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TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
PFH500E-28-xxx-R
Evaluation Report
REV 1.10 (September 10, 2019)
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 1
PFH500F-28-xxx-R
Evaluation Report
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
Contents 1. EVALUATION METHOD 3
1.1 Test / Measurement Circuits 3
1.1.1 Steady State Test Measurement Circuit 3
1.1.2 Dynamic, Protection and Output Ripple and Noise Measurement Circuit 3
1.1.3 Inrush Current Measurement Circuit 4
1.1.4 Leakage Current Measurement Circuit 4
1.1.5 Electro-Magnetic Interference Test Set-Up 4
1.1.5.1 Conducted EMI 4
1.1.5.2 Radiated EMI 5
2. CHARACTERISTIC 7
2.1 Steady State Data ( Refer to Section 1.1.1 For Test Setup) 7
2.1.1 Regulation — Line, Load and Temperature 7
2.1.2 Efficiency vs. Output Current 8
2.1.3 Input Current vs. Input Voltage 9
2.1.4 Input Current vs. Input Voltage (No Load) 10
2.1.5 Power Factor (PF) vs. Output Current 11
2.1.6 Output behavior with input line sweep 11
2.2 Over Current Protection (OCP) Characteristics (Refer to section 1.1.2 for Test Setup) 13
2.3 Over Voltage Protection (OVP) Characteristics (Refer to Section 1.1.2 for Test Setup) 14
2.4 Output Rise and Fall Characteristic with AC Turn On / Turn-Off 15
2.5 Hold Up Time Characteristic 17
2.6 Dynamic Line Response 17
2.7 Dynamic Load Response 18
2.8 Brownout 19
2.9 Inrush Current (Refer to Section 1.1.3 for Test Setup) 21
2.10 Input Current Waveform 22
2.11 Input Current Harmonics 22
2.12 Output Ripple and Noise 23
2.13 Electro-Magnetic Interference Characteristics 24
2.14 Leakage Current (Refer to Section 1.1.4 for Test Setup) 34
3. TERMINOLOGIES 34
REV 1.10 (September 10, 2019) 2
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 2
Contents
1. EVALUATION METHOD ................................................................................................................................................................... 3
1.1 Test / Measurement Circuits.................................................................................................................................. 3
1.1.1 Steady State Test Measurement Circuit ............................................................................................................. 3
1.1.2 Dynamic, Protection and Output Ripple and Noise Measurement Circuit ......................................................... 3
1.1.3 Inrush Current Measurement Circuit .................................................................................................................. 4
1.1.4 Leakage Current Measurement Circuit ............................................................................................................... 4
1.1.5 Electro-Magnetic Interference Test Set-Up ........................................................................................................ 4
1.1.5.1 Conducted EMI .................................................................................................................................................... 4
1.1.5.2 Radiated EMI ....................................................................................................................................................... 5
2. CHARACTERISTIC ........................................................................................................................................................................... 7
2.1 Steady State Data ( Refer to Section 1.1.1 For Test Setup) ................................................................................... 7
2.1.1 Regulation – Line, Load and Temperature .......................................................................................................... 7
2.1.2 Efficiency vs. Output Current .............................................................................................................................. 8
2.1.3 Input Current vs. Input Voltage ........................................................................................................................... 9
2.1.4 Input Current vs. Input Voltage (No Load) ........................................................................................................ 10
2.1.5 Power Factor (PF) vs. Output Current ............................................................................................................... 11
2.1.6 Output behavior with input line sweep ............................................................................................................ 11
2.2 Over Current Protection (OCP) Characteristics (Refer to section 1.1.2 for Test Setup) ..................................... 13
2.3 Over Voltage Protection (OVP) Characteristics (Refer to Section 1.1.2 for Test Setup) .................................... 14
2.4 Output Rise and Fall Characteristic with AC Turn On / Turn-Off ........................................................................ 15
2.5 Hold Up Time Characteristic ................................................................................................................................ 17
2.6 Dynamic Line Response ........................................................................................................................................ 17
2.7 Dynamic Load Response....................................................................................................................................... 18
2.8 Brownout .............................................................................................................................................................. 19
2.9 Inrush Current (Refer to Section 1.1.3 for Test Setup) ........................................................................................ 21
2.10 Input Current Waveform ...................................................................................................................................... 22
2.11 Input Current Harmonics ...................................................................................................................................... 22
2.12 Output Ripple and Noise ...................................................................................................................................... 23
2.13 Electro-Magnetic Interference Characteristics .................................................................................................... 24
2.14 Leakage Current (Refer to Section 1.1.4 for Test Setup) ..................................................................................... 34
3. TERMINOLOGIES ........................................................................................................................................................................... 34
TUT T
L=50 mm
C13 C14 C15 C16 C17 C18
0 0
C2 C3 =C7
Earth GND 77.L.
PMBus Interface
AC(L)
AC(N)
Case
PFH500 C2
Earth GND 7.74
C3
T
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
1. EVALUATION METHOD
1.1 Test / Measurement Circuits
1.1.1 Steady State Test Measurement Circuit Controlled temp. chamber
1 M 2, , 1 , 2 2 2 2 2
I. PMBus Interface
RS (+)
V AC(L)
o(+)
Vo(+) 0—
C I
AC(N) Vo(-) o—
PFH500 Vo(-)
Case Trim 0
PG
ON/OFF
Aux Power
SGND
Inrush Control -VBUS + VBUS
RLb
1.1.2 Dynamic, Protection and Output Ripple and Noise Measurement Circuit
L=50 mm
C9
Clo
0 . RS (+)
I I -
Vo(+) C13 C 4 C15 Cl6C17
Vo(+)
CI Vo(-) 0—
V0(-) 0—
Trim o
PG 0
ON/OFF 0
Aux Power 0
SGND o
TT TT...
T TCI2
Cu rent Probe
0
Oscilloscope (Output Noise)
Inrush Control -VBUS + VBUS
RLb 0—)1-410 C9
Clo
REV 1.10 (September 10, 2019) 3
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 3
1. EVALUATION METHOD
1.1 Test / Measurement Circuits
1.1.1 Steady State Test Measurement Circuit
1.1.2 Dynamic, Protection and Output Ripple and Noise Measurement Circuit
Switch
o vo Oscilloscope
AC (L)
Application Circuit using PFH
AC (N)
AC Source
Spectrum Analyzer EMI Test Receiver
LISN 50ohms
AC Cord Stand
D. U.T
H=80cm
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
1.1.3 Inrush Current Measurement Circuit
Current Probe
1.1.4 Leakage Current Measurement Circuit
Vac
Variac
(04). 11
AC (L)
Application Circuit using PFH
AC (N) FG
Current Meter
1.1.5 Electro-Magnetic Interference Test Set-Up
1.1.5.1 Conducted EMI
4-
a
Input Line Earth Ground
Filter Metal Ground Plain
REV 1.10 (September 10, 2019) 4
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 4
1.1.3 Inrush Current Measurement Circuit
1.1.4 Leakage Current Measurement Circuit
1.1.5 Electro-Magnetic Interference Test Set-Up
1.1.5.1 Conducted EMI
Earth Ground Metal Ground Plain
Shielded Input Line
H=80cm
Vac(L) Fl Ll L2
m (4,
111H '7 '7 I' 7 7
ITTT C14 C16
Vac(N)
Earth GND
k. Input EMI Filter for CISPR-32 Class A/B
RLa
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
1.1.5.2 Radiated EMI
D=10m
D.U.T and Load Biconical Antenna (Shielded with metal box)
Spectrum Analyzer EMI Test Receiver
F-1
Stand
31 material ferrite beads
Circuit Code Description Circuit Code Description
C1, C4 1µF Film Capacitor C5 2.2µF Film Capacitor
C2, C3 3300pF Ceramic Capacitor C6, C7 470pF Ceramic Capacitor
L1, L2 6.3mH R2 22 Ohms
R1 470kOhms C13 0.1µF Ceramic Capacitor
C15, C16 (1) 470µF Electrolytic Capacitor C14 40uF Ceramic Capacitor
C11, C12 470pF Ceramic Capacitor C9, C10 470µF Electrolytic Capacitor
RLa,RLb
1 Form A relay with 10A, 277VAC, power rating: 12VDC, 16.7mA, 200mW, High Sensitivity
F1 10A, 250V, Fast Blow
(1): Higher Capacitance Value (-2X total cap value recommended) for Ta 5 -20 C operation.
