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HWS150AINDEX
1. Evaluation Method PAGE1.1 Circuit used for determination
1 Circuit 1 used for determination ..................................................................................... T-1 Steady state data
Warm up voltage drift characteristics Hold up time characteristics
Output rise characteristics Output fall characteristics
Over current protection (OCP) characteristics Over voltage protection (OVP) characteristics
Dynamic line response characteristics Response to brown out characteristics
Input current waveform2 Circuit 2 used for determination .................................................................................... T-1
Dynamic load response characteristics3 Circuit 3 used for determination .................................................................................... T-2
Inrush current waveform4 Circuit 4 used for determination .................................................................................... T-2
Leakage current characteristics5 Circuit 5 used for determination .................................................................................... T-2
ON/OFFOutput rise, fall characteristics with ON/OFF Control
6 Circuit 6 used for determination .................................................................................... T-3
Output ripple and noise waveform Configuration used for determination ............................................................................... T-3
EMI Electro-Magnetic Interference characteristics(a) ( Conducted Emission(b) ( Radiated Emission
1.2 List of equipment used ............................................................................................... T-4
TDK-Lambda
HWS150A2. Characteristics
2.1 Steady state data
(1)
Regulation - line and load, Temperature drift / Start up voltage and Drop out voltage ................ T-5
(2)
Ripple noise voltage vs. Input voltage........................................................................................... T-6
(3) Efficiency and Power factor vs. Output current ................................. T-7
(4) Input power vs. Output current .............................................................. T-8
(5) Input current vs. Output current ............................................................. T-9
2.2 Warm up voltage drift characteristics ................................................................ T-10
2.3 Hold up time characteristics .............................................................................. T-10
2.4 Output rise characteristics ...................................................................……. T-11
2.5 Output fall characteristics ............................................................................. T-12
2.6 ON/OFF *
Output rise, fall characteristics with ON/OFF Control ................................................................. T-13
2.7 Over current protection (OCP) characteristics ...................................................... T-14
2.8 Over voltage protection (OVP) characteristics ...................................................... T-14
2.9 Dynamic line response characteristics .............................................. T-15
2.10 Dynamic load response characteristics .............................................. T-16
2.11 Response to brown out characteristics ............................................................... T-17
2.12 Inrush current waveform ....................................................... T-18
2.13 Input current harmonics ................................................................................................. T-19
2.14 Input current waveform ............................................................................................. T-19
2.15 Leakage current characteristics ............................................................................. T-20
2.16 Output ripple and noise waveform .................................................... T-21
2.17 OFF *
Input power and Input current vs. Input voltage with Remote control OFF ................................. T-22
2.18 EMI Electro-Magnetic Interference characteristics ................................................................... T-23 26
* HWS150A-*/R For alternative standard model HWS150A-*/R
Terminology used
DefinitionVin ......... Input voltageVout ......... Output voltage
Iin ......... Input current
Iout ......... Output current
Ta ......... Ambient temperature
f ......... Frequency
TDK-Lambda
HWS150A1. Evaluation Method
1.1 Circuit used for determination
1 Circuit 1 used for determination Steady state data
Warm up voltage drift characteristics Hold up time characteristics Output rise characteristics Output fall characteristics
Over current protection (OCP) characteristics Over voltage protection (OVP) characteristics
Dynamic line response characteristics Response to brown out characteristics
Input current waveform
2 Circuit 2 used for determination Dynamic load response characteristics
tr tf
100%95%
Output current waveformIout 50% <==> 100%
AC Powersupply
A W
V
AC
AC
P.S.
Load 1
Load 2
V
V
+V
-V
Shunt res.
Dynamic dummyload
Digital power meter
SW1
55%50%Min
AC Powersupply
A
V
AC
AC
P.S.
V
V
+V
-V
Shunt res.
Load
Digital power meter
SW1
Current probe
W
Controlled temp. chamber
TDK-Lambda T-1
HWS150A
3 Circuit 3 used for determination Inrush current waveform
4 Circuit 4 used for determination Leakage current characteristics
5 Circuit 5 used for determinationON/OFF
Output rise, fall characteristics with ON/OFF Control
HWS150A-*/R For alternative standard model HWS150A-*/R
V
VV
WA
AC Power
AC
AC
P.S.
