开关电源可靠性测试范例

开关电源测试报告模板篇一：电源测试报告模板电源技术认证报告关键词： AC/DC、电源模块、认证测试摘要：该报告对电源进行了详细的测试，并对其中测试的问题进行总结和记录，以供产品选型参考。

一、测试项目二、测试仪器列表三、测试结论四、原始数据记录1、负载动态响应（必须提供测试波形）（/us, 1ms）(1)常温工作(2)高温工作(3)低温工作2、纹波及噪声记录表（必须提供测试波形） (1)常温特性(2)高温特性(3)低温特性注1：纹波VPP电容，示波器20MHz频率。

3、开关机性能（必须提供测试波形）（输入电压：220VAC，负载：满载）(1)常温特性(2)高温特性(3)低温特性注1注2：开关机的方式有开关和插拔2种，均需进行试验。

4、启动性能（常温下）注110%额定值上升到90%额定值的时间。

5、7、整机效率(1)常温特性(2)高温特性(3)低温特性910、注1注2：过压保护各路相对独立，一路保护不影响其他路。

注2：可用电子负载“Short”短路或导线直接短路。

篇二：开关电源适配器测试报告模板适配器12V/1A测试报告方案基本参数一览修订更新版本注：在原板上进行了以下修改：1、变压器参数更新（进行成本优化）2、输入电容修改为15uF/400V3、输出二极管修改为SR31004、可去除次级吸收回路（R21、C7）（纹波指标仍然优秀）一. 说明此文档是针对FD9020D 12V/1A适配器的测试报告，可用于90~264Vac全电压输入范围下工作。

适合12W以内的适配器电源及小家电产品的应用。

二. 测试主要项目1）电气参数测试2）电性能参数测试3）转换效率及空载功耗测试 4）常温老化测试 5）关键元件温度测试三. 测试使用的仪器1．输入交流调压器：AC POWER SOURCE APS-95012．输出电子负载：FT6301A3．示波器：DSO-X-2022A （Agilent Technologies）4．交流输入功率计：WT210 DIGITAL POWER METER 5．数字万用表34970A6．红外热成像仪 Fluke Ti200四. 方案的实物图五. 主要项目测试记录：%（线末端测试）：%（线末端测试）小结：FD9020D 12V/1A适配器能够满载工作在90V~264V范围的工作条件下，板上输出电压范围为~，具有良好的电压调整率及负载调整率。

开关电源测试报告模板篇一：电源测试报告模板电源技术认证报告关键词： AC/DC、电源模块、认证测试摘要：该报告对电源进行了详细的测试，并对其中测试的问题进行总结和记录，以供产品选型参考。

一、测试项目二、测试仪器列表三、测试结论四、原始数据记录1、负载动态响应（必须提供测试波形）（/us, 1ms）(1)常温工作(2)高温工作(3)低温工作2、纹波及噪声记录表（必须提供测试波形） (1)常温特性(2)高温特性(3)低温特性注1：纹波VPP电容，示波器20MHz频率。

3、开关机性能（必须提供测试波形）（输入电压：220VAC，负载：满载）(1)常温特性(2)高温特性(3)低温特性注1注2：开关机的方式有开关和插拔2种，均需进行试验。

4、启动性能（常温下）注110%额定值上升到90%额定值的时间。

5、7、整机效率(1)常温特性(2)高温特性(3)低温特性910、注1注2：过压保护各路相对独立，一路保护不影响其他路。

注2：可用电子负载“Short”短路或导线直接短路。

篇二：开关电源适配器测试报告模板适配器12V/1A测试报告方案基本参数一览修订更新版本注：在原板上进行了以下修改：1、变压器参数更新（进行成本优化）2、输入电容修改为15uF/400V3、输出二极管修改为SR31004、可去除次级吸收回路（R21、C7）（纹波指标仍然优秀）一. 说明此文档是针对FD9020D 12V/1A适配器的测试报告，可用于90~264Vac全电压输入范围下工作。

适合12W以内的适配器电源及小家电产品的应用。

二. 测试主要项目1）电气参数测试2）电性能参数测试3）转换效率及空载功耗测试 4）常温老化测试 5）关键元件温度测试三. 测试使用的仪器1．输入交流调压器：AC POWER SOURCE APS-95012．输出电子负载：FT6301A3．示波器：DSO-X-2022A （Agilent Technologies）4．交流输入功率计：WT210 DIGITAL POWER METER 5．数字万用表34970A6．红外热成像仪 Fluke Ti200四. 方案的实物图五. 主要项目测试记录：%（线末端测试）：%（线末端测试）小结：FD9020D 12V/1A适配器能够满载工作在90V~264V范围的工作条件下，板上输出电压范围为~，具有良好的电压调整率及负载调整率。

