ETC LNK457

Design Example Report
Title
High Efficiency 3.8 W Dimmable Power
Factor Corrected LED Driver Using
LinkSwitchTM-PL LNK457DG in a Non-Isolated
Buck Topology
Specification
190 VAC – 265 VAC Input; 42 V – 54 V, 80 mA
Output
Application
LED Driver for Candelabra Lamp Replacement
Author
Applications Engineering Department
Document
Number
DER-301
Date
November 10, 2011
Revision
1.0
Summary and Features









Single-stage power factor corrected and accurate constant current (CC) output
Dimmable
Low cost, low component count and small PCB footprint
Highly energy efficient, >83.5% at 230 VAC input for 48 V
Fast start-up time (<300 ms) – no perceptible delay
Integrated protection and reliability features
 Output short-circuit protected with auto-recovery
 Disconnected load protection with auto-recovery
 Auto-recovering thermal shutdown with large hysteresis protects both components and PCB
 No damage during brown-out conditions
PF >0.91 at 230 VAC
% ATHD <25% at 230 VAC; 48 V LED
Meets IEC ring wave, differential line surge and EN55015 conducted EMI
PATENT INFORMATION
The products and applications illustrated herein (including transformer construction and circuits external to the products) may be covered
by one or more U.S. and foreign patents, or potentially by pending U.S. and foreign patent applications assigned to Power Integrations. A
complete list of Power Integrations' patents may be found at www.powerint.com. Power Integrations grants its customers a license under
certain patent rights as set forth at <http://www.powerint.com/ip.htm>.
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
Table of Contents
1 2 3 4 Introduction ................................................................................................................. 3 Power Supply Specifications ...................................................................................... 5 Schematic ................................................................................................................... 6 Circuit Description ...................................................................................................... 7 4.1 Input EMI Filtering ............................................................................................... 7 4.2 Dimmable Buck using LinkSwitch-PL .................................................................. 7 4.3 Output Feedback ................................................................................................. 7 4.4 Disconnected Load Protection............................................................................. 8 5 PCB Layout ................................................................................................................ 9 6 Bill of Materials ......................................................................................................... 10 7 Performance Data .................................................................................................... 11 7.1 Active Mode Efficiency ...................................................................................... 11 7.2 Line Regulation ................................................................................................. 12 7.3 Power Factor ..................................................................................................... 13 7.4 %THD ................................................................................................................ 14 8 Thermal Scans ......................................................................................................... 15 9 Waveforms ............................................................................................................... 16 9.1 Drain Voltage and Current, Normal Operation................................................... 16 9.2 Drain Voltage and Current Start-up Profile ........................................................ 17 9.3 Output Voltage Start-up Profile.......................................................................... 18 9.4 Input and Output Voltage and Current Profiles .................................................. 18 9.5 Drain Voltage and Current Profile with Output Shorted ..................................... 19 9.6 Line Transient Response................................................................................... 20 9.7 Brown-out .......................................................................................................... 21 9.8 Start-up No-load ................................................................................................ 22 9.9 Normal Operation then No-load......................................................................... 22 9.10 Line Surge Waveform ........................................................................................ 23 10 Dimming Sample Waveform ................................................................................. 25 11 Dimming Compatibility .......................................................................................... 27 12 Line Surge............................................................................................................. 29 13 Conducted EMI ..................................................................................................... 30 13.1 Equipment ......................................................................................................... 30 13.2 EMI Test Set-up ................................................................................................ 30 13.3 EMI Test Result ................................................................................................. 31 14 Revision History .................................................................................................... 33 Important Note:
Although this board is designed to satisfy safety requirements for non-isolated LED
drivers, the engineering prototype has not been agency approved. Therefore, all testing
should be performed using an isolation transformer to provide the AC input to the
prototype board.
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Page 2 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
1 Introduction
This document is an engineering report describing a non-isolated dimmable LED driver
(power supply) utilizing a LNK457DG from the LinkSwitch-PL family of devices.