+V
-V
Shunt res.
Load
Digital power meter
SW1
-R +R
SW25V
A W
V
AC
AC
P.S.
V
V
+V
-V
Shunt res.
Load
Digital power meter
Current probe
Slide Reg.
Dynamic dip
simulator
V
VV
W
Leakagecurrentmeter
AC
AC
P.S.
+V
-V
Shunt res.
Load
Digital power meter
Isolationtrans
AC AC
AC AC
AC Powersupply
FG FG
A
FG
TDK-Lambda T-2
HWS150A
6 Circuit 5 used for determinationOutput ripple and noise waveform
Configuration used for determinationEMI Electro-Magnetic Interference characteristics
(a) (Conducted Emission
(b) (Radiated Emission
AC Powersupply
A W
V
AC
AC
P.S.
+V
-V
Load
Digital power meter
SW1
R
R : 50C1 : 4700pF Ceramic cap.
Coaxial Cable1.5m 50
OscilloscopeBandwith : 100MHz
Horizontal ground plane
Aluminum plate(2m 2m)Vertical groundreference plane D=40cmAMN 50 /50uHEMI Test receiver
spectrum analyzer
D.U.T.(Earthed)
D=80cm
H=80cmStand
AC Power supply
Power cable
D.U.T.(Earthed)Aluminum plate
Antenna
EMI Test receiver spectrum analyzerpre amp.
Horizontal ground plane
D=3m
H=80cmStand
AC Power supply
Turn table
TDK-Lambda T-3
HWS150A
1.2 List of equipment used
EQUIPMENT USED MANUFACTURER MODEL NO.
1 DIGITAL STORAGE OSCILLOSCOPE YOKOGAWA ELECT. DL9040L / DLM2054
2 DIGITAL MULTIMETER AGILENT 34970A
3 DIGITAL POWER METER HIOKI 3334
4 DIGITAL POWER METER YOKOGAWA ELECT. WT110 / WT210
5 CURRENT PROBE YOKOGAWA ELECT. 701928 / 701930
6 DYNAMIC DUMMY LOAD TAKASAGO FK-400L / FK-600L
7 DYNAMIC DUMMY LOAD KIKUSUI PLZ1004W / PLZ150U
8 DUMMY LOAD PCN PHF250 SERIES
9 ISOLATION TRANS MATSUNAGA 3WTC-50K
10 CVCF TAKASAGO AA2000XG
11 CVCF KIKUSUI PCR4000L
12 CVCF NF ES10000S
13 LEAKAGE CURRENT METER HIOKI 3156
14 DYNAMIC DIP SIMULATOR TAKAMISAWA PSA-210
15 CONTROLLED TEMP. CHAMBER ESPEC SU-261 / SH-240
16 EMI TEST RECEIVER / SPECTRUM ANALYZER ROHDE & SCHWARZ ESCI
17 PRE AMP. SONOMA 310N
18 AMN SCHWARZBECK NNLK8121
19 ANTENNA SCHWARZBECK CBL6111D
20 HARMONIC / FLICKER ANALYZER KIKUSUI KHA1000
21 SINGLE-PHASE MASTER NF 4420
22 REFERENCE IMPEDANCE NETWORK 20A NF 4150
23 MULTI OUTLET UNIT KIKUSUI OT01-KHA
TDK-Lambda T-4
HWS150A2. Characteristics
2.1 Steady state data(1)
Regulation - line and load, Temperature drift / Start up voltage and Drop out voltage
5V 1. Regulation - line and load Condition Ta : 25Iout \ Vin 85VAC 100VAC 200VAC 265VAC line regulation
0% 4.998V 4.998V 4.998V 4.998V 0mV50% 4.994V 4.994V 4.994V 4.994V 0mV100% 4.992V 4.992V 4.992V 4.992V 0mV
6mV 6mV 6mV 6mV0.120% 0.120% 0.120% 0.120%
2. Temperature drift Conditions Vin : 100 VACIout : 100 %
Ta -10 +25 +50 temperature stabilityVout 4.990V 4.992V 4.995V 5mV 0.100%