ELECTRICAL TEST REPORT (ADAPTER)Item Test Specification Result Page #RemarksA.INPUT CHARACTERIZATION1.1Input Current/Power/Efficiency/Power Factor Eff%>84%;Iin<1.5A PASS31.2No Load Input Power&Active Mode EfficiencyNo load(Pin＜0.5W);0.5W load(Pin＜1.0W);1.0W load(Pin＜1.7W);1.5W load(Pin＜2.4W);11.6W load(Pin＜14W)18.7W load(Pin＜22W)Average efficiency>87%PASS41.3Acoustic Noise<25dB(A)PASS6 1.4Inrush Current No damaged(Cold Start)PASS7 1.5Line Cycle Dropout No latch off PASS9 1.6Brownout&BO Recovery No damaged PASS11 1.7Total Harmonic Distortion To start up and no damage PASS12 1.8Line Voltage Surge No damaged PASS13 1.9Line Voltage Sag No damaged PASS14 1.10AC Voltage Dip Immunity No latch off PASS151.11Harmonic Current EN61000-3-2class D PASS16B.OUTPUT CHARACTERIZATION2.1Load,Line Cross Regulation18.55Vdc~19.95Vdc PASS18 2.2Peak Load 6.16Asurge load for2mSec;Vo>17Vdc PASS19 2.3Ripple and Noise<380mVp-p PASS20 2.4Dynamic Loading Response18.55Vdc~19.95Vdc PASS22 2.5Output Over/Under Shoot<10%PASS242.6Turn On Delay/Hold up/DC Rise/Fall Time Power-on time＜2Sec;Hold up time>5mS;Rise time<100mSPASS262.7Loop Gain>45deg.PASS30C.PROTECTION3.1Short circuit Protection No damage PASS313.2Over Current Protection>5.7A PASS333.3Over Voltage Protection Vmax:27V PASS34D.EMC/SAFETY/ENVIRONMENTAL4.1Electric Strength(Hi-Pot)＜10mA PASS364.2Leakage Current<50uA@100Vac;<100uA@240Vac.PASS374.3Insulation Resistance(IR)>20MΩPASS384.4Electromagnetic Discharge(ESD)IEC61000-4-2PASS394.5Electromagnetic Fast Transient And Burst(EFT)IEC61000-4-4PASS414.6AC Surge Immunity(PLD_BI Wave)EN61000-4-5PASS434.7Electromagnetic Compatibility Under-6dB PASS45Pass / Fail: According to specification 4 hours storage at 0℃, and operating at 40℃N.S. : Not Specified Test Equipment: TOPNOTCH OTC-2B-N Open Chamber N.T. : Not Tested CHROMA Series AC Source / DC LoadPrepared Checked(TE)Checked(EE)ApprovedA. INPUT CHARACTERIZATION1.1 INPUT CURRENT/POWER/EFFICIENCY/POWER FACTORTest conditions:The unit is set at maximum load and the input voltage is varied from the minimum to themaximum value. Efficiency is computed and Power Factor is either computed or measured after10 minutes warm up at least.Test equipment:Chroma Model 8000 Power Supply Auto Test SystemChroma Model # 6590 9KVA Low Impedance AC SourceChroma Model # 630X0 DC LoadChroma Model # 6630 Power AnalyzerPass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASS@25︒CVin(Vac)Freq(Hz)Iin(A)Pin(W)Vout(V)Pout(W)Pd(W)PF Eff(%) 90.00047.000 1.283103.90018.79088.85315.0470.89985.518 100.00050.000 1.128102.70018.78888.87713.8230.90886.540 115.00050.0000.965101.60018.80288.94812.6520.91387.547 120.00050.0000.924101.50018.78088.80612.6940.91387.494 130.00050.0000.851101.20018.78088.84112.3590.91287.788 140.00050.0000.790100.90018.78888.87712.0230.91088.084 150.00050.0000.738100.80018.79088.88811.9120.90788.183 160.00060.0000.695100.70018.80288.94811.7520.90388.329 170.00060.0000.655100.40018.79888.92411.4760.89988.570 180.00060.0000.620100.50018.79288.90011.6000.89788.458 190.00060.0000.589100.30018.78588.86511.4350.89388.599 200.00060.0000.563100.40018.78888.84111.5590.88888.487 210.00060.0000.539100.50018.78588.83011.6700.88488.388 220.00060.0000.517100.50018.78888.87711.6230.87988.434 230.00060.0000.498100.70018.79288.90011.8000.87588.282 240.00060.0000.481100.80018.79588.87711.9230.87088.171 250.00060.0000.465100.80018.80588.92411.8760.86588.218 264.00063.0000.447101.00018.79088.85312.1470.85387.973@0︒CVin(Vac)Freq(Hz)Iin(A)Pin(W)Vout(V)Pout(W)Pd(W)PF Eff(%) 90.00047.000 1.279103.60018.87089.23214.3680.89986.131 100.00050.000 1.127102.30018.86889.25513.0450.90787.248 115.00050.0000.967101.50018.87589.25512.2450.91187.936 120.00050.0000.926101.30018.86889.22012.0800.90988.075 130.00050.0000.852101.20018.88089.27911.9210.90988.220 140.00050.0000.789100.70018.86289.19611.5040.90988.576 150.00050.0000.739100.50018.88289.29111.2090.90588.846160.00060.0000.693100.40018.87089.23211.1680.90288.876 170.00060.0000.654100.20018.86889.25510.9450.89989.077 180.00060.0000.619100.10018.86889.22010.8800.89689.131 190.00060.0000.588100.10018.86889.22010.8800.89389.131 200.00060.0000.561100.20018.87289.24310.9570.88989.065 210.00060.0000.537100.20018.88089.27910.9210.88589.101 220.00060.0000.516100.30018.88289.29111.0090.88089.024 230.00060.0000.496100.20018.88589.30210.8980.87589.124 240.00060.0000.479100.30018.88589.30210.9980.87089.035 250.00060.0000.463100.40018.87889.26711.1330.86488.911 264.00063.0000.444100.40018.87589.25511.1450.85388.900@40 CVin(Vac)Freq(Hz)Iin(A)Pin(W)Vout(V)Pout(W)Pd(W)PF Eff(%) 90.00047.000 1.276103.60018.86589.17214.4280.90186.074 100.00050.000 1.125102.30018.86089.14913.1510.90787.145 115.00050.0000.963101.20018.86889.18412.0160.91188.127 120.00050.0000.922101.10018.87289.20811.8920.91288.237 130.00050.0000.849100.80018.88089.24311.5570.91088.535 140.00050.0000.787100.50018.88289.25511.2450.90988.811 150.00050.0000.735100.40018.87089.19611.2040.90788.841 160.00060.0000.692100.20018.86289.16111.0390.90388.983 170.00060.0000.652100.00018.86289.16110.8390.89989.161 180.00060.0000.618100.10018.86889.18410.9160.89689.095 190.00060.0000.58799.80018.87589.22010.5800.89389.399 200.00060.0000.56099.90018.88589.26710.6330.88989.356 210.00060.0000.536100.10018.88589.26710.8330.88589.178 220.00060.0000.51599.90018.88289.25510.6450.88089.345 230.00060.0000.495100.10018.87889.23210.8680.87589.142 240.00060.0000.477100.10018.87089.19610.9040.87089.107 250.00060.0000.462100.20018.86589.17211.0280.86488.995 264.00063.0000.444100.40018.87289.20811.1920.85488.8531.2 ACTIVE MODE EFFICIENCY & NO LOAD INPUT POWERTest conditions:The unit is set at no load and the rated input voltage for at least 15 minutes. The ambient temperature is set between 15 Deg C to 35 Deg C Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 65909KVA Low Impedance AC Source Chroma Model # 630X0 DC LoadChroma Model # 6630 Power Analyzer Pass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASSNo Load Power Consumption: (Pin<0.5W)InputVoltage(Vac)Load(W)Iin rms(A)PowerFactor Pin(W)Vo (Vdc)1150.000.0500.0100.28119.3472300.000.0840.0160.31019.3470.5W Load Power Consumption: (Pin<1.0W)Input Voltage(Vac)Load(W)Iin