Hfe2500 Evaluation Data

Transcript

HFE2500 INDEX 1. 2. Evaluation Method 1-1. Circuit used for determination (1) Steady state data (2) Warm up voltage drift & long term stability (3) Over voltage protection (OVP) characteristics (4) Over current protection (OCP) characteristics (5) Output rise characteristics (6) Output fall characteristics (7) Dynamic line response characteristics (8) Dynamic load response characteristics (9) Inrush current characteristics (10) Leakage current characteristics (11) Output ripple and noise waveform (12) Standby current 1-2. List of equipment used Characteristics 2.1 Steady state data (1) Regulation - line and load, Temperature drift, Start-up voltage (2) Output voltage and ripple noise voltage vs. Input voltage (3) Efficiency and Input current vs. Output current 2.2 Warm up voltage drift characteristics 2.3 Over voltage protection (OVP) characteristics 2.4 Over current protection (OCP) characteristics 2.5 Output rise characteristics 2.6 Output fall characteristics 2.7 Output rise characteristics with ON/OFF CONTROL 2.8 Output fall characteristics with ON/OFF CONTROL 2.9 Hold up time characteristics 2.10 Dynamic line response characteristics 2.11 Dynamic load response characteristics 2.12 Response to brown out characteristics 2.13 Inrush current characteristics 2.14 Inrush current waveform 2.15 Input current waveform 2.16 Leakage current characteristic 2.17 Output ripple and noise waveform 2.18 Standby current TDK-Lambda PAGE T-1~6 T-7 T-8~10 T-11 T-12 T-13 T-14 T-15 T-16~17 T-18~19 T-20~21 T-22~23 T-24 T-25 T-26~28 T-29~30 T-31 T-32~33 T-34 T-35 T-36~37 T-38 HFE2500 1.EVALUATION METHOD 1-1.Circuits used for determination (1) Steady state data _V Digital power meter 230VAC A ~ W ~ SW. AC Power Supply Shunt Res. +Vo AC + P.S. Oscilloscope SW. +s V _ V ~ Electronic load - -Vo AC V _ -s Shunt Res. Oscilloscope +12Vaux Gnd _V Signal Rtn + Electronic load - Enable Vprog. Controlled temp.chamber -S 0~5V (2) Warm up voltage drift & temperature stability V _ Digital power meter +s AC Power Supply W ~ Shunt Res. +Vo AC + P.S. SW. Oscilloscope 230VAC A ~ V _ V ~ Electronic load - -Vo AC V _ -s Shunt Res. +12Vaux Gnd Signal Rtn V _ Oscilloscope SW. + Electronic load - Enable Vprog. Controlled temp.chamber -S 0~5 TDK-Lambda T-1 HFE2500 (3) Over Voltage Protection (OVP) characteristics Digital power meter 230VAC +s A ~ W ~ AC Power Supply DC Voltage Source +Vo AC P.S. Oscilloscope SW. V _ V ~ -Vo AC -s Gnd Signal Rtn Enable Vprog. -S 0~5 (4) Over Current Protection (OCP) characteristics Same as item (1) (5) (6) Output Rise & Fall Characteristics Digital power meter AC Power Supply W ~ Shunt Res. +Vo AC P.S. V ~ Oscilloscope 230VAC A ~ V _ AC - V _ -s Shunt Res. +12Vaux Gnd Signal Rtn Inhibit Vprog. -S + Electronic load -Vo V _ Oscilloscope SW. _V +s + Electronic load - SW Controlled temp.chamber 0~5V TDK-Lambda T-2 HFE2500 (7) Dynamic line response characteristics V _ Digital power meter +s 230VAC W ~ AC Power Supply Shunt Res. +Vo P.S. V _ V ~ AC -Vo Gnd -s + Oscilloscope A ~ AC Electronic load - Signal Rtn 0 Enable Vprog. 