REV 1.10 (September 10, 2019) 5
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 5
1.1.5.2 Radiated EMI
Circuit Code Description Circuit Code Description
C1, C4 1µF Film Capacitor C5 2.2µF Film Capacitor
C2, C3 3300pF Ceramic Capacitor C6, C7 470pF Ceramic Capacitor
L1, L2 6.3mH R2 22 Ohms
R1 470kOhms C13 0.1µF Ceramic Capacitor
C15, C16 (1) 470µF Electrolytic Capacitor C14 40uF Ceramic Capacitor
C11, C12 470pF Ceramic Capacitor C9, C10 470µF Electrolytic Capacitor
RLa,RLb
1 Form A relay with 10A, 277VAC, power rating: 12VDC, 16.7mA, 200mW, High Sensitivity
F1 10A, 250V, Fast Blow
(1): Higher Capacitance Value (~2X total cap value recommended) for Ta ≤ -20 °C operation.
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
List of Equipment
EQUIPMENT USED MANUFACTURER MODEL NO.
1 OSCILLOSCOPE LECROY WaveSurfer 454
2 OSCILLOSCOPE LECROY WaveRunner 6050
3 DIGITAL MULTIMETER KEITHLEY 2110
4 DIGITAL MULTIMETER KEITHLEY 2110
5 DIFFERENTIAL AMPLIFIER LECROY DA1855A
6 DIFFERENTIAL AMPLIFIER LECROY DA1855A
7 SHUNT RESISTER EMPRO SHUNT HA20-100
8 TEMP CHAMBER TENNEY JUNIOR ENVIRONMENTAL TJR
9 DIFFERENTIAL PROBE LECROY A101
10 DIFFERENTIAL PROBE LECROY DXG100A
11 DIGITAL POWER METER YOKOGAWA WT310
12 SURGE TESTER THERMO SCIENTIFIC EMCPRO PLUS
13 DC ELECTRONIC LOAD CHROMA 63201
14 FREQUENCY ANALYZER AP INSTRUMENT 300
15 AC POWER SOURCE CHROMA 6530
16 INJECTION ISOLATOR RIDLEY ENGINEERING 0.1Hz TO 30MHz
17 WAVEFORM GENERATOR AGILENT 33120A
18 DC ELECTRONIC LOAD CHROMA 6334
19 AC CONTROL SORENSEN DCS150-20
20 THERMOSTREAM TEMPTRONIC CORPORATION ATS-810-M-4
21 CURRENT PROBE LECROY AP015
22 CURRENT PROBE LECROY CP150
REV 1.10 (September 10, 2019) 6
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 6
List of Equipment
EQUIPMENT USED MANUFACTURER MODEL NO.
1 OSCILLOSCOPE LECROY WaveSurfer 454
2 OSCILLOSCOPE LECROY WaveRunner 6050
3 DIGITAL MULTIMETER KEITHLEY 2110
4 DIGITAL MULTIMETER KEITHLEY 2110
5 DIFFERENTIAL AMPLIFIER LECROY DA1855A
6 DIFFERENTIAL AMPLIFIER LECROY DA1855A
7 SHUNT RESISTER EMPRO SHUNT HA20-100
8 TEMP CHAMBER TENNEY JUNIOR ENVIRONMENTAL TJR
9 DIFFERENTIAL PROBE LECROY A101
10 DIFFERENTIAL PROBE LECROY DXG100A
11 DIGITAL POWER METER YOKOGAWA WT310
12 SURGE TESTER THERMO SCIENTIFIC EMCPRO PLUS
13 DC ELECTRONIC LOAD CHROMA 63201
14 FREQUENCY ANALYZER AP INSTRUMENT 300
15 AC POWER SOURCE CHROMA 6530
16 INJECTION ISOLATOR RIDLEY ENGINEERING 0.1Hz TO 30MHz
17 WAVEFORM GENERATOR AGILENT 33120A
18 DC ELECTRONIC LOAD CHROMA 6334
19 AC CONTROL SORENSEN DCS150-20
20 THERMOSTREAM TEMPTRONIC CORPORATION ATS-810-M-4
21 CURRENT PROBE LECROY AP015
22 CURRENT PROBE LECROY CP150
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2. CHARACTERISTIC
2.1 Steady State Data ( Refer to Section 1.1.1 For Test Setup)
2.1.1 Regulation - Line, Load and Temperature
a. Low Line Regulation - Line and Load Conditions: Ta = 25 °C
lo \ VIN 85VAC 100VAC 115VAC 130VAC Line Regulation
0% 28.099V 28.062V 28.071V 28.071V 0.037V 0.132%
50% 28.096V 28.059V 28.061V 28.061V 0.037V 0.132%
100%I
28.075V 28.056V 28.046V 28.052V 0.029V 0.104%
Load
Regulation
0.024V 0.005V 0.024V 0.019V
0.086% 0.018% 0.086% 0.068%
b. Temperature Regulation Conditions: VIN = 115 VAC
lo = 100%
Ta -40 °C +25 °C +75 °C Temperature Stability
Vo 28.186V 28.046V 27.914V -272mV -0.971%
c. High line Regulation - Line and Load Conditions: Ta = 25 °C
lo \ VIN 200VAC 220VAC 230VAC 265VAC Line Regulation
0% 28.064V 28.065V 28.052V 28.062V 0.014V 0.050%
50% 28.062V 28.062V 28.059V 28.058V 0.005V 0.018%
100% 28.052V 28.051V 28.044V 28.058V 0.014V 0.050%
Load
Regulation
0.012V 0.014V 0.014V 0.005V
0.043% 0.050% 0.050% 0.018%
d. Temperature Regulation Conditions: VIN = 230 VAC
lo = 100%
Ta -40 °C +25 °C +75 °C Temperature Stability
Vo 28.217V 28.044V 27.921V -296mV -1.057%
REV 1.10 (September 10, 2019) 7
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 7
2. CHARACTERISTIC
2.1 Steady State Data ( Refer to Section 1.1.1 For Test Setup)
2.1.1 Regulation – Line, Load and Temperature
a. Low Line Regulation - Line and Load Conditions: Ta = 25 °C
IO \ VIN 85VAC 100VAC 115VAC 130VAC Line Regulation
0% 28.099V 28.062V 28.071V 28.071V 0.037V 0.132%
50% 28.096V 28.059V 28.061V 28.061V 0.037V 0.132%
100% 28.075V 28.056V 28.046V 28.052V 0.029V 0.104%
Load 0.024V 0.005V 0.024V 0.019V
Regulation 0.086% 0.018% 0.086% 0.068%
b. Temperature Regulation Conditions: VIN = 115 VAC
IO = 100%
Ta -40 °C +25 °C +75 °C Temperature Stability
VO 28.186V 28.046V 27.914V -272mV -0.971%
c. High line Regulation - Line and Load Conditions: Ta = 25 °C
IO \ VIN 200VAC 220VAC 230VAC 265VAC Line Regulation
0% 28.064V 28.065V 28.052V 28.062V 0.014V 0.050%
50% 28.062V 28.062V 28.059V 28.058V 0.005V 0.018%
100% 28.052V 28.051V 28.044V 28.058V 0.014V 0.050%
Load 0.012V 0.014V 0.014V 0.005V
Regulation 0.043% 0.050% 0.050% 0.018%
d. Temperature Regulation Conditions: VIN = 230 VAC
IO = 100%
Ta -40 °C +25 °C +75 °C Temperature Stability
VO 28.217V 28.044V 27.921V -296mV -1.057%
0 2 8 10
Output Current (A)
12 14 16 18 4 6
Vin = 130V = 120V —.—Vin = 100V Vin = 115V
Ta = 25 Deg C. 95
90
• 85
•E 80 LU
75
70
0 2 4 6 8 10 12 14 16 18
Output Current (A)
8 REV 1.10 (September 10, 2019)
Ta = 25 Deg C. 95
90
• 85
•E 80 LU
75
70
(
—.—Vin = 200V Vin = 230V Vin = 265V Vin = 220V
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.1.2 Efficiency vs. Output Current
PFH500E-28 Efficiency Ta = 25 Deg C.