3. Start up voltage and Drop out voltage Conditions Ta : 25Iout : 100 %
Start up voltage (Vin) 76VACDrop out voltage (Vin) 57VAC
12V 1. Regulation - line and load Condition Ta : 25Iout \ Vin 85VAC 100VAC 200VAC 265VAC line regulation
0% 12.047V 12.048V 12.048V 12.048V 1mV50% 12.047V 12.047V 12.047V 12.048V 1mV100% 12.048V 12.048V 12.048V 12.048V 0mV
1mV 1mV 1mV 0mV0.008% 0.008% 0.008% 0.000%
2. Temperature drift Conditions Vin : 100 VACIout : 100 %
Ta -10 +25 +50 temperature stabilityVout 12.056V 12.048V 12.041V 15mV 0.125%
3. Start up voltage and Drop out voltage Conditions Ta : 25Iout : 100 %
Start up voltage (Vin) 75VACDrop out voltage (Vin) 61VAC
24V 1. Regulation - line and load Condition Ta : 25Iout \ Vin 85VAC 100VAC 200VAC 265VAC line regulation
0% 24.071V 24.071V 24.072V 24.072V 1mV50% 24.067V 24.067V 24.067V 24.067V 0mV100% 24.066V 24.065V 24.066V 24.066V 1mV
5mV 6mV 6mV 6mV0.021% 0.025% 0.025% 0.025%
2. Temperature drift Conditions Vin : 100 VACIout : 100 %
Ta -10 +25 +50 temperature stabilityVout 24.109V 24.065V 24.023V 86mV 0.358%
3. Start up voltage and Drop out voltage Conditions Ta : 25Iout : 100 %
Start up voltage (Vin) 76VACDrop out voltage (Vin) 57VAC
0.000%0.000%
0.008%
0.000%
load regulation
load regulation
load regulation
0.008%0.000%
0.004%0.000%0.004%
TDK-Lambda T-5
HWS150A
(2)Ripple noise voltage vs. Input voltage Conditions Iout: 100 %
Ta : -102550
5V
12V
24V
0
20
40
60
80
100
120
140
50 100 150 200 250Input voltage (VAC)
0
20
40
60
80
100
120
140
50 100 150 200 250Input voltage (VAC)
0
20
40
60
80
100
120
140
50 100 150 200 250Input voltage (VAC)
TDK-Lambda T-6
HWS150A(3)
Efficiency and Power factor vs. Output current Conditions Vin : 85 VAC100 VAC200 VAC265 VAC
Ta : 255V
12V
24V
60
65
70
75
80
85
90
0 20 40 60 80 100Output current (%)
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
0 20 40 60 80 100Output current (%)
60
65
70
75
80
85
90
0 20 40 60 80 100Output current (%)
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
0 20 40 60 80 100Output current (%)
60
65
70
75
80
85
90
0 20 40 60 80 100Output current (%)
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
0 20 40 60 80 100Output current (%)
TDK-Lambda T-7
HWS150A(4)
Input power vs. Output current Conditions Vin : 85 VAC100 VAC200 VAC265 VAC
Ta : 25
5V
Input powerIout : 0%
85VAC 4.5W100VAC 4.6W200VAC 4.5W265VAC 4.4W
12V
Input powerIout : 0%
85VAC 1.6W100VAC 2.0W200VAC 2.5W265VAC 2.5W
24V
Input powerIout : 0%
85VAC 1.8W100VAC 2.0W200VAC 2.5W265VAC 2.5W
Vin
Vin
Vin
0
40
80
120
160
200
0 20 40 60 80 100Output current (%)
