EVALUATION DATA 型式データ TDK-Lambda CA806-53-01C
INDEX RWS50B 1. 測定方法 Evaluation Method PAGE 1.1 測定回路 Circuit used for determination 測定回路 1 Circuit 1 used for determination... T-1 静特性 Steady state data 通電ドリフト特性 Warm up voltage drift characteristics 出力保持時間特性 Hold up time characteristics 出力立ち上がり特性 Output rise characteristics 出力立ち下がり特性 Output fall characteristics 過電流保護特性 Over current protection (OCP) characteristics 過電圧保護特性 Over voltage protection (OVP) characteristics 入力電圧瞬停特性 Response to brown out characteristics 入力電流波形 Input current waveform 測定回路 2 Circuit 2 used for determination... T-1 過渡応答 ( 負荷急変 ) 特性 Dynamic load response characteristics 測定回路 3 Circuit 3 used for determination... T-2 入力サージ電流 ( 突入電流 ) 波形 Inrush current waveform 入力電流波形 Input current waveform 測定回路 4 Circuit 4 used for determination... T-2 リーク電流特性 Leakage current characteristics 測定回路 5 Circuit 5 used for determination... T-3 出力リップル ノイズ波形 Output ripple and noise waveform 測定構成 Configuration used for determination... T-3 EMI 特性 Electro-Magnetic Interference characteristics (a) 雑音端子電圧 ( 帰還ノイズ ) Conducted Emission (b) 雑音電界強度 ( 放射ノイズ ) Radiated Emission 1.2 使用測定機器 List of equipment used... T-4 1.3 評価負荷条件 Load conditions... T-4 TDK-Lambda
2. 特性データ Characteristics 2.1 静特性 Steady state data (1) 入力 負荷 温度変動 / 出力起動 遮断電圧 RWS50B Regulation - line and load, Temperature drift / Start up voltage and Drop out voltage... T-5 (2) リップルノイズ電圧対入力電圧 Ripple noise voltage vs. Input voltage... T-6 (3) 効率対出力電流 Efficiency vs. Output current... T-7 (4) 入力電力対出力電流 Input power vs. Output current... T-8 (5) 入力電流対出力電流 Input current vs. Output current... T-9 2.2 通電ドリフト特性 Warm up voltage drift characteristics... T-10 2.3 出力保持時間特性 Hold up time characteristics... T-10 2.4 出力立ち上がり特性 Output rise characteristics... T-11 2.5 出力立ち下がり特性 Output fall characteristics... T-12 2.6 過電流保護特性 Over current protection (OCP) characteristics... T-13 2.7 過電圧保護特性 Over voltage protection (OVP) characteristics... T-13 2.8 過渡応答 ( 負荷急変 ) 特性 Dynamic load response characteristics... T-14 2.9 入力電圧瞬停特性 Response to brown out characteristics... T-15 2.10 入力サージ電流 ( 突入電流 ) 波形 Inrush current waveform... T-16 2.11 高調波成分 Input current harmonics... T-17 2.12 リーク電流特性 Leakage current characteristics... T-18 2.13 出力リップル ノイズ波形 Output ripple and noise waveform... T-19 2.14 EMI 特性 Electro-Magnetic Interference characteristics... T-20~23 使用記号 Terminology used 定義 Definition Vin... 入力電圧 Input voltage Vout... 出力電圧 Output voltage Iin... 入力電流 Input current Iout... 出力電流 Output current Ta... 周囲温度 Ambient temperature f... 周波数 Frequency TDK-Lambda
