POWERINT DER-49

Design Example Report
Title
3W Non-Isolated Buck-Boost Converter
using LNK305P
Specification
Input: 108–265 VAC
Output: -12 V / 250 mA
Application
Home Appliance
Author
Power Integrations Applications Department
Document
Number
DER-49
Date
April 20, 2005
Revision
1.0
Summary and Features
•
•
•
•
•
•
•
•
•
•
•
Non-Isolated Topology - no direct path from input to output
Low cost off the shelf inductor – no custom transformer required
15 components including EMI filter
Loop Fault Protection
Short Circuit Protection
Hysteretic Thermal Shutdown
Output Referenced to Neutral
Precise Output Voltage control
Frequency Jitter
Excellent Conducted EMI (>10dB margin across spectrum)
Extremely low standby power consumption (<200mW!)
The products and applications illustrated herein (including circuits external to the products and transformer construction)
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
5245 Hellyer Avenue, San Jose, CA 95138 USA.
Tel: +1 408 414 9200 Fax: +1 408 414 9201
www.powerint.com
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
Table Of Contents
1
2
3
4
5
6
7
Introduction ......................................................................................................................3
Power Supply Specification..............................................................................................4
Schematic ........................................................................................................................5
Circuit Description ............................................................................................................5
PCB Layout......................................................................................................................6
Bill Of Materials ................................................................................................................7
Performance Data ............................................................................................................8
7.1
Efficiency...................................................................................................................8
7.2
No-load Input Power .................................................................................................8
7.3
Regulation.................................................................................................................9
7.3.1
Load...................................................................................................................9
7.3.2
Line ....................................................................................................................9
8 Waveforms.....................................................................................................................10
8.1
Source Voltage and Current, Normal Operation .....................................................10
8.2
Output Voltage Start-up Profile ...............................................................................10
8.3
Load Transient Response (75% to 100% Load Step) .............................................11
8.4
Output Ripple Measurements .................................................................................12
8.4.1
Ripple Measurement Technique ......................................................................12
8.4.2
Measurement Results......................................................................................13
9 Conducted EMI ..............................................................................................................14
10
Revision History..........................................................................................................15
Important Note:
Although this board is designed to satisfy safety requirements, the engineering prototype has
not been agency approved. In addition, as the output is not electrically isolated from the
input, all testing should be performed using an isolation transformer to provide the AC line
input to the prototype board.
Design Reports contain a power supply design specification, schematic, bill of materials, and
transformer documentation. Performance data and typical operation characteristics are
included. Typically only a single prototype has been built.
Power Integrations
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Page 2 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
1 Introduction
This document is an engineering prototype report describing a non-isolated -12 V, 250mA
power supply utilizing a LNK305P.
The document contains the power supply specification, schematic, bill-of-materials, printed
circuit layout, and performance data.
AC Line
-12VDC @
250mA
AC Neutral
GND
Figure 1 –Populated Circuit Board Photograph.
Page 3 of 17
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DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
2 Power Supply Specification
Description
Input
Voltage
Frequency
No-load Input Power (240 VAC)
Output
Output Voltage 1
Output Ripple Voltage 1
Output Current 1
Total Output Power
Continuous Output Power
Efficiency
Ambient Temperature
Symbol
Min
Typ
Max
Units
Comment
VIN
fLINE
108
47
265
64
0.2
VAC
Hz
W
2 Wire – No Protective Earth
50/60
VOUT
10.8
12
13.2
200
250
V
mV
mA
3.5 mA pre-load fitted on board
W
%
Measured at 85 VAC, 25 oC
VRIPPLE1
IOUT
0
POUT
η
50
TAMB
-20
3
50/85
o
C
±10%
20 MHz Bandwidth
Free convection, sea level. For
operation at >70 °C substitute D1
for a diode with trr ≤35 ns
Table 1 - Specifications
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Page 4 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
3 Schematic
R3
12k 1%
J2
+
C1
10uF/400V
BP
S
2.2mH
47/3W
108 - 265VAC
50/60Hz
J3
D3
1
D
LINE
RF1
LNK305P
L1
C4
10uF/50V
C5
MUR160
0.1uF
+
C2
10uF/400V
L2
1500uH
D2
1N4005GP
+
1
1N4007
R4
2.05k 1%
EN
D1
J1
+
U1
C3
100uF/25V
R2
3.3k
J4
RF2
1
NEUTRAL
-12V @
250mA
1
47/3W
* RF2 not used
Figure 2 –Schematic.