95
90
85
*: 80 Lu
75
70
0 2 4 6 8 10 12 14
Output Current (A)
- Vin = 85V Vin = 90V Vin = 95V
PFH500E-28 Efficiency
PFH500E-28 Efficiency
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 8
2.1.2 Efficiency vs. Output Current
70
75
80
85
90
95
0 2 4 6 8 10 12 14
Eff
icie
ncy
, ηη ηη
(%)
Output Current (A)
PFH500F-28 Efficiency
Vin = 85V Vin = 90V Vin = 95V
Ta = 25 Deg C.
70
75
80
85
90
95
0 2 4 6 8 10 12 14 16 18
Eff
icie
ncy
, ηη ηη
(%)
Output Current (A)
PFH500F-28 Efficiency
Vin = 100V Vin = 115V Vin = 130V Vin = 120V
Ta = 25 Deg C.
70
75
80
85
90
95
0 2 4 6 8 10 12 14 16 18
Eff
icie
ncy
, ηη ηη
(%)
Output Current (A)
PFH500F-28 Efficiency
Vin = 200V Vin = 230V Vin = 265V Vin = 220V
Ta = 25 Deg C.
Ta = 25 Deg C.
. . . . . . . . . .
88 95 102
Input Voltage (V)
60 67 116 109 81 74
. . . . 123 130
4
3 U
g- 2
lo_mid = 9A —a— lo_max =13.5A
3.5
3
0.5
0
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.1.3 Input Current vs. Input Voltage
Low Line
PFH500E-28 Start Up (Input Current)
High Line
PFH500E-28 Start Up (Input Current) Ta = 25 Deg C.
- •
162 172 182 192 202 212 222 232 242 252 262
Input Voltage (V)
—e— lo_mid = 9A lo_max = 18A
REV 1.10 (September 10, 2019) 9
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 9
2.1.3 Input Current vs. Input Voltage
Low Line
High Line
0
1
2
3
4
5
6
60 67 74 81 88 95 102 109 116 123 130
Inp
ut
Cu
rre
nt
(A)
Input Voltage (V)
PFH500F-28 Start Up (Input Current)
Io_mid = 9A Io_max = 13.5A
Ta = 25 Deg C.
0
0.5
1
1.5
2
2.5
3
3.5
162 172 182 192 202 212 222 232 242 252 262
Inp
ut
Cu
rre
nt
(A)
Input Voltage (V)
PFH500F-28 Start Up (Input Current)
Io_mid = 9A Io_max = 18A
Ta = 25 Deg C.
0.5
0.45
0.4
0.35
t 0.3
0.25 U
0.2
0.05
0
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.1.4 Input Current vs. Input Voltage (No Load)
Low Line
PFH500E-28 Start Up (Input Current)
0.4
Ta = 25 Deg C.
0.35
0.3 7."(e
+. 0.25
0.2 U g. 0.15
• I I
60 65 70 75 80 85 90 95 100 105 110 115 120 125 130
Input Voltage (V)
lo_min = OA
High Line
PFH500E-28 Start Up (Input Current) Ta = 25 Deg C.
Vow
162 172 182 192 202 212 222 232 242 252 262
Input Voltage (V)
lo_min = OA
REV 1.10 (September 10, 2019) 10
0.1
0.05
0
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 10
2.1.4 Input Current vs. Input Voltage (No Load)
Low Line
High Line
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0.4
60 65 70 75 80 85 90 95 100 105 110 115 120 125 130
Inp
ut
Cu
rre
nt
(A)
Input Voltage (V)
PFH500F-28 Start Up (Input Current)
Io_min = 0A
Ta = 25 Deg C.
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0.4
0.45
0.5
162 172 182 192 202 212 222 232 242 252 262
Inp
ut
Cu
rre
nt
(A)
Input Voltage (V)
PFH500F-28 Start Up (Input Current)
Io_min = 0A
Ta = 25 Deg C.
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.1.5 Power Factor (PF) vs. Output Current
Power Factor vs. Output Current
1
0.95
0.9
0 4. ci-4 0.85
85V
100y
115V
130V
200V
230V
265V
0.8 0
0.75
0.7
0.65
20% 40% 60% 80% 100%
Output Current (%)
2.1.6 Output behavior with input line sweep
Low Line (Line Sweep from 0 —> 135 —>0 VAC)
PFH500E-28 Start Up (Output Voltage)
30
25
U > 20
15
.172. 10 0
5
0
Ta = 25 Deg C.
,, ... ........ _
60 65 70 75 80 85 90 95 100 105 110 115 120 125 130
Input Voltage (VAC)
lo_min = OA lo_mid = 9A l0 max = 13.5A
Note: At no load condition, Bulk capacitor will discharge slowly and output voltage will turn off until input voltage drop to 66V.
REV 1.10 (September 10, 2019) 11
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 11
2.1.5 Power Factor (PF) vs. Output Current
2.1.6 Output behavior with input line sweep
Low Line (Line Sweep from 0 → 135 →0 VAC)
Note: At no load condition, Bulk capacitor will discharge slowly and output voltage will turn off until input voltage drop to 66V.