1. 測定方法 Evaluation Method 1.1 測定回路 Circuit used for determination 測定回路 1 Circuit 1 used for determination 静特性 Steady state data 通電ドリフト特性 Warm up voltage drift characteristics 出力保持時間特性 Hold up time characteristics 出力立ち上がり特性 Output rise characteristics 出力立ち下がり特性 Output fall characteristics 過電流保護特性 Over current protection (OCP) characteristics 過電圧保護特性 Over voltage protection (OVP) characteristics 入力電圧瞬停特性 Response to brown out characteristics 入力電流波形 Input current waveform Digital power meter Power supply SW1 A W V P.S. +V V Load Current probe -V Controlled temp. chamber V Shunt res. 測定回路 2 Circuit 2 used for determination 過渡応答 ( 負荷急変 ) 特性 Dynamic load response characteristics SW1 Digital power meter A W +V Dynamic dummy load Load 1 Power supply V P.S. V Load 2 V Output current waveform Iout 50% <==> 100% -V 100% 95% 55% 50% Min Shunt res. tr tf TDK-Lambda T-1
測定回路 3 Circuit 3 used for determination 入力サージ電流 ( 突入電流 ) 波形 Inrush current waveform Digital power meter Slide Reg. Dynamic dip simulator A W V P.S. +V V V Load Current probe -V Shunt res. 測定回路 4 Circuit 4 used for determination リーク電流特性 Leakage current characteristics Digital power meter Power supply Isolation trans Leakage current meter A W V P.S. +V V V Load -V Shunt res. FG FG 接地 Earth TDK-Lambda T-2
測定回路 5 Circuit 5 used for determination 出力リップル ノイズ波形 Output ripple and noise waveform Digital power meter A W +V Oscilloscope SW Power supply V P.S. C1 + C2 Coaxial cable 1.5m 50Ω Load R C3 -V 150mm R : 50Ω C1 : 0.1uF Film cap. C2 : 100uF Elect cap. C3 : 4700pF Ceramic cap. 測定構成 Configuration used for determination EMI 特性 Electro-Magnetic Interference characteristics (a) 雑音端子電圧 ( 帰還ノイズ ) Conducted Emission EMI Test receiver spectrum analyzer 擬似電源回路網 AMN 50Ω/50uH 供試機器 ( 接地 ) D.U.T (Earthed) D=80cm アルミ板 Aluminum plate D=40cm 垂直基準大地面 (2m 2m) Vertical ground reference plane 電源ケーブル Power cable 台 Stand H=80cm 接地 Earth 水平大地面 Horizontal ground plane 入力電源 Power supply (b) 雑音電界強度 ( 放射ノイズ ) Radiated Emission EMI Test receiver spectrum analyzer pre amp. アンテナ Antenna D=3m 電源ケーブル Power cable ターンテーブル Turn table 供試機器 ( 接地 ) D.U.T (Earthed) 台 Stand H=80cm アルミ板 Aluminum plate 接地 Earth 水平大地面 Horizontal ground plane 入力電源 Power supply TDK-Lambda T-3
1.2 使用測定機器 List of equipment used EQUIPMENT USED MANUFTURER MODEL NO. 1 DIGITAL STORAGE OSCILLOSCOPE YOKOGAWA ELECT. DLM2054 2 DIGITAL MULTIMETER AGILENT 34405A/34410A 3 DIGITAL POWER METER YOKOGAWA ELECT. WT110 / WT210 4 CURRENT PROBE YOKOGAWA ELECT. 