4 Circuit Description
The circuit shown in Figure 2 is a non-isolated buck-boost (inverting) topology. The input
voltage range is 108 to 265VAC 50/60Hz and provides a regulated –12V at 250mA. The
buck-boost topology is essentially the non-isolated version of the Flyback Converter, in that
the transformer is replaced with a single low cost inductor (L2).
RF1 is a fusible link resistor. The input AC is half-wave rectified and filtered by D1 and C1.
C1, L1 and C2 form a pi-filter network to reduce common-mode emissions imposed to the
input line, this in conjunction with the built-in frequency jitter of the LinkSwitch-TN (U1)
ensure sufficient conducted EMI margins. U1, D2 and L2 form the buck-boost switching cell,
which converts the rectified bulk positive DC voltage on C2 into a negative voltage on C3
(w/r/t Neutral/GND). D2 samples the output voltage onto C4 as a positive voltage with
respect to the source of U1. The EN pin of U1 is internally set to 1.65V (w/r/t pins 1,2, 7 and
8) this in conjunction with resistors R3 and R4 form a simple voltage divider to precisely set
the output voltage to the desired level. C5 is a bypass capacitor that serves as high
frequency decoupling and energy storage. This capacitor provides power to the IC as well as
controls the auto-restart mechanism in the LinkSwitch-TN. Resistor R2 serves to reduce
peak charging effects on C3 which tend to increase the output voltage, its static power
dissipation is limited to less than 30mW. Without this additional resistor the standby power
consumption would be less than 100mW.
Page 5 of 17
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DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
5 PCB Layout
Figure 3 – Printed Circuit Layout
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Page 6 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
6 Bill Of Materials
Item QTY Ref Des Value
1
2
3
4
5
6
7
8
9
10
11
12
13
14
2
1
1
1
1
1
1
1
1
1
1
1
1
1
Page 7 of 17
C1, C2
C3
C4
C5
D1
D2
D3
L1
L2
R2
R3
R4
RF1
U1
10uF/400V
100uF/25V
10uF/50V
0.1uF/50V
Standard Rec. 1A/1000V
Standard Rec. 1A/600V
Ultrafast 1A/600V
2.2mH
1500uH
3.3k 5% 1/4W
12k 1% 1/8W
2.05k 1% 1/8W
47 ohm/3W
PWM +MOSFET
Manufacturer
P/N
Diodes, Inc.
Diodes, Inc.
Diodes, Inc.
Toko
Toko
1N4007
1N4005GP
MUR160
262LY-222K
824MY-152K
RCD Components
Power Integrations
LNK305P
Power Integrations
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DER-49
7
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
Performance Data
All measurements performed at room temperature, 60 Hz input frequency.
7.1
Efficiency
80.00%
70.00%
Efficiency (%)
60.00%
50.00%
Vin = 108VAC
40.00%
Vin = 120VAC
Vin = 240VAC
30.00%
Vin = 265VAC
20.00%
10.00%
0.00%
0
50
100
150
200
250
300
Load Current (mA)
Figure 4 - Efficiency vs. Output Current, Room Temperature, 60 Hz.
No-load Input Power
0.5
0.45
0.4
0.35
Input Power (W)
7.2
0.3
0.25
0.2
0.15
0.1
0.05
0
80
130
180
230
280
Input Voltage (VAC)
Figure 5 - Zero Load Input Power vs. Input Line Voltage, Room Temperature, 60 Hz.