0~5V -S (8) Dynamic load response characteristics V _ Digital power meter +s ~ 230VAC AC Power Supply W ~ AC Shunt Res. +Vo P.S. Oscilloscope SW. A V _ V ~ + Electronic load - -Vo AC V _ -s Shunt Res. +12Vaux _V Gnd 0 Oscilloscope SW. + Electronic load Signal Rtn - Enable Vprog. -S Controlled temp.chamber 0~5V TDK-Lambda T-3 HFE2500 Dynamic load response characteristics Output current waveform Output current waveform Iout 0% <---> 100% Iout 50% <---> 100% 100% 95% 100% 95% 5% 0% tr 55% 50% 0% tf tr = 100µs tf = 100µs tr tf tr = 100µs tf = 100µs (9) Inrush current characteristics V _ +s 230VAC AC Power Supply Shunt Res. +Vo AC + P.S. Oscilloscope Inrush Current Tester Electronic load V _ -Vo AC V _ -s Shunt Res. +12Vaux + V _ Electronic load Gnd 0 Signal Rtn - Enable Vprog. -S 0~5 TDK-Lambda T-4 HFE2500 (10) Leakage current characteristics _ _V +s Shunt Res. +Vo AC + P.S. S.D V ~ Electronic load V _ 230VAC -Vo AC Leakage current meter (As defined by IEC 950) V _ -s Gnd +12Vaux Shunt Res. + Electronic load V _ - Signal Rtn Enable Vprog. -S 0~5V (11) Output ripple & noise waveform Oscilloscope BW:20MHz (a) Normal mode 50 Ohm +s SW. 230VAC AC Power Supply 4700pF +Vo P.S. + 4X270uF AC V ~ Electronic load - -Vo AC probe,1.5m 50 Ohm -s +12Vaux 470uF + FG Electronic load 0 - Signal Rtn 50 Ohm Enable Vprog. Controlled temp.chamber -S 0~5 TDK-Lambda 4700pF Oscilloscope BW:20MHz T-5 HFE2500 (b) Normal and common mode -Vo Terminal grounded Oscilloscope BW:20MHz 50 Ohm +s SW. 4X270uF P.S. 230VAC V ~ AC Power Supply 4700pF +Vo AC + (152mm) Electronic load C1 - Ceramic.Cap.0.1uF -Vo -s FG AC probe,1.5m 50 Ohm (152mm) - V _ Shunt Res. + +12Vaux Gnd Electronic load V _ 0 Signal Rtn - Enable Vprog. -S Controlled temp.chamber 0~5 (c) Normal and common mode +Vo Terminal grounded Oscilloscope BW:20mHz (152mm) 50 Ohm AC Power 230VAC Supply +s P.S. V ~ 4700pF +Vo 4X270uF AC F SW. -Vo -s Electronic load Shunt Res. + _ V Gnd - V _ +12Vaux 0 + (152mm) C1 - Ceramic.Cap.0.1uF AC probe,1.5m 50 Ohm Signal Rtn Electronic load - Enable Vprog. Controlled temp.chamber -S 0~5 (12) Standby current Same as Steady state data TDK-Lambda T-6 HFE2500 1.2 List of equipment used EQUIPMENT USED MANUFACTURER MODEL NO. 1 AC POWER SUPPLY CHROMA 6463 2 AC POWER SUPPLY CHROMA 6590 3 CONTROLLED TEMP. CHAMBER THERMOTRON SE-600-5-5 4 CONTROLLED TEMP. CHAMBER THERMOTRON SE-600-6-6 5 CONTROLLED TEMP. CHAMBER