rms(A)PowerFactorPin(W)Vo (Vdc)1150.50.0510.0730.43219.3452300.50.0840.0290.59019.3451.0W Load Power Consumption: (Pin<1.7W)Input Voltage(Vac)Load(W)Iin rms(A)PowerFactorPin(W)Vo (Vdc)115 1.00.0530.177 1.07419.343230 1.00.0850.063 1.24019.3431.5W Load Power Consumption: (Pin<2.4W)Input Voltage(Vac)Load(W)Iin rms(A)PowerFactorPin(W)Vo (Vdc)115 1.500.0550.273 1.72319.337230 1.500.0860.096 1.90019.33711.6W Load Power Consumption: (Pin<14W)Input Voltage(Vac)Load(W)Iin rms(A)PowerFactorPin(W)Vo (Vdc)11511.60.1410.80613.13019.28523011.60.1090.52613.17019.27018.7W Load Power Consumption: (Pin<22W)Input Voltage(Vac)Load(W)Iin rms(A)PowerFactorPin(W)Vo (Vdc)11518.70.2100.86320.96019.23723018.70.1360.68221.42019.237Active Mode Efficiency:Vin (Vac)Fin (Hz)Iin (A)Pin (W)Iout (A)Vout (V)Pout (W)Pd(W)P.F Eff(%)THD(%)Average EFF(%)Result 115.060.00.963101.404.73118.7888.8612.540.9187.6380.10115.060.00.72475.90 3.54718.9367.158.750.9188.4650.10115.060.00.48450.30 2.36419.0745.09 5.210.9089.6510.11115.060.00.25125.35 1.18119.2122.69 2.660.8889.5260.12115.060.00.0500.170.00219.340.040.130.0321.7140.1288.820PASS 230.050.00.495100.604.73118.7988.8911.710.8888.3580.14230.050.00.37575.50 3.54718.9367.178.330.8788.9690.15230.050.00.26050.60 2.36419.0845.11 5.490.8489.1430.15230.050.00.15225.59 1.18319.2122.73 2.860.7388.8150.91230.050.00.0840.260.00419.340.070.190.0127.8940.1588.821PASS1.3 ACOUSTIC NOISETest conditions:Measurements to determine the AC adapter sound pressure are made using a 1/2” low noise free-field microphone in a inner size with 45(W)×45(D)×65(H) cm^3 Anechoic chamber. Test equipment:Anechoic Chamber: Free-Field Acoustics Corp. Lower than 10dB(A) background noise.B & K Portable Pulse – Type 3560C, Microphone: 4190, Preamplifier: 2669LPass/Fail criteria:The AC Adapter shall produce no human perceivable audible noise (less then 25dB).Test result: PASSBack Ground 5.86dB (A)Specification No human perceivable audible noise(20 ~ 20KHz)Input Voltage / Reading (dB)Output Load(A)115Vac230Vac0 A21.616.91.58A18.621.0Max23.422.8The above diagram depicts the microphone of the frontal plane of the microphone to the Adapter and the height of the centerline of the microphone to the Adapter.Acoustic Noise Test Set-Upt i mea ndA ll t hi 1.4 INRUSH CURRENTTest condition:For cold start test at room ambient, the adapter should be off for at least one hour at the test temperature to ensure it is at a uniform temperature before the test is started. Turn on the UUT at 90 degrees at positive cycle or 270 degrees at negative cycle. Between each test, the UUT shall be cooled down for at least 3 minutes and the Bulk Cap’s Energy is discharged.For hot start test at max. Operating ambient, the adapter should be on and running for at least one hour at the test temperature to ensure it is at a uniform temperature before the test is started.- Repetitive ON/OFF (1Sec. ON/1Sec. OFF for 10 times) cycling of the UUT and turn on at 90 degrees at positive cycle or 270 degrees at negative cycle. Between each test, the Bulk Cap’s Energy shall be discharged.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC LoadTektronix AM503 Current Probe Amplifier Tektronix A6303 Current Probe Tektronix TDS-5054 OscilloscopePass/Fail criteria:The inrush current shall meet the specification requirements.AC line inrush current shall not damage any components, nor cause the AC line fuse to blow, under any DC load conditions, any ambient temperature, and with any ac line input voltage and frequency.Test result: PASSExtended Name = Cold start 25 deg. ambient; after 1 hour in off stage Vin=90Vac Inrush Current=57.6A. 1).Vin 4).Iin Extended Name = Cold start 25 deg. ambient; after 1 hour in off stage Vin=264Vac Inrush Current=138.0A. 1).Vin 4).Iingareg oo d f or s o mExtended Name = Hot start 25 deg. ambient; Repetitive on/off cycle 10 times. Vin=90Vac Inrush Current=56.4A. 1).Vin 4).Iin Extended Name = Hot start 25 deg. ambient; Repetitive on/off cycle 10 times. Vin=264Vac Inrush Current=138.0A. 1).Vin 4).Iint i mea nd A ll t hi n gs int he i rb ei n 1.5 LINE CYCLE DROPOUTTest conditions:The unit is subjected to a dropout of the AC line voltage from 100Vac/50Hz to zero volt for duration which equal to 7mS repeated 10 times with a period of 1 second. The unit is fully loaded. Dropout shall occur at any input phase angle.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 Oscilloscope Tektronix P5100 ProbePass/Fail criteria:The unit test need not maintain within regulation but shall not latch off.Test result: PASSExtended Name = Dropout; 100Vac/50Hz (0 deg) Dropout 10 ms at Max. Load 1) Vin 2) Vo Extended Name = Dropout; 100Vac/50Hz (90 deg) Dropout 10 ms at Max. Load 1) Vin 2) VoExtended Name = Dropout; 100Vac/50Hz (270 deg) Dropout 10 ms at Max. Load 1) Vin 2) Vo1.6 BROWNOUT & BROWNOUT RECOVERYTest conditions:1. The input voltage decreases from 90Vac/50Hz down to zero in 30 minutes.2. The input voltage increases from 0Vac up to 90Vac/50Hz in 30 minutes.Test equipment:CHROMA 6530 AC SOURCE CHROMA 630XX DC LOADPass/Fail criteria:1. The input voltage below the minimum specifies shall not cause damage to the power supply unit (due to over-heating or otherwise).2. The PSU shall recover after an AC power reset.Test result:PASS @25 Cll t hi n gs in t he i rb ei 1.7 TOTAL HARMONIC DISTORTIONTest conditions:The power line is distorted (flat-topped) with a total harmonic distortion of up to 10% (100Vac @ 50 Hz with 10 % THD = 90 Vrms).Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 65909KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 Oscilloscope Tektronix P5100 Probe Pass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASSExtended Name = Start up operation. 100Vac/50Hz @ Full Load (1) Vin (2) VoutExtended Name = Continuous operation. 100Vac/50Hz @ Full Load (1) Vin (2) Voutd A ll t hi n gs in t he i r1.8 LINE VOLTAGE SURGETest conditions:While the unit is operating with maximum continuous load, the line voltage is switched to the surge voltage as indicated below:• 220Vac to 286Vac for 1sec, and back to 220Vac at 50Hz, repeated 10 times with 10 seconds interval.