701930 / 701933 5 DYNAMIC DUMMY LOAD CHROMA 63640 6 DUMMY LOAD CHROMA 63640 7 ISOLATION TRANS TOUZHONG BJZ-3KVA 8 CVCF KIKUSUI PCR2000LE 9 CVCF KIKUSUI PCR3000LE 10 CVCF CHROMA 61605 11 LEAKAGE CURRENT METER SIMPSON 228 12 CONTROLLED TEMP. CHAMBER ESPEC SU-661 / SH-661 13 EMI TEST RECEIVER / SPECTRUM ANALYZER ROHDE & SCHWARZ ESCI-03 14 PRE AMP. AGILENT 8447D 15 AMN SCHWARZBECK NNLK8121 16 ANTENNA SCHWARZBECK VULB9168 17 HARMONIC / FLICKER ANALYZER SCHAFFNER CCN100-1 1.3 評価負荷条件 Load conditions * 入力電圧が 100V 以下の場合 下記のとおり出力ディレーティングが必要です Output derating is needed when input voltage is less than 100V. Output voltage : 5V, 12V, 24V Vin Iout: Full load 5V 12V 24V 85V 80% 8.0A 3.44A 1.76A 100-265V 100% 10.0A 4.3A 2.2A TDK-Lambda T-4
2. 特性データ Characteristics RWS50B 2.1 静特性 Steady state data (1) 入力 負荷 温度変動 / 出力起動 遮断電圧 Regulation - line and load, Temperature drift / Start up voltage and Drop out voltage 5V 1. Regulation - line and load Condition Ta : 25 Iout \ Vin 85V 100V 200V 265V line regulation 0% 5.011V 5.011V 5.011V 5.011V 0mV 0.000% 50% 5.004V 5.004V 5.004V 5.004V 0mV 0.000% Full load 4.997V 4.997V 4.997V 4.997V 0mV 1 0.000% Load regulation 14mV 14mV 14mV 14mV 0.280% 0.280% 0.280% 0.280% 2. Temperature drift Conditions Vin : 100 V Iout : Full load Ta -20 +25 +45 temperature stability Vout 4.991V 4.997V 4.998V 7mV 0.140% 3. Start up voltage and Drop out voltage Conditions Ta : 25 Iout : 100% Start up voltage (Vin) 78V Drop out voltage (Vin) 62V 12V 1. Regulation - line and load Condition Ta : 25 Iout \ Vin 85V 100V 200V 265V line regulation 0% 12.007V 12.008V 12.009V 12.009V 2mV 0.017% 50% 12.002V 12.002V 12.003V 12.003V 1mV 0.008% Full load 11.998V 11.998V 11.998V 11.998V 0mV 1 0.000% Load regulation 9mV 10mV 11mV 11mV 0.075% 0.083% 0.092% 0.092% 2. Temperature drift Conditions Vin : 100 V Iout : Full load Ta -20 +25 +45 temperature stability Vout 11.977V 11.998V 11.995V 21mV 0.175% 3. Start up voltage and Drop out voltage Conditions Ta : 25 Iout : 100% Start up voltage (Vin) 77V Drop out voltage (Vin) 60V 24V 1. Regulation - line and load Condition Ta : 25 Iout \ Vin 85V 100V 200V 265V line regulation 0% 24.004V 24.006V 24.010V 24.011V 7mV 0.029% 50% 23.998V 23.999V 24.002V 24.002V 4mV 0.017% Full load 23.993V 23.995V 23.997V 23.998V 3mV 1 0.013% Load 11mV 11mV 13mV 13mV regulation 0.046% 0.046% 0.054% 0.054% 2. Temperature drift Conditions Vin : 100 V Iout : Full load Ta -20 +25 +45 temperature stability Vout 24.043V 23.995V 23.973V 70mV 0.292% 3. Start up voltage and Drop out voltage Conditions Ta : 25 Iout : 100% Start up voltage (Vin) 78V Drop out voltage (Vin) 63V 1 Line regulation : 100V - 265V TDK-Lambda T-5