THERMOTRON SM-16-3800 6 CURRENT PROBE YOKOGAWA 701933 7 CURRENT TRANSDUCER DANFYSIK ULTRASTAB 867 8 DIGITAL MULTI METER (DMM) AGILENT 3401A 9 DIGITAL OSCILLOSCOPE YOKOGAWA DL1740E / DL1740EL 10 DIGITAL POWER METER YOKOGAWA WT110 11 ELECTRONIC LOAD CHROMA 63203 12 ELECTRONIC LOAD CHROMA 63204 13 ELECTRONIC LOAD CHROMA 63206 14 ELECTRONIC LOAD H&H ZS7060 15 ELECTRONIC LOAD H&H ZS7006 16 LEAKAGE CURRENT TESTER KIKUSUI TOS3200 TDK-Lambda T-7 HFE2500 2. Characteristics 2.1 Steady state data (1) Regulation - line and load, Temperature drift, Start-up voltage and Drop out voltage 12V 1. Regulation - line and load Iout \ Vin 0% 50% 100% Load Regulation 85VAC 12.001V 12.002V 12.002V 1mV 0.01% 115VAC 12.001V 12.002V 12.004V 3mV 0.03% Conditions 132VAC 12.001V 12.002V 12.004V 3mV 0.03% IAUX. : 0.5 A Ta : 25 °C Line Regulation 0mV 0.00% 0mV 0.00% 2mV 0.02% Line Regulation 170VAC 230VAC 265VAC 12.001V 12.001V 12.001V 0mV 0.00% 12.004V 12.004V 12.004V 0mV 0.00% 11.999V 12.000V 12.000V 1mV 0.01% Load 5mV 4mV 4mV Regulation 0.04% 0.03% 0.03% * Note: Load at 85VAC is derated according to specification Iout \ Vin 0% 50% 100% 2. Temperature drift Ta Vout -10°C 11.997V Conditions 25°C 12.012V 50°C 12.006V TDK-Lambda Vin : 230 VAC Iout : 100 % IAUX. : 0.5 A Temp. Stability 0.13% 15.63ppm 0.015V T-8 HFE2500 (1) 24V Regulation - line and load, Temperature drift, Start-up voltage and Drop out voltage 1. Regulation - line and load Iout \ Vin 0% 50% 100% Load Regulation 85VAC 24.000V 24.007V 24.006V 7mV 0.03% 115VAC 24.000V 24.008V 24.004V 8mV 0.03% Conditions 132VAC 24.000V 24.008V 24.004V 8mV 0.03% IAUX. : 0.5 A Ta : 25 °C Line Regulation 0mV 0.00% 1mV 0.00% 2mV 0.01% Line Regulation 170VAC 230VAC 265VAC 24.002V 24.002V 24.003V 1mV 0.00% 24.002V 24.003V 24.003V 1mV 0.00% 23.999V 23.999V 23.999V 0mV 0.00% Load 3mV 4mV 4mV Regulation 0.01% 0.02% 0.02% * Note: Load at 85VAC is derated according to specification Iout \ Vin 0% 50% 100% 2. Temperature drift Ta Vout -10°C 24.010V Conditions 25°C 23.975V 50°C 23.901V TDK-Lambda Vin : 230 VAC Iout : 100 % IAUX. : 0.5 A Temp. Stability 0.45% 57ppm 0.109V T-9 HFE2500 (1) 48V Regulation - line and load, Temperature drift, Start-up voltage and Drop out voltage 1. Regulation - line and load Iout \ Vin 0% 50% 100% Load Regulation 85VAC 48.013V 48.020V 48.009V 11mV 0.02% 115VAC 48.013V 48.017V 48.005V 12mV 0.03% Conditions 132VAC 48.013V 48.017V 48.005V 12mV 0.03% IAUX. : 0.5 A Ta : 25 °C Line Regulation 0mV 0.00% 3mV 0.01% 4mV 0.01% Line Regulation 170VAC 230VAC 265VAC 48.013V 48.013V 48.013V 0mV 0.00% 48.011V 48.011V 48.011V 0mV 0.00% 47.986V 47.985V 47.985V 1mV 0.00% Load 27mV 28mV 28mV Regulation 0.06% 0.06% 0.06% * Note: Load at 85VAC is derated according to specification Iout \ Vin 0% 