The DER-301 provides a single constant current output with an output power of 3.8 W
output.
The key design goals were high efficiency, dimmable and compact size, enabling the
driver to fit into candelabra and B10 sized lamps and maximize efficacy.
Figure 1 – Populated Circuit Board Photograph.
The board was optimized to operate over the high AC input voltage range (190 VAC to
265 VAC, 47 Hz to 63 Hz). LinkSwitch-PL based designs provide a high power factor
(>0.91) meeting current international requirements.
The form factor of the board was chosen to meet the space limitations of standard
Candelabra LED replacement lamps. The output is non-isolated and requires the
mechanical design of the enclosure to isolate the output of the supply and the LED load
from the user.
The document contains the power supply specification, schematic, bill of materials,
printed circuit layout and performance data.
Page 3 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
Figure 2 – Populated Circuit Mounted in the B10 Casing.
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Page 4 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
2 Power Supply Specifications
The table below represents the minimum acceptable performance of the design. Actual
performance is listed in the results section.
Description
Input
Voltage
Frequency
Power Factor
%ATHD
Output
Output Voltage
Output Current
Total Output Power
Continuous Nominal Output
Power
Efficiency
Nominal
Symbol
Min
Typ
Max
Units
Comment
VIN
fLINE
190
47
0.92
265
63
VAC
Hz
2 Wire – no P.E.
50/60
At 230 V; nominal load
25
VOUT
IOUT
75
70
48
80
85
90
V
mA
mA
POUT
3.8
W

83
%
230 VAC
190 VAC - 265 VAC
o
Measured at POUT 25 C at
230 VAC
Environmental
Conducted EMI
Meets CISPR22B / EN55015
Line Surge
Differential Mode (L1-L2)
1
Ring Wave (100 kHz)
Differential Mode (L1-L2)
2.5
Harmonic Currents
Operating Ambient
Page 5 of 34
kV
1.2/50 s surge, IEC 1000-4-5,
Series Impedance:
Differential Mode: 2 
kV
2  short-circuit
Series Impedance
EN 61000-3-2 Class D (C)
Section 7.3.b - Second Clause
0
70
Class C specifies Class D Limits
when PIN <25 W
See Section 9.4
ºC
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
3 Schematic
Figure 3 – Schematic.
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Page 6 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
4 Circuit Description
The LinkSwitch-PL (U1) is a highly integrated primary side controller intended for use in
LED driver applications. The LinkSwitch-PL provides high power factor in a single-stage
conversion topology while regulating the output current across a range of input (190 VAC
to 265 VAC) and output voltage variations typically encountered in LED driver
applications. All of the control circuitry responsible for these functions plus the highvoltage power MOSFET are incorporated into the IC.
4.1 Input EMI Filtering
The maximum input voltage is clamped by RV1 and by VR2 (TVS) during differential line
surges. Varistor RV1 can be removed for a differential line surge requirement of ≤500 V.
The AC input is full wave rectified by BR1 (vs. half wave) to achieve good power factor
and dimmability.
Inductor L1 and L4 are positioned before the bridge to avoid an imbalance in the EMI
scan between line and neutral and filters the differential noise. Capacitor C1, C2, and
differential choke L2 perform EMI filtering while the limited total capacitance maintains
high power factor. This input  filter network plus the frequency jittering feature of
LinkSwitch-PL allows compliance with Class B emission limits.



EMI inductor L1 and L4 are also used as a protection against component failure
(providing a fusing function).
RC bleeder R6 and C8 are located near the switching node to reduce radiated and
conducted noise.
Shielded inductor L3 was selected to reduce conducted and radiated noise.
4.2 Dimmable Buck using LinkSwitch-PL
The buck power train is composed of U1 (power switch + control), D2 (free-wheeling
diode), C7 (output capacitor), and L3 (inductor). Diode D1 was used to prevent negative
voltage appearing across the drain-source of U1 especially near the zero-crossing of the
input voltage. The bypass capacitor C4 provides the internal supply for the device when
the power MOSFET is on.
