Power Factor Correction - Low

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GreenPoint® Reference Designs
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that meet all of the relevant specifications, worldwide.
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reference designs for selected types of
internal and external power supplies. These open reference designs
provide roadmaps for the design of highly efficient power supplies,
helping you get to market quickly by providing documentation
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and test results. The reference designs meet all relevant global
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supplies helps solve your challenges in all focus areas for efficiency
enhancement:
•Low standby-mode power consumption
•High active-mode power efficiency
•Power factor correction
And since we provide a full range of power supply semiconductors
– from highly integrated power factor controllers, ac-dc controllers,
and dc-dc controllers, to discrete MOSFETs, rectifiers, diodes,
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AC-DC Power Supplies and Adapters
AC
In
EMI Power
Filter
Input
Bridge
Rectification
Power
Factor
Correction
Voltage
Regulation
(Linear, Switching)
See Page 8
See Pages 14-17
Transformer
Output
Rectification/
Sync Rect
DC
Out
See Page 21
DC-DC Power Supplies
DC
In
Hot Swap/
Inrush
Limiting
Isolated
Conversion
Non-Isolated
Conversion
See Pages 10, 14
See Pages 10, 14
DC
Out
Post
Regulation
Regulated
Output
See Pages 9
Page 2
Power Supply & Power Adapter Solutions
Single Chip CCM PFC + LLC Solution for 310 W ATX Power Supply
Input
90 to
265 Vac
EMI
Filtering
and
Rectification
•Featuring NCP1910 high
performance CCM PFC +
LLC combo controller
• Satisfies 80 PLUS® Gold efficiency
specifications
• Integrated ON/OFF and Power OK signal
operation to conform with the ATX12V
specification
•Easily configurable startup and shut
down timing sequences to meet
hold-up time and power down warning
requirements
• Download AND8474/D for more information
12Vout
12V_RTN
2x NCP4303
Sync Rec
12V_FB
NCP1910
CCM PFC + LLC
ON/OFF
Remote Control
Aux_Supply
NCP1027
Flyback
5Vstby
Aux_Supply
5Vstby_RTN
5Vstby_FB
240 W All-in-One PC Power Supply
•12 V, 20 A SMPS intended for high efficiency All-in-One PC power supply
•Frequency clamped power factor correction front end controlled by NCP1605
•Half-bridge resonant LLC control provided by NCP1397
•Secondary side synchronous rectification provided by NCP4303
•Download AND8460/D for more information
NCP4303B
SR Controller
90 to
265 Vac
EMI
Filter
NCP1605
PFC
Controller
Frequency Clamped
Critical Conduction Mode
Power Factor Controller
Synchronous Rectification
for Improved Efficiency
NCP1397B
Resonant Controller
with Built-In
Half Bridge Driver
Bias
Circuitry
Resonant Technology
for Increases Efficiency
and Lower EMI
ON Semiconductor
12 V/20 A
NCP4303B
SR Controller
TL431
Page 3
300 W SLIM LCD TV Power
Supply Reference Design
Primary to Secondary
Galvanic Isolation
Standby - ON
Disconnection
in Standby Mode
Standby High
Voltage Switching
Regulator
Bias
Standby/ON
MBR360
NCP1053A
Hysteric
Flyback
•Utilizes NCP1631 for interleaved
frequency clamped critical conduction
power factor correction
•NCP1053A integrated switching regulator
provides low power standby
(Pin < 25 mW in off mode)
•High efficiency NCP1379 quasi-resonant
flyback converter for powering signal
processing and audio amplifiers
•Board height limited to 8 mm for slim
90 to
265 Vac
LCD TV designs
•Download TND401/D for complete,
production-ready design documentation
5 V Standby
Secondary Regulation
TLV431
QR Flyback
Controller
MBRF20L80CTG
+
MBRF20L100CTG
Vcc
ZCD
(OFF in Standby)
NCP1379
QR Flyback
12 V
5V
Relay OFF
in Standby
Secondary Regulation
MUR550APF
EMI
Filter
MUR550APF
TL431
Vcc
NCP1631
Interleaved
FCCrM PFC
NDF08N50Z x2
Vcc
Power
Boost
Power Section: Standby +
PFC + Flyback
400 V
PFC-OUT
12 V
5V
Backlight Power
Converter
(LED or CCFL or PDP)
65 W AC-DC Notebook Power Adapter
•19 V, 3.4 A flyback design intended for notebook
computer power adapters
•Featuring NCP1236 fixed frequency PWM flyback
controller with integrated high voltage startup, brown
out protection and over power protection
•Average efficiency of > 87% as per ENERGY STAR 2.0
guidelines
•No load input power of < 100 mW
•Download DN06074/D for more information
Efficiency versus Output Power and Input Line Voltage
Page 4
Power Supply & Power Adapter Solutions
60 W Quasi-Resonant Power Adaptor
HV-bulk
Vout
AC Line
ZCD/OPP
OVP
EMI
Filtering
NC1380A/B
OTP
•19 V quasi-resonant power adapter intended for notebook computer power adapters
•Utilizes NCP1380 quasi-resonant flyback controller with valley lockout to prevent
audible transformer noise at light load
•Average efficiency of > 87% as per ENERGY STAR 2.0 guidelines
•No load input power of < 100 mW
•Download AND8431/D and NCP1380EVB/D for more information
48 W Universal Input Printer Power Adapter
•24 V flyback power adapter for printers delivering 30 W steady state with transient capability of 48 W
•Supplies 7.25 V, 70 mA in standby mode
•Utilizes NCP1219 current-mode flyback controller with dynamic self supply for a cost effective, low parts count design
•Download AND8393/D for more information