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 Oscilloscope Tektronix P5100 Probe Pass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASSExtended Name = Line Surge 220Vac to 286Vac for 1.0 sec. Full Load.1) Vin 2) Vod A ll t hi n gs in t he i r1.9 LINE VOLTAGE SAGTest conditions:While the unit is operating with maximum continuous load, the line voltage is switched to the sag voltage as indicated below:• 100Vac to 80Vac for 0.5 sec., and back to 100Vac at 50Hz, repeated 10 times with 10 seconds interval.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 Oscilloscope Tektronix P5100 Probe Pass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASSExtended Name = Line Sag 100Vac to 80Vac for 500mS.1) Vin 2) Vo1.10 VOLTAGE DIP IMMUNITYTest conditions:While the unit is operating with maximum continuous load, the 100Vac/50Hz and 240Vac/50Hz line voltage is switched to the dip voltage as indicated below:• 30%, 60%, 100% dip voltage for:0.5cycle, 1cycle, 5cycle, 10cycle, 25cycle, 50cycle, 250cycle durationsTest equipment:Chroma Model 8000 Power Supply Auto Test SystemChroma Model # 6590 9KVA Low Impedance AC SourceChroma Model # 630X0 DC LoadTektronix TDS-5054 OscilloscopePass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASSDip Voltage (Vin=100Vac/50Hz)Dip Voltage (Vin=240Vac/50Hz) Duration times30%60%100%30%60%100%0.5 cycle*1*1*1*1*1*11 cycle*1*1*1*1*1*15 cycle*1*1*2*1*1*210 cycle*1*2*2*1*1*225 cycle*1*2*2*1*1*250 cycle*1*2*2*1*1*2Note: *1 Output within spec & no damage; *2 Self shutdown & no damage1.11 HARMONIC CURRENTS & EN61000-3-2 PRE-COMPLIANCETest condition:The harmonic components are compared with the limits set for Class D equipment. The input voltage is set at indicated values and the harmonic current values are recorded and compared to the EN61000-3-2 requirements.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 OscilloscopePass/Fail criteria:The harmonic current values shall meet the EN61000-3-2 requirements.Test result: PASSVin(Vac)Fin(Hz)Iin(A)PF Pin(W)THD Test Result 100.00050.000 1.1350.858103.12339.090PASS 230.00050.0000.5020.791101.37446.140PASSInput(Vac)Standard ClassOrder Reading Limit %1 1.057**20.012**30.3730.80446.42040.007**50.1510.44933.66060.004**70.0470.23719.82280.004**90.0330.11827.895100.004**110.0450.08354.831120.005**130.0390.07056.063140.003**150.0240.06139.044160.002**170.0060.05410.634180.002**190.0120.04825.678200.002**210.0160.04336.866220.002**230.0050.04012.626240.002**250.0020.036 6.319260.002**270.0070.03419.881100.000JapanClass D280.002**290.0050.03116.879300.002**310.0060.02921.769320.001**330.0040.02813.043340.001**350.0060.02623.846360.001**370.0050.02521.951380.001**390.0030.02311.538400.001**10.456**20.006**30.2080.34560.45840.003**50.0190.1939.96960.002**70.0150.10115.08980.002**90.0070.05114.201100.001**110.0020.036 5.352120.001**130.0030.03010.333140.001**150.0030.02610.385160.001**170.0020.023 6.522180.001**190.0010.021 6.829200.001**210.0010.019 4.839220.001**230.0010.017 4.706240.000**250.0010.0167.051260.000**270.0010.014 3.448280.001**290.0010.014 5.926300.001**310.0010.013 5.556320.000**330.0010.012 5.085340.000**350.0000.011 1.786360.000**370.0010.010 4.762380.000**390.0000.0100.867230.000IEC-1000-3-2Class D400.001**B. OUTPUT CHARACTERIZATION2.1 LOAD, LINE/CROSS REGULATIONTest condition:Test is repeated from different input voltages. The output is at minimum load then at maximum. Test equipment:Chroma Model 8000 Power Supply Auto Test SystemChroma Model # 6590 9KVA Low Impedance AC SourceChroma Model # 630X0 DC LoadPass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASS@25︒CVin(V)Fre.(Hz)Power(W)Load(A)Vout(V)90.00047.0000.0730.00019.362100.00050.0000.073---19.360240.00060.0000.0730.00019.360264.00063.0000.073---19.36090.00047.00045.201 2.37019.103100.00050.00045.201---19.103240.00060.00045.201 2.37019.103264.00063.00045.189---19.09790.00047.00089.089 4.74018.825100.00050.00089.101---18.827240.00060.00089.077 4.74018.823264.00063.00089.054---18.825@0︒CVin(V)Fre.(Hz)Power(W)Load(A)Vout(V)90.00047.0000.1100.00019.360100.00050.0000.073---19.361240.00060.0000.0730.00019.360264.00063.0000.073---19.36090.00047.00045.657 2.37019.105100.00050.00045.663---19.103240.00060.00045.646 2.37019.108264.00063.00045.646---19.09790.00047.00090.296 4.74018.824100.00050.00090.098---18.827240.00060.00090.001 4.74018.823264.00063.00090.045---18.825@40︒CVin(V)Fre.(Hz)Power(W)Load(A)Vout(V) 90.00047.0000.0730.00019.380 100.00050.0000.073---19.380 240.00060.0000.0360.00019.380 264.00063.0000.073---19.380 90.00047.00045.320 2.37019.138 100.00050.00045.290---19.140 240.00060.00045.314 2.37019.135 264.00063.00045.278---19.135 90.00047.00089.314 4.74018.872 100.00050.00089.302---18.870 240.00060.00089.350 4.74018.880 264.00063.00089.361---18.875mea ndA ll t hi n gs in t he i r2.2 PEAK LOAD.Test conditions:The output regulation shall be kept for a period of 5Sec at 6.32A peak load from90W.Test equipment:Tektronix TCP-202 Current Probe Tektronix TDS-5054 OscilloscopePass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASS@25︒CVin (Vac)Fin (Hz)Initial Load(A)Surge Load(A)DurationTime(mS)Vout Max Spec.(V)Vout Min Spec.(V)Vout Max.(V)Vout Min.(V)Result 90.0047.00 4.74 6.325000.0019.9517.0018.9218.48PASS 264.0063.00 4.74 6.325000.0019.9517.0018.8818.52PASSExtended Name = 90Vac @Full load then peak to 6.32A 2). Vout 3). IoutExtended Name = 264Vac @Full load then peak to 6.32A 2). Vout 3). Iout@0︒CVin (Vac)Fin (Hz)Initial Load(A)Surge Load(A)DurationTime(mS)Vout Max Spec.(V)Vout Min Spec.(V)Vout Max.(V)Vout Min.(V)Result 90.0047.00 4.74 6.325000.0019.9517.0018.9218.52PASS 264.0063.00 4.74 6.325000.0019.9517.0018.9218.16PASSa nd A ll t hi n gs in t he i rb ega reg oo d f or s o mExtended Name = 90Vac @Full load then peak to 6.32A 2). Vout 3). Iout Extended Name = 264Vac @Full load then peak to 6.32A 2). Vout 3). Iout@40 CVin (Vac)Fin (Hz)Initial Load(A)Surge Load(A)DurationTime(mS)Vout Max Spec.(V)Vout Min Spec.(V)Vout Max.(V)Vout Min.