The integrated device enables a very low component count and high efficiency that
makes it ideal for candelabra B10 or other compact applications.
4.3 Output Feedback
The output current feedback is sensed on the voltage drop across R3 and R5 then filtered
by a low pass filter (R4 and C5) to keep the LinkSwitch-PL operating point such that the
average FEEDBACK (FB) pin voltage is 290 mV in steady-state operation. The output
inductor is operated in DCM for better CC control and the current regulation is sampled
during the discharge in the energy of the output inductor.
Page 7 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
4.4 Disconnected Load Protection
The LED driver is protected in the event of accidental open load operation by monitoring
the voltage across the output inductor during energy decay. The threshold is limited by
VR1 and the discharge resistor (R9) in the output.
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10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
5 PCB Layout
Figure 4 – Top Printed Circuit Layout (Diameter = .68” [17.3 mm]).
Figure 5 – Bottom Printed Circuit Layout.
Page 9 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
6 Bill of Materials
The table below is the reference design BOM.
Item
Qty
Ref Des
1
1
BR1
2
1
C1
Description
600 V, 0.5 A, Bridge Rectifier, SMD, MBS-1, 4SOIC
10 nF, 630 V, Ceramic, X7R, 1206
Mfg Part Number
Manufacturer
MB6S-TP
Micro Commercial
3
1
C2
47 nF, 400 V, Film
4
1
C4
10 F, 16 V, Ceramic, X5R, 0805
GRM21BR61C106KE15L
Murata
5
1
C5
GRM188R61A225KE34D
6
1
C7
C1206C103KBRACTU
Kemet
ECQ-E4473KF
Panasonic
7
1
C8
2.2 F, 10 V, Ceramic, X5R, 0603
22 F, 63, Electrolytic, Low ESR, 1000 m,
(6.3 x 11.5)
100 nF, 500 V, Ceramic, X7R, 1812
VJ1812Y104KXEAT
Murata
Nippon ChemiCon
Vishay
8
1
D1
60 V, 1 A, Diode Schottky, PWRDI 123
DFLS160-7
Diodes, Inc.
9
1
D2
800 V, 1 A, Fast Recovery, 500 ns, SMA
US1K-13-F
Diodes, Inc.
10
1
D3
100 V, 0.2 A, Fast Switching, 50 ns, SOD-323
BAV19WS-7-F
Diode Inc.
11
2
JP1 JP2
Wire Jumper, Insulated, TFE, #22 AWG, 0.6 in
C2004-12-02
Alpha
12
3
L1 L2 L4
3300 H, 62 mA, 59.5 , Axial Ferrite Inductor
B78108S1335J
Epcos
13
1
L3
1 mH, 0.23 A, Ferrite Core
CTSCH875DF-102K
CT Parts
14
1
R3
6.2 , 1%, 1/8 W, Thick Film, 0805
RL1220S-6R2-F
Susumu
15
1
R4
3.3 k, 5%, 1/10 W, Thick Film, 0603
ERJ-3GEYJ332V
Panasonic
16
1
R5
17.4 , 1%, 1/8 W, Thick Film, 0805
ERJ-6ENF17R4V
Panasonic
17
1
R6
1 k, 5%, 1/2 W, Carbon Film
CFR-50JB-1K0
Yageo
18
1
R7
47 , 5%, 1/2 W, Carbon Film
CFR-50JB-47R
Yageo
19
1
R8
47 k, 5%, 1/8 W, Thick Film, 0805
ERJ-6GEYJ473V
Panasonic
20
1
R9
100 k, 1%, 1/8 W, Thick Film, 0805
ERJ-6ENF1003V
Panasonic
21
1
RV1
22
1
U1
23
1
VR1
68 V, 2%, 300 mW, SSMINI-2
24
1
VR2
350 V, 400 W, 5%, DO214AC (SMA)
320 V, 26 J, 7 mm, RADIAL
LinkSwitch-PL, SO-8C
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ELXZ630ELL220MFB5D
V320LA7
Littlefuse
LNK457DG
Power Integrations
BZX585-B68,115
NXP Semi
SMAJ350A
LittleFuse
Page 10 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
7 Performance Data
All measurements performed at 25 ºC room temperature, 60 Hz input frequency unless
otherwise specified.
