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TDK-Lambda 60858
EFE300
EVALUATION DATA
Issue : 1 2 3Mod : Release 43347 45708Date : 9.6.09 05.08.09 13.04.10Initials : KM VP ACDrawn : KM-MIS
EFE300
INDEX
1. Evaluation Method PAGE
1.1 Circuit used for determination T-1~2
(1) Steady state data
(2) Warm up voltage drift characteristics
(3) Over current protection (OCP) characteristics
(4) Over voltage protection (OVP) 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 characteristics
(12) Stand-by current
(13) Electro-Magnetic Interference characteristics
1.2 List of equipment used T-3
2. Characteristics
2.1 Steady state data
(1) Regulation - line and load, Temperature drift/Start up voltage and Drop out voltage T-4
(2) Output voltage and Ripple noise voltage vs. Input voltage T-5
(3) Efficiency vs. Output current T-6
(4) Power factor and Input current vs. Output current T-7
(5) Input current vs. Output current T-8
2.2 Warm up voltage drift characteristics T-9
2.3 Over current protection (OCP) characteristics T-10
2.4 Over voltage protection (OVP) characteristics T-10
2.5 Output rise characteristics T-11
2.6 Output fall characteristics T-11
TDK-Lambda
EFE300
2.7 Hold up time characteristics T-12
2.8 Dynamic line response characteristics T-13
2.9 Dynamic load response characteristics T-14~15
2.10 Response to brown out characteristics T-16
2.11 Inrush current waveform T-17
2.12 Inrush current characteristics T-18
2.13 Input current waveform T-19
2.14 Leakage current characteristics T-19
2.15 Input current harmonics T-20
2.16 Output ripple and noise waveform T-21
2.17 Stand-by current T-22
2.18 Electro-Magnetic Interference characteristics T-23~24
Terminology used
Definition
Vin Input voltage
Vout Output voltage
Iin Input current
Iout Output current
Ta Ambient temperature
f Frequency
TDK-Lambda
EFE3001. Evaluation Method
1.1 Circuit used for determination
Circuit 1
Steady state data
Over current protection (OCP) characteristics
Over voltage protection (OVP) characteristics
Output rise characteristics
Output fall characteristics
Hold up time characteristics
Dynamic line response characteristics
Response to brown out characteristics
Stand-by current
Circuit 2
Dynamic load response characteristics
Circuit 3
Inrush current characteristics
AC POWER
SUPPLY
SW1
Digital power meter
AC
AC
P.S.
A W
V
+V
- V
LoadV
Shunt Res.
Controlled temp. chamber
V
AC POWER
SUPPLY
SW1
Digital power meter
AC
AC
P.S.
+V
- V
Load
Shunt Res.
Load
1
2
Dynamic dummy
load
Output current waveform
Iout 50% <==> 100%
100%
95%
55%
50%
Mintr tf
A W
V V
V
Current probe
Digital power meter
AC
AC
P.S.
+V
- V
Load
Shunt Res.
Dynamic
Dip
Simulator
Slide Reg. A W
V V
V
Output current waveform
Iout Min <==> 100%
100%
95%
5%
Mintr tf
TDK-Lambda T-1
EFE300Circuit 4
Leakage current characteristics
Circuit 5
Output ripple and noise waveform
Normal Mode (JEITA Standard RC-9131A)
Configuration
Electro-Magnetic Interference characteristics
Conducted Emission Noise
Radiated Emission Noise
AMN 50Ω/50uH
Spectrum Analyzer
EMI Test Receiver
RF Relay matrix
D.U.T.(Earthed)
Aluminum Plate
FilterMetal Ground Plate
D=80cm
H=80cm Stand
EarthInput Line
AC Cord
Biconical Antenna
Spectrum Analyzer
EMI Test Receiver
RF Relay matrix
D.U.T.(Earthed)
Aluminum Plate
FilterMetal Ground Plate
D=10m
H=80cm Stand
Earth
Input Line
Turn Table
AC POWER
SUPPLY
SW1
Digital power meter
AC
AC
P.S
.
+V
- V
150mm
+R
C3Load
1.5m 50Ω Cable
Osilloscope
Bandwidth : 100MHz
R : 50Ω
C1 : 0.1uF Film Cap.
C2 : 100uF Elec Cap.