ON Semiconductor
Page 5
40 W AC-DC Power Adapter
•Compact, high performance 12 V, 3.3 A flyback power adapter
•Featuring highly integrated NCP1250 fixed frequency flyback
controller in a small TSOP-6 package
•Average efficiency of > 87%
•No load input power of 33 mW at low line
•Download AND8486/D for more information
22 W Offline Forward Converter Power Supply
90 to
265 Vac
Input
1N4007
MBRS2H100
+
MBRS2H100
1.5 A
250 Vac
12 V @ 1.8 A
(2 A Peak)
–
1N4937
•12 V, 2 A max (22 W continuous) offline power
supply
•Featuring NCP1028 monolithic switching regulator
•Simple compact design with low EMI and high
efficiency
•Intended for use in white goods, E-meters, and low
power communication equipment
•Download AND8489/D for more information
Page 6
MMSD4148A
MMSZ5241B
NCP1028
(100 kHz)
OPTO
Power Supply & Power Adapter Solutions
Power Factor Correction
Power Factor Controllers
Conduction Mode
Frequency
Control
Mode
Package
Critical, Discontinuous
Critical
Critical
Critical, Discontinuous
(Interleaved)
Continuous
Continuous, Discontinuous
Continuous
Continuous
Variable and/or Fixed
Variable
Variable
Voltage
Voltage
Voltage
SOIC-16
SOIC-8
SOIC-8
Variable and/or Fixed
Current
SOIC-16
Fixed
Fixed
Fixed
Fixed
Current
Current
Current
Current
SOIC-16
SOIC-16, SO-20
SOIC-8, PDIP-8
SOIC-8
Device
NCP1605
NCP1607
NCP1608
NCP1631
NCP1651
NCP1652
NCP1653
NCP1654
Features
•Comprehensive portfolio supports a broad range
of PFC topologies
•8 pin Continuous Conduction Mode(CCM)
•8 pin Critical Conduction Mode(CrM)
•Combination of Critical Conduction and Fixed
Frequency Discontinuous Conduction Mode
(DCM) for optimized performance with benefits
of both modes
•Single stage flyback PFC controllers
•2-Phase interleaved PFC
Supporting Materials — Power Factor Correction
Device
NCP1605
NCP1607
NCP1608
NCP1631
NCP1651
NCP1652
Type
Designator
Description
Design Tool
Application Note
Application Note
Application Note
Evaluation Board
Evaluation Board
Reference Design
Design Tool
Application Note
Application Note
Evaluation Board
Design Tool
Application Note
Application Note
Design Tool
Evaluation Board
Application Note
Application Note
Design Tool
Application Note
Application Note
Application Note
Application Note
Reference Design
Design Tool
Application Note
Application Note
—
AND8281/D
AND8292/D
AND8293/D
NCP1605FORWGEVB
NCP1605LCDTVGEVB
TND316/D
—
AND8123/D
AND8353/D
NCP1607BOOSTGEVB
—
AND8123/D
AND8396/D
—
NCP1631EVB
AND8355/D
AND8407/D
—
AND8209/D
AND8124/D
AND8147/D
TND308/D
TND317/D
—
AND8394/D
AND8427/D
NCP1605 PFC Boost Design Worksheet
Implementing the NCP1605 to Drive the PFC Stage of a 19 V/8 A Power Supply
Wide Mains, 19 V, 8 A Power Supply Including Power Factor Correction
Implementing an LCD TV Power Supply with NCP1396A, NCP1605, and NCP1027
NCP1605 152 W Forward Evaluation Board
NCP1605 and NCP1396 LCD TV Evaluation Board
220 W LCD TV Power Supply Reference Design Featuring NCP1396 and NCP1605 Documentation
NCP1607 Design Worksheet
Power Factor Correction Stages Operating in Critical Conduction Mode
Implementing Cost Effective & Robust Power Factor Correction with NCP1607
100 W Boost CrM PFC
NCP1608 Design Worksheet
Power Factor Correction Stages Operating in Critical Conduction Mode
Implementing Power Factor Correction with the NCP1608
NCP1631 Design Worksheet
300 W Wide Mains Interleaved PFC Driven by the NCP1631
Characteristics of Interleaved PFC Stages
Key Steps to Design an Interleaved PFC Stage Driven by the NCP1631
NCP1651 Design Worksheet
90 W, Single Stage, Notebook Adaptor
90 W, Universal Input, Single Stage, PFC Converter
Innovative Approach to Achieving Single Stage PFC & Step-Down Conversion for Distributive Systems
Graphical Data Test Circuits for the NCP1651
90 W Notebook AC-DC Adapter Reference Design Documentation
NCP1652 Design Worksheet
48 V, 2 A High Efficiency, Single Stage, Isolated PFC Power Supply for LED Drivers and Telecom Power
Constant Current Adjustable 0.7 - 1.5 A, Up to 55 Vdc Single Stage PFC Power Supply for LED
ON Semiconductor
Page 7
Supporting Materials — Power Factor Correction
Device
NCP1653
NCP1654
Type
Designator
Description
Design Tool
Evaluation Board
Application Note
Application Note
Application Note
Reference Design
Reference Design
Design Tool
Evaluation Board
Application Note
Application Note
Application Note
Application Note
—
NCP1653EVB
AND8185/D
AND8184/D
AND8256/D
TND321/D
TND313/D
—
NCP1654PFCGEVB
AND8321/D
AND8322/D
AND8324/D
AND8392/D
NCP1653 PFC Boost Design Worksheet
NCP1653 PFC Dive Continuous Conduction Mode Step-Up Pre-Converter Evaluation Board
300 W, Wide Mains, PFC Stage Driven by the NCP1653
Four Key Steps to Design a Continuous Conduction Mode PFC Stage Using the NCP1653
Output Voltage Range Control in NCP1653 Driven PFC Stages
220 W LCD TV Power Supply Reference Design Featuring NCP1395 and NCP1653 Documentation
300 W, 80 PLUS Compliant ATX Reference Design Documentation Package
NCP1654 Design Worksheet
NCP1654 PFC Continuous Conduction Mode Step-Up Pre-Converter Evaluation Board
Compensation of a PFC Stage Driven by the NCP1654/5
Four Key Steps to Design a Continuous Conduction Mode PFC Stage Using the NCP1654
300 W, Wide Mains, PFC Stage Driven by the NCP1654
800 W Bridgeless PFC Stage
Secondary Side Controllers
Vbulk
+Vout
VCC
FLYBACK