0
40
80
120
160
200
0 20 40 60 80 100Output current (%)
0
40
80
120
160
200
0 20 40 60 80 100Output current (%)
TDK-Lambda T-8
HWS150A(5)
Input current vs. Output current Conditions Vin : 85 VAC100 VAC200 VAC265 VAC
Ta : 25
5V
Input currentIout : 0%
85VAC 0.07A100VAC 0.06A200VAC 0.05A265VAC 0.06A
12V
Input currentIout : 0%
85VAC 0.04A100VAC 0.04A200VAC 0.06A265VAC 0.07A
24V
Input currentIout : 0%
85VAC 0.04A100VAC 0.04A200VAC 0.06A265VAC 0.07A
Vin
Vin
Vin
0.0
0.5
1.0
1.5
2.0
2.5
0 20 40 60 80 100Output current (%)
0.0
0.5
1.0
1.5
2.0
2.5
0 20 40 60 80 100Output current (%)
0.0
0.5
1.0
1.5
2.0
2.5
0 20 40 60 80 100Output current (%)
TDK-Lambda T-9
HWS150A2.2 2.3
Warm up voltage drift characteristics Hold up time characteristics
Conditions Vin : 100 VAC Conditions Vin : 100 VACIout : 100 % 200 VAC
Ta : 25 Ta : 255V
12V
24V
-0.4
-0.2
0.0
0.2
0.4
0 1 2 3 4 5 6 7 8Time (hours)
-0.4
-0.2
0.0
0.2
0.4
0 1 2 3 4 5 6 7 8Time (hours)
-0.4
-0.2
0.0
0.2
0.4
0 1 2 3 4 5 6 7 8Time (hours)
10
100
1000
0 20 40 60 80 100Output current (%)
10
100
1000
0 20 40 60 80 100Output current (%)
10
100
1000
0 20 40 60 80 100Output current (%)
TDK-Lambda T-10
HWS150A2.4 出力立ち上がり特性
Output rise characteristics Conditions Vin : 85 VAC (A)100 VAC (B)200 VAC (C)265 VAC (D)
Ta : 25 ℃
5VIout : 0% Iout : 100%
2V/DIV 200ms/DIV 2V/DIV 200ms/DIV
12VIout : 0% Iout : 100%
5V/DIV 200ms/DIV 5V/DIV 200ms/DIV
24VIout : 0% Iout : 100%
10V/DIV 200ms/DIV 10V/DIV 200ms/DIV
← Vin →
← 0V →
← Vout →
← 0V →
← Vout →
← Vin →
← 0V →
← Vout →
← Vin →
DC BA DC BA
DC BA DC BA
DC BA DC BA
TDK-Lambda T-11
HWS150A2.5
Output fall characteristics Conditions Vin : 85 VAC (A)100 VAC (B)200 VAC (C)265 VAC (D)
Ta : 255V
Iout : 0% Iout : 100%
2V/DIV 5s/DIV 2V/DIV 20ms/DIV
12VIout : 0% Iout : 100%
5V/DIV 10s/DIV 5V/DIV 20ms/DIV
24VIout : 0% Iout : 100%
10V/DIV 10s/DIV 10V/DIV 20ms/DIV
Vin
0V
Vout
0V
Vout
Vin
0V
Vout
Vin
ABCD ABCD
ABCD ABCD
ABCD ABCD
TDK-Lambda T-12
HWS150A2.6 ON/OFF
Output rise, fall characteristics with ON/OFF Control Conditions Vin : 100 VAC Iout : 100 %
HWS150A-*/R Ta : 25For alternative standard model HWS150A-*/R
10ms/DIV
10ms/DIV
10V/DIV 20ms/DIV 10V/DIV
20ms/DIV
24V
10ms/DIV
5V/DIV
5V
12V
2V/DIV 20ms/DIV 2V/DIV
5V/DIV
Vout
ON/OFFControl
0V
Vout
ON/OFFControl
0V
Vout
ON/OFFControl
0V
TDK-Lambda T-13
HWS150A2.7 2.8 Over current protection (OCP) characteristics Over voltage protection (OVP) characteristics
Conditions Vin : 100 VAC Conditions Vin : 100 VACTa : -10 Iout : 0 %
25 Ta : 2550
5V
2V/DIV 5s/DIV
12V
5V/DIV 10s/DIV
24V
10V/DIV 10s/DIV