C3 : 4700pF Film Cap.
C1 C2
A W
V
Digital power meter
AC
AC
P.S.
+V
- V
Load
Shunt Res.
Slide Reg.
Isolation Trans
NOTE : Leakage current measured through the 1k ohm resistor
Range used --- AC(For HIOKI MODEL 3156)
V
V
A W
V
FG
Leakage current meter
TDK-Lambda T-2
EFE300 1.2 List of equipment used
No. EQUIPMENT USED MANUFACTURER MODEL NO.
1 DIGITAL STORAGE OSCILLOSCOPE TEKTRONIX TDS540A/TDS3012
2 DIGITAL STORAGE OSCILLOSCOPE YOKOGAWA ELECT. DL1740
3 DIGITAL MULTIMETER AGILENT TECHNOLOGY 34970A
4 DIGITAL MULTIMETER YOKOGAWA ELECT. 73401
5 DIGITAL POWER METER YOKOGAWA ELECT. WT210/WT110
6 CLAMP ON AC/DC HITESTER HIOKI 3284
7 SHUNT RESISTOR YOKOGAWA ELECT. 2215
8 CURRENT PROBE/AMPLIFIER TEKTRONIX A6303/TM502A
9 ELECTRONIC DC LOAD TAKASAGO FK-400L/FK-600L
10 GP-IB/RS-232C PROGRAMMER TAKASAGO TC-911B
11 CVCF KIKUSUI PCR2000L
12 SINGLE-PHASE MASTER NF ELECT. 4420
13 LEAKAGE CURRENT HITESTER HIOKI 3156
14 DYNAMIC DIP SIMULATOR TAKAMISAWA PSA-210
15 TEMPERATURE CHAMBER PU-4K ESPEC PSL-4KPH-A
16 HARMONIC/FLICKER ANALYZER KIKUSUI KHA1000
17 PULS LIMITER Rohde&Schwarz ESH3-Z2
18 EMI TEST RECEIVER Rohde&Schwarz ESPI 3
19 AMN Rohde&Schwarz ESH2-Z5
20 AMN Rohde&Schwarz ESH3-Z5
21 EMI TEST RECEIVER Rohde&Schwarz ESPC + B2
22 ANTENNA(BI-LOG ANTENNA) Chase CBL 6112
23 SOFTWARE Rohde&Schwarz EMC32
24 PRE AMOLIFIER Rohde&Schwarz ESV-Z3
TDK-Lambda T-3
EFE3002 Characteristics
2.1 Steady state data
(1) Regulation - line and load, Temperature drift/Start up voltage and Drop out voltage
12V1. Regulation - line and load Condition Ta : 25
Iout \ Vin 90VAC 100VAC 230VAC 265VAC line regulation
0% 11.940V 11.952V 11.962V 11.967V 27mV 0.225%
50% 11.869V 11.879V 11.895V 11.903V 34mV 0.283%
100% 11.827V 11.840V 11.864V 11.874V 47mV 0.392%
load 113mV 112mV 98mV 93mV
regulation 0.942% 0.933% 0.817% 0.775%
2. Temperature drift Conditions Vin : 100VAC
Iout : 100%
Ta 0 +25 +50 temperature stability
Vout 11.946V 11.840V 11.764V 182mV 1.517%
3. Start up voltage and Drop out voltage Conditions Ta : 25Iout : 100%
Start up voltage (Vin) 76VAC
Drop out voltage (Vin) 62VAC
24V1. Regulation - line and load Condition Ta : 25
Iout \ Vin 90VAC 100VAC 230VAC 265VAC line regulation
0% 23.804V 23.825V 23.847V 23.861V 57mV 0.238%
50% 23.760V 23.785V 23.821V 23.841V 81mV 0.337%
100% 23.647V 23.682V 23.740V 23.764V 117mV 0.488%
load 157mV 143mV 107mV 97mV
regulation 0.654% 0.596% 0.446% 0.404%
2. Temperature drift Conditions Vin : 100VAC
Iout : 100%
Ta 0 +25 +50 temperature stability
Vout 23.890V 23.682V 23.544V 346mV 1.442%
3. Start up voltage and Drop out voltage Conditions Ta : 25Iout : 100%
Start up voltage (Vin) 76VAC
Drop out voltage (Vin) 63VAC
TDK-Lambda T-4