(V)Result90.0047.00 4.74 6.325000.0019.9517.0018.9218.56PASS 264.0063.00 4.74 6.325000.0019.9517.0018.9218.32PASSExtended Name = 90Vac @Full load then peak to 6.32A 2). Vout 3). IoutExtended Name = 264Vac @Full load then peak to 6.32A 2). Vout 3). Ioutea nd A ll t hi n gs in 2.3 RIPPLE AND NOISE (P.A.R.D.)Test conditions:Ripple voltage and noise are measured at the pins of the mating connector of which each output is decoupled by a high frequency and tantalum capacitor. Bandwidth is set at 20MHz.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TCP202 Current Probe Tektronix P5100 ProbeTektronix TDS-5054 Oscilloscope Pass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASS @25 CInput(Vac)FrequencyTotal Power (W)Load (A)PARD (mV)90470.070.00088.0264630.070.000112.0904789.07 4.740216.02646389.104.740180.0Extended Name = 90V/ 47Hz 0A 1) Vpk-pkExtended Name = 264V/ 63Hz 0A 1) Vpk-pknd A ll t hi n gs in t he i rb ei n a reg oo d f or s o Extended Name = 90V/47Hz Full Load 1) Vpk-pk Extended Name = 264V/ 63Hz Full Load 1) Vpk-pk @0 CInput(Vac)FrequencyTotal Power (W)Load (A)PARD (mV)90470.070.000107.2264630.070.000113.6904789.27 4.740264.02646389.294.740196.0Extended Name = 90V/ 47Hz 0A 1) Vpk-pkExtended Name = 264V/ 63Hz 0A 1) Vpk-pknd A ll t hi n gs in t he i rb ei n a reg oo d f or s o Extended Name = 90V/47Hz Full Load 1) Vpk-pk Extended Name = 264V/ 63Hz Full Load 1) Vpk-pk @40 CInput(Vac)FrequencyTotal Power (W)Load (A)PARD (mV)90470.070.000123.2264630.070.000160.0904789.46 4.740276.02646389.504.740252.0Extended Name = 90V/ 47Hz 0A 1) Vpk-pkExtended Name = 264V/ 63Hz 0A 1) Vpk-pka reg oo d f or s o Extended Name = 90V/47Hz Full Load 1) Vpk-pk Extended Name = 264V/ 63Hz Full Load 1) Vpk-pk2.4 DYNAMIC LOAD RESPONSETest conditions:The dynamic load response changes at a rate and load step and frequency change are basis specification defined.Test equipment:Chroma Model 8000 Power Supply Auto Test SystemChroma Model # 6590 9KVA Low Impedance AC SourceChroma Model # 630X0 DC LoadChroma Model # 6630 Power AnalyzerTektronix TDS-5054 OscilloscopeTektronix P5100 ProbeTektronix TCP202 Current ProbePass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASS@25 CDynamic load condition Vspec-max Vspec-min Vreading-max Vreading-min Test result90Vac/ 47Hz; 0%load ~50%load;100Hz; 1.0A/uS. 19.95018.55019.28118.908PASS264Vac/ 63Hz; 0%load ~50%load;100Hz;1.0A/uS. 19.95018.55019.29918.906PASS90Vac/ 47Hz; 50%load ~100%load;100Hz; 1.0A/uS. 19.95018.55019.04118.630PASS264Vac/ 63Hz; 50%load~100%load;100Hz;1.0A/uS.19.95018.55019.03018.681PASSt i mea nd A hi n gs in t he i rb ei n ga reg oo d f or s o mExtended Name = 90Vac/ 47Hz; 0%load ~50%load;100Hz;1.0A/uS. (1) Vo (3) Io Extended Name = 90Vac/ 47Hz; 0%load ~50%load;100Hz;1.0A/uS. (1) Vo (3) IoExtended Name = 90Vac/ 47Hz; 50%load ~100%load;100Hz;1.0A/uS. (1) Vo (3) IoExtended Name = 90Vac/ 47Hz; 50%load ~100%load;100Hz;1.0A/uS. (1) Vo (3) Io@0 CDynamic load conditionVspec-max Vspec-min Vreading-max Vreading-min Test result 90Vac/ 47Hz; 0%load ~50%load;100Hz; 1.0A/uS.19.95018.05019.29018.928PASS 264Vac/ 63Hz; 0%load ~50%load;100Hz; 1.0A/uS.19.95018.05019.29118.926PASS 90Vac/ 47Hz; 50%load ~100%load;100Hz; 1.0A/uS.19.95018.05019.08118.677PASS 264Vac/ 63Hz; 50%load ~100%load;100Hz; 1.0A/uS.19.95018.05019.07318.677PASSt i mea nd t hi n gs in t he i rb ei n ga reg oo d f or s o Extended Name = 90Vac/ 47Hz; 0%load ~50%load;100Hz;1.0A/uS. (1) Vo (3) Io Extended Name = 90Vac/ 47Hz; 0%load ~50%load;100Hz;1.0A/uS. (1) Vo (3) IoExtended Name = 90Vac/ 47Hz; 50%load ~100%load;100Hz;1.0A/uS. (1) Vo (3) IoExtended Name = 90Vac/ 47Hz; 50%load ~100%load;100Hz;1.0A/uS. (1) Vo (3) Io@40 CDynamic load condition Vspec-max Vspec-min Vreading-max Vreading-min Test result 90Vac/ 47Hz; 0%load ~50%load;100Hz; 1.0A/uS.19.95018.05019.27918.907PASS 264Vac/ 63Hz; 0%load ~50%load;100Hz; 1.0A/uS.19.95018.05019.28118.906PASS 90Vac/ 47Hz; 50%load ~100%load;100Hz; 1.0A/uS.19.95018.05019.04618.685PASS 264Vac/ 63Hz; 50%load19.95018.05019.03218.715PASSA ll t hi n gs in t he i rb ei n ga reg oo d f or s ~100%load;100Hz; 1.0A/uS.Extended Name = 90Vac/ 47Hz; 0%load ~50%load;100Hz;1.0A/uS. (1) Vo (3) Io Extended Name = 90Vac/ 47Hz; 0%load ~50%load;100Hz;1.0A/uS. (1) Vo (3) IoExtended Name = 90Vac/ 47Hz; 50%load ~100%load;100Hz;1.0A/uS. (1) Vo (3) IoExtended Name = 90Vac/ 47Hz; 50%load ~100%load;100Hz;1.0A/uS. (1) Vo (3) Iomea nd A ll t hi n gs i2.5 OUTPUT OVER/UNDER SHOOTTest conditions:The power adapter unit was tested either at Turn On/Off or from Full Load to No Load.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 Oscilloscope Pass/Fail criteria:The unit test shall meet the specification requirements.Test result: PASSConditionOutput OvershootMax.(%)Output Overshoot Reading.(%)Output Voltage Max.(V)Output Voltage Reading.(V)Test Result Turn on overshoot; Vin=90Vac; No Load 10.00 1.63*19.53PASS Turn on overshoot; Vin=90Vac; Full Load 10.00 1.69*18.97PASS Turn on overshoot; Vin=264Vac; No Load 10.00 1.64*19.53PASS Turn on overshoot; Vin=264Vac; Full Load10.001.70*18.97PASSExtended Name = Turn on overshoot; Vin=90Vac; No Load 2) VoExtended Name = Turn on overshoot; Vin=90Vac; Full Load 2) Voga reg oo d f or s o mExtended Name = Turn on overshoot; Vin=264Vac; No Load 2) Vo Extended Name = Turn on overshoot; Vin=264Vac; Full Load 2) Voi mea nd A ll t hi n gs 2.6 TIMING REQUIREMENTSTest conditions:The following timings are measured:• AC Turn-on delay: Output voltage shall reach its nominal setting from AC power on.• AC Hold-up time: The output voltage shall remain its normal setting from AC power off.• DC output rise time: The output voltage rise time measured from 10% to 90%.• DC output fall time: The output voltage fall time measured from 90% to 10%.Test equipment:Chroma Model 8000 Power Supply Auto Test System Chroma Model # 6590 9KVA Low Impedance AC Source Chroma Model # 630X0 DC Load Tektronix TDS-5054 Oscilloscope Tektronix P5100 ProbePass/Fail criteria:All parameters shall be within specification.Test result: PASSTiming Condition Vin(Vac)Freq(Hz)Spec Max.(mS)Spec Min.(mS)Reading(mS)Result Turn on 90Vac; Full Load 90.0047.00**168.40PASS Turn on 115Vac; Full Load 115.0060.003000.00*90.80PASS Turn on 230Vac; Full Load 230.0050.003000.00*122.00PASS Turn on 264Vac; Full Load264.0063.00**66.40PASSExtended Name = Turn on 90Vac; Full Load 1) Vin 2) VoExtended Name = Turn on 115Vac; Full Load 1) Vin 2) Vo。