0
2
4
6
8
10
12
0 50 100 150Output current (%)
0
1
2
3
4
5
6
0 50 100 150Output current (%)
0
5
10
15
20
25
0 50 100 150Output current (%)
Vout
OVP Point
0V
Vout
0V
Vout
0V
OVP Point
OVP Point
TDK-Lambda T-14
HWS150A2.9
Dynamic line response characteristics
Conditions Vin : 85 VAC 132VAC (A)170 VAC 265VAC (B)
Iout : 100 %Ta : 25
5V
50mV/DIV 500ms/DIV12V
50mV/DIV 500ms/DIV24V
50mV/DIV 500ms/DIV
Vout (A)
Vout (B)
Vin
Vout (A)
Vout (B)
Vin
Vout (A)
Vout (B)
Vin
TDK-Lambda T-15
HWS150A2.10
Dynamic load response characteristics Conditions Vin : 100 VACIout : 50 % 100 %
(tr = tf = 50us)Ta : 25
f = 100Hz f = 1kHz
f = 100Hz f = 1kHz
f = 100Hz f = 1kHz
5V
12V
24V
+0.16% -0.21%
100mV/DIV 2ms/DIV+1.67% -1.89%
200 s/DIV
200 s/DIV
100mV/DIV 2ms/DIV+0.30% -0.32%
100mV/DIV
100mV/DIV100mV/DIV 2ms/DIV
100mV/DIV
+0.16% -0.21%
+1.69% -1.82%
+0.28% -0.30%
200 s/DIV
Iout:0%
Vout
Iout
Iout:0%
Vout
Iout
Iout:0%
Vout
Iout
TDK-Lambda T-16
HWS150A2.11
Response to brown out characteristics Conditions Iout : 100 % Ta : 25
Interruption timeA : Output voltage does not drop.B : 0V Output voltage drop down not reaching 0V.C : 0V Output voltage drops until 0V.
Vin : 100VAC Vin : 200VACA = 31ms B = 37ms C = 38ms A = 32ms B = 38ms C = 40ms
2V/DIV 50ms/DIV 2V/DIV 50ms/DIV
Vin : 100VAC Vin : 200VACA = 33ms C = 34ms A = 34ms C = 35ms
5V/DIV 50ms/DIV 5V/DIV 50ms/DIV
Vin : 100VAC Vin : 200VACA = 31ms B = 38ms C = 39ms A = 32ms B = 43ms C = 44ms
10V/DIV 50ms/DIV 10V/DIV 50ms/DIV
5V
12V
24V
0V
Vin
Vout A B C
0V
Vin
Vout
0V
Vin
Vout
A B C
A C
A B C A B C
A C
TDK-Lambda T-17
HWS150A2.12
Inrush current waveform
5VConditions Vin : 100 VAC
Iout : 100 %Ta : 25
5A/DIV 100ms/DIV 5A/DIV 100ms/DIV
Conditions Vin : 200 VACIout : 100 %
Ta : 25
10A/DIV 100ms/DIV 10A/DIV 100ms/DIV
Switch on phase angle of input AC voltage= 0
Switch on phase angle of input AC voltage= 90
Switch on phase angle of input AC voltage= 0
Switch on phase angle of input AC voltage= 90
Iin
Vin
Iin
Vin
TDK-Lambda T-18
HWS150A2.13
Input current harmonics Conditions Iout : 100 % Ta : 25
Vin : 100 VAC
Vin : 230 VAC
2.14 Input current waveform Conditions Iout : 100 %
Ta : 25
Vin : 100VAC Vin : 200VAC
2A/DIV 5ms/DIV 2A/DIV 5ms/DIV
5V
0.001
0.010
0.100
1.000
10.000
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39Harmonic order
0.001
0.010
0.100
1.000
10.000
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39Harmonic order
IEC61000-3-2 Limit (class A)
IEC61000-3-2 Limit (class A)
Vin
Iin
TDK-Lambda T-19
HWS150A2.15
Leakage current characteristics Conditions Iout : 0 %100 %