CONTROL
CIRCUITRY
GND
DRV
FB
NCP4303
CS
VCC
DRV
Min_Toff GND
Min_Ton COMP
Trig
CS
Features — NCP4303
NCP4303 Typical Application Example – DCM or QR Flyback Converter
•Self contained control of synchronous rectifier in
CCM, DCM, and QR flyback applications
•Precise true secondary zero current detection with
adjustable threshold
•Automatic parasitic inductance compensation input
Secondary Side Controllers
Device
Function
Package
NCP4303
NCS1002
Secondary Side Synchronous Rectification Driver
Secondary Side Controller, Constant Voltage, Constant Current
SOIC-8
SOIC-8
Supporting Materials
Device
NCP4303
NCP4303
Page 8
Type
Designator
Reference Design
Reference Design
TND399/D
TND313/D
Description
216 W All in One Power Supply GreenPoint® Reference Design
300 W, 80 PLUS® Certified ATX Power Supply GreenPoint® Reference Design
Power Supply & Power Adapter Solutions
AC-DC Controllers and Regulators
Features
•Comprehensive, versatile portfolio supports:
nFixed frequency and variable frequency
nDifferent topologies, from the classical flyback, to the half bridge
resonant via the forward active clamp
nBroad range of price-performance options, from cost effective
devices to highly integrated controllers and regulators
•
Embedded features ease compliance with stringent efficiency
requirements: frequency foldback, Soft-Skip™ mode
•Functions reduce EMI signatures and facilitate compliance with
safety standards
AC-DC Controllers and Regulators
Topology
Frequency
Control Mode
Package
NCP1010~15
Device
Buck/Boost/Buck-Boost/Flyback
Fixed
Current
SOT-223, PDIP-7, SMD PDIP-7
NCP1027~28
Buck/Boost/Buck-Boost/Flyback
Fixed
Current
PDIP-7
NCP1050~55
Flyback
Fixed
Gated Oscillator
PDIP-7, SOT-223
NCP1200
Flyback
Fixed
Current
SOIC-8, PDIP-8
NCP1203
Flyback
Fixed
Current
SOIC-8, PDIP-8
NCP1207A/B
Flyback
Variable
Current
SOIC-7, SOIC-8, PDIP-8
NCP1216/16A
Flyback/Forward
Fixed
Current
SOIC-8, PDIP-7
NCP1217/17A
Flyback/Forward
Fixed
Current
SOIC-8, PDIP-7
NCP1218/19
Flyback
Fixed
Current
SOIC-7
NCP1230
Flyback
Fixed
Current
SOIC-8, PDIP-7
NCP1234/6
Flyback
Fixed
Current
SOIC-8
NCP1237/38/88
Flyback
Fixed
Current
SOIC-7
TSOP-6
NCP1250/1
Flyback
Fixed
Current
NCP1252
Flyback/Forward
Fixed
Current
SOIC-8
NCP1271
Flyback
Variable
Current
SOIC-7, PDIP-7
NCP1308
Flyback
Variable
Current
SOIC-8
NCP1337
Flyback
Variable
Current
SOIC-7, PDIP-7
NCP1338
Flyback
Variable
Current
SOIC-7, PDIP-7
NCP1351
Flyback
Variable
Current
SOIC-8
NCP1377
Flyback
Variable
Current
SOIC-7, SOIC-8, PDIP-7
NCP1379/80
Flyback
Variable
Current
SOIC-8
NCP1381/82
Flyback
Variable
Current
SOIC-14
NCP1392/3
Half-Bridge Resonant
Variable
Current
SOIC-8
NCP1395
Half-Bridge/Full Bridge Resonant
Variable
Voltage
SOIC-16, PDIP-16
NCP1396
Half-Bridge Resonant
Variable
Voltage
SOIC-16
NCP1397
Half-Bridge Resonant
Variable
Voltage
SOIC-16
NCP1562
Forward Active Clamp
Fixed
Voltage
SOIC-16
ON Semiconductor
Page 9
Supporting Materials — AC-DC Controllers and Regulators
Device
NCP1010~15
NCP1027/28
NCP1050-55
Page 10
Type
Designator
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Note
Evaluation Board
Evaluation Board
Evaluation Board
Reference Design
Reference Design
Design Tool
Application Note
Application Note
Application Note
Application Note
Evaluation Board
Evaluation Board
AND8125/D
AND8132/D
AND8134/D
AND8136/D
AND8142/D
AND8190/D
AND8191/D
AND8224/D
AND8225/D
AND8226/D
AND8272/D
AND8318/D
AND8328/D
AND8334/D
AND8395/D
DN06002/D
DN06002/D
DN06003/D
DN06005/D
DN06009/D
DN06011/D
DN06013/D
DN06013/D
DN06017/D
DN06020/D
DN06027/D
DN06034/D
DN06037/D
DN06051/D DN06052/D
DN06064/D
DN06065/D
DN06066/D
NCP1012GEVB
NCP1014LEDGTGEVB
NCP1014STBUCGEVB
TND329/D
TND371/D
—
AND8241/D
AND8262/D
AND8296/D
AND8334/D
NCP1027ATXGEVB
NCP1028LEDGEVB
Design Note
DN06006/D
Design Note
Design Note
Reference Design
Reference Design
Reference Design
Reference Design
Evaluation Board
Application Note
Application Note
Design Note
Design Note
Design Tool
DN06012/D
DN06021/D
TND313/D
TND316/D
TND321/D
TND330/D
NCP1055GEVB
AND8099/D AND8098/D
DN06053/D
DN06028/D
NCP105X DWS.XLS Description
Evaluating the Power Capability of NCP101X Members
Performance Improvements to the NCP1012 Evaluation Board
Designing Converters with the NCP101X Family
Offline isolated power supply to drive 3 LEDs
A 6 W/12 W Universal Mains Adapter with the NCP101X
Non-isolated Negative Output Buck AC/DC Converter
Non-isolated Positive Output Buck/Boost AC/DC Converter
NCP101x LED Flasher with Luxeon V Star LED
Nonisolated Negative Output Buck/Boost AC/DC Convertor
Nonisolated Positive Output Buck AC/DC Converter
Implementing Simple Brown-Out Solution for NCP101X Series
Offline Buck Converter with Tapped Inductor Improves Performance
700 mA LED Power Supply Using Monolithic Controller and Off-Line Current Boosted (Tapped Inductor) Buck Converter
Understanding Loop Compensation with Monolithic Switchers
Simple Secondary Side Vcc Source for Low Power CVCC Power Supplies
NCP1012: 1 W, Dual Output, Off-line Converter
NCP1012: 1 W, Dual Output, Off-line Converter
NCP1014: 8 W, 3-Output Off-Line Switcher
NCP1014: 10 W, 3-Output Off-line Power Supply
NCP1014: 5 W, CCCV Cell Phone Battery Charger
NCP1014: 8 W Off-Line Non-Isolated Buck Regulator
NCP1012: 3.6 W Auxiliary Power Supply for Appliances / White Goods