开关电源测试报告模板篇一：电源测试报告模板电源技术认证报告关键词： AC/DC、电源模块、认证测试摘要：该报告对电源进行了详细的测试，并对其中测试的问题进行总结和记录，以供产品选型参考。

一、测试项目二、测试仪器列表三、测试结论四、原始数据记录1、负载动态响应（必须提供测试波形）（/us, 1ms）(1)常温工作(2)高温工作(3)低温工作2、纹波及噪声记录表（必须提供测试波形） (1)常温特性(2)高温特性(3)低温特性注1：纹波VPP电容，示波器20MHz频率。

3、开关机性能（必须提供测试波形）（输入电压：220VAC，负载：满载）(1)常温特性(2)高温特性(3)低温特性注1注2：开关机的方式有开关和插拔2种，均需进行试验。

4、启动性能（常温下）注110%额定值上升到90%额定值的时间。

5、7、整机效率(1)常温特性(2)高温特性(3)低温特性910、注1注2：过压保护各路相对独立，一路保护不影响其他路。

注2：可用电子负载“Short”短路或导线直接短路。

篇二：开关电源适配器测试报告模板适配器12V/1A测试报告方案基本参数一览修订更新版本注：在原板上进行了以下修改：1、变压器参数更新（进行成本优化）2、输入电容修改为15uF/400V3、输出二极管修改为SR31004、可去除次级吸收回路（R21、C7）（纹波指标仍然优秀）一. 说明此文档是针对FD9020D 12V/1A适配器的测试报告，可用于90~264Vac全电压输入范围下工作。