0.65
0.7
0.75
0.8
0.85
0.9
0.95
1
20% 40% 60% 80% 100%
Po
we
r Fa
cto
r
Output Current (%)
Power Factor vs. Output Current
85V
100V
115V
130V
200V
230V
265V
0
5
10
15
20
25
30
60 65 70 75 80 85 90 95 100 105 110 115 120 125 130
Ou
tpu
t V
olt
ag
e (
VD
C)
Input Voltage (VAC)
PFH500F-28 Start Up (Output Voltage)
Io_min = 0A Io_mid = 9A Io_max = 13.5A
Ta = 25 Deg C.
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
High Line (Line Sweep from 180 —> 265 —> 180 VAC)
PFH500E-28 Start Up (Output Voltage) Ta = 25 Deg C.
_
175 185 195 205 215 225 235 245 255 265
Input Voltage (VAC)
lo_min = OA — lo_mid = 9A l0 max = 18A
U
eo to
0
o.
O
28.06
28.06
28.05
28.05
28.04
28.04
28.03
28.03
28.02
REV 1.10 (September 10, 2019) 12
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 12
High Line (Line Sweep from 180 → 265 → 180 VAC)
28.02
28.03
28.03
28.04
28.04
28.05
28.05
28.06
28.06
175 185 195 205 215 225 235 245 255 265
Ou
tpu
t V
olt
ag
e (
VD
C)
Input Voltage (VAC)
PFH500F-28 Start Up (Output Voltage)
Io_min = 0A Io_mid = 9A Io_max = 18A
Ta = 25 Deg C.
2.2 Over Current Protection (OCP) Characteristics (Refer to section 1.1.2 for Test Setup)
LOW LINE CONDITIONS HIGH LINE CONDITIONS
PFH500E-28-000 Current Limit Ta = .r. S :.:ef
33 —
PFH500E-28-000 Current Limit Ta =25 Deg C.
30
<- _ 25 a. 25 i:
2°
:
2° 8 O
z is Li 0 25 ./.---------
10 5
0 a 10 5
5 :
:.________............/.........
:
5
0 o 5 10 15 20 25
Output Current (A) — Vin . 200/ —..— Vin =230/
Vin =265v — Vin =220/
o 5 io 15 20 25 Output Current (A)
--- Vin =100/ —•— V i n = 1 LSV Vin Vin 120V - =130, —.— =
33
PFH500E-28-000 Current Limit Ta =-40 Deg C.
33
PFH500E-28-000 Current Limit Ta = -40 Deg C.
— 25
g : 20 Z
ris 20
> 5 10 a
g 25 5 10
; a 5 o s .
5 o s
0 • - - - o 0 5 10 15 20 25 30
Output Current (A) — Vin = 203/ — Vin .230V
Vin .265V — Vin .220V
0 5 10 15 20 25 30 Output Current (A)
— Vin = NOV —.— Vin .115V Vin = 1301 --,— Vin = 120/
PFH500E-28-000 Current Limit Ta =75 Deg C.
PFH500E-28-000 Current Limit Ta =75 Deg C.
33 30 - I.
— 25 : '
• 25 S.
!r. ---`--------.'.----- a s20 ----"--------------- 2°
..----'-----' s * ..--""-'..--- 15 3 3
1 W W 1 0 5
f
fr g 5
0 5 10 15 23 25 Output Current (A)
Vin 200/ Vin — . —.— .230V
0 5 10 15 20 25 Output Current (A)
Vin Vin — =1001 —.— =115V Vin 132/ Vin 120V — = —.— = — Vin .265V --- Vin .2201
REV 1.10 (September 10, 2019) 13
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 13
2.2 Over Current Protection (OCP) Characteristics (Refer to section 1.1.2 for Test Setup)
LOW LINE CONDITIONS HIGH LINE CONDITIONS
Conditions: lo = 0% Ta = 25 °C VIN = 115 VAC
cs
PS- - PS - - - P3- - - P2 - - - P1 Has(C3)
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Measure lath Analysis Malitmia Help
1=2:1511111
112312017 12.08.35 PM
Conditions: lo = 0% Ta = 25 °C VIN = 230 VAC
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TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.3 Over Voltage Protection (OVP) Characteristics (Refer to Section 1.1.2 for Test Setup)
REV 1.10 (September 10, 2019) 14
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 14
2.3 Over Voltage Protection (OVP) Characteristics (Refer to Section 1.1.2 for Test Setup)
Conditions: IO = 0% Ta = 25 °C VIN = 115 VAC
Conditions: IO = 0% Ta = 25 °C VIN = 230 VAC
OVP Point
OVP Point
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.4 Output Rise and Fall Characteristic with AC Turn On / Turn-Off
115 VAC No Load Start Up CH3: Vo; CH4: VIN
115 VAC No Load Shut Down CH3: Vo; CH4: VIN
File geMr al Prnebase Trigger Display Caws Menem Math Marys Ulligns Help File vertical Prnebase Trigger Display Caws Menem Mails AnarynT. illlens HeiT
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115 VAC Full Load Start Up CH3: Vo; CH4: VIN
115 CH3:
VAC Full Load Shut Down Vo; CH4: VIN
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REV 1.10 (September 10, 2019) 15
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 15
2.4 Output Rise and Fall Characteristic with AC Turn On / Turn-Off
115 VAC No Load Start Up CH3: VO; CH4: VIN
115 VAC No Load Shut Down CH3: VO; CH4: VIN
115 VAC Full Load Start Up CH3: VO; CH4: VIN
115 VAC Full Load Shut Down CH3: VO; CH4: VIN
Measure
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230 VAC Full Load Start Up CH3: Vo; CH4: VIN
File Vertical Timebase Trigger Display Cursors Measure Math Analysis Utilities Help
Measure
value
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30.1 V 376V
230 VAC No Load Start Up CH3: Vo; CH4: VIN
File Vertical Tirnebase Trigger Display Cursors Measure Mat
L3
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File Vertical Tirnebase Trigger Display Cursors Measure IMF
Roll 500 maltll 1.00 V oriel
File Vertical Tirnebase Trigger Display Cursors Measure Mat
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
Output Rise and Fall Characteristic (continued)
REV 1.10 (September 10, 2019) 16
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 16
Output Rise and Fall Characteristic (continued)
230 VAC No Load Start Up CH3: VO; CH4: VIN
230 VAC No Load Shut Down CH3: VO; CH4: VIN
230 VAC Full Load Start Up CH3: VO; CH4: VIN
230 VAC Full Load Shut Down CH3: VO; CH4: VIN
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.5 Hold Up Time Characteristic
VIN = 115 VAC; Vo = 28 VDC VIN = 230 VAC; Vo = 28 VDC
240
,7,- 200 E Lu 160 2 P 120 0_ m o 80 Ei x 40
0 20
115V INPUT
40 60 80
OUTPUT CURRENT (%)
240
7 200 E LI, 160 2 '- 120 0_ m 0 80
x 40
0 20
230V INPUT
40 60 80
OUTPUT CURRENT (%)
100
2.6 Dynamic Line Response
VIN = 90 4- 130 VAC; lo = 15 A CH1: Vo; CH3: liN; CH4: VIN
VIN = 110 4- 260 VAC; lo = 18 A CH1: Vo; CH3: liN; CH4: VIN
511 0001 Tirnetease 1105.91. 9.5.41.5. , ur lemur, Mt ene .0 4106,
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VIN = 180 CH1: Vo;
4- CH3:
265 liN;
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A VIN = 115 CH1: Vo;
4- 250 VAC; lo = CH3: liN; CH4: VIN
18 A