7.1
Active Mode Efficiency
85.0
54 V OUTPUT
48 V OUTPUT
42 V OUTPUT
84.5
Efficiency (%)
84.0
83.5
83.0
82.5
82.0
81.5
81.0
180
190
200
210
220
230
240
250
260
270
AC Input Voltage (VRMS), 50 Hz
Figure 6 – Efficiency with Respect to AC Input Voltage.
Page 11 of 34
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280
DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
7.2 Line Regulation
The LinkSwitch-PL device regulates the output by controlling the power MOSFET on-time
and switching frequency to maintain the average FB pin at its 0.29 V threshold. Slight
changes in output current may be observed when input or output conditions are changed,
or after AC cycling due to the device selecting a slightly different operating state
(selection of on-time and frequency).
10.0
54 V OUTPUT
48 V OUTPUT
42 V OUTPUT
8.0
6.0
Regulation (%)
4.0
2.0
0.0
-2.0
-4.0
-6.0
-8.0
-10.0
180
190
200
210
220
230
240
250
260
270
280
AC Input Voltage (VRMS), 60 Hz
Figure 7 – Line Regulation, Room Temperature.
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Page 12 of 34
10-Nov-11
7.3
DER-301 3.8 W Buck Power Supply Using LNK457DG
Power Factor
1.00
54 V OUTPUT
48 V OUTPUT
42 V OUTPUT
0.95
Power Factor
0.90
0.85
0.80
0.75
0.70
180
190
200
210
220
230
240
250
260
270
AC Input Voltage (VRMS), 50 Hz
Figure 8 – High Power Factor within the Operating Range.
Page 13 of 34
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280
DER-301 3.8 W Buck Power Supply Using LNK457EG
7.4
10-Nov-11
%THD
45
42 V OUTPUT
48 V OUTPUT
54 V OUTPUT
40
35
ATHD (%)
30
25
20
15
10
5
0
180
190
200
210
220
230
240
250
260
270
280
AC Input Voltage (VRMS), 50 Hz
Figure 9 – Very Low %ATHD within the Operating Range.
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Page 14 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
8 Thermal Scans
The scan is conducted at ambient temperature of 25 ºC, 190 VAC / 50 Hz input and 48 V
LED string voltage.
Figure 10 – LNK457DG (U1) Case Temperature.
Figure 11 – Output Diode (D2) Case Temperature.
Figure 12 – L3 Output Inductor Temperature.
Figure 13 – L1 EMI Inductor Temperature.
Page 15 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
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9 Waveforms
9.1
Drain Voltage and Current, Normal Operation
Figure 14 – 190 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.2 A / div.
F1: VDS, 200 V / div.
Time Scale: 5 ms / div.
Figure 15 – 265 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.5 A / div.
F1: VDS, 200 V / div.
Time Scale: 5 ms / div.
Figure 16 – 190 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.2 A / div.
F1: VDS, 200 V / div.
Time Scale: 5 s / div.
Figure 17 – 265 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.5 A / div.
F1: VDS, 200 V / div.
Time Scale: 5 s / div.
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10-Nov-11
9.2
DER-301 3.8 W Buck Power Supply Using LNK457DG
Drain Voltage and Current Start-up Profile
Figure 18 – 190 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.5 A / div.
F1: VDS, 200 V / div.
Time Scale: 5 ms / div.
Figure 19 – 265 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.5 A / div.
F1: VDS, 200 V / div.
Time Scale: 5 ms / div.
Figure 20 – 190 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.5 A / div.
F1: VDS, 200 V / div.
Time Scale: 10 s / div.
Figure 21 – 265 VAC / 50 Hz, 48 V LED String.
Ch1: VBULK, 200 V / div.