NCP1012: 3.6 W Auxiliary Power Supply for Appliances / White Goods
NCP1011: Efficient, Low Cost, Low Standby Power (<100 mW), 2.5 W CCCV Charger
NCP1014: 10W, Dual Output Power Supply
NCP1013: Universal Input, 5 W, LED Ballast
NCP1014: Universal Input, +/- 12 V Output, 8 Watt Power Supply
NCP1014: Low Power, Off-Line Buck, CVCC Power Supply
NCP1014: Improving the Power Factor of Isolated Flyback Converters for Residential ENERGY STAR® LED Luminaire Power Supplies
NCP1014: 5 V, 400 mA Current Boosted Buck Converter
NCP1014: 12 Watt Mini Boost Power Factor Corrector for LED applications
NCP104, NSI45025:Universal Off-Line LED String Driver with PFC NCP1014: Low Power, Off-Line, Constant Voltage Non-Isolated Power Supply
NCP1012 SMPS Switcher Evaluation Board
8 W Offline LED Driver Intended for ENERGY STAR® Residential LED Luminaire Applications
Non-isolated Positive Output Buck AC/DC Converter
5 W CCCV AC-DC Adapter GreenPoint® Reference Design
Offline LED Driver Intended for ENERGY STAR® Residential LED Luminaire Appss - GreenPoint® Ref Design
NCP1027 Design Worksheet
A 5 V/2 A Standby Power Supply for INTEL Compliant ATX Applications
8 W DVD Power Supply with NCP1027
Increasing the Efficiency of Low Power Converters with Resonant Snubbers
Understanding Loop Compensation with Monolithic Switchers
NCP1027 5.0 V/2.0 A Standby ATX Power Supply Evaluation Board
NCP1028 720 mA, 18 V LED Driver
NCP1027: 1 A, 12 W Constant Current Off-Line LED Driver
NCP1027: 10 W, 24 V / 5 V Off-Line Power Supply
NCP1027: 16 W, 12 Vdc Modem Power Supply
300 W, 80 PLUS Compliant ATX Reference Design Documentation Package
220 W LCD TV Power Supply Reference Design Featuring NCP1396 and NCP1605 Documentation
220 W LCD TV Power Supply Reference Design Featuring NCP1395 and NCP1653 Documentation
16 W xDSL Modem AC-DC Adapter Reference Design
NCP1055 5.0 V / 2.0 A Flyback Converter Evaluation Board
5.0 V, 2.0 A Flyback Converter
Low-Cost 100 mA High-Voltage Buck and Buck-Boost Using NCP1052
NCP1055: Simple, 3 W, Non-isolated Bias Supply
NCP1055: 7 W, non-isolated buck ac-dc converter
NCP105x Design Worksheet
Power Supply & Power Adapter Solutions
Supporting Materials — AC-DC Controllers and Regulators
Device
NCP1200
NCP1203
NCP1216/16A
NCP1217/17A
NCP1230
NCP1234/6
NCP1250/1
NCP1271
NCP1562
NCP1207A/B
NCP1219
NCP1237/38/88
NCP1252
NCP1271
Type
Designator
Design Tool
Design Tool
Evaluation Board
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Design Tool
Design Tool
Evaluation Board
Evaluation Board
Evaluation Board
Application Note
Design Note
Design Note
Design Note
Design Note
Design Note
Design Tool
Evaluation Board
Application Note
Design Note
Application Note
Application Note
Application Note
Application Note
Application Note
Design Tool
Evaluation Board
Application Note
Design Tool
Evaluation Board
Application Note
Reference Design
Reference Design
Design Tool
Design Tool
Evaluation Board
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Application Note
Evaluation Board
Application Note
Application Note
Evaluation Board
Application Note
Design Note
—
EBNCP1200/D
NCP1200ADAPEVB
AND8076/D
AND8078/D
AND8032/D
AND8042/D
AND8023/D
AND8038/D
AND8029/D
AND8069/D
—
EBNCP1200/D
NCP1203GEVB
NCP1216AFORWEVB
NCP1216LEDGEVB
AND8161/D
DN06049/D
DN06050/D
DN06010/D
DN06024/D
DN06038/D
—
NCP1230GEVB
AND8154/D
DN06074/D
AND8486/D
AND8468/D
AND8453/D
AND8469/D
AND8488/D
—
NCP1271ADAPGEVB
AND8242/D
—
NCP1562-100WEVBG
AND8273/D
TND313/D
TND331/D
QR IND CALC
QR DESIGN AID
NCP1207AADAPGEVB
AND8129/D
AND8145/D
AND8112/D
AND8089/D
AND8252/D
AND8127/D
AND8187/D
NCP1219PRINTGEVB
AND8393/D
AND8454/D
NCP1252TSFWDGEVB
AND8373/D
DN06058/D
ON Semiconductor
Description
NCP1200 Design Worksheet
NCP1200 Design Worksheet Instructions
NCP1200 10 W Adapter Evaluation Board
A 70 W Low Standby Power Supply w/NCP120x Series
A Simple Low-Cost Non-Isolated Universal Input Off-Line Converter
Conducted EMI Filter Design for the NCP1200
Implementing Constant Current Constant Voltage AC Adapter by NCP1200 and NCP4300A
Implementing the NCP1200 in Low-Cost AC/DC Converters
Implementing the NCP1200 in a 10 W AC/DC Wall Adapter
Ramp Compensation for the NCP1200
Tips and Tricks to Build Efficient Circuits with NCP1200
NCP1200 Design Worksheet
NCP1200 Design Worksheet Instructions
NCP1203 70 W 19 V/3.6 A Adapter Evaluation Board
NCP1216A 35 W Forward DC-DC Converter Evaluation Board
NCP1216 Non Isolated Buck LED Driver
Implementing a DC/DC Single-Ended Forward Converter with the NCP1216A
NCP1216: 24 V, Off-line Flyback Converter for Motor and Solenoid Applications
NCP1216: 7 W, 90-135 Vac, 500 mA LED Driver
NCP1217: 200 W, single output power supply
NCP1217: Universal AV 40 W Programmable Output
NCP1217: 18 to 24 V, 85 W, Off-line PSU with Short Term, High Surge Current Capability
NCP1230 Design Worksheet
NCP1230 90 Watt, Universal Input Adapter Power Supply Evaluation Board
NCP1230 Applications Note
NCP1236: 65 W Offline Adapter
A 12 V/40 W Demonstrator with NCP1250
A 60 W AC-DC Demonstrator with NCP1250
Loop Control Design of an AC-DC Adapter Using the NCP1250
The NCP1250, A Versitile, Tiny Controller for Offline Converters
Tips and Tricks for NCP1250
NCP1271 Design Worksheet
NCP1271 57 W Adapter Evaluation Board
19 V, 3 A, Universal Input AC-DC Adaptor Using NCP1271