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REV 1.10 (September 10, 2019) 17
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 17
2.5 Hold Up Time Characteristic
VIN = 115 VAC; VO = 28 VDC VIN = 230 VAC; VO = 28 VDC
2.6 Dynamic Line Response
VIN = 90 ↔ 130 VAC; IO = 15 A CH1: VO; CH3: IIN; CH4: VIN
VIN = 110 ↔ 260 VAC; IO = 18 A CH1: VO; CH3: IIN; CH4: VIN
VIN = 180 ↔ 265 VAC; IO = 18 A CH1: VO; CH3: IIN; CH4: VIN
VIN = 115 ↔ 250 VAC; IO = 18 A CH1: VO; CH3: IIN; CH4: VIN
0
40
80
120
160
200
240
20 40 60 80 100
HO
LD U
P T
IME
(m
s)
OUTPUT CURRENT (%)
1 1 5 V I N P U T
0
40
80
120
160
200
240
20 40 60 80 100
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LD U
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(m
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2 3 0 V I N P U T
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VIN = 115 VAC; Load Step: 0% (OA) H 50% (9A), 1kHz CH1: Vo (AC Couple); CH2: lo; Slew rate: 0.1A/us
VIN = 230 VAC; Load Step: 0% (OA) H 50% (9A), 1kHz CH1: Vo (AC Couple); CH2: lo; Slew rate: 0.1A/us
Die VeMCB, runobaso tremor Display Cursors Measure Ilater 0.nelreie HlilW, Hero
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VIN = 115 VAC; Load Step: 50% (9A) H 100% (18A), 1kHz CH1: Vo (AC Couple); CH2: lo; Slew rate: 0.1A/us
VIN = 230 VAC; Load Step: 50% (9A) H 100% (18A), 1kHz CH1: Vo (AC Couple); CH2: lo, Slew rate: 0.1A/us
0 I sp I
trom(01) 501rtaV
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P2 rnin(C1) PapkpC1) Pd maN(C2) 536 rrIV 1 03V
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.7 Dynamic Load Response
REV 1.10 (September 10, 2019) 18
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 18
2.7 Dynamic Load Response
VIN = 115 VAC; Load Step: 0% (0A) ↔ 50% (9A), 1kHz CH1: VO (AC Couple); CH2: IO; Slew rate: 0.1A/us
VIN = 230 VAC; Load Step: 0% (0A) ↔ 50% (9A), 1kHz CH1: VO (AC Couple); CH2: IO; Slew rate: 0.1A/us
VIN = 115 VAC; Load Step: 50% (9A) ↔ 100% (18A), 1kHz CH1: VO (AC Couple); CH2: IO; Slew rate: 0.1A/us
VIN = 230 VAC; Load Step: 50% (9A) ↔ 100% (18A), 1kHz CH1: VO (AC Couple); CH2: IO, Slew rate: 0.1A/us
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.8 Brownout
Ta = 25 °C
VIN = 115 VAC / 50Hz; lo = 18 A; Brownout Time = 1 ms CH1: Vo; CH3: liN; CH4: VIN
VIN = 115 VAC / 50Hz; lo = 18 A; Brownout Time = 2ms CH1: Vo; CH3: liN•, CH4: VIN
File Vertical Drnepase Trigger Display Cursors Measure Main Analysis Mlles Help File Verges, Timegase Trigger Display Cursors Measure Mali Analysis Mites Help
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Flle Veloal Tmel,,e Tri00er Display Cursors Measure Math Melislel Ullgtlies Help Flle Veloal Thsebese Trigger Slap* Cursors Measure MAT ....s, Ulnas Help
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REV 1.10 (September 10, 2019) 19
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 19
2.8 Brownout
Ta = 25 °C
VIN = 115 VAC / 50Hz; IO = 18 A; Brownout Time = 1ms
CH1: VO; CH3: IIN; CH4: VIN VIN = 115 VAC / 50Hz; IO = 18 A; Brownout Time = 2ms
CH1: VO; CH3: IIN; CH4: VIN
VIN = 115 VAC / 60Hz; IO = 18 A; Brownout Time = 1ms
CH1: VO; CH3: IIN; CH4: VIN
VIN = 115 VAC / 60Hz; IO = 18 A; Brownout Time = 2ms
CH1: VO; CH3: IIN; CH4: VIN
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
Brownout (continued)
VIN = 230 VAC / 50Hz; lo = 18 A; Brownout Time = 1 ms CH1: Vo; CH3: liN; CH4: VIN
VIN = 230 VAC / 50Hz; lo = 18 A; Brownout Time = 2ms CH1: Vo; CH3: liN; CH4: VIN
File WitCal Itnehase Trigger Display Cursors Measure Mat itaiiisis i ' - -I I Topper Display i I ,, i
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= 230 Vo; CH3:
VAC / 60Hz; liN; CH4:
lo VIN
= 18 A; Brownout Time = 2ms
Flle Vert -Fmk ass Trigger Olsola, Cursors !Measure Ms /instals LlitIci- Het File Vortical Tiiinehase Tripper Dist. Cursors Measure Math Analysis Utll0les Help
1
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REV 1.10 (September 10, 2019) 20
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 20
Brownout (continued) Ta = 25 °C
VIN = 230 VAC / 50Hz; IO = 18 A; Brownout Time = 1ms
CH1: VO; CH3: IIN; CH4: VIN
VIN = 230 VAC / 50Hz; IO = 18 A; Brownout Time = 2ms
CH1: VO; CH3: IIN; CH4: VIN
VIN = 230 VAC / 60Hz; IO = 18 A; Brownout Time = 1ms
CH1: VO; CH3: IIN; CH4: VIN
VIN = 230 VAC / 60Hz; IO = 18 A; Brownout Time = 2ms
CH1: VO; CH3: IIN; CH4: VIN
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.9 Inrush Current (Refer to Section 1.1.3 for Test Setup)
Condition:
lo = 100%
Ta = 25 °C
VIN = 115 VAC; 0 = 0° (Switch On Phase Angle) CH1: Vo; CH2: VIN; CH3: liN
VIN = 115 VAC; 0 = 90° (Switch On Phase Angle) CH1: Vo; CH2: VIN; CH3: liN
File Vertical Tspebase Tugger Display Curers Measure lath Anal-ms Whiles Help File '7E12.1 Tsrlebsee Tugger 0,61. Cursors Measure UP Analysis While, Help
2
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V
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P6. Measure P1 ma(C3) P2 ntlo(C3) Va . 11 7 A •9 8 51 tus V
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ma(C1) 3004
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P4 ros(C2) 206V
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10.OVldly 100 mV Dist
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VIN = 230 VAC; 0 = 0° (Switch CH1: Vo; CH2: VIN; CH3: IIN
On Phase Angle) VIN = 230 VAC; 0 = 90° (Switch CH1: Vo; CH2: VIN; CH3: IIN
On Phase Angle)
File Vertical Trodase Trigger Dula, Cursors Measure Mat Arialosis Litittes Help File Vertical ltirnebase Trigger Display Cursors Measure at AnahAss Utilities Help
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REV 1.10 (September 10, 2019) 21
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 21
2.9 Inrush Current (Refer to Section 1.1.3 for Test Setup)
Condition: IO = 100%
Ta = 25 °C
VIN = 115 VAC; Ø = 0° (Switch On Phase Angle)
CH1: VO; CH2: VIN; CH3: IIN
VIN = 115 VAC; Ø = 90° (Switch On Phase Angle)
CH1: VO; CH2: VIN; CH3: IIN
VIN = 230 VAC; Ø = 0° (Switch On Phase Angle)