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Page 8 of 17
DER-49
7.3
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
Regulation
7.3.1 Load
13
12.8
Output Voltage (VDC)
12.6
12.4
12.2
12
11.8
11.6
11.4
11.2
11
0
50
100
150
200
250
300
Load Current (mA)
Figure 6 - Load Regulation, Vin = 120VAC, Room Temperature.
7.3.2 Line
13
12.8
Output Voltage (VDC)
12.6
12.4
12.2
12
11.8
11.6
11.4
11.2
11
80
130
180
230
280
Input Voltage (VAC)
Figure 7 - Line Regulation, Full Load, Room Temperature.
Page 9 of 17
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DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
8 Waveforms
8.1
Source Voltage and Current, Normal Operation
Figure 8 - 108 VAC, Full Load.
Upper: IDRAIN, 0.2 A / div
Lower: VSOURCE, 50 V, 5 µs / div
8.2
Figure 9 - 265 VAC, Full Load.
Upper: IDRAIN, 0.2 A / div
Lower: VSOURCE, 100 V / div
Output Voltage Start-up Profile
Figure 10 - 108 VAC Input and Maximum Load.
5 V / div, 10 ms
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Figure 11 - 265 VAC Input and Maximum Load.
5 V / div, 10 ms
Page 10 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
8.3 Load Transient Response (75% to 100% Load Step)
The oscilloscope was triggered using the load current step as a trigger source.
Figure 12 -120 VAC Input and Maximum Load.
50 mV / div, 5 ms / div
Page 11 of 17
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DER-49
8.4
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
Output Ripple Measurements
8.4.1 Ripple Measurement Technique
For DC output ripple measurements, a modified oscilloscope test probe must be utilized in
order to reduce spurious signals due to pickup. Details of the probe modification are
provided in Figure 13 and Figure 14.
The 5125BA probe adapter is affixed with two capacitors tied in parallel across the probe tip.
The capacitors include one (1) 0.1 µF/50 V ceramic type and one (1) 1.0 µF/50 V aluminum
electrolytic. The aluminum electrolytic type capacitor is polarized, so proper polarity
across DC outputs must be maintained (see below).
Probe Ground
Probe Tip
Figure 13 - Oscilloscope Probe Prepared for Ripple Measurement. (End Cap and Ground Lead Removed).
Figure 14 - Oscilloscope Probe with Probe Master 5125BA BNC Adapter (Modified with Wires for Probe
Ground for Ripple Measurement and Two Parallel Decoupling Capacitors Added).
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Page 12 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
8.4.2 Measurement Results
Figure 15 - Ripple, 108 VAC, Full Load.
5 ms, 50 mV / div
Page 13 of 17
Figure 16 - Ripple, 265 VAC, Full Load.
5 ms, 50 mV / div
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DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
9 Conducted EMI
Figure 17- Conducted EMI EN55022 B Limits - 120 VAC/60Hz Maximum Steady State Load (LINE)
Note: If more EMI margin is desired, an additional 1N4007 can be added in series with the
NEUTRAL input
.
Figure 18- Conducted EMI EN55022 B Limits - 120 VAC/60Hz Maximum Steady State Load (Neutral)
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Page 14 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
10 Revision History
Date
April 20, 2005
Page 15 of 17
Author
RSP
Revision
1.0
Description & changes
Initial Release
Reviewed
VC/JC /
AM
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DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
NOTES
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Page 16 of 17
DER-49
-12V/3W, Non-Isolated Buck-Boost Converter
April 20, 2005
For the latest updates, visit our Web site: www.powerint.com
Power Integrations may make changes to its products at any time. Power Integrations has no liability arising from your use
of any information, device or circuit described herein nor does it convey any license under its patent rights or the rights of
others.
POWER INTEGRATIONS MAKES NO WARRANTIES 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 circuits external to the products and transformer construction)
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.
The PI Logo, TOPSwitch, TinySwitch, LinkSwitch, and EcoSmart are registered trademarks of Power
Integrations. PI Expert and DPA-Switch are trademarks of Power Integrations.
© Copyright 2004, Power Integrations.
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