R48D R48D 48D yz yz C Device Family 60 Watt, Dual Output, Quarter Brick, 48VDC Input Range Model Number Selected from Product Selection Chart (above) y = 15 = 1.5V, 18 = 1.8V, 22 = 2.2V, 25 = 2.5V, 33 = 3.3V, 05 - 5.0V, z = 10 = 1.0V, 12 = 1.2V, 15 = 1.5V, 18 - 1.8V 25 = 2.5V, 33 = 3.3V Remote On/Off Logic Positive Logic - No Number Negative Logic - 1 RoHS Compliant WPA60R48D1510C WPA60R48D1812C WPA60R48D2215C WPA60R48D2518C WPA60R48D3312C WPA60R48D3318C WPA60R48D3325C WPA60R48D0515C WPA60R48D0533C WPA60R48D1510-1C WPA60R48D1812-1C WPA60R48D2215-1C WPA60R48D2518-1C WPA60R48D3312-1C WPA60R48D3318-1C WPA60R48D3325-1C WPA60R48D0515-1C WPA60R48D0533-1C me lace ep od nt M el Part Numbers 6064965 6064957 6064956 6064955 6064953 6064952 6064951 6064966 6064954 6064993 6064992 6064991 6064990 6064989 6064988 6064987 6064994 6064986 THROUGH-HOLE SOLDERING INFORMATION These devices are intended for wave soldering or manual soldering. They are not intended to be subject to surface mount processes under any circumstances. The normal wave soldering process can be used with these devices where the device is subjected to a maximum wave temperature of 260°C for a period of no more than 10 seconds. Within this time and temperature range, the integrity of the device’s plastic body will not be compromised and internal temperatures within the converter will not exceed 175°C. Care should be taken to control manual soldering limits identical to that of wave soldering. Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 3 APPLICATION NOTES Operation Output Voltage Trim Each of the WPA60C’s output voltages may be simultaneously adjusted above or below the nominal set point by a value as indicated on the Product Data Sheet. As shown in Figure 1, to raise the converter output voltage a resistor must be placed between the Trim pin and Return pin. Remote ON/OFF Function The WPA60C is equipped with a primary ON/OFF pin used to remotely turn the converter on or off via a system signal. The input is TTL open-collector and/or FET open-drain compatible. For the positive logic model a system logic low signal will turn the unit off. For negative logic models a system logic high signal will turn the converter off. For negative logic models where no control signal will be used the ON/OFF pin should be connected directly to –Vin to ensure proper operation. For positive logic models where no control signal will be used the ON/OFF pin should be left open for normal operation. + Vin + Vout1 Trim ON/OFF + Vin + Vout1 RL1 Trim ON/OFF WPA60C (Top View) Return + Vout2 RT RL2 - Vin Figure 1 – Trim Up Circuit WPA60C (Top View) Return + Vout2 To lower the converter output voltage a resistor must be placed between the Trim pin and Vout1 pin as shown in Figure 2. Control Signal + Vout1 RT Trim ON/OFF RL1 - Vin + Vin Figure 3 – Remote ON/OFF Control Circuit WPA60C (Top View) Return RL2 + Vout2 Protective Functions Temperature Shutdown The over temperature shutdown feature of the WPA60C will cause the unit to shutdown at a typical pwb temperature of 120oC. This protective feature is comprised of a thermistor in the unit control loop. At a temperature of 120oC this circuit will cause the PWM to go into an idle mode, resulting in no output from the converter and preventing damage to the converter components. When the temperature of the unit drops below 120oC the fault condition will clear and the converter will resume normal operation. If the cause of the over temperature condition is not identified and corrected the unit will continue to cycle on and off. - Vin Figure 2 – Trim Down Circuit The resistance value required to achieve the desired amount of positive/negative trim can be determined by referring to the trim graph for each model. If trimming is not desired then the Trim pin should be left unconnected. Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 4 APPLICATION NOTES Input Under-Voltage Shutdown The nominal input voltage for the WPA60C is 48Vdc. At an input voltage of 32.5Vdc nominal the unit will shutdown on an input under-voltage condition. At an input voltage less than 32.5V the under-voltage sensing circuit will send a signal to the PWM causing it to go into idle mode. This will result in no output from the converter, protecting the unit from a high input current condition. When the input voltage returns to a level above 32.5V the unit will return to normal operation. The unit will typically turn on at an input voltage of 34.5V nominal as indicated on the Product Data Sheet. This is due to hysterisis designed into the protective circuit to prevent excessive cycling of the converter. Over-Current Protection To protect against fault or short-circuit conditions on the output, each module is equipped with current-limiting circuitry designed to provide continuous protection. After reaching the current limit point (typically 20% above the rated output current), the voltage will range between its rated value and zero, depending upon the amount of overload. The unit will remain in operation continuously during this period down to a short-circuit condition. Once the short or overload has been eliminated, the output voltage will return to normal without cycling the input power. Performance Characterization Thermal Derating Maximum ouput current vs. ambient temperature at various airflow rates has been determined for each model of the WPA60C. From these graphs, the combination of maximum ambient temperature and minimum airflow for select output current combinations can be determined. Each model was analyzed for maximum allowable output power over an ambient temperature range of 0 to 85oC and for airflows up to 600LFM. In each case the maximum allowable power at a given airflow and ambient temperature is defined as the point at which a known component reaches its individual temperature limit. Efficiency Efficiency data for each model was determined as a function of Load Current and Input Voltage. Efficiency vs. Load Current was measured at an ambient temperature of 25oC, an airflow of 300LFM with an input voltage of 48Vdc. Efficiency vs. Input Voltage was measured at an ambient temperature of 25oC, an airflow of 300LFM and rated load. Graphs for each model are provided in their respective section. Start-Up, ON/OFF and Transient Response For each model, waveforms are provided showing output voltage response and timing to input voltage power up/down, Remote ON/OFF state change and load current transient responses. Separate traces are provided showing the on/off timing sequence of the two outputs relative to one another. Output voltage transient responses are provided for step load changes of 50% - 100% of rated load current and 100% - 50% of rated load. Waveforms for each model are provided in their respective section. Safety The WPA60C meets safety requirements per UL/ CUL 60950 and VDE to EN60950. Additionally, the converter meets CISPR22/ EN55022/ FCC15J Class B specs for EMI levels with external filtering. Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 5 PERFORMANCE CURVES: WPA60R48D0533C and WPA60R48D0533-1C MODEL WPA60R48D0533C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 V2 Rise Time (V1 and V2) V1 V2 VIN Time Scale = 50ms/div Product: www.cd4power.com Time Scale = 500 s/div 6 WPA60R48DC REV A: RoHS 08/2006 PERFORMANCE CURVES: WPA60R48D0533C and WPA60R48D0533-1C Turn Off Time (VIN to VOUT) V1 V2 Primary On Time (Primary Remote to VOUT) V1 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 10ms/div CH1 (5.0Vdc) Transient Response 50% to 100% Load Step CH1 (5.0Vdc) Transient Response 100% to 50% Load Step I1 I1 V1 V1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (3.3Vdc) Transient Response 50% to 100% Load Step CH2 (3.3Vdc) Transient Response 100% to 50% Load Step I2 I2 V2 V2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 7 WPA60R48DC REV A: RoHS 08/2006 PERFORMANCE CURVES: WPA60R48D0515C and WPA60R48D0515-1C MODEL WPA60R48D0515C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) Rise Time (V1 and V2) V1 V1 V2 V2 VIN Time Scale = 50ms/div Time Scale = 1ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 8 PERFORMANCE CURVES: WPA60R48D0515C and WPA60R48D0515-1C Turn Off Time (VIN to VOUT) Primary On Time (Primary Remote to VOUT) V1 V2 V1 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 2ms/div