NCP1562 Design Worksheet
NCP1562 100 W 48 V DC-DC Converter Evaluation Board
Design of Active Clamp Forward of DC-DC Converter using NCP1562
300 W, 80 PLUS Compliant ATX Reference Design Documentation Package
200 W Game Console AC-DC Adapter Reference Design
Spreadsheet to calculate QR power supplies inductor’s value
Spreadsheet to help in the design of a QR power supply
NCP1207A 24 W 12 V/2 A Adapter Synchronous Rectification Evaluation Board
A 30 W Power Supply Operating in A Quasi-Square Wave Resonant Mode
A 75 W TV Power Supply Operating in Quasi-square Wave Resonant Mode Using NCP1207 Controller
A Quasi-Resonant SPICE Model Eases Feedback Loop Designs
Determining the Free-Running Frequency for QR Systems
High Efficiency 8 Output, 60 W Set Top Box Power Supply Design
Implementing NCP1207 in QR 24 W AC-DC Converter with Synchronous Rectifier
Synchronizing NCP1207 (NCP1377/B, NCP1378)
48 W, 24 V/7.5 V Universal Input AC-DC Printer Adapter Using the NCP1219
48 W, 24 V/7.5 V Universal Input AC-DC Printer Adapter Using the NCP1219
32 W, 32 V Universal Input AC-DC Printer Adapter Using the NCP1237
NCP1252 2 Switch forward converter
2 Switch forward Current Mode converter with the NCP1252
NCP1271: Ultra-Wide Input Range Bias Power Supply
Page 11
Supporting Materials — AC-DC Controllers and Regulators
Device
NCP1308
NCP1337
NCP1338
NCP1351
NCP1377
NCP1379/80
NCP1381/82
NCP1395
NCP1396
NCP1397
Page 12
Type
Designator
Design Tool
Design Tool
Application Note
Application Note
Application Note
Application Note
Reference Design
Reference Design
Design Note
Design Note
Design Tool
Design Tool
Evaluation Board
Application Note
Application Note
Application Note
Application Note
Reference Design
Reference Design
Design Tool
Reference Design
Reference Design
Design Tool
Evaluation Board
Evaluation Board
Evaluation Board
Application Note
Application Note
Application Note
Application Note
Reference Design
Design Note
Design Tool
Design Tool
Application Note
Application Note
Application Note
Evaluation Board
Design Tool
Design Tool
Evaluation Board
Application Note
Application Note
Application Note
Application Note
Design Tool
Evaluation Board
Application Note
Application Note
Reference Design
Design Tool
Application Note
Application Note
Reference Design
Reference Design
Application Note
Application Note
Application Note
QR IND CALC
QR DESIGN AID
AND8129/D
AND8145/D
AND8112/D
AND8089/D
TND334/D
TND332/D
DN06008/D
DN06014/D
QR IND CALC
QR DESIGN AID
NCP1337ADAPGEVB
AND8246/D
AND8112/D
AND8266/D
AND8089/D
TND315/D
TND318/D
—
TND315/D
TND318/D
—
NCP1351ADAPGEVB
NCP1351PRINTGEVB
NCP1351LEDGEVB
AND8278/D
AND8263/D
AND8280/D
AND8288/D
TND320/D
DN06040/D
QR IND CALC
QR DESIGN AID
AND8112/D
AND8089/D
AND8431/D
NCP1380EVB
QR IND CALC
QR DESIGN AID
NCP1381ADAPEVB
AND8112/D
AND8089/D
AND8240/D
AND8260/D
—
NCP1395LLCGEVB
AND8255/D
AND8257/D
TND321/D
—
AND8255/D
AND8293/D
TND316/D
TND359/D
AND8311/D
AND8311/D
AND8255/D
Description
Spreadsheet to calculate QR power supplies inductor’s value
Spreadsheet to help in the design of a QR power supply
30 W Power Supply Operating in A Quasi-Square Wave Resonant Mode
A 75 W TV Power Supply Operating in Quasi-square Wave Resonant Mode Using NCP1207 Controller
A Quasi-Resonant SPICE Model Eases Feedback Loop Designs
Determining the Free-Running Frequency for QR Systems
50 W STB Power Supply Reference Design
8 W DTA Power Supply Reference Design
NCP1308: +/- 18 V Dual Output Power Supply
NCP1308: 170 Vdc output, quasi-resonant power supply
Spreadsheet to calculate QR power supplies inductor’s value
Spreadsheet to help in the design of a QR power supply
NCP1337 60W 12V/5A Adapter Evaluation Board
A 160 W CRT TV Power Supply Using NCP1337
A Quasi-Resonant SPICE Model Eases Feedback Loop Designs
Designing NCP1337
Determining the Free-Running Frequency for QR Systems
160 W CRT TV Power Supply Reference Design Documentation
60 W Adapter Reference Design Documentation
NCP1338 QR Power Supply Design Worksheet (Simple & Complex)
160 W CRT TV Power Supply Reference Design
60 W Monitor AC-DC Adapter Reference Design
NCP1351 Design Worksheet
NCP1351 57 W Adapter Evaluation Board
NCP1351 40 W Printer Evaluation Board
Universal Input 20 W LED Ballast
NCP1351 Evaluation Board Printer Power Supply
NCP1351 Evaluation Board, 19 V - 3 A Adaptor
NCP1351 Modeling Using the PWM Switch Technique
NCP1351 Evaluation Board, a 12 V / 2 A Full DCM Adapter
40 W Printer Power Supply Reference Design Documentation
NCP1351: Universal Input, 20 W, LED Ballast
Spreadsheet to calculate QR power supplies inductor’s value
Spreadsheet to help in the design of a QR power supply
A Quasi-Resonant SPICE Model Eases Feedback Loop Designs
Determining the Free-Running Frequency for QR Systems
Designing a Quasi-Resonant Adapter Driven by the NCP1380
Performances of a Quasi-Resonant Adapter Driven by the NCP1380
Spreadsheet to calculate QR power supplies inductor’s value
Spreadsheet to help in the design of a QR power supply
NCP1381 120 W Adapter Evaluation Board
A Quasi-Resonant SPICE Model Eases Feedback Loop Designs
Determining the Free-Running Frequency for QR Systems
Designing NCP1381 in High Power AC-DC Adapters
NCP1381 Demonstration Board: 120 W Notebook Adapter
NCP1395 Design Worksheet