50% 100% 2. Temperature drift Ta Vout -10°C 47.918V Conditions 25°C 47.953V 50°C 47.876V TDK-Lambda Vin : 230 VAC Iout : 100 % IAUX. : 0.5 A Temp. Stability 0.16% 20ppm 0.077V T-10 HFE2500 2.1 Output voltage and Ripple noise voltage vs. Input voltage Conditions 12V Iout : 100 % Ta : -10 °C : 25 °C : 50 °C 900 15.0 Ta12.0 \ Vin -20°C 9.0 6.0 25°C 3.0 60°C 0.0 50 750 85VAC 276mV 12.0V 115mV 12.0V 91mV 12.0V 100 115VAC 230VAC Output voltage 288mV 330mV 12.0V 12.0V 88mV 118mV 12.0V 12.0V Ripple 84mV noise112mV voltage 12.0V 12.0V 150 265VAC 315mV 12.0V 116mV 12.0V 110mV 12.0V 200 600 450 300 150 0 250 Ripple noise voltage (mV) Output voltage (V) 18.0 Input voltage (VAC) 24V Ta25.0 \ Vin 20.0 -20°C 15.0 25°C 10.0 60°C 5.0 85VAC 87mV 24.0V 47mV 24.0V 64mV 24.0V Output voltage 115VAC 230VAC 120mV 179mV 24.0V 24.0V 51mV 94mV 24.0V 24.0V 59mV 93mV Ripple noise voltage 24.0V 24.0V 900 265VAC 179mV 24.0V 94mV 24.0V 89mV 24.0V 0.0 750 600 450 300 150 0 50 100 150 200 250 Ripple noise voltage (mV) Output voltage (V) 30.0 Input voltage (VAC) 48V 60.0 Ta \ Vin 50.0 -20°C 40.0 25°C 30.0 20.0 60°C 10.0 85VAC 290mV 48.0V 90mV 48.0V 60mV 48.0V 115VAC 230VAC Output voltage 310mV 425mV 48.0V 48.0V 70mV 110mV 48.0V 48.0V 65mV 110mV 48.0V 48.0V Ripple noise voltage 265VAC 425mV 48.0V 110mV 48.0V 110mV 48.0V 0.0 900 750 600 450 300 150 0 50 100 150 200 250 Ripple noise voltage (mV) Output voltage (V) (2) Steady state data Input voltage (VAC) TDK-Lambda T-11 HFE2500 2.1 Efficiency and Input current vs. Output current Conditions 12V Vin : 85 VAC : 115 VAC : 230 VAC : 265 VAC Ta : 25 °C 95 24.0 Vin \ Iout 18.0 85VAC 12.0 115VAC 6.0 230VAC 0.0 265VAC 0 90 20 % 50 % 82.8% 88.3% 3.5A 7.9A 85.0% 89.8% Input current 3.2A 7.4A 89.0% 92.1% 2.6A 5.9A 89.3% 92.4% 2.3A 5.2A 20 40 75 % Efficiency 89.4% 12.0A 90.5% 11.0A 92.3% 8.7A 92.7% 60 7.6A 80 100 % 89.1% 15.6A 90.4% 14.5A 91.9% 11.5A 92.2% 10.1A 100 85 80 Efficiency (%) Input current (A) 30.0 75 70 120 Output current (%) 24V 95 24.0 Vin \ Iout 85VAC 18.0 115VAC 12.0 230VAC 6.0 265VAC 0.0 0 20 % 50 % 75 % 81.6% 87.9% 89.4% Efficiency 3.7A 8.2A 11.8A 84.1% 89.9% 90.6% 3.2A 7.3A 10.8A Input current 89.0% 92.3% 92.1% 2.7A 6.1A 9.0A 89.4% 92.7% 92.8% 2.5A 5.4A 7.9A 20 40 60 80 Output current (%) 100 % 89.2% 16.0A 90.4% 14.4A 91.3% 12.0A 92.0% 10.5A 100 90 85 80 Efficiency (%) 30.0 Input current (A) 75 70 120 48V 24.0 Vin \ Iout 85VAC 18.0 115VAC 12.0 230VAC 6.0 265VAC 0.0 95 20 % 50 % 75 % 100 % 84.2% 88.8% 89.7%Efficiency 89.4% 3.5A 8.1A 12.0A 15.8A 87.6% 91.5% 92.0% 91.6% 3.1A Input current 7.2A 10.7A 14.3A 91.3% 93.4% 93.3% 92.6% 2.7A 6.0A 8.9A 11.9A 90.6% 93.2% 93.2% 92.6% 2.4A 5.4A 7.8A 10.4A 0 20 40 60 80 100 Output current (%) TDK-Lambda 90 85 80 Efficiency (%) 30.0 Input current (A) (3) Steady state data 75 70 120 T-12 HFE2500 2.2 Warm up voltage drift characteristics Conditions Vin : 230 VAC Iout : 100 % Ta : 25 °C Output voltage drift (%) 12V 0.4(hrs) Time 0 0.2 0.5 1 0.0 2 3 -0.2 4 5 -0.4 6 7 0 8 Drift (%) 0.03 0.00 -0.01 -0.01 -0.02 -0.02 -0.02 -0.03 -0.03 -0.03 0.4 Time (hrs) 0 0.2 0.5 1 0.0 2 3 -0.2 4 5 -0.4 6 0 7 8 Drift (%) 0.09 0.00 0.00 0.00 -0.01 -0.01 -0.01 -0.01 -0.01 -0.01 0.4 Time (hrs) 0 0.2 0.5 1 0.0 2 3 -0.2 4 5 6 -0.4 7 0 8 Drift (%) 0.0500 0.0000 0.0020 0.0020 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 2 4 6 8 Time (hrs) Output voltage drift (%) 24V 2 4 6 8 Time (hrs) Output voltage drift (%) 48V 2 4 6 8 Time (hrs) TDK-Lambda T-13 HFE2500 2.3 Over voltage protection (OVP) characteristics Conditions Vin : 230 VAC Iout : 0% Ta : 25 °C 12V OVP point Vout 0V 5V/div 2s/div 24V OVP point Vout 0V 10V/div 2s/div 48V OVP point Vout 0V 20V/div 2s/div TDK-Lambda T-14 HFE2500 2.4 Over current protection (OCP) characteristics Conditions Vin : 85 VAC : 115 VAC : 230 VAC Ta : 25 °C 12V 12.0 Output voltage (V) 12.0V 12.0V 10.0 11.0V 8.0 10.0V 9.0V 6.0 8.0V 4.0 5.0V 4.0V 2.0 3.0V 0.0 2.0V 1.0V 60 0.2V 0.0A 117.7A 121.9A 135.7A 153.6A 174.5A 217.1A 213.6A 205.9A 198.7A 194.5A 199.8A 85VAC 0.0% 58.9% 61.0% 67.9% 76.8% 87.3% 108.6% 106.8% 103.0% 99.4% 10097.3% 99.9% 0.0A 58.0A 59.3A 66.5A 87.1A 105.0A 125.0A 125.7A 125.6A 114.1A 85VAC 0.0% 55.8% 57.0% 63.9% 83.8% 101.0% 120.2% 120.9% 120.8% 109.7% 0.0A 183.5A 190.9A 210.8A 214.7A 215.6A 217.8A 213.7A 205.6A 198.7A 140194.5A 199.5A 115VAC 0.0% 91.8% 95.5% 105.4% 107.4% 107.8% 108.9% 106.9% 102.8% 99.4% 180 97.3% 99.8% 0.0A 212.6A 212.7A 213.2A 213.6A 214.1A 216.6A 212.7A 204.8A 197.6A 220 194.3A 200.3A 230VAC 0.0% 106.3% 106.4% 106.6% 106.8% 107.1% 108.3% 106.4% 102.4% 98.8% 260 97.2% 100.2% 0.0A 90.0A 92.0A 100.8A 123.0A 125.8A 126.5A 126.5A 126.3A 114.1A 115VAC 0.0% 86.5% 88.5% 96.9% 118.3% 121.0% 121.6% 121.6% 121.4% 109.7% 0.0A 114.1A 116.6A 121.5A 125.5A 126.0A 126.5A 126.2A 125.8A 114.1A 230VAC 0.0% 109.7% 112.1% 116.8% 120.7% 121.2% 121.6% 121.3% 121.0% 109.7% Output current (A) 24V Output voltage (V) 24.0 24.0V 20.0 24.0V 23.0V 16.0 21.0V 12.0 16.0V 13.0V 8.0 9.0V 4.0 6.0V 4.0V 0.0 0.0V 30 50 70 90 110 130 Output current (%) 48V Output voltage (V) 48.0 48.0V 40.0 48.0V 47.0V 32.0 45.0V 24.0 43.0V 40.0V 16.0 38.0V 8.0 35.0V 33.0V 0.0 25.0V 10.0V 15 5.0V 0.0V 0.0A 29.3A 29.6A 30.9A 32.8A 35.8A 38.2A 42.2A 44.5A 56.4A 56.6A 52.2A 60.1A 85VAC 0.0% 56.3% 56.9% 59.4% 63.1% 68.8% 73.5% 81.2% 85.6% 108.5% 25 108.8% 100.4% 115.6% 115VAC 0.0A 0.0% 45.5A 87.5% 45.9A 88.3% 48.0A 92.3% 50.3A 96.7% 53.8A 103.5% 56.8A 109.2% 58.4A 112.3% 58.6A 112.7% 58.6A 112.7% 3557.4A 45110.4% 53.2A 102.3% Output current (%) 60.1A 