Ch1: VS PIN, 200 V / div.
Ch3: IDRAIN, 0.5 A / div.
F1: VDS, 200 V / div.
Time Scale: 10 s / div.
Page 17 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
9.3
Output Voltage Start-up Profile
Figure 22 – 190 VAC / 50 Hz, 48 V LED String.
Ch1: VIN, 200 V / div.
Ch1: VOUT, 200 V / div.
Ch3: IIN, 0.5 A / div.
Ch4: IOUT, 0.05 A / div.
Time Scale: 100 ms / div.
9.4
10-Nov-11
Figure 23 – 265 VAC / 50 Hz, 48 V LED String.
Ch1: VIN, 200 V / div.
Ch1: VOUT, 200 V / div.
Ch3: IIN, 0.5 A / div.
Ch4: IOUT, 0.05 A / div.
Time Scale: 100 ms / div.
Input and Output Voltage and Current Profiles
Figure 24 – 190 VAC / 50 Hz, 48 V LED String.
Ch1: VIN, 200 V / div.
Ch1: VOUT, 200 V / div.
Ch3: IIN, 0.1 A / div.
Ch4: IOUT, 0.05 A / div.
Time Scale: 10 ms / div.
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Figure 25 – 265 VAC / 50 Hz, 48 V LED String.
Ch1: VIN, 200 V / div.
Ch1: VOUT, 200 V / div.
Ch3: IIN, 0.1 A / div.
Ch4: IOUT, 0.05 A / div.
Time Scale: 10 ms / div.
Page 18 of 34
10-Nov-11
9.5
DER-301 3.8 W Buck Power Supply Using LNK457DG
Drain Voltage and Current Profile with Output Shorted
Figure 26 – 190 VAC / 50 Hz, Output Shorted.
Ch1: VDS, 200 V / div.
Ch4: VSOURCE , 200 V / div.
Ch3: IDRAIN, 0.5 A / div., 500 s / div.
Figure 27 – 265 VAC / 50 Hz, Output Shorted.
Ch1: VDS, 200 V / div.
Ch4: VSOURCE , 200 V / div.
Ch3: IDRAIN, 0.5 A / div., 500 s / div.
Figure 28 – 190 VAC / 50 Hz, Output Shorted.
Ch1: VDS, 200 V / div.
Ch4: VSOURCE , 200 V / div.
Ch3: IDRAIN, 0.5 A / div., 20 s / div.
Figure 29 – 265 VAC / 50 Hz, Output Shorted.
Ch1: VDS, 200 V / div.
Ch4: VSOURCE , 200 V / div.
Ch3: IDRAIN, 0.5 A / div., 20 s / div.
Page 19 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
9.6
10-Nov-11
Line Transient Response
Figure 30 – 230 VAC / 50 Hz,
300 ms On – 300 ms Off.
Load: 48 V LED String.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 50 mA / div., 1 s / div.
Figure 32 – 1 s at 230 VAC, 1 s at 190 VAC / 50 Hz,
Load: 48 V LED String.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 50 mA / div., 500 ms / div.
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Figure 31 – 230 VAC / 50 Hz,
1 s On – 1 s Off.
Load: 48 V LED String.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 50 mA / div., 5 s / div.
Figure 33 – 1 s at 230 VAC, 1 s at 265 VAC / 50 Hz,
Load: 48 V LED String.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 50 mA / div., 500 ms / div.
Page 20 of 34
10-Nov-11
9.7
DER-301 3.8 W Buck Power Supply Using LNK457DG
Brown-out
Input voltage slew rate of 0.02 V / ms from 230 VAC / 50 Hz line input variation; no failure
observed.
Figure 34 – 230 VAC / 50 Hz, 0.02 V / ms Slew Rate.
Load: 48 V LED String.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 50 mA / div., 1 s / div.
Page 21 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
9.8
Start-up No-load
Figure 35 – 190 VAC / 50 Hz, Start-up No-load.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 100 mA / div., 100 ms / div.