NCP1395 240 W LLC Evaluation Board
A Simple DC SPICE Model for the LLC Converter
Implementing a Medium Power AC-DC Converter with the NCP1395
220 W LCD TV Power Supply Reference Design Featuring NCP1395 and NCP1653 Documentation
NCP1396 Design Worksheet
A Simple DC SPICE Model for the LLC Converter
Implementing an LCD TV Power Supply with NCP1396A, NCP1605, and NCP1027
220 W LCD TV Power Supply Reference Design Featuring NCP1396 and NCP1605 Documentation
255 W, 80 PLUS® Silver Certified ATX Power Supply GreenPoint® Reference Design
Understanding the LLC Structure in Resonant Applications
Understanding the LLC Structure in Resonant Applications
A Simple DC SPICE Model for the LLC Converter
Power Supply & Power Adapter Solutions
DC-DC Controllers and Regulators
100
95
Features
90
EFFICIENCY (%)
•Integrated switching regulators from 0.5 A to 10 A
•Various topologies including buck, boost, buck/boost,
and inverting
•Wide input voltage range up to 200 V
•PWM controllers capable of driving up to 30 A VIN = 5.0 V
85
VIN = 12 V
80
75
70
65
60
55
50
0
1
2
3
4
5
6
7
OUTPUT CURRENT (A)
8
9
10
DC-DC Regulators
Vin (V)
Min
Max
Topology
Frequency
(kHz)
LM2574
4.75
40
Buck
52
0.5
D2PAK, TO-220
LM2594
4.75
40
Buck
150
0.5
SOIC-8, PDIP-8
LM2575
4.75
40
Buck
52
1.0
D2PAK, TO-220
LM2595
4.75
40
Buck
150
1.0
D2PAK, TO-220
NCP1030/31
10
200
Buck, Boost
300
0.5 / 1.0
Micro8
CS51411/2/3/4
Device
Output Current
(A)
Package
4.5
40
Buck
260
1.5
SOIC-8, DFN-18
NCP3063
3
40
Buck, Boost, Inverting, Buck/Boost
up to 250
1.5
DFN-8, SOIC-8, PDIP-8
NCP3064
3
40
Buck, Boost, Inverting, Buck/Boost
up to 250
1.5
DFN-8, SOIC-8, PDIP-8
NCP3065
3
40
Buck, Boost, Inverting, Buck/Boost
up to 250
1.5
DFN-8, SOIC-8, PDIP-8
NCP3066
3
40
Buck, Boost, Inverting, Buck/Boost
up to 250
1.5
DFN-8, SOIC-8, PDIP-8
MC34063A
3
40
Buck, Boost, Inverting, Buck/Boost
up to 100
1.5
DFN-8, SOIC-8, PDIP-8
NCP1595
4
5.5
Buck
1200
1.5
DFN-6
CS5171/2/3/4
2.7
30
Boost
280/560
1.5
SOIC-8
NCP1597
4
5.5
Buck
1200
2.0
DFN-6
NCP1599
2.7
5.5
Buck
1200
3.0
DFN-6, DFN-10
NCP3155
4.7
24
Buck
500 / 1000
3.0
SOIC-8
NCP3170
4.5
18
Buck
500 / 1000
3.0
SOIC-8
MC34166
7.5
40
Step-up/Step-down
72
3.0
D2PAK, TO-220
LM2576
4.75
40
Buck
52
3.0
D2PAK, TO-220
LM2596
4.75
40
Buck
150
3.0
D2PAK, TO-220
MC34163
2.5
40
Buck, Boost, Inverting, Buck/Boost
up to 100
3.4
SOIC-16, PDIP-16
NCV33163
2.5
60
Buck, Boost, Inverting, Buck/Boost
up to 100
3.4
SOIC-16, PDIP-17
NCP3163
2.5
40
Buck, Boost, Inverting, Buck/Boost
up to 300
3.4
SOIC-16WB, DFN-18
MC34167
7
40
PWM Step-down
72
5.0
D2PAK, TO-220
NCP3101C
2.7
18
Buck
275
6.0
QFN-40
NCP3102C
2.7
18
Buck
275
10.0
QFN-40
ON Semiconductor
Page 13
DC-DC Controllers
Vin (V)
Device
Min
Max
Isolated
Frequency
(kHz)
Control
Mode
Package
CS5124
7.7
75
Yes
400
Current
SOIC-8
CS51022
3.3
72
Yes
200 - 1000
Current
SOIC-16, TSSOP-16
CS51031
4.5
16
No
200 - 700
Hysteretic
SOIC-8
CS51221
3.3
72
Yes
200 - 1000
Voltage
SOIC-16, TSSOP-16
NCP1034
8
100
No
25 to 500
Voltage
SOIC-16
NCP1216A
10
500
Yes
65, 100, 133
Current
SOIC-8, PDIP-7
NCP1217A
10
500
Yes
65, 100, 133
Current
SOIC-8, PDIP-7
NCP1294
3.3
72
Yes
200 - 1000
Voltage
SOIC-16, TSSOP-16
NCP1587
4.5
13.2
No
275
Voltage
SOIC-8
NCP1589
4.5
13.2
No
300/600
Hysteretic
SOIC-8
NCP3011
4.5
28
No
400
Voltage
TSSOP-14
NCP3020A/B
4.5
28
No
300/600
Voltage
SOIC-8
NCP3030
4.7
28
No
1200/2400
Voltage
SOIC-8
NCP5424
10.8
13.2
No
150 - 600
Voltage
SOIC-16
SG3525
8
35
No
100 - 400
Voltage
SOIC-16, PDIP-16
TL494
7
40
No
40 - 200
Voltage
SOIC-16, PDIP-16
TL594
7
40
No
40 - 300
Voltage
SOIC-16, PDIP-16, TSSOP-16
Supporting Materials — DC-DC Controllers and Regulators
Device
NCP1030/31
MC34063A
CS5171
NCP3020
NCP3030
NCP3063
Page 14
Type
Designator
Design Tool
Evaluation Board
Evaluation Board
Design Note
Application Note
Application Note
Design Tool
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Application Note
Design Note
Design Note
Evaluation Board
Design Note
Design Note
Design Tool
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
—
NCP1030EVB
NCP1031POEEVB
DN06007/D
AND8119/D
AND8247/D
—
MC34063LBBEVB
MC34063LBEVB
MC34063LBKEVB
MC34063LINVEVB
MC34063SMDBBEVB
MC34063SMDBEVB
MC34063SMDBKEVB
MC34063SMDINVEVB
AN920/D
DN06004/D
DN06022/D
NCP3020AGEVB
DN06073/D
DN06071/D
—
NCP3063BSTEXGEVB
NCP3063DIPBCKEVB
NCP3063DIPBSTEVB
NCP3063DIPINVEVB
Description
NCP1030/31 Design Tool for Isolated Output Flyback Topology
NCP1030 2 W POE DC-DC Converter Evaluation Board
NCP1031 6.5 W POE DC-DC Converter Evaluation Board
NCP1031: Wide Input Range (20 Vdc to 140 Vdc) DC to DC Converter
Design of an Isolated 2 W Bias Supply for Telecom Systems Using the NCP1030
Application Note for a 5.0 W to 6.5 W Power Over Ethernet (PoE) DC-DC Converter
MC34063A Evaluation Circuit Simulation
MC34063A up-to 100kHz, 40 V/1.5 A Leaded Buck-Boost Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A Leaded Boost Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A Leaded Buck Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A Leaded Voltage Inverting Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A SMD Buck-Boost Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A SMD Boost Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A SMD Buck Regulator Evaluation Board
MC34063A up-to 100kHz, 40 V/1.5 A SMD Voltage Inverting Regulator Evaluation Board