115.6% TDK-Lambda 0.0A 57.2A 57.6A 57.8A 57.8A 58.0A 58.2A 58.5A 58.7A 58.7A 55 57.8A 53.4A 60.1A 230VAC 0.0% 110.0% 110.8% 111.2% 111.2% 111.5% 111.9% 112.5% 112.9% 112.9% 65 111.2% 102.7% 115.6% T-15 HFE2500 2.5 Output rise characteristics Conditions 12V Vin : 85 VAC (A) : 115 VAC (B) : 230 VAC (C) : 265 VAC (D) Iout : 0% Ta : 25 °C Vout 0V DC B A Vin Vout: 5V/div 200ms/div 24V Vout 0V DCB A Vin Vout: 10V/div 200ms/div 48V Vout 0V C DB A Vin Vout: 20V/div 200ms/div TDK-Lambda T-16 HFE2500 2.5 Output rise characteristics Conditions 12V Vin : : : : Iout : Ta : 85 VAC 115 VAC 230 VAC 265 VAC 100 % 25 °C (A) (B) (C) (D) Vout 0V DCB A Vin Vout: 5V/div 200ms/div 24V Vout 0V DCB A Vin Vout: 10V/div 200ms/div 48V Vout 0V CDB A Vin Vout: 20V/div 200ms/div TDK-Lambda T-17 HFE2500 2.6 Output fall characteristics Conditions 12V ABCD Vin : 85 VAC (A) : 115 VAC (B) : 230 VAC (C) : 265 VAC (D) Iout : 0% Ta : 25 °C Vout 0V Vin Vout: 5V/div 2s/div 24V ABCD Vout 0V Vin Vout: 10V/div 2s/div 48V ABCD Vout 0V Vin Vout: 20V/div 2s/div TDK-Lambda T-18 HFE2500 2.6 Output fall characteristics Conditions 12V Vin : : : : Iout : Ta : 85 VAC 115 VAC 230 VAC 265 VAC 100 % 25 °C (A) (B) (C) (D) Vout 0V A CD B Vin Vout: 5V/div 10ms/div 24V Vout 0V A CD B Vin Vout: 10V/div 10ms/div 48V Vout 0V A CD B Vin Vout: 20V/div 10ms/div TDK-Lambda T-19 HFE2500 2.7 Output rise characteristics with ON/OFF CONTROL Conditions Vin : 115 VAC Iout : 100 % Ta : 25 °C 12V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 5V/div 100ms/div 24V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 10V/div 100ms/div 48V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 20V/div 100ms/div TDK-Lambda T-20 HFE2500 2.7 Output rise characteristics with ON/OFF CONTROL Conditions Vin : 230 VAC Iout : 100 % Ta : 25 °C 12V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 5V/div 100ms/div 24V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 10V/div 100ms/div 48V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 20V/div 100ms/div TDK-Lambda T-21 HFE2500 2.8 Output fall characteristics with ON/OFF CONTROL Conditions Vin : 115 VAC Iout : 100 % Ta : 25 °C 12V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 5V/div 100ms/div 24V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 10V/div 100ms/div 48V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 20V/div 100ms/div TDK-Lambda T-22 HFE2500 2.8 Output fall characteristics with ON/OFF CONTROL Conditions Vin : 230 VAC Iout : 100 % Ta : 25 °C 12V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 5V/div 100ms/div 24V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 10V/div 100ms/div 48V Vout 0V DC_OK ON/OFF CONTROL (ENABLE) Vout: 20V/div 100ms/div TDK-Lambda T-23 HFE2500 2.9 Hold up time characteristics