CH1: VO; CH2: VIN; CH3: IIN
VIN = 230 VAC; Ø = 90° (Switch On Phase Angle)
CH1: VO; CH2: VIN; CH3: IIN
lo = 100% Ta = 25 °C
Condition:
VIN = 230 VAC; lo = 18A CH2: liN; CH3: VIN
VIN = 115 VAC; lo = 18A CH2: liN; CH3: VIN
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File venicai l'imenase trigger 015444 cursors 0000110 am Pnaksis u0lmes Help
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TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.10 Input Current Waveform
2.11 Input Current Harmonics
Condition:
lo = 100%
Ta = 25°C
VIN = 115 VAC VIN = 230 VAC
10 In
Har
mo
nic
curr
ent
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Vin=115Vac, Vo=28V, lo=18A —IEC 61000-3-2 ClassA
U.Ulf 1
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39
Harmonic order
Vin=115Vac, Vo=28V, Io=18A —IEC 61000-3-2 ClassA
REV 1.10 (September 10, 2019) 22
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 22
2.10 Input Current Waveform
Condition: IO = 100% Ta = 25 °C
VIN = 115 VAC; IO = 18A CH2: IIN; CH3: VIN
VIN = 230 VAC; IO = 18A CH2: IIN; CH3: VIN
2.11 Input Current Harmonics
Condition: IO = 100% Ta = 25°C
VIN = 115 VAC VIN = 230 VAC
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.12 Output Ripple and Noise
T = 2 _
VIN = 115 VAC; lo = 0 A; Vo = 28 VDC VIN = 115 VAC; lo = 18 A; Vo = 28 VDC CH1: Vo / 10.0ms/div CH1: Vo / 10.0ms/div
Foe labial En-abase inner Display Cursors Measure Malt Analysis Hales Help F Ile Vertical Irene. know Display Cursors Measure Malt Apathy HaIlller Help
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100 mV -B3 m1 159 nil, El mV value 230 mw -104 mV 124 inV 60.4 mV
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C 018 5:29:16PM
VIN = 230 VAC; lo = 0 A; Vo = 28 VDC VIN = 230 VAC; lo = 18 A; Vo = 28 VDC CH1: Vo / 10.0ms/div CH1: Vo / 10.0ms/div
ills Vertical Tanana ingot pispia cursors Measure Mali Anary6la Plies Help RIG OW 11 Tmetas, 1110101 0111109 cursors Measure Mali Anarysls 1411011 Help
1 Menu@ PI m.01) P2min(C1) P3plakiC1) Plorne01) Pampa)) liras a Plar01) PEmln(C1) Plaal(01) Plorna(C1) P6ante(C6
main a 911/ -811 ft/ 181 my 18 nw m a aims -211 me AIM MI/ 99 .4 mV 0 V It 0 V 4 V SIAM V 0
ulEZIMEILE gg
111111 I S Rly. Pu . u II. tl
,I Slop
ll r o 1ln, It
71—
LeCroy B121,2010 5 n UN LeCroy 623/2015 52020 PM
REV 1.10 (September 10, 2019) 23
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 23
2.12 Output Ripple and Noise
Ta = 25 °C
VIN = 115 VAC; IO = 0 A; VO = 28 VDC
CH1: VO / 10.0ms/div
VIN = 115 VAC; IO = 18 A; VO = 28 VDC
CH1: VO / 10.0ms/div
VIN = 230 VAC; IO = 0 A; VO = 28 VDC
CH1: VO / 10.0ms/div
VIN = 230 VAC; IO = 18 A; VO = 28 VDC
CH1: VO / 10.0ms/div
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.13 Electro-Magnetic Interference Characteristics
Conducted EMI:
Certified Laboratory
Test Location
Element Materials Technology Group Limited
Plano, TX
Test Board Test performed with the PFH500 module mounted on PFHO5W- 001-EVK-S0 Evaluation test Board (Rev 02)
Test Setup
REV 1.10 (September 10, 2019) 24
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 24
2.13 Electro-Magnetic Interference Characteristics Conducted EMI:
Test Setup
Certified Laboratory Test Location
Element Materials Technology Group Limited Plano, TX
Test Board Test performed with the PFH500 module mounted on PFH05W- 001-EVK-S0 Evaluation test Board (Rev 02)
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
110V High line
CONDUCTED EMISSIONS
Emili6 201809 20
element
PSME Sal 2019 02 25 Work Order: TDKL0022 Date: 1-May-2019
Project: None Temperature: 22.1 °C Job Site: TX01 Humidity: 53.4% RH
Serial Number: None Barometric Pres.: 1017 mbar Tested bylMarty Martin EUT: PFH 500F-28V-100-R Module
Configuration: Unknown Customer: TDK-Lambda Americas Inc. Attendees: Shuhui and Michael
EUT Power: 110VAC/60Hz
Operating Mode: 16.9 amp Load
Deviations: None
Comments: Heatsink tied to EGND
Test Specifications Class B Test Method EN 55032 2012/AC:2013 CISPR 32:2015
Run #1 20 l Line:IHigh Line Ext. Attenuation: I o ResuftsI Pass
Quasi Peak Data -vs - Quasi Peak Limit Average Data -vs -Average Limit
100
90
80
70
60
s on o
40
30
20
01 10 10.0 100.0 0.1 10 100.0
MHz MHz
Quasi Peak Data-vs-Quasi Peak Limit
Freq Amplitude Factor Adjusted Spec, Lima Compared to
Spec. (MHz) (dBuV) (dB) 0 0 (dB)
Avera e Data - vs - Average Limit
Freq Amplitude Factor Adjusted Spec, Limit Compared to
Spec. (MHz) (dEluV) (dB) 0 O (dB)
16.994 27.2 20.9 48.1 60.0 -11.9 16.994 23.1 20.9 44,0 50.0 -6.0 0.153 27.9 20.3 48.2 65.9 -17.7 0.153 26.1 20.3 46.4 55.9 -9.5 1.595 21.6 20.1 41.7 56.0 -14.3 1.595 17.0 20.1 37,1 46,0 -8,9 1.306 21.0 20.1 41.1 56.0 -14.9 1.306 16.1 20,1 36.2 46.0 -9.8
28.997 17.7 21.9 39.6 60.0 -20.4 28.997 12.1 21.9 34.0 50.0 -16.0 9.997 15.9 205 36.4 60.0 -23.6 9.997 10.7 20,5 31.2 50.0 -18.8
REV 1.10 (September 10, 2019) 25
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 25
110V High line
100
90
80
70
60
• '" 11111111J1117'illn •
40
30
20
10
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
110V Neutral
CONDUCTED EMISSIONS
ErniRS 2018,09.28
element
PSA.ESCI 2019,02.26
Work Order: TDKL0022 Date: 1-May-2019 Project: None Temperature: 22.1 °C
Job Site: TX01 Humidity: 53.4% RH Serial Number: None Barometric Pres.: 1017 mbar Tested by:IMarty Martin
EUT: PFH 500F-28V-100-R Module Configuration: Unknown
Customer: TDK-Lambda Americas Inc. Attendees: Shuhui and Michael
EUT Power: 110VAC/60Hz
Operating Mode: 16.9 amp Load
Deviations: None
Comments: Heatsink tied to EGND
Test Specifications Class B Test Method EN 55032:2012/AC:2013 CISPR 32:2015
Run #1 21 LinedNeutral Ext. Attenuation:I 0 Results' Pass
Quasi Peak Data - vs - Quasi Peak Limit Average Data - vs -Average Limit
01 10 10,0 100,0 0.1 10 10,0 100.0
MHz MHz
Quasi Peak Data - vs - Quasi Peak Limit Avera e Data -vs- Avera e Limit
Compared to Freq Amplitude Factor Adjusted Spec. Limit Spec,
(MHz) (dBuV) (dB) (dBuV) (dBuV) (dB)
Compared to Freq Amplitude F a ,or Adjusted Spec. Limit Spec.