9.9
10-Nov-11
Figure 36 – 265 VAC / 50 Hz, Start-up No-load.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 100 mA / div., 100 ms / div.
Normal Operation then No-load
Figure 37 – 190 VAC / 50 Hz, Normal Operation
then No-load.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 100 mA / div., 100 ms / div.
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Figure 38 – 265 VAC / 50 Hz, Normal Operation
then No-load.
Ch1: VIN, 200 V / div.
Ch2: VOUT, 20 V / div.
Ch4: IOUT, 100 mA / div., 100 ms / div.
Page 22 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
9.10 Line Surge Waveform
Figure 39 – 230 VAC / 60 Hz, 48 V Load,
VDS=422 VPK.
(+)2.5 kV Differential Ring Surge at 0º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Figure 40 – 230 VAC / 60 Hz, 48 V Load,
VDS=422 VPK.
(+)2.5 kV Differential Ring Surge at 90º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Figure 41 – 230 VAC / 60 Hz, 48 V Load,
VDS=422 VPK.
(-)2.5 kV Differential Ring Surge at 0º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Figure 42 – 230 VAC / 60 Hz, 48 V Load,
VDS=422 VPK.
(-)2.5 kV Differential Ring Surge at
90º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Page 23 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
Figure 43 – 115 VAC / 60 Hz, 48 V load,
VDS=506 VPK.
(+)1 kV Differential Surge at 0º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Figure 44 – 230 VAC / 60 Hz, 48 V Load,
VDS=512 VPK.
(+)1kV Differential Surge at 90º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Figure 45 – 115 VAC / 60 Hz, 48 V Load,
VDS=493 VPK.
(-)1 kV Differential Surge at 0º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Figure 46 – 115 VAC / 60 Hz, 48 V Load,
VDS=474 VPK.
(-)1 kV Differential Surge at 90º.
Ch1: VIN, 200 V / div.
Ch2: VS PIN, 200 V / div.
F1: VDS, 500 V / div., 10 s / div.
Power Integrations, Inc.
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Page 24 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
10 Dimming Sample Waveform
The input voltage waveform varies depending on the internal circuitry and leakage of the
dimmer especially at full dim.
Figure 47 – 230 VAC / 50 Hz, Dimming at Full
Conduction from Relco-RTM34LED
DAXS Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Figure 49 – 230 VAC / 50 Hz, Dimming at Full
Conduction from Sen Bo Lang Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Page 25 of 34
Figure 48 – 230 VAC / 50 Hz, Dimming at Full Dim
from Relco-RTM34LED DAXS Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Figure 50 – 230 VAC / 50 Hz, Dimming at Full Dim
from Sen Bo Lang Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Power Integrations
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
Figure 51 – 230 VAC / 50 Hz, Dimming at Full
Conduction from Mank Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Figure 52 – 230 VAC / 50 Hz, Dimming at Full Dim
from Mank Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Figure 53 – 230 VAC / 50 Hz, Dimming at Full
Conduction from Anam Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Figure 54 – 230 VAC / 50 Hz, Dimming at Full Dim
from Anam Dimmer.
Ch1: VIN, 100 V / div.
Ch2: IIN, 100 mA / div.
Ch4: IOUT, 50 mA / div., 5 ms / div.
Power Integrations, Inc.
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Page 26 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
11 Dimming Compatibility
The LED driver was verified to the following list of 230 V dimmers. This table does not
limit the types and models of dimmers to be matched in the LED driver instead these are
the only available dimmers in the laboratory by the time the UUT was evaluated.
Most of the dimmers are high power rated wherein the holding current is way above the
instantaneous drawn current of the driver. For this reason and in some cases it will
require for this application to parallel the UUT in order to reach the minimum holding
current of the dimmers in order to avoid shimmer.