Conditions Vin : 115 VAC : 230 VAC Ta : 25 °C 12V Hold up time (ms) Iout1000 10 % 20 % 40 % 100 60 % 80 % 100 % 10 115VAC 38.0ms 39.4ms 39.2ms 23.4ms 18.7ms 12.4ms 230VAC 46.0ms 48.4ms 25.3ms 16.2ms 11.6ms 5.7ms 0 20 1 40 60 80 100 80 100 80 100 Output current (%) 24V Hold up time (ms) 1000 Iout 10 % 20 % 40 % 100 60 % 80 % 100 % 10 115VAC 37.8ms 39.4ms 39.2ms 32.5ms 22.1ms 17.0ms 230VAC 46.9ms 48.1ms 29.3ms 20.1ms 14.9ms 9.2ms 0 20 1 40 60 Output current (%) 48V 1000 Iout 10 % 20 % 40 % 100 Hold up time (ms) 115VAC 40.5ms 41.3ms 39.6ms 60 % 31.6ms 80 % 22.1ms 100 % 10 18.4ms 230VAC 49.0ms 48.0ms 31.7ms 16.7ms 13.7ms 10.3ms 1 0 20 40 60 Output current (%) TDK-Lambda T-24 HFE2500 2.10 Dynamic line response characteristics Conditions Vin : 85 VAC ↔ 132 VAC (A) : 170 VAC ↔ 265 VAC (B) Iout : 100 % Ta : 25 °C 12V Vout (A) Vout (B) Vin Vout (A): 200mV/div Vout (B): 200mV/div Vin: 340V/div 500ms/div 24V Vout (A) Vout (B) Vin Vout (A): 200mV/div Vout (B): 200mV/div Vin: 340V/div 500ms/div 48V Vout (A) Vout (B) Vin Vout (A): 200mV/div Vout (B): 200mV/div Vin: 340V/div 500ms/div TDK-Lambda T-25 HFE2500 2.11 Dynamic load response characteristics Conditions Vin : 230 VAC Ta : 25 °C 12V f=100Hz Iout: 50% ↔ 100% Iout: 1% ↔ 100% Vout 0.514V -0.595V 1.044V -2.128V Iout Vout: 500mV/div +4.28% 2ms/div -4.96% Vout: 2V/div +8.70% 2ms/div -17.73% f=1kHz Iout: 50% ↔ 100% Iout: 25% ↔ 100% Vout 0.367V -0.432V 0.760V -0.901V Iout Vout: 500mV/div +3.06% 200µs/div -3.60% Vout: 1V/div +6.33% TDK-Lambda 200µs/div -7.51% T-26 HFE2500 2.11 Dynamic load response characteristics Conditions Vin : 230 VAC Ta : 25 °C 24V f=100Hz Iout: 50% ↔ 100% Iout: 0% ↔ 100% Vout 0.367V -0.477V 0.900V -1.203V Iout Vout: 500mV/div +1.53% 2ms/div -1.99% Vout: 1V/div +3.75% 2ms/div -5.01% f=1kHz Iout: 50% ↔ 100% Iout: 0% ↔ 100% Vout 0.367V -0.432V 1.417V -2.219V Iout Vout: 500mV/div +1.53% 200µs/div -1.80% Vout: 2V/div +5.90% TDK-Lambda 200µs/div -9.25% T-27 HFE2500 2.11 Dynamic load response characteristics Conditions Vin : 230 VAC Ta : 25 °C 48V f=100Hz Iout: 50% ↔ 100% Iout: 0% ↔ 100% Vout 0.723V -0.749V 1.370V -2.227V Iout Vout: 500mV/div +1.51% 2ms/div -1.56% Vout: 1V/div +2.85% 2ms/div -4.64% f=1kHz Iout: 50% ↔ 100% Iout: 0% ↔ 100% Vout 0.578V -0.596V 1.563V -2.427V Iout Vout: 500mV/div +1.20% 200µs/div -1.24% Vout: 2V/div +3.26% TDK-Lambda 200µs/div -5.06% T-28 HFE2500 2.12 Response to brown out characteristics Conditions Vin : 115 VAC Iout : 100 % Ta : 25 °C 12V AB C A = 14ms B = 31ms C = 32ms Vout 0V Vin Vout: 5V/div 20ms/div 24V AB C A = 16ms B = 35ms C = 36ms Vout 0V Vin Vout: 10V/div 20ms/div 48V A B C A = 16ms B = 37ms C = 38ms Vout 0V Vin Vout: 20V/div 20ms/div TDK-Lambda T-29 HFE2500 2.12 Response to brown out characteristics