Ta : 25Equipment used : 3156 (HIOKI)
5V
f : 50 Hz
f : 60 Hz
0.00
0.10
0.20
0.30
80 120 160 200 240 280
Input voltage (VAC)
0.00
0.10
0.20
0.30
80 120 160 200 240 280
Input voltage (VAC)
TDK-Lambda T-20
HWS150A2.16
Output ripple and noise waveform Conditions Vin : 100 VAC Iout : 100 % Ta : 25
50mV/DIV 2 s/DIV
50mV/DIV 2 s/DIV
50mV/DIV 2 s/DIV
5V
12V
24V
TDK-Lambda T-21
HWS150A2.17 OFF
Input power and Input current vs. Input voltage with Remote control OFF
HWS150A-*/R For alternative standard model HWS150A-*/R
Condition Ta : 255V
0
1
2
3
4
5
80 100 120 140 160 180 200 220 240 260
Input voltage (VAC)
0.00
0.02
0.04
0.06
0.08
0.10
80 100 120 140 160 180 200 220 240 260Input voltage (VAC)
TDK-Lambda T-22
HWS150A2.18
Electro-Magnetic Interference characteristics Conditions Vin : 230 VACIout : 100 %
Ta : 25
Conducted Emission
5VPhase : N
Ref. Limit MeasureData (dB) (dB)
QP 64.0 51.0
AV 54.0 43.5
Phase : L
Ref. Limit MeasureData (dB) (dB)
QP 64.0 50.9
AV 54.0 42.3
EN55011-B,EN55022-B,FCC-B VCCI class BLimit of EN55011-B,EN55022-B,FCC-B are same as its VCCI class B.
(190kHz)Point B
Point A(191kHz)
VCCI Class BAV Limit
VCCI Class BQP Limit
VCCI Class BQP Limit
VCCI Class BAV Limit
A
B
TDK-Lambda T-23
HWS150A2.18
Electro-Magnetic Interference characteristics Conditions Vin : 230 VACIout : 100 %
Ta : 25
Conducted Emission
12VPhase : N
Ref. Limit MeasureData (dB) (dB)
QP 63.9 54.9
AV 53.9 43.9
Phase : L
Ref. Limit MeasureData (dB) (dB)
QP 63.7 53.6
AV 53.7 39.6
EN55011-B,EN55022-B,FCC-B VCCI class BLimit of EN55011-B,EN55022-B,FCC-B are same as its VCCI class B.
Point B(197kHz)
Point A(194kHz)
VCCI Class BAV Limit
VCCI Class BQP Limit
VCCI Class BAV Limit
A
BVCCI Class BQP Limit
TDK-Lambda T-24
HWS150A2.18
Electro-Magnetic Interference characteristics Conditions Vin : 230 VACIout : 100 %
Ta : 25
Conducted Emission
24VPhase : N
Ref. Limit MeasureData (dB) (dB)
QP 62.3 44.4
AV 52.3 43.2
Phase : L
Ref. Limit MeasureData (dB) (dB)
QP 62.3 45.4
AV 52.3 42.7
EN55011-B,EN55022-B,FCC-B VCCI class BLimit of EN55011-B,EN55022-B,FCC-B are same as its VCCI class B.
Point B(235kHz)
Point A(236kHz)
VCCI Class BAV Limit
VCCI Class BAV Limit
A
B
VCCI Class BQP Limit
VCCI Class BQP Limit
TDK-Lambda T-25
HWS150A2.18
Electro-Magnetic Interference characteristics Conditions Vin : 230 VACIout : 100 %
Ta : 25
Radiated Emission
HORIZONTAL VERTICAL
HORIZONTAL VERTICAL
HORIZONTAL VERTICAL
EN55011-B,EN55022-B VCCI class BLimit of EN55011-B,EN55022-B are same as its VCCI class B.
Indication is peak values.
5V
12V
24V
QP QP
QPQP
QP QP
TDK-Lambda T-26