EFE300(2) Output voltage and Ripple noise voltage vs. Input voltage
Conditions Iout : 100 %
Ta : 0 25 50
12V
24V
0.0
2.5
5.0
7.5
10.0
12.5
15.0
50 100 150 200 250
Input voltage(VAC)
Ou
tpu
t v
olt
age
(V)
0
50
100
150
200
250
300
Rip
ple
no
ise
vo
ltag
e (m
V)
0.0
5.0
10.0
15.0
20.0
25.0
30.0
50 100 150 200 250
Input voltage (VAC)
Ou
tpu
t v
olt
age
(V)
0
50
100
150
200
250
300
Rip
ple
no
ise
vo
ltag
e (m
V)
Output voltage
Ripple noise voltage
Output voltage
Ripple noise voltage
TDK-Lambda T-5
EFE300(3) Efficiency vs. Output current
Conditions Vin : 90 VAC
: 100 VAC
: 230 VAC
: 265 VAC
Ta : 25 12V
24V
60
70
80
90
0 20 40 60 80 100
Output current (%)
Efficiency (%)
60
70
80
90
0 20 40 60 80 100
Output current (%)
Efficiency (%)
TDK-Lambda T-6
EFE300(4) Power factor and Input current vs. Output current
Conditions Vin : 90 VAC
: 100 VAC
: 230 VAC
: 265 VAC
Ta : 25 12V
24V
0.0
2.0
4.0
6.0
8.0
0 20 40 60 80 100
Output current (%)
Input
curr
ent
(A)
0.2
0.4
0.6
0.8
1.0
Pow
er f
acto
r
Iin
0.0
2.0
4.0
6.0
8.0
0 20 40 60 80 100
Output current (%)
Input
curr
ent
(A)
0.2
0.4
0.6
0.8
1.0
Pow
er f
acte
r
Power factor
Iin Power factor
TDK-Lambda T-7
EFE300(5) Input power vs. Output current
Conditions Vin : 90 VAC
: 100 VAC
: 230 VAC
: 265 VAC
Ta : 25 12V
Conditions Iout : 0%
Vin Input power
90VAC 10.1W
100VAC 10.1W
230VAC 10.1W
265VAC 10.1W
24V
Conditions Iout : 0%
Vin Input power
90VAC 11.4W
100VAC 11.2W
230VAC 11.3W
265VAC 10.9W
0
50
100
150
200
250
300
350
400
0 20 40 60 80 100
Output current (%)
Input
pow
er (
W)
0
50
100
150
200
250
300
350
400
0 20 40 60 80 100
Output current (%)
Input
pow
er (
W)
TDK-Lambda T-8
EFE3002.2 Warm up voltage drift characteristics
Conditions Vin : 100 VAC
Iout : 100 %
Ta : 25 12V
24V
-2.50
-2.00
-1.50
-1.00
-0.50
0.00
0.50
1.00
1.50
2.00
2.50
0 0.5 1 1.5 2
Time (hrs)
Ou
tpu
t v
olt
age
dri
ft (
%)
-2.50
-2.00
-1.50
-1.00
-0.50
0.00
0.50
1.00
1.50
2.00
2.50
0 0.5 1 1.5 2
Time (hrs)
Ou
tpu
t v
olt
age
dri
ft (
%)
TDK-Lambda T-9
EFE3002.3 Over current protection (OCP) characteristics 2.4 Over voltage protection (OVP) characteristics
Conditions Vin : 90 VAC Conditions Vin : 230 VAC
100 VAC Iout : 0 %
230 VAC Ta : 25 265 VAC
Ta : 25 12V
24V
5V/DIV 10ms/DIV
10V/DIV 10ms/DIV
0.0
4.0
8.0
12.0
16.0
20.0
24.0
0 50 100 150
Output current (%)
Outp
ut
volt
age
(V)
0.0
2.0
4.0
6.0
8.0
10.0
12.0
0 50 100 150
Output current (%)
Outp
ut
volt
age
(V)
OVP Point Vout →0V →
OVP Point Vout →
0V →Steady
Limit
Peak
Limit
Steady
Limit
Peak
Limit
TDK-Lambda T-10
EFE3002.5 Output rise characteristics 2.6 Output fall characteristics
Vin : 90 VAC (A)
100 VAC (B)
230 VAC (C)
265 VAC (D)
Iout : 100 %
Ta : 25
100ms/DIV
24V
10V/DIV 200ms/DIV 10V/DIV
Conditions
12V
5V/DIV 200ms/DIV 5V/DIV 100ms/DIV