Conditions Vin : 230 VAC Iout : 100 % Ta : 25 °C 12V A B C A = 6ms B = 28ms C = 29ms Vout 0V Vin Vout: 5V/div 20ms/div 24V A BC A = 8ms B = 26ms C = 27ms Vout 0V Vin Vout: 10V/div 20ms/div 48V A B C A = 8ms B = 27ms C = 28ms Vout 0V Vin Vout: 20V/div 20ms/div TDK-Lambda T-30 HFE2500 2.13 Inrush current characteristics Conditions Iout : 115V 230V Ta : 25 °C 12V Iout = 0% 80 Inrush current (A) 70 60 50 40 30 20 10 0 0.01 0.1 1 10 Brown out time (sec) Iout =100% 80 Inrush current (A) 70 60 50 40 30 20 10 0 0.01 0.1 1 10 Brown out time (sec) TDK-Lambda T-31 HFE2500 2.14 Inrush current waveform Conditions Vin : 115 VAC Iout : 100 % Ta : 25 °C 12V Switch on phase angle of input AC voltage Φ = 0° Iin Vin Iin: 50A/div 100ms/div Switch on phase angle of input AC voltage Φ = 90° Iin Vin Iin: 50A/div 100ms/div TDK-Lambda T-32 HFE2500 2.14 Inrush current waveform Conditions Vin : 230 VAC Iout : 100 % Ta : 25 °C 12V Switch on phase angle of input AC voltage Φ = 0° Iin Vin Iin: 50A/div 100ms/div Switch on phase angle of input AC voltage Φ = 90° Iin Vin Iin: 50A/div 100ms/div TDK-Lambda T-33 HFE2500 2.15 Input current waveform Conditions Iout : 100 % Ta : 25 °C 12V Vin = 115VAC Iin Vin Iin: 20A/div 5ms/div Vin = 230VAC Iin Vin Iin: 20A/div 5ms/div TDK-Lambda T-34 HFE2500 2.16 Leakage current characteristics Conditions Iout : 0% : 100 % Ta : 25 °C f : 60 Hz Leakage current (mA) 12V 1.8 1.2 90VAC 0 % 0.529mA 100 % 0.525mA 0.6 100VAC 0.528mA 0.579mA 140VAC 0.801mA 0.807mA 170VAC 0.998mA 1.008mA 240VAC 1.430mA 1.440mA 265VAC 1.590mA 1.590mA 0.0 80 120 160 200 240 280 Input voltage (VAC) Leakage current (mA) 48V 1.8 90VAC 1.2 0 % 0.526mA 100 % 0.519mA 100VAC 0.584mA 0.574mA 140VAC 0.791mA 0.796mA 170VAC 0.963mA 0.979mA 240VAC 1.370mA 1.410mA 265VAC 1.530mA 1.570mA 0.6 0.0 80 120 160 200 240 280 Input voltage (VAC) TDK-Lambda T-35 HFE2500 2.17 Output ripple and noise waveform Conditions NORMAL MODE Vin : 115 VAC Iout : 100 % Ta : 25 °C 12V Vout: 10mV/div 5µs/div Vout: 10mV/div 5µs/div Vout: 10mV/div 5µs/div 24V 48V TDK-Lambda T-36 HFE2500 2.17 Output ripple and noise waveform Conditions NORMAL + COMMON MODE Vin : 115 VAC Iout : 100 % Ta : 25 °C 12V Vout: 10mV/div 5µs/div Vout: 10mV/div 5µs/div Vout: 10mV/div 5µs/div 24V 48V TDK-Lambda T-37 HFE2500 2.18 Standby current Condition Ta : 25 °C 12V Iout = 0% Input current (A) 0.70 0.60 85VAC 0.500.586A 115VAC 0.544A 132VAC 0.485A 170VAC 0.462A 230VAC 0.436A 265VAC 0.461A 0.40 0.30 0.20 0.10 0.00 80 100 120 140 160 180 200 220 240 260 Input voltage (VAC) Remote control OFF Input current (A) 0.70 0.60 85VAC 0.500.411A 115VAC 0.328A 132VAC 0.316A 170VAC 0.328A 230VAC 0.346A 265VAC 0.378A 0.40 0.30 0.20 0.10 0.00 80 100 120 140 160 180 200 220 240 260 Input voltage (VAC) TDK-Lambda T-38