CH1 (5.0Vdc) Transient Response 50% to 100% Load Step CH1 (5.0Vdc) Transient Response 100% to 50% Load Step I1 I1 V1 V1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.5Vdc) Transient Response 50% to 100% Load Step CH2 (1.5Vdc) Transient Response 100% to 50% Load Step I2 I2 V2 V2 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 08/2006 9 PERFORMANCE CURVES: WPA60R48D3325C and WPA60R48D3325-1C MODEL WPA60R48D3325C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) Rise Time (V1 and V2) V1 V2 V1 V2 VIN Time Scale = 50ms/div Time Scale = 1ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 10 PERFORMANCE CURVES: WPA60R48D3325C and WPA60R48D3325-1C Turn Off Time (VIN to VOUT) Primary On Time (Primary Remote to VOUT) V1 V2 V1 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 2ms/div CH1 (3.3Vdc) Transient Response 50% to 100% Load Step I1 CH1 (3.3Vdc) Transient Response 100% to 50% Load Step I1 V1 V1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (2.5Vdc) Transient Response 50% to 100% Load Step I2 I2 CH2 (2.5Vdc) Transient Response 100% to 50% Load Step V2 V2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 08/2006 11 PERFORMANCE CURVES: WPA60R48D3318C and WPA60R48D3318-1C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 Rise Time (V1 and V2) V1 VIN V2 Time Scale = 100ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Time Scale = 1ms/div 12 PERFORMANCE CURVES: WPA60R48D3318C and WPA60R48D3318-1C Turn Off Time (VIN to VOUT) Primary On Time (Primary Remote to VOUT) V1 V1 V2 V2 VIN ON/OFF Time Scale = 100 s/div Time Scale = 2ms/div CH1 (3.3Vdc) Transient Response 50% to 100% Load Step V1 CH1 (3.3Vdc) Transient Response 100% to 50% Load Step V1 I1 I1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.8Vdc) Transient Response 50% to 100% Load Step V2 CH2 (1.8Vdc) Transient Response 100% to 50% Load Step V2 I2 I2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 13 PERFORMANCE CURVES: WPA60R48D3312C and WPA60R48D3312-1C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 V2 Rise Time (V1 and V2) V1 V2 VIN Time Scale = 100ms/div Time Scale = 1ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 14 PERFORMANCE CURVES: WPA60R48D3312C and WPA60R48D3312-1C Turn Off Time (VIN to VOUT) V1 V2 V2 Primary On Time (Primary Remote to VOUT) V1 VIN ON/OFF Time Scale = 100 s/div Time Scale = 2ms/div CH1 (3.3Vdc) Transient Response 50% to 100% Load Step V1 CH1 (3.3Vdc) Transient Response 100% to 50% Load Step V1 I1 I1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.2Vdc) Transient Response 50% to 100% Load Step V2 CH2 (1.2Vdc) Transient Response 100% to 50% Load Step V2 I2 I2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 15 PERFORMANCE CURVES: WPA60R48D2518C and WPA60R48D2518-1C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 Rise Time (V1 and V2) V2 V1 V2 VIN Time Scale = 100ms/div Time Scale = 2ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 16 PERFORMANCE CURVES: WPA60R48D2518C and WPA60R48D2518-1C Turn Off Time (VIN to VOUT) V1 V2 Primary On Time (Primary Remote to VOUT) V1 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 2ms/div CH1 (2.5Vdc) Transient Response 50% to 100% Load Step V1 CH1 (2.5Vdc) Transient Response 100% to 50% Load Step V1 I1 I1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.8Vdc) Transient Response 50% to 100% Load Step CH2 (1.8Vdc) Transient Response 100% to 50% Load Step V2 V2 I2 I2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 17 PERFORMANCE CURVES: WPA60R48D2215C and WPA60R48D2215-1C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 V2 Rise Time (V1 and V2) V1 V2 VIN Time Scale = 50ms/div Product: www.cd4power.com Time Scale = 1ms/div 18 WPA60R48DC REV A: RoHS 08/2006 PERFORMANCE CURVES: WPA60R48D2215C and WPA60R48D2215-1C Turn Off Time (VIN to VOUT) V1 V2 Primary On Time (Primary Remote to VOUT) V1 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 2ms/div CH1 (2.2Vdc) Transient Response 50% to 100% Load Step V1 CH1 (2.2Vdc) Transient Response 100% to 50% Load Step V1 I1 I1 Voltage Scale = 200mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 200mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.5Vdc) Transient