适合12W以内的适配器电源及小家电产品的应用。

二. 测试主要项目1）电气参数测试2）电性能参数测试3）转换效率及空载功耗测试 4）常温老化测试 5）关键元件温度测试三. 测试使用的仪器1．输入交流调压器：AC POWER SOURCE APS-95012．输出电子负载：FT6301A3．示波器：DSO-X-2022A （Agilent Technologies）4．交流输入功率计：WT210 DIGITAL POWER METER 5．数字万用表34970A6．红外热成像仪 Fluke Ti200四. 方案的实物图五. 主要项目测试记录：%（线末端测试）：%（线末端测试）小结：FD9020D 12V/1A适配器能够满载工作在90V~264V范围的工作条件下，板上输出电压范围为~，具有良好的电压调整率及负载调整率。

电源测试报告一、功率因数与效率测试1、使用仪器设备：AC SOURCE(交流电源)、电子负载、万用表、功率表；2、测试条件：输入电压220Vac,输入频率50Hz/60Hz,输出带最大负载1.7A、常温25℃；3、测试方法：1）、依规格设定测试条件；输入电压、输入频率、最大负载；2）、从功率表中读取Pin and PF值，并读取输出电压计算Pout;3）、功率因数=Pin/(Vin*Iin),效率=Pout/Pin*100﹪;4、测试数据二、能效测试1、使用仪器设备：AC SOURCE(交流电源)、电子负载、万用表、功率表；2、测试条件：输入电压220Vac,输入频率50Hz/60Hz,输出负载分别为1.7A，1.275A,0.85A,0.425A;3、测试方法：1）、在测试前将产品在标称负载条件下预热1分钟;2)、按负载大小由大到小分别记录220V ac/50Hz/60Hz输入时的输入功率（Pin），输入电流(Iin),输出电压（Vo1,Vo2）,功率因数（PF）,然后计算各负载下的效率；3）、在空载时记录输入功率与输入电流。

4、测试数据三、纹波与噪声测试1、使用仪器设备：AC SOURCE(交流电源)、电子负载、示波器；2、测试条件：输入电压220Vac,输入频率50Hz/60Hz，负载分别为1.7A，1.275A,0.85A,0.425A，0A，常温25℃；3、测试方法：按测试回路接好各测试仪器，设备，及待测品，测电源在各负载下的纹波与噪声；4、测试数据及最大幅值的波形。

四、上升/下降时间测试1、使用仪器设备：AC SOURCE(交流电源)、电子负载、示波器；2、测试条件：输入电压220Vac,输入频率50Hz/60Hz，负载为1.7A；3、测试方法；示波器的CH1和CH2分别接V o1 和Vo2,用光标中的“时间”,量测各路输出从电压10﹪至90﹪的上升时间以及90﹪至10﹪的下降时间。

开关电源适配器测试项目名称+板号：测试人：测试日期：注：新板测试前先220Vac输入，满载输出老化30min。

一、电气参数测试一、基本参数输入电压：输入功率：W 输出电压（板）：V 输出电压（线）：V 90V110V180V220V264V输入电压：输入功率：W 输出电压（板）：V 输出电压（线）：V 90V110V180V220V264V输入电压：输入功率：W 输出电压（板）：V 输出电压（线）：V 90V110V180V220V264V输入电压：输入功率：W 输出电压（板）：V 输出电压（线）：V 90V110V180V220V264V输入电压：输入功率：W 输出电压（板）：V 输出电压（线）：V 90V110V180V220V264V输入电压：输入功率：W 输出电压（板）：V 输出电压（线）：V 90V110V180V220V264V条件：220V输入，满载输出，示波器探头并接0.1uF陶瓷电容和10uF电解电容100%负载波形编号纹波值：mV100%负载波形编号纹波值：mV负载变化110Vac 220Vac波形编号电压偏差波形编号电压偏差25%~50%50%~75%条件：满载输出，开机时输出电压最大过（欠）冲波形编号过（欠）冲值90V110V180V220V264VVDD电压测试90Vac 110Vac 180Vac 220Vac 264Vac 空载25%负载50%负载75%负载100%负载满载-空载切换空载-满载切换条件：满载输出，测试二极管两端电压220V 264V上电触发电压波形编号：峰值电压：稳定工作电压波形编号峰值电压去除吸收回路后：220V 264V上电触发电压波形编号：峰值电压：稳定工作电压波形编号峰值电压七、CS波形测试条件：满载输出，直流模式220Vac波形编号负压尖峰条件：满载输出，交流模式220Vac波形编号纹波值条件：使用高压探头。

满载，测试芯片漏极波形。

（300V输入测试仅在客户有要求时测试）264V 300V（选测）上电触发电压波形编号：峰值电压：稳定工作电压波形编号峰值电压输出短路，上电触发波形编号峰值电压测试条件：满载输出，测试从上电到输出电压上升到90%V out的时间，双踪探头。