(MHz) (cleuV) :.dH (dBuV) (dBuV) (dB)
0.153 25.1 20.3 45.4 65.9 -20,5 0.153 22.2 20.3 42.5 55.9 -13.4 27.991 15.8 21.8 37.6 60.0 -22.4 27.991 11.1 21.8 32.9 50.0 -17.1 9.091 12.4 20.5 32.9 60.0 -27.1 9.091 7.3 20.5 27.8 50.0 -222 0,251 18,1 20.2 38,3 61.7 -23,4 1.590 5.1 20.1 25.2 46.0 -20.8 1.590 9.5 20.1 29.6 56.0 -26.4 0.251 5.5 20.2 25.7 51.7 -26.0 4.495 1.2 20.2 21.4 56.0 -34.6 4.495 -16 20.2 16.6 46.0 -29,4
REV 1.10 (September 10, 2019) 26
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 26
110V Neutral
01 10 10.0 1060
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
230V Line
CONDUCTED EMISSIONS
Emil. 2019 09 26
element
PSAESCI 2016 0216
Work Order: TDKL0022 Date: 1-May-2019 Project: None Temperature: 22,1 °C
Job Site: TX01 Humidity: 53.4% RH Serial Number: None Barometric Pres.: 1017 mbar Tested by:IMarty Martin
EUT: PFH 500F-28V-100-R Module Configuration: Unknown
Customer: TDK-Lambda Americas Inc. Attendees: Shuhui and Michael
EUT Power: 230VAC/50Hz
Operating Mode: 16.9 amp Load
Deviations: None
Comments: Heatsink tied to EGND
Test Specifications Class B Test Method EN 55032:2012/AC:2013 CISPR 32:2015
Run #1 23 LinclHigh Line I Ext. Attenuation:I o Results' Pass
Quasi Peak Data - vs - Quasi Peak Limit Average Data - vs -Average Limit
MHz MHz
Quasi Peak Data - vs - Quasi Peak Limit Avera e Data - vs - Avera e Limit
Compared to Freq Amplitude Factor Adjusted Spec. Limit Spec.
(MHz) (dBuV) (dB) (dBuV) (dBuV) (dB)
Compared to Freq Amplitude Factor Adjusted Spec. Limit Spec.
(MHz) (dBuV) (dB) (dBuV) (dBuV) (dB)
1.296 21.1 20.0 41.1 56.0 -14.9 1.296 16.3 20.0 36.3 46.0 -9.7 28.992 18.8 21.9 40.7 60.0 -19.3 28.992 13.3 21.9 35.2 50.0 -14.8 0.566 18.7 20.1 38.8 56.0 -17.2 0.153 20.0 20.3 40.3 55.9 -15.6 0,153 21,2 20.3 41.5 65,9 -24,4 14,997 8.6 20,7 29,3 50,0 -20,7
14.997 13.9 20.7 34.6 60.0 -25.4 0.566 6.3 20.1 26.4 46.0 -19.6 9.995 11,1 20.5 31.6 60,0 -28,4 9,995 5.6 20,5 26,1 50,0 -23,9
REV 1.10 (September 10, 2019) 27
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 27
230V Line
Run dl 22 Une;INeutral I Est Attenuation:I I Results! Pass
0 • 10 17.0 100.0
MHz MHz
Quasi Peak Data - vs - Quasi Peak Limit Average Data - vs -Average Limit
Quasi Peak Data - vs - Quasi Peak Limit 100
90
BO
70
60
7 50
40
30
20
10
0
Average Data - vs - Average Limit
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
230V Neutral
CONDUCTED EMISSIONS
rmen xo.eaaae
element
rear.escl rare or xe
Work Order: TDKL0022 Date: 1-May-2019 Project: None Temperature: 22,1 °C
Job Site: TX01 Humidity: 53.4% RH Serial Number: None Barometric Pres.: 1017 mbar Tested by:IMarty Martin
EUT: PFH 500F-28V-100-R Module Configuration: Unknown
Customer: TDK-Lambda Americas Inc. Attendees: Shuhui and Michael
EUT Power: 230VAC/50Hz
Operating Mode: 16.9 amp Load
Deviations: None
Comments: Heatsink tied to EGND
Test Specifications Class B Test Method I EN 550322012/AC 2013 CISPR 32 2015
Freq A r- :A ',,d, Flax Adjusted Spec. 110,1 Compared to
Spec.
(MHz) ,a5.ti, (de) (dBuV) IdBuV) (48)
Compered to Freq Amplitude Factor Adjusted SPec. Omit Spec.
(MHZ) (dBuSi) (dB) (elBuV) (dOuV) (dB)
0.709 20,0 20.3 40.3 56,0 -15,7 0,153 20.3 20.3 40.6 55,9 -15,3 28,009 15,1 21,8 36,9 60,0 -23,1 28,009 10,0 21,8 31,8 50,0 -18,2 0,153 21,7 20,3 42,0 65,9 -23,9 0,709 7,7 20,3 28,0 46,0 -18,0 9,895 11,5 20,5 32,0 60,0 -28,0 9,895 6,3 20,5 26,8 50,0 -23,2 0,429 17,0 20,1 37,1 57,3 -20,2 0,429 5,5 20,1 25,6 47,3 -21,7 0,806 0,7 20,2 20,9 56,0 -35,1 0,806 -4,2 20,2 16,0 46,0 -30,0
REV 1.10 (September 10, 2019) 28
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 28
230V Neutral
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
Radiated EMI:
Certified Laboratory
Test Location
Element Materials Technology Group Limited
Plano, TX
Test Board Test performed with the PFH500 module mounted on PFH500F Evaluation test Board (ZB00510)
Test Setup:
REV 1.10 (September 10, 2019) 29
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 29
Radiated EMI: Test Setup:
Certified Laboratory Test Location
Element Materials Technology Group Limited
Plano, TX
Test Board Test performed with the PFH500 module mounted on
PFH500F Evaluation test Board (ZB00510)
I •
• • • •
80
70
eo
50 E
a3 40 V
30
20
10
0
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
Test Result:
120V
RADIATED EMISSIONS
EUT: AC/DC Power Supply Work Order: TDKL0004 Serial Number. None Date: 09/14/2017 Customer. TDK-Lambda Americas Inc. Temperature: 23.9'C Attendees: Michael Lawrence Relative Humidity: 48.1% Customer Project: None Bar. Pressure: 1014mb Tested By Marty Martin Job Site: TX02 Power 120VAC/80Hz Configuration: TDKL0004-1
TEST SPECIFICATIONS Specification: Equipment Class B Method: EN 55032:2012/AC:2013 CISPR 32:2015
TEST PARAMETERS Run I 10 I Test Distance (m): 110 I Ant. Heights) Olt I 1 10 4(m)
COMMENTS This is eval data only. 120VAC. Full load [internal). 6T-31. Added grounding strap.