Response 50% to 100% Load Step CH2 (1.5Vdc) Transient Response 100% to 50% Load Step V2 V2 I2 I2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 19 PERFORMANCE CURVES: WPA60R48D1812C and WPA60R48D1812-1C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 V2 Rise Time (V1 and V2) V1 V2 VIN Time Scale = 50ms/div Time Scale = 1ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 20 PERFORMANCE CURVES: WPA60R48D1812C and WPA60R48D1812-1C Turn Off Time (VIN to VOUT) Primary On Time (Primary Remote to VOUT) V1 V1 V2 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 5ms/div CH1 (1.8Vdc) Transient Response 50% to 100% Load Step V1 CH1 (1.8Vdc) Transient Response 100% to 50% Load Step V1 I1 I1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.2Vdc) Transient Response 50% to 100% Load Step V2 CH2 (1.2Vdc) Transient Response 100% to 50% Load Step I2 Voltage Scale = 20mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Voltage Scale = 20mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 21 PERFORMANCE CURVES: WPA60R48D1510C and WPA60R48D1510-1C Efficiency vs. Output Current @ TA = +250C Efficiency vs. Input Voltage @ TA = +250C Trim Up Graph Trim Down Graph Turn On Time (VIN to VOUT) V1 V2 Rise Time (V1 and V2) V1 V2 VIN Time Scale = 50ms/div Time Scale = 1ms/div Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 22 PERFORMANCE CURVES: WPA60R48D1510C and WPA60R48D1510-1C Turn Off Time (VIN to VOUT) Primary On Time (Primary Remote to VOUT) V1 V2 V1 V2 VIN ON/OFF Time Scale = 500 s/div Time Scale = 2ms/div CH1 (1.5Vdc) Transient Response 50% to 100% Load Step I1 CH1 (1.5Vdc) Transient Response 100% to 50% Load Step I1 V1 V1 Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Voltage Scale = 100mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s CH2 (1.0Vdc) Transient Response 50% to 100% Load Step I2 CH2 (1.0Vdc) Transient Response 100% to 50% Load Step I2 V2 V2 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 Voltage Scale = 50mV/div; Time Scale = 100 s/div di/dt = 0.2A/ s 23 THERMAL DERATING CURVES Thermal Derating (WPA60R48D0533C) Thermal Derating (WPA60R48D0515C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 24 THERMAL DERATING CURVES Thermal Derating (WPA60R48D3325C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 25 THERMAL DERATING CURVES Thermal Derating (WPA60R48D3318C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 26 THERMAL DERATING CURVES Thermal Derating (WPA60R48D3312C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 27 THERMAL DERATING CURVES Thermal Derating (WPA60R48D2518C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 28 THERMAL DERATING CURVES Thermal Derating (WPA60R48D2215C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 29 THERMAL DERATING CURVES Thermal Derating (WPA60R48D1812C) Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 30 THERMAL DERATING CURVES Thermal Derating (WPA60R48D1510C) epl or R ry f acto tF ntac Co del t Mo en cem a Power Electronics Division, Americas 3400 E Britannia Drive, Tucson, Arizona 85706 Tel: 800.547.2537 Fax: 520.295.4197 Any data, prices, descriptions or specifications presented herein are subject to revision by C&D Technologies, Inc. without notice. While such information is believed to be accurate as indicated herein, C&D Technologies, Inc. makes no warranty and hereby disclaims all warranties, express or implied, with regard to the accuracy or completeness of such information. Further, because the product(s) featured herein may be used under conditions beyond its control, C&D Technologies, Inc. hereby disclaims all warranties, either express or implied, concerning the fitness or suitability of such product(s) for any particular use or in any specific application or arising from any course of dealing or usage of trade. The user is solely responsible for determining the suitability of the product(s) featured herein for user’s intended purpose and in user’s specific application. C&D Technologies, Inc. does not warrant or recommend that any of its products be used in any life support or aviation or aerospace applications. Product: www.cd4power.com WPA60R48DC REV A: RoHS 08/2006 31