开关电源的可靠性测试开关电源是利用现代的电力电子技术，控制开关管的导通和关闭的时间比率，得到稳定输出电压的一种电源。

开关电源的需求越来越大，同时对可靠性提出了越来越高的要求。

开关电源在工作工程中，内部的功率器件工作在大电流、高电压的开关模式状态，运行环境非常恶劣，在运行过程中会受到各种外界因素的影响。

同时，开关电源运行时，内部产生很大的电磁干扰。

开关电源的输入工作电压，通常也会出现很大的波动，负载也会出现动态的变动。

内部开关管、整流管、磁性元件会产生大量的热量，导致整个电源产品的表面温度升高，因此，如何减少设计缺陷、保证开关电源可靠性就成为开关电源设计的重要难题。

在研发过程中的测试，则是发现问题、解决问题的关键。

本篇文章通过对开关电源外界影响分析，介绍开关电源评估测试需要考虑的内容。

一、测试组织测试工作应该是产品研发过程中的重要一环。

要做好测试工作，首先要有较好的测试组织团队，它应该具体以下条件：1.要有一个稳定的、独立的测试团队。

测试团队的成员要有良好的专业素质、扎实的理论基础、丰富的实践经验和广泛的知识面。

2.测试团队的工作应保持相对的独立性。

团队的测试设计、测试过程、测试方法、测试内容等方面保持自己的独立性，不受其他项目或者其他部门的干扰。

3.要有根据客人的基本需求和可靠性要求的测试设计过程。

4.要形成一套完整的测试规范，保证测试结果的一致性和可重复性。

5.要有完整的测试故障整理规范，保证测试故障的解决。

二、测试内容开关电源在实践的运行当中，能否长期稳定可靠地工作，外界因素的影响是十分关键的。

因此，在研发过程当中，需要对外界的各种因素进行模拟测试和分析，才能保证出厂后的电源产品能够适应外界各种因素的变化，提供高质量的电源输出。

1.环境温度和适度的影响。

环境温度和湿度是影响开关电源以及其他电子设备的最重要的外界因素。

环境温度的升高，会使开关电源的元器件性能的变化，也会使元件的温度升高，降低了元件的使用寿命。

可靠性实验页码第页共页4.2 测试要求4.2.1低温启动试验设备：恒温恒湿箱、功率计、交流源、电子负载（可用电阻负载代替）试验环境：室温环境样品数量：3pcs测试条件：1)输入电压：输入下限电压、额定电压、上限电压。

2)负载条件：满载、轻载（选用条件）。

3)环境温度：EUT要求最低工作环境温度。

4)持续时间：≥0℃ 2Hrs；＜0℃ 4Hrs试验步骤：1)接线图如下，按照线路图连接设备：2)启动恒温恒湿箱，将箱内温度降至EUT工作的下限环境温度，以1℃/分钟的速率上升或下降。

如环境温度要求为0摄氏度或以上，则保持2小时，否则保持4小时低温环境时间。

3)将输出负载设定为满载（如有特别要求除外），然后以输入电压下限输入，接着额定电压输入，最后输入电压的上限输入。

4)如步骤3中EUT无法启动，则将将负载改为轻载，然后与步骤3中的输入电压相同顺序测试。

判定要求：1)除非特殊要求，EUT在3项测试中必须能满足。

2)输出电压在稳压精度范围内。

3)有些机型并不能立即启动，故规定如在10秒内启动算合格。

4)温度保持期间不得对EUT进行输入等测试可靠性实验页码第页共页4.2.2低温工作试验设备：恒温恒湿箱、功率计、交流源、电子负载（可用电阻负载代替）试验环境：室温环境样品数量：3pcs测试条件：1)试验温度：EUT要求的最低工作温度，误差为±3℃2)负载条件：Full load3)输入电压VS保持时间顺序输入电压保持时间备注1 额定电压16Hrs 结束时，做5个ON/OFF测试*2 输入下限电压4Hrs 结束时，做5个ON/OFF测试*3 输入上限电压4Hrs 结束时，做5个ON/OFF测试**ON/OFF： 2Seconds ON; 2Seconds OFF试验步骤：1)试验温度与时间关系曲线图如下：（温度的偏差允许±2℃）2)将EUT放置在恒温恒湿箱中，为保证温度平衡性，EUT尽量放置在恒温恒湿箱中间位置；3)根据EUT进行接线，选用的线材与考虑通过电流的大小，避免电流过大造成危险。

开关电源环境可靠性测试规范1.0 目的：统一定义本司电源产品的环境可靠性测试方法与标准.给电源的测试提供一个方法依据, 从而使电源的测试能够正确、准确地进行。

2.0适用范围：适用于测试工程师、技术员和工程测试人员对本司所有电源类产品的环境可靠性验证.3.0 定义略.4.0权责：测试组：测试工程师技术员对各阶段进行可靠性验证.并提供可靠性验证报告研发组：针对测试组在测试验证过程中出现的问题点进行改善5.0程序内容：5.1低温启动5.1.1测试条件5.1.1.1输入电压：输入下限电压、额定电压、上限电压.5.1.1.2负载条件：满载、轻载（选用条件）5.1.1.3环境温度：EUT要求最低工作环境温度。

5.1.1.4持续时间：》0℃2Hrs;V0℃4Hrs5.1.2测试设备5.1.2.1交流源5.1.2.2电子负载（可用电阻负载代替）5.1.2.3恒温恒湿箱5.1.3测试方法与步骤5.1.3.1接线图如下.按照线路图连接设备：5.1.3.2启动恒温恒湿箱.将箱内温度降至EUT工作的下限环境温度以1 ℃/分钟的速率上升或下降。

如环境温度要求为0摄氏度或以上则保持2小时否则僻持4小时低温环境时间。

5.1.3.3将输出负载设定为满载（如有特别要求除外嫡以输入电压下限输入接着额定电压输入.最后输入电压的上限输入。

5.1.3.4如步骤3中EUT无法启动则将将负载改为轻载然后与步骤3中的输入电压相同顺序测试。

5.1.4判定标准5.1.4.1除非特殊要求.EUT在3项测试中必须能满足。

5.1.4.2输出电压在稳压精度范围内。

5.1.5注意事项5.1.5.1有些机型并不能立即启动.故规定如在10秒内启动算合格。

5.1.5.2温度保持期间不得对EUT进行输入等测试5.2低温工作5.2.1测试条件5.2.1.1试验温度：EUT要求的最低工作温度.误差为±3℃5.2.1.2负载条件：Full load5.2.1.3输入电压VS保持时间顺序输入电压保持时间WON/DFF： ZSeconcs ON;工巳二口口北CFF备注：1 额定电压16Hrs 结束时.做5个ON/OFF测试*2 输入下限电压4Hrs 结束时.做5个ON/OFF测试* 3 输入上限电压4Hrs 结束时做5ON/OFF测试* *ON/OFF：2Seconds ON; 2Seconds OFF5.2.2测试设备5.2.2.1交流源、5.2.2.2电子负载（可用电阻负载代替）5.2.2.3恒温恒湿箱5.2.3测试方法与步骤5.2.3.1试验温度与时间关系曲线图如下：（温度的偏差允许±2℃）5.2.3.2将EUT放置在恒温恒湿箱中.为保证温度平衡性.EUT尽量放置在恒温恒湿箱中间位置；5.2.3.3根据EUT进行接线.选用的线材与考虑通过电流的大小.避免电流过大造成危险。