Theory and Applications of the MC34063 and µA78S40 Switching Regulator Circuits
CS5171: SEPIC LED Driver
CS5171: Tracking boost regulator
NCP3020A Evaluation Board
NCP3020: 300 kHz/21 V - 26 V/5 A DC-DC Buck PWM Controller + MOSFET
NCP3030: 2.4 MHz/9 V - 16 Vin/9 A
NCP3063 Design Tool
ROHS BST DEMO BD EXT FET
NCP3063 Leaded Buck Regulator Evaluation Board
NCP3063 Leaded Boost Regulator Evaluation Board
NCP3063 Leaded Voltage Inverting Evaluation Board
Power Supply & Power Adapter Solutions
Supporting Materials — DC-DC Controllers and Regulators
Device
NCP3063
NCP3163
NCP5424
TL494
NCP1216A
NCP3065
NCP1034
NCP3064
NCP3066
ON Semiconductor
Type
Designator
Description
Evaluation Board
Evaluation Board
Evaluation Board
Design Note
Design Note
Design Note
Design Note
Design Note
Application Note
Application Note
Application Note
Application Note
NCP3063SMDBCKEVB
NCP3063SMDBSTEVB
NCP3063SMDINVEVB
DN06042/D
DN06043/D
DN06015/D
DN06016/D
DN06001/D
AND8305/D
AND8306/D
AND8289/D
AND8291/D
Application Note
AND8284/D
Application Note
Design Tool
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Application Note
Evaluation Board
Application Note
Design Tool
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Design Note
Design Note
Design Note
Application Note
Design Tool
Evaluation Board
Design Note
Design Note
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
Design Tool
Design Note
Evaluation Board
Evaluation Board
Evaluation Board
Evaluation Board
AN920/D
NCP3063 Surface Mount Buck Regulator Evaluation Board
NCP3063 Surface Mount Boost Regulator Evaluation Board
NCP3063 Surface Mount Voltage Inverting Evaluation Board
NCP3063: Cigarette Lighter Adapter (CLA)
NCP3063: USB to 6 V 0.3 A USB Charger
NCP3063: +12 V to -12 V Buck-Boost Inverter
NCP3063: 24 V to 12 V Buck (w/ Duty Cycle Control)
NCP3063: 9 V to 36 Vin dc, Constant Current LED Driver
350 mA Buck Boost LED Driver using Bipolar Junction Transistors
Buck Boost LED Driver using NCP3063 Controller, FETs & Current Sensing
LED Driving with NCP/V3063
>85% Efficient 12 to 5 VDC Buck Converter
Improving Output Voltage Ripple of the NCP3063 Series of Switching Regulators by Applying a Simple Feedforward Technique
Theory and Applications of the MC34063 and µA78S40 Switching Regulator Circuits
NCP3163 Excel Design Tool
NCP3163 24 V/700 mA DC-DC Converter Evaluation Board
NCP3163 5 V/3 A DC-DC Converter Evaluation Board
NCP3163 -15 V/ 500 mA Voltage Inverting Evaluation Board
NCP5424EVB Dual Synchronous Buck Controller with Current Sharing Evaluation Board
A Simplified Power Supply Design Using the TL494 Control Circuit
NCP1216A 35 W Forward DC-DC Converter Evaluation Board
Implementing a DC/DC Single-Ended Forward Converter with the NCP1216A
NCP3065 Design Tool
NCP3065 Buck 3A Evaluation Board
SEPIC LED DRV MR16BULB
SEPIC LED DRV 350MA
SEPIC LED DRV 700MA
NCP3065 BUCK DEMO BD
NCP3065 BOOST DEMO BD
NCP3065: 12Vac or 12Vdc MR-16 Sharp ZENIGATA LED Module
NCP3065: High Brightness LED SEPIC Driver
NCP3065: SEPIC LED Driver for MR16
High Intensity LED Drivers Using NCP3065/NCV3065
NCP1034 Design Tool
48/5V 5A Synchronous Buck Power Supply
NCP1034: 48 V to 5 V Buck Converter
NCP1034: High Voltage Driver for HB-LED
NCP3064 DFN8 BUCK DB
NCP3064 PDIP8 BUCK DB
NCP3064 3A SOIC BUCK DB
NCP3064 SOIC8 BUCK DB
NCP3066 Design Tool
NCP3066, MC33340: Switching Charger for Rechargeable NiCd and NiMH Batteries
NCP3066 DFN SEPIC DB
NCP3066 3A SOIC BUCK DB
NCP3066 SOIC8 BUCK DB
NCP3066 SOIC8 BOOST DB
NCP3163BSTEVB
NCP3163BUCKEVB
NCP3163INVEVB
NCP5424EVB
AN983/D
NCP1216AFORWEVB
AND8161/D
NCP30653ABCKGEVB
NCP3065D1SLDGEVB
NCP3065D2SLDGEVB
NCP3065D3SLDGEVB
NCP3065SOBCKGEVB
NCP3065SOBSTGEVB
DN06048/D
DN06031/D
DN06033/D
AND8298/D
NCP1034BCK5VGEVB
DN06041/D
DN06047/D
NCP3064DFBCKGEVB
NCP3064PDBCKGEVB
NCP3064S3BCKGEVB
NCP3064SCBCKGEVB
DN06044/D
NCP3066DFSEPGEVB
NCP3066S3BCKGEVB
NCP3066SCBCKGEVB
NCP3066SCBSTGEVB
Page 15
Linear Voltage Regulators
VDO, DROPOUT VOLTAGE (mV)
500
Features
•Dropout voltages as low as 40 mV
•Output currents ranging from 80 mA to 3 A
•Power Supply Rejection Ratios as high as 90 dB
•Ultra-fast transient response of less than 1 ms
•Ultra-low Iq and Ignd of 2.5 mA
450
IOUT = 1.0 A,
CIN = COUT = 10 F
VOUT = 1.25 V
400
VOUT = 1.5 V
350
VOUT = 1.8 V
300
VOUT = 2.5 V
250
200
VOUT = 3.3 V
150
VOUT = 5.0 V
100
−40
−15
10
35
60
85
110
135
TA, AMBIENT TEMPERATURE (°C)
NCP690 Dropout Voltage vs. Temperature
Linear Voltage Regulators
Device
Channels
Iout
Vout (V)
Dropout
Package
NCP5667
Single
3.0 A
5.0
1.0 V
D2PAK
NCP5663
Single
3.0 A
Adj., 1.5, 1.8
1.0 V
D2PAK
NCP5662
Single
2.0 A
Adj., 1.2, 1.5, 1.8, 2.5, 2.8, 3.0, 3.3
1.0 V
D2PAK, DFN-8
NCP566
Single
1.5 A
1.2, 1.8, 2.5
900 mV
SOT-223
NCP565
Single
1.5 A
Adj., 1.2, 1.5, 2.8, 3.0, 3.3
900 mV
SOT-223, DFN-6, D2PAK
NCP5661
Single
1.0 A
Adj., 1.2, 1.5, 1.8, 2.5, 2.8, 3.0, 3.3
1.0 V
DPAK, DFN-6
NCP694
Single
1.0 A
0.8, 1.0, 1.2, 2.5, 3.3
100 mV
SOT-89, HSON-6
NCP693
Single
1.0 A
0.8, 1.0, 1.2, 2.5, 3.3
170 mV
DFN-6
NCP690/1/2
Single
1.0 A
Adj., 1.5, 1.8, 2.5, 3.3, 5.0
190 mV
DFN-6
NCP5501
Single
500 mA
1.5, 5.0
300 mV
DPAK
NCP5500
Single
500 mA
Adj., 1.5, 5.0
300 mV
DPAK
NCP3335A
Single
500 mA
Adj., 1.5, 1.8, 2.5, 2.8, 2.85, 3.0, 3.3, 5.0
340 mV
Micro8, DFN-10
NCP3334
Single
500 mA
Adj.