EUT OPERATING MODES Typical Operating Mode
DEVIATIONS FROM TEST STANDARD None
10 100 1,000 MHz
Run #:10 ■ PK • AV • QP
REV 1.10 (September 10, 2019) 30
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 30
Test Result: 120V
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
RADIATED EMISSIONS
RESULTS - Run #10
FteCI PI !..:
An:: 0&t:.
Factor (eel
Ant. Height
(m) AZITtat (OK.)
Test Dist (ml
Ext. Atten. (dB)
Polar. Trans. Type Detect.
Ow Aqua:.
(dB. A.
!reify/in)
SRC. UM
(deuVsyn) Atartan.
(013)
30.116 520 -24.0 1.5 169.0 i 0 : 0.0 Vert OP 0.0 28.0 30.0 -2.0
79.437 57.1 -32.2 1.0 180.0 10 : 2.0 Vert OP 0.0 24.9 30.0 -5.1
59.816 54.6 -32.5 1 5 351.0 i 0 : 0.0 Veil OP 0.0 22.1 30.0 -7.9
40.248 51.0 -29.0 2 C 73.0 10 2 2.0 Vert OP 0.0 22.0 30 0 -8.0
133.999 50.7 -30.4 2.0 90.0 10 : 2.0 Vert OP 0.0 20.3 30 0 -9.7
216 994 47.1 -27.0 1.0 152.0 IC : 0.0 Vert OP 0.0 20.1 30.0 -9.9
CONCLUSION Pass
FOR REFERENCE ONLY
REV 1.10 (September 10, 2019) 31
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 31
• • • •
80
70
80
50 E
co 40V
30
20
10
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
230V
RADIATED EMISSIONS
EUT: AC/DC Power Supply Work Order. TDKL0004 Serial Number. None Date: 09/14/2017 Customer. TDK-t.ambda Americas Inc. Temperature: 23.9•C Attendees: Michael Lawrence Relative Humidity: 48.1% Customer Project: None Bar. Pressure: 1014 mb Tested By: Marty Martin Job Site: TX02 Power 230VAC/50Hz Configuration: TDKL0004-1
TEST SPECIFICATIONS Specification: Equipment Class B Method: EN 55032:20121AC:2013 CISPR 32:2015
TEST PARAMETERS Run 0: 19 I Test Distance (m): 1 10 I Ant Heights) (m): I 1 to 4(m)
COMMENTS This is eval data only. 230VAC. Full load [internal]. 6T-31. Added grounding strap.
EUT OPERATING MODES Typical Operating Mode
DEVIATIONS FROM TEST STANDARD None
10 100 1.000 MHz
Run #: 9 • PK • AV • QP
REV 1.10 (September 10, 2019) 32
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 32
230V
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
RADIATED EMISSIONS041
TS - Run #9
Fm (M)
MU (deell
Factor (m)
ML Henan
OM Azimut (deal
Test Dia (m)
Etc Attert. (din
PoUr. Trans. Type Deed.
DM. A311L
(d5) Al.
(deuVmo
spec, UV
Ramo) Liman.
(op)
79.519 57.0 -322 1.5 186.0 10.0 0.0 Vert OP 0.0 24 e 33 0 42
30.166 48.0 -24.0 1.0 238.9 10.0 0.0 yen OP 0.0 24.0 30.0 -6.0
199.961 51.5 -27.7 1.0 270.0 10.0 0.0 Vert OP 0.0 23.8 30.0 4.2 40.003 51.4 -28.9 1.0 273.0 10.0 0.0 Vert OP 0.0 22.5 30.0 -7.5
131.219 51.2 -30.7 1.1 75.0 10.0 0.0 Vert OP 0.0 20.5 30.0 -9.5
134.144 50.6 -30.4 1.5 318.0 10.0 0.0 Vert OP 0.0 20.2 30.0 -9.8
CONCLUSION Pass
FOR REFERENCE ONLY
REV 1.10 (September 10, 2019) 33
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 33
TDK-Lambda PFH500E-28 SERIES
EVALUATION REPORT
2.14 Leakage Current (Refer to Section 1.1.4 for Test Setup)
Condition: VIN = 265 VAC
lo = 0% (0 A)
'LEAKAGE LIMIT: 1 mA
Measured !LEAKAGE: 0.62 mA
PASS
3. TERMINOLOGIES
VIN Input Voltage
IIN Input Current
Ta Ambient Temperature
F Frequency
Vo Output Voltage
lo Output Current
TBP Baseplate Temperature
TDK 401 Mile Cars Way, Suite 125 National City, CA 91950 Phone (800) 526-2324 Toll Free
[email protected] www.us.tdk-lambda.com/Ip/
Information furnished by TDK Lambda is believed to be accurate and reliable. However, TDK Lambda assumes no responsibility
for its use, nor for any infringement of patents or other lights of third parties, which may result from its use. No license is granted
by implication or otherwise under any patent or patent lights of TDK Lambda. TDK components are not designed to be used in
applications, such as life support systems, wherein failure or malfunction could result in injury or death. All sales are subject to TDK
Lambda's Terms and Conditions of Sale, which are available upon request. Specifications are subject to change without notice.
REV 1.10 (September 10, 2019) 34
TDK-Lambda PFH500F-28 SERIES
EVALUATION REPORT
REV 1.10 (September 10, 2019) 34
2.14 Leakage Current (Refer to Section 1.1.4 for Test Setup)
Condition: VIN = 265 VAC
IO = 0% (0 A)
ILEAKAGE LIMIT: 1 mA Measured ILEAKAGE: 0.62 mA
PASS
3. TERMINOLOGIES
VIN Input Voltage
IIN Input Current
Ta Ambient Temperature
F Frequency
VO Output Voltage
IO Output Current
TBP Baseplate Temperature
401 Mile Cars Way, Suite 125 National City, CA 91950
Phone (800) 526-2324 Toll Free [email protected] www.us.tdk-lambda.com/lp/
Information furnished by TDK Lambda is believed to be accurate and reliable. However, TDK Lambda assumes no responsibility
for its use, nor for any infringement of patents or other rights of third parties, which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of TDK Lambda. TDK components are not designed to be used in
applications, such as life support systems, wherein failure or malfunction could result in injury or death. All sales are subject to TDK
Lambda’s Terms and Conditions of Sale, which are available upon request. Specifications are subject to change without notice.