(2) リップルノイズ電圧対入力電圧 Ripple noise voltage vs. Input voltage Conditions Iout : Full load Ta : -10 25 45 5V 12V 24V Ripple noise voltage (mv) Ripple noise voltage (mv) 100 80 60 40 20 0 50 100 150 200 250 Input voltage (V) 100 80 60 40 20 0 50 100 150 200 250 Input voltage (V) 100 Ripple noise voltage (mv) 80 60 40 20 0 50 100 150 200 250 Input voltage (V) TDK-Lambda T-6
(3) 効率対出力電流 Efficiency vs. Output current Conditions Vin : 85 V 100 V 200 V 265 V 5V Ta : 25 90 Efficiency (%) 80 70 60 12V 50 0 20 40 60 80 100 120 90 Efficiency (%) 80 70 60 24V 50 0 20 40 60 80 100 120 90 Efficiency (%) 80 70 60 50 0 20 40 60 80 100 120 TDK-Lambda T-7
(4) 入力電力対出力電流 Input power vs. Output current Conditions Vin : 85 V 100 V 200 V 265 V Ta : 25 5V Vin Input power Iout : 0% 85V 0.8W 100V 1.1W 200V 1.0W 265V 1.2W 12V Vin Input power Iout : 0% 85V 1.1W 100V 1.0W 200V 0.8W 265V 1.1W 24V Vin Input power Iout : 0% 85V 1.5W 100V 1.8W 200V 1.2W 265V 1.3W Input power (W) Input power (W) Input power (W) 80 70 60 50 40 30 20 10 0 80 70 60 50 40 30 20 10 0 80 70 60 50 40 30 20 10 0 0 20 40 60 80 100 0 20 40 60 80 100 0 20 40 60 80 100 TDK-Lambda T-8
(5) 入力電流対出力電流 Input current vs. Output current Conditions Vin : 85 V 100 V 200 V 265 V Ta : 25 5V Vin Input current Iout : 0% 85V 0.03A 100V 0.04A 200V 0.03A 265V 0.04A 12V Vin Input current Iout : 0% 85V 0.04A 100V 0.04A 200V 0.03A 265V 0.04A 24V Vin Input current Iout : 0% 85V 0.05A 100V 0.06A 200V 0.04A 265V 0.04A Input current (A) Input current (A) Input current (A) 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0.0 0 20 40 60 80 100 0 20 40 60 80 100 0 20 40 60 80 100 TDK-Lambda T-9
2.2 通電ドリフト特性 2.3 出力保持時間特性 Warm up voltage drift characteristics Hold up time characteristics 5V 0.40 Conditions Vin : 100 V Conditions Vin : 100 V Iout : Full load 200 V Ta : 25 Ta : 25 1000 Output voltage drift (%) 0.20 0.00-0.20-0.40 12V 0.40 0 1 2 3 4 5 6 7 8 Time (hours) Hold up time (ms) 100 10 1000 0 20 40 60 80 100 Output voltage drift (%) 0.20 0.00-0.20 Hold up time (ms) 100-0.40 0 1 2 3 4 5 6 7 8 Time (hours) 24V 0.40 10 1000 0 20 40 60 80 100 Output voltage drift (%) 0.20 0.00-0.20 Hold up time (ms) 100-0.40 0 1 2 3 4 5 6 7 8 Time (hours) 10 0 20 40 60 80 100 TDK-Lambda T-10
2.4 出力立ち上がり特性 Output rise characteristics Conditions Vin : 85 V (A) 100 V (B) 200 V (C) 265 V (D) Ta : 25 5V Iout : 0% Iout:Full load DC B A DC B A Vout 0V Vin 2V/DIV 500ms/DIV 2V/DIV 500ms/DIV 12V Iout : 0% Iout:Full load DC B A DC B A Vout 0V Vin 5V/DIV 500ms/DIV 5V/DIV 500ms/DIV 24V Iout : 0% Iout:Full load DC B A DC B A Vout 0V Vin 10V/DIV 500ms/DIV 10V/DIV 500ms/DIV TDK-Lambda T-11