Brand
Model
Relco
RH34LEDPLT
Power
(W)
300
Italian
No. of Units to Satisfy
Holding Current of TRIAC
3
IOUT Max
mAAVG
70.60
IOUT Min
mAAVG
2.80
Relco
RM34DMA
160
Relco
RTM34LED DAXS
500
Italian
1
75.00
10.29
Italian
1
53.73
Relco
RM34DMA
13.19
300
Italian
2
81.10
Relco
7.42
RTS34.43RLI
300
Italian
2
81.60
11.62
Relco
RT34DSL
500
Italian
2
80.90
5.56
TCL
TCL
630
China
3
81.20
0.81
Sen Bo Lang
SBL
300
China
1
80.70
0.41
Country
Eba Huang
-
-
China
1
79.50
0.29
SB Elect
-
600
China
1
70.00
0.33
Myongbo
-
-
China
1
79.90
0.42
KBE
-
650
China
1
80.60
0.32
Clipmei
-
-
China
1
79.60
0.51
Mank
-
200
China
1
78.70
4.52
REV
-
300
Germany
3
67.00
0.80
Busch
2250
600
Germany
4
72.90
2.59
Merten
572499
400
Germany
5
79.50
0.57
Busch
3513
420
Germany
1
81.60
43.40
Berker
2875
600
Germany
1
67.20
5.60
Anam
-
500
Korea
2
775.70
14.45
Shin Sung
-
500
Korea
3
78.50
6.00
Fantasia
-
500
Korea
3
76.20
14.72
SS
-
700
Korea
3
78.70
3.37
Aurora
-
400
UK
5
65.60
0.47
Note: Shimmering can be observed if there is significant imbalance in the conduction of a dimmer.
Page 27 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
90
80
Output Current (mA)
70
60
50
40
30
20
10
0
0
20
40
60
80
100
120
140
160
180
Conduction Angle (º)
Figure 55 – Dimming Curve Characteristic; Measured from Controlled AC Source to Emulate the Dimmer
Conduction Angle.
Power Integrations, Inc.
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Page 28 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
12 Line Surge
Input voltage was set at 230 VAC / 60 Hz. Output was loaded with 48 V LED string and
operation was verified following each surge event.
Differential input line 1.2 / 50 s surge testing was completed on one test unit to
IEC61000-4-5.
Surge Level
(V)
10strikes/condition
+1000
-1000
+1000
-1000
Input
Voltage
(VAC)
230
230
230
230
Injection
Location
L to N
L to N
L to N
L to N
Injection
Phase
(°)
0
0
90
90
Test Result
(Pass/Fail)
Pass
Pass
Pass
Pass
Differential input line ring surge testing was completed on one test unit to IEC61000-4-5.
Surge Level
(V)
10strikes/condition
+2500
-2500
+2500
-2500
Input
Voltage
(VAC)
230
230
230
230
Injection
Location
L to N
L to N
L to N
L to N
Injection
Phase
(°)
0
0
90
90
Test Result
(Pass/Fail)
Pass
Pass
Pass
Pass
Unit passes under all test conditions.
Page 29 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
13 Conducted EMI
13.1 Equipment
Receiver:
Rohde & Schwartz
ESPI - Test Receiver (9 kHz – 3 GHz)
Model No: ESPI3
LISN:
Rohde & Schwartz
Two-Line-V-Network
Model No: ENV216
13.2 EMI Test Set-up
LED driver is placed in a conical metal housing (for self-ballasted lamps; CISPR15
Edition 7.2).
Figure 56 – Conducted Emissions Measurement Set-up
Showing Conical Ground Plane Inside which UUT was Mounted.
Power Integrations, Inc.
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Page 30 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
13.3 EMI Test Result
Power Integrations
18.Oct 11 17:48
RBW
MT
9 kHz
500 ms
Att 10 dB AUTO
dBµV
120
EN55015Q
110
1 QP
CLRWR
100 kHz
LIMIT CHECK
1 MHz
PASS
10 MHz
SGL
100
90
2 AV
CLRWR
TDF
80
70
60
50
EN55015A
6DB
40
30
20
10
0
-10
-20
9 kHz
30 MHz
Figure 57 – Conducted EMI, 48 V / 80 mA Steady-State Load, 230 VAC, 60 Hz, and EN55015 Limits.