D C B A
← 0V
← Vin
ABCD ← Vout← Vout
← 0V
← Vin
← 0V
← Vin
ABCD ← Vout← Vout
← 0V
← Vin
D C B A
TDK-Lambda T-11
EFE3002.7 Hold up time characteristics
Conditions Vin : 100 VAC
200 VAC
Ta : 25 12V
24V
10
100
1000
0 20 40 60 80 100
Ho
ld u
p t
ime
(ms)
10
100
1000
0 20 40 60 80 100
Hold
up t
ime
(ms)
Output current (%)
Output current (%)
TDK-Lambda T-12
EFE3002.8 Dynamic line response characteristics
Conditions Vin : 90 VAC←→132VAC (A)
170 VAC←→265VAC (B)
Iout : 100 %
Ta : 25
200mV/DIV 500ms/DIV
12V
200mV/DIV 500ms/DIV
24V
← Vout (A)
← Vin
← Vout (B)
← Vout (A)
← Vin
← Vout (B)
TDK-Lambda T-13
EFE3002.9 Dynamic load response characteristics
Conditions Vin : 100 VAC
Ta : 25 f=100Hz
12V
f=1kHz
12V
+2.83% -2.75% +5.17% -7.08%
500mV/DIV 200µs/DIV 2V/DIV 200µs/DIV
Load current tr = tf = 50us Load current tr = tf = 50us
Iout 50% 100% Iout 0% 100%
+3.25% -3.17% +5.75% -7.33%
500mV/DIV 2ms/DIV 2V/DIV 2ms/DIV
Load current tr = tf = 50us Load current tr = tf = 50us
Iout 50% 100% Iout 0% 100%
← Vout
← Iout
← Vout
← Iout
← Vout ← Vout
← Iout ← Iout
TDK-Lambda T-14
EFE3002.9 Dynamic load response characteristics
Conditions Vin : 100 VAC
Ta : 25 f=100Hz
24V
f=1kHz
24V
+1.58% -1.38% +2.96% -2.58%
500mV/DIV 200µs/DIV 500mV/DIV 200µs/DIV
Load current tr = tf = 50us Load current tr = tf = 50us
Iout 50% 100% Iout 0% 100%
+1.58% -1.54% +3.29% -3.42%
500mV/DIV 2ms/DIV 2V/DIV 2ms/DIV
Load current tr = tf = 50us Load current tr = tf = 50us
Iout 50% 100% Iout 0% 100%
← Vout
← Iout
← Vout
← Iout
← Vout ← Vout
← Iout
← Vout
← Iout
TDK-Lambda T-15
EFE3002.10 Response to brown out characteristics
Conditions Vin : 100 VAC Conditions Vin : 200 VAC
Iout : 100 % Iout : 100 %
A = 5ms Ta : 25 A = 5ms Ta : 25 B = 13ms B = 13ms
C = 14ms C = 14ms
5V/DIV 200ms/DIV 5V/DIV 200ms/DIV
Conditions Vin : 100 VAC Conditions Vin : 200 VAC
Iout : 100 % Iout : 100 %
A = 6ms Ta : 25 A = 6ms Ta : 25 B = 14ms B = 14ms
C = 15ms C = 15ms
10V/DIV 200ms/DIV 10V/DIV 200ms/DIV
12V
24V
← Vout← 0V ← Vin
A B C ← Vout← 0V ← Vin
A B C
← Vout← 0V ← Vin
A B C ← Vout← 0V ← Vin
A B C
TDK-Lambda T-16
EFE3002.11 Inrush current waveform
Conditions Vin : 100 VAC
Iout : 100 %
Switch on phase angle Switch on phase angle Ta : 25 of input AC voltage of input AC voltage
φ=0° φ=90°
10A/DIV 200ms/DIV 10A/DIV 200ms/DIV
Conditions Vin : 200 VAC
Iout : 100 %
Switch on phase angle Switch on phase angle Ta : 25 of input AC voltage of input AC voltage
φ=0° φ=90°
10A/DIV 200ms/DIV 10A/DIV 200ms/DIV
12V
← Iin← Vin
← Iin← Vin
← Iin← Vin
← Iin← Vin
TDK-Lambda T-17
EFE3002.12 Inrush current characteristics Conditions Iout : 0 %
50 %
100 %
Ta : 25 12V
Vin : 100 VAC
Vin : 200 VAC
* Above data includes secondary inrush current.