2.5 出力立ち下がり特性 Output fall characteristics Conditions Vin : 85 V (A) 100 V (B) 200 V (C) 265 V (D) Ta : 25 5V Iout : 0% Iout:Full load AB C D AB C D Vout 0V Vin 2V/DIV 5s/DIV 2V/DIV 50ms/DIV 12V Iout : 0% Iout:Full load AB C D AB C D Vout 0V Vin 5V/DIV 5s/DIV 5V/DIV 50ms/DIV 24V Iout : 0% Iout:Full load AB C D AB C D Vout 0V Vin 10V/DIV 5s/DIV 10V/DIV 50ms/DIV TDK-Lambda T-12
2.6 過電流保護特性 2.7 過電圧保護特性 Over current protection (OCP) characteristics Over voltage protection (OVP) characteristics 6 5V Conditions Vin : 100 V Conditions Vin : 100 V Ta : -20 Iout : 0 % 25 Ta : 25 45 Output voltage (V) 5 4 3 2 1 Vout 0V OVP Point 0 0 50 100 150 14 12V 2V/DIV 10s/DIV Output voltage (V) 12 10 8 6 4 2 Vout 0V OVP Point 0 0 50 100 150 30 24V 5V/DIV 10s/DIV Output voltage (V) 25 20 15 10 5 Vout 0V OVP Point 0 0 50 100 150 10V/DIV 10s/DIV TDK-Lambda T-13
2.8 過渡応答 ( 負荷急変 ) 特性 Dynamic load response characteristics Conditions Vin : 100 V Iout : 50 % 100 % (tr = tf = 50us) Ta : 25 5V f = 100Hz f = 1kHz Vout Iout Iout:0% 500mV/DIV 2ms/DIV 500mV/DIV 200μs/DIV +2.80% -3.20% +2.80% -3.20% 12V f = 100Hz f = 1kHz Vout Iout Iout:0% 500mV/DIV 2ms/DIV 500mV/DIV 200μs/DIV +1.17% -1.33% +1.33% -1.50% 24V f = 100Hz f = 1kHz Vout Iout Iout:0% 500mV/DIV 2ms/DIV 500mV/DIV 200μs/DIV +0.83% -0.92% +0.83% -0.92% TDK-Lambda T-14
2.9 入力電圧瞬停特性 Response to brown out characteristics Conditions Ta : 25 Iout : Full load 瞬停時間 Interruption time A : 出力電圧が低下なし Output voltage does not drop. B : 出力電圧の低下が0Vまでいかない Output voltage drop down not reaching 0V. C : 出力電圧が0Vまで低下 Output voltage drops until 0V. 5V Vin : 100V A = 17ms, B = 19ms, C = 25ms ABC Vin : 200V A = 105ms, B = 109ms, C = 114ms ABC Vout 0V Vin 2V/DIV 20ms/DIV 2V/DIV 50ms/DIV 12V Vin : 100V A = 18ms, B = 22ms, C = 28ms AB C Vout Vin : 200V A = 105ms, B = 111ms, C = 117ms ABC 0V Vin 5V/DIV 20ms/DIV 5V/DIV 50ms/DIV 24V Vin : 100V A = 18ms, B = 22ms, C = 31ms AB C Vout Vin : 200V A = 109ms, B = 114ms, C = 121ms ABC 0V Vin 10V/DIV 20ms/DIV 10V/DIV 50ms/DIV TDK-Lambda T-15
2.10 入力サージ電流 ( 突入電流 ) 波形 Inrush current waveform 5V Switch on phase angle of input voltage φ = 0 Conditions Switch on phase angle of input voltage φ = 90 Vin : 100 V Iout : Full load Ta : 25 Iin Vin 10A/DIV 200ms/DIV 10A/DIV 200ms/DIV Switch on phase angle of input voltage φ = 0 Conditions Switch on phase angle of input voltage φ = 90 Vin : 200 V Iout : Full load Ta : 25 Iin Vin 20A/DIV 200ms/DIV 20A/DIV 200ms/DIV TDK-Lambda T-16
2.11 高調波成分 Input current harmonics Conditions Iout : Full load Ta : 25 5V 10.000 Vin : 100 V Harmonic current (A) 1.000 0.100 0.010 0.001 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 Harmonic number IEC61000-3-2 Limit (class A) 10.000 Vin : 230 V Harmonic current (A) 1.000 0.100 0.010 0.001 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 Harmonic number IEC61000-3-2 Limit (class A) TDK-Lambda T-17