340 mV
SO-8
NCP606
Single
500 mA
Adj., 1.5, 1.8, 2.5, 2.8, 3.0, 3.3, 3.5
145 mV
DFN-6
NCP605
Single
500 mA
Adj., 1.5, 1.8, 2.5, 2.8, 3.0, 3.3, 5.0
145 mV
DFN-6
NCP603
Single
300 mA
Adj., 1.3, 1.5, 1.8, 2.5, 2.8, 3.3, 5.0
157 mV
TSOP-5
MC33375
Single
300 mA
1.8, 2.5, 3.0, 3.3, 5.0
260 mV
SOT-223, SO-8
NCP699
Single
150 mA
1.5, 1.8, 2.5, 2.8, 3.0, 3.3, 5.0
320 mV
TSOP-5
NCP698
Single
150 mA
1.3, 1.5, 1.8, 2.5, 2.8, 3.3, 3.5, 5.0
370 mV
SC82AB-4
NCP623
Single
150 mA
2.5, 2.8, 3.0, 3.3, 4.0, 5.0
180 mV
Micro8, DFN-6
NCP600
Single
150 mA
Adj., 1.5, 1.8, 2.5, 2.8, 3.0, 3.3, 3.5, 5.0
75 mV
TSOP-5
NCP571
Single
150 mA
0.8, 0.9, 1.0, 1.2
450 mV
TSOP-5
SO-8, DIP-8, Micro8
LP2951
Single
100 mA
Adj., 3.0, 3.3, 5.0
350 mV
LP2950
Single
100 mA
3.0, 3.3, 5.0
350 mV
TO-92, DPAK
LM2931
Single
100 mA
Adj., 5.0
160 mV
SO-8, TO-92, TO-220, DPAK, D2PAK
NCP508
Single
50 mA
1.5, 1.8, 2.5, 2.8, 3.0, 3.3
155 mV
SC-70-5
Page 16
Power Supply & Power Adapter Solutions
MOSFETs for Power Conversion
ORing MOSFETs
Features
=
•Low RDS(on) for low conduction loss
•30 V for IM bus ORing
•100 V for 48 V bus ORing
MOSFETs as ORing Diodes
Device
NTMFS4933N
NTMFS4897NF
NTMFS4934N
NTMFS4833N
NTMFS4852N
NTP6410AN
NTP6411AN
Configuration
Polarity
VDS
(V)
VGS
(V)
Single
Int. Schottky
Single
Single
Single
Single
Single
N
N
N
N
N
N
N
30
30
30
30
30
100
100
20
20
20
20
20
20
20
RDS(ON) mΩ
VGS = 10V VGS = 4.5V
Typ
Typ
0.9
1.3
1.5
1.3
1.6
11
12.7
1.5
2.0
2.2
2.3
2.4
—
—
Qg
(nC)
Qgd
(nC)
RG
(Ω)
Package
62.1
40.2
34
39
34.3
120
100
10.1
13.4
8.1
17
11.3
57
47
1.1
0.7
0.6
1.0
1.0
2.4
3.1
SO8-FL
SO8-FL
SO8-FL
SO8-FL
SO8-FL
TO-220, D2PAK
TO-220, D2PAK
Isolated Topology DC-DC (Bricks)
Features
•Low RDS(on) for low conduction loss
•Integrated Schottky for low diode loss
•Thermally enhanced SO-8 FL for applications requiring heatsinking
Device
NTMFS4897NF
NTMFS4898NF
NTMFS4899NF
NTMFS4934N
NTMFS4833N
NTMFS4852N
NTMFS4935N
NTMFS4825NFE
NTMFS4922NE*
NTMFS4923NE
NTTFS4932N
NTTFS4937N
NTTFS5820NL
NTMFS5844NL
NTTFS5826NL
Configuration Polarity
VDS
(V)
VGS
(V)
Int. Schottky
Int. Schottky
Int. Schottky
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
30
30
30
30
30
30
30
30
30
30
30
30
60
60
60
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
Forward
Flyback
Push Pull
Half Bridge
Full Bridge
48 V
RDS(ON) mΩ
VGS = 10V VGS = 4.5V
Typ
Typ
1.3
2.2
3.9
1.5
1.3
1.6
2.7
1.3
1.5
2.7
2.5
3.4
10.1
10.2
19
2.0
3.4
6.0
2.2
2.3
2.4
3.7
2.0
2.2
3.7
3.6
4.9
13
13
25
Vout
Qg
(nC)
Qgd
(nC)
Ciss
(pF)
Cjss
(pF)
RG
(Ω)
40.2
25
12.2
34
39
34.3
22
40.2
34
22.9
20
15.7
28
20
16
13.4
8.6
4.6
8.1
17
11.3
3.0
13.4
8.1
3.8
3.3
1.9
8.0
8.0
3.9
5660
3233
1600
5505
5600
4970
3579
5660
5505
3579
3111
2540
1462
1460
850
495
310
165
90
650
427
39
495
90
39
42
26
96
96
50
0.7
1.4
1.5
1.6
1.0
1.0
1.1
0.7
0.6
1.1
1.1
1.1
0.6
0.6
1.5
Application
Package
SO8-FL
Secondary
Synchronous
Thermally
Enhanced SO8-FL
m8-FL
Primary
SO8-FL
m8-FL
* Pending 2011.
ON Semiconductor
Page 17
MOSFETs for Power Conversion
Non-Isolated Topology “Buck” DC-DC
Control
Features
•Low RDS(on) for low conduction loss
•Integrated Schottky for enhanced light load efficiency
•Thermally enhanced SO-8 FL for applications requiring