0
10
20
30
40
50
60
0.01 0.1 1 10
Brown out time(sec)
Inrush current (A
)
0
10
20
30
40
50
60
0.01 0.1 1 10
Brown out time(sec)
Inrush current (A
)
TDK-Lambda T-18
EFE3002.13 Input current waveform
Conditions Vin : 100 VAC Conditions Vin : 200 VAC
Iout : 100 Iout : 100 Ta : 25 Ta : 25
2A/DIV 5ms/DIV 2A/DIV 5ms/DIV
2.14 Leakage current characteristics
Conditions Iout : 0 %
100 %
Ta : 25 f : 50 Hz
Equipment used : 3156 (HIOKI)
12V
12V
← Iin← Vin
← Iin← Vin
0.0
0.2
0.4
0.6
0.8
1.0
80 120 160 200 240 280
Input voltage (VAC)
Lea
kag
e cu
rren
t (m
A)
TDK-Lambda T-19
EFE3002.15 Input current harmonics
Conditions Vin : 100VAC
Iout : 100%
Ta : 2512V
Conditions Vin : 230VAC
Iout : 100%
Ta : 250.001
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 39
Harmonic number
Har
monic
curr
ent
(A)
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 39
Harmonic number
Har
monic
curr
ent
(A)
IEC61000-3-2 Limit (class A)
IEC61000-3-2 Limit (class A)
TDK-LambdaT-20
EFE3002.16 Output ripple and noise waveform
Conditions Vin : 100 VAC
Iout : 100 %
Ta : 25 NORMAL MODE
24V
50mV/DIV 2μs/DIV
12V
50mV/DIV 2μs/DIV
TDK-Lambda T-21
EFE3002.17 Stand-by current
Condition Iout : 0 %
Ta : 25 12V
24V
0.00
0.10
0.20
0.30
0.40
0.50
80 100 120 140 160 180 200 220 240 260
Input voltage (VAC)
Input
curr
ent
(A)
0.00
0.10
0.20
0.30
0.40
0.50
80 100 120 140 160 180 200 220 240 260
Input voltage (VAC)
Input
curr
ent
(A)
TDK-Lambda T-22
EFE300
2.18 Electro-Magnetic Interference characteristics
Conditions Vin : 230VAC
Iout : 100%
Conducted Emission
12V
Ref. Limit Measure
Data (dBuV) (dBuV)
QP 61.8 41.3
AV 53.7 37.0
Ref. Limit Measure
Data (dBuV) (dBuV)
QP 60.0 44.5
AV 50.0 37.0
Phase : L & N ( Peak value of each phase )
24V
Ref. Limit Measure
Data (dBuV) (dBuV)
QP 63.5 43.9
AV 53.5 38.6
Ref. Limit Measure
Data (dBuV) (dBuV)
QP 60.0 50.4
AV 50.0 42.6
Phase : L & N ( Peak value of each phase )
Limit of EN55011-B,EN55022-B are same as its VCCI class B.
The above is wave measured by the peak detection mode.
Point D
(202kHz)
Point E
(22MHz)
Point A ,B
(198kHz ,250kHz)
Point C
(25MHz)
VCCI Class B
AV Limit
VCCI Class B
QP Limit
A (AV) C
VCCI Class B
AV Limit
VCCI Class B
QP Limit
ED
B (QP)
TDK-Lambda T-23
EFE300
2.18 Electro-Magnetic Interference characteristics
Conditions Vin : 230VAC
Iout : 100%
Radiated Emission
24V
HORIZONTAL
VERTICAL
Limit of EN55011-A,EN55022-A are same as its VCCI class A.
The above is wave measured by the peak detection mode.
VCCI Class A
QP Limit
VCCI Class A
QP Limit
TDK-Lambda T-24