2.12 リーク電流特性 Leakage current characteristics Conditions Iout : 0 % Full Load Ta : 25 Equipment used : MODEL 228 (Simpson) 5V 0.5 f : 50 Hz 0.4 Leakage current (ma) 0.3 0.2 0.1 0.0 80 120 160 200 240 280 Input voltage (V) 0.5 f : 60 Hz Leakage current (ma) 0.4 0.3 0.2 0.1 0.0 80 120 160 200 240 280 Input voltage (V) TDK-Lambda T-18
2.13 出力リップル ノイズ波形 Output ripple and noise waveform 5V RWS50B Conditions Vin : 100 V Iout : Full load Ta : 25 12V 10mV/DIV 2μs/DIV 24V 10mV/DIV 2μs/DIV 10mV/DIV 2μs/DIV TDK-Lambda T-19
2.14 EMI 特性 Electro-Magnetic Interference characteristics Conditions Vin : 230V Iout : Full load Ta : 25 雑音端子電圧 Conducted Emission 5V Phase : N A VCCI Class B QP Limit Point A (2.895MHz) Ref. Limit Measure Data (dbuv) (dbuv) QP 56.0 48.4 VCCI Class B AV Limit AV 46.0 41.9 Phase : L B VCCI Class B QP Limit Point B (4.096MHz) Ref. Limit Measure Data (dbuv) (dbuv) QP 56.0 46.9 AV 46.0 42.0 Phase : L VCCI Class B AV Limit EN55011-B,EN55022-B,FCC-B の限界値は VCCI class B の限界値と同じ Limit of EN55011-B,EN55022-B,FCC-B are same as its VCCI class B. TDK-Lambda T-20
2.14 EMI 特性 Electro-Magnetic Interference characteristics Conditions Vin : 230V Iout : Full load Ta : 25 雑音端子電圧 Conducted Emission 12V Phase : N VCCI Class B QP Limit A Point A (4.45MHz) Ref. Limit Measure Data (dbuv) (dbuv) QP 56.0 41.9 VCCI Class B AV Limit AV 46.0 32.1 Phase : L B VCCI Class B QP Limit Point B (204kHz) Ref. Limit Measure Data (dbuv) (dbuv) QP 63.5 50.8 AV 53.5 33.6 Phase : L VCCI Class B AV Limit EN55011-B,EN55022-B,FCC-B の限界値は VCCI class B の限界値と同じ Limit of EN55011-B,EN55022-B,FCC-B are same as its VCCI class B. TDK-Lambda T-21
2.14 EMI 特性 Electro-Magnetic Interference characteristics Conditions Vin : 230 V Iout : Full load Ta : 25 雑音端子電圧 Conducted Emission 24V Phase : N VCCI Class B QP Limit A Point A (4.403MHz) Ref. Limit Measure Data (dbuv) (dbuv) QP 56.0 39.8 VCCI Class B AV Limit AV 46.0 31.6 Phase : L VCCI Class B QP Limit B Point B (3.99MHz) Ref. Limit Measure Data (dbuv) (dbuv) QP 56.0 38.9 AV 46.0 30.2 Phase : L VCCI Class B AV Limit EN55011-B,EN55022-B,FCC-B の限界値は VCCI class B の限界値と同じ Limit of EN55011-B,EN55022-B,FCC-B are same as its VCCI class B. TDK-Lambda T-22
2.14 EMI 特性 Electro-Magnetic Interference characteristics Conditions Vin : 230 V Io : Full load Ta : 25 雑音電界強度 Radiated Emission 5V HORIZONTAL VERTICAL QP QP 12V HORIZONTAL VERTICAL QP QP 24V HORIZONTAL VERTICAL QP QP EN55011-B,EN55022-B の限界値は VCCI class B の限界値と同じ Limit of EN55011-B,EN55022-B are same as its VCCI class B. 表示はピーク値 Indication is peak values. TDK-Lambda T-23