Page 31 of 34
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DER-301 3.8 W Buck Power Supply Using LNK457EG
Trace1:
10-Nov-11
EDIT PEAK LIST (Final Measurement Results)
EN55015Q
Trace2:
EN55015A
Trace3:
---
TRACE
FREQUENCY
2
Average
9.64921816896 kHz
3
Quasi Peak
2
Average
1
LEVEL dBµV
DELTA LIMIT dB
22.51
L1 gnd
90.5318149441 kHz
9.16
L1 gnd
133.454986145 kHz
34.00
N gnd
Quasi Peak
151.5 kHz
45.23
L1 gnd
3
Quasi Peak
177.645664706 kHz
46.59
N gnd
2
Average
196.231331718 kHz
42.75
L1 gnd
-11.01
1
Quasi Peak
225.562855639 kHz
47.76
N gnd
-14.84
1
Quasi Peak
254.169871602 kHz
52.39
N gnd
-9.22
2
Average
261.871472881 kHz
41.28
L1 gnd
-10.09
3
Quasi Peak
267.135089486 kHz
51.59
N gnd
2
Average
325.955575511 kHz
35.12
L1 gnd
3
Quasi Peak
352.963180679 kHz
31.44
L1 gnd
2
Average
389.890938834 kHz
31.30
L1 gnd
-16.76
1
Quasi Peak
401.705024172 kHz
39.76
L1 gnd
-18.05
3
Quasi Peak
448.169580165 kHz
34.81
L1 gnd
2
Average
457.177788726 kHz
28.62
L1 gnd
-18.11
1
Quasi Peak
466.367062279 kHz
38.33
L1 gnd
-18.24
3
Quasi Peak
715.396717193 kHz
29.60
L1 gnd
3
Quasi Peak
798.145472681 kHz
33.36
N gnd
2
Average
864.277177159 kHz
29.94
N gnd
-20.68
-14.43
-16.05
Figure 58 – Conducted EMI, 48 V / 80 mA Steady-State Load Steady-State Load, 230 VAC, 60 Hz, and
EN55015 Limits. Line and Neutral Scan Design Margin Measurement.
Power Integrations, Inc.
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Page 32 of 34
10-Nov-11
DER-301 3.8 W Buck Power Supply Using LNK457DG
14 Revision History
Date
10-Nov-11
Page 33 of 34
Author
JDC
Revision
1.0
Description and Changes
Initial Release
Reviewed
Apps and Mktg
Power Integrations
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DER-301 3.8 W Buck Power Supply Using LNK457EG
10-Nov-11
For the latest updates, visit our website: www.powerint.com
Power Integrations reserves the right to make changes to its products at any time to improve reliability or manufacturability.
Power Integrations does not assume any liability arising from the use of any device or circuit described herein. POWER
INTEGRATIONS MAKES NO WARRANTY HEREIN AND SPECIFICALLY DISCLAIMS ALL WARRANTIES INCLUDING,
WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
PURPOSE, AND NON-INFRINGEMENT OF THIRD PARTY RIGHTS.
PATENT INFORMATION
The products and applications illustrated herein (including transformer construction and circuits’ external to the products)
may be covered by one or more U.S. and foreign patents, or potentially by pending U.S. and foreign patent applications
assigned to Power Integrations. A complete list of Power Integrations’ patents may be found at www.powerint.com. Power
Integrations grants its customers a license under certain patent rights as set forth at http://www.powerint.com/ip.htm.
The PI Logo, TOPSwitch, TinySwitch, LinkSwitch, DPA-Switch, PeakSwitch, CAPZero, SENZero, LinkZero, HiperPFS, HiperTFS,
HiperLCS, Qspeed, EcoSmart, Clampless, E-Shield, Filterfuse, StackFET, PI Expert and PI FACTS are trademarks of Power
Integrations, Inc. Other trademarks are property of their respective companies. ©Copyright 2011 Power Integrations, Inc.
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