Test Procedure for the NCP1937BADAPGEVB Evaluation Board Chroma 61604 N E L Fluke 87V 4.250 DC A ~ mA --A V- V+ I+ IYokogawa WT210 Agilent 34401A Vout A mAµA COM V COM Chroma 6314 1/22/2013 1 www.onsemi.com Table 1: Required Equipment *Chroma 61604 AC Power Source *Chroma 6314 Electronic Load with *Chroma 63103 Load Module *Yokogawa WT210 Power Analyzer *Fluke 87V True RMS Multimeter *Agilent 34401A Digital Multimeter One NCP1937 Evaluation Board *Equivalent test equipment may be substituted Test Procedure: 1. Connect the Fluke 87V in series between the J2 output and the Chroma 63103 load module. Reference figure 1. 2. Set Chroma 63103 load module to CCH mode. 3. Set load current on Chroma 63103 module to 500mA 4. Connect the Agilent 34401A multimeter to the J2 output as shown on figure 1. 5. Connect the AC power source and power analyzer as shown in figure 1. 6. Set the AC power source to 90 VAC, 60Hz and turn on power source 7. Wait 10 seconds and verify that the voltage measured on Agilent meter is 20 +/- 0.25V. Verify load current on Fluke meter. 8. Set the load current to 4.25A. Verify on Fluke meter that current is 4.25A +/- 1% 9. Allow evaluation board to run for approximately 1 minute then use Yokogawa to measure input power and power factor. Calculate the efficiency and record measurements. 10. Repeat step 9 at 115 VAC / 60 Hz, 230 VAC / 50 Hz, 265 VAC, 50 Hz. Verify the results are within the limits of Table 2. 11. Reduce load current to 2.125A. Verify on Fluke meter that current is 2.125 +/- 1% 12. Repeat step 9 for 90 VAC / 60 Hz, 115 VAC / 60 Hz, 230 VAC / 50 Hz, 265 VAC, 50 Hz. Verify the results are within the limits of Table 3. 13. Reduce load current to 500mA. 14. With power supply live, safely disconnect load from power supply. Verify that output voltage begins to decay. 15. Verify that output voltage decays to 15 V then reconnect load to power supply. Verify that output voltage recovers to 20 +/- 0.25V. 16. Turn off the AC power source. 17. Since high voltage will be present on bulk capacitor, C3, use a dc voltmeter to verify voltage is less than 50 VDC before continuing. 18. Disconnect the ac source. 19. Disconnect the electronic load 20. Disconnect multimeters 21. End of test 1/22/2013 2 www.onsemi.com Table 2: Full Load Results 90 VAC / 60 Hz 115 VAC / 60 Hz 230 VAC / 50 Hz 265 VAC / 50 Hz Vo = 20 +/- 0.25V PF > 0.98 η > 88.5% Vo = 20 +/- 0.25V PF > 0.98 η > 89% Vo = 20 +/- 0.25V PF > 0.94 η > 90% Vo = 20 +/- 0.25V PF > 0.94 η > 90% Table 3: Half Load Results 90 VAC / 60 Hz 115 VAC / 60 Hz 230 VAC / 50 Hz 265 VAC / 50 Hz 1/22/2013 Vo = 20 +/- 0.25V PF < 0.7 η > 88% Vo = 20 +/- 0.25V PF < 0.7 η > 89% Vo = 20 +/- 0.25V PF < 0.7 η > 90% Vo = 20 +/- 0.25V PF < 0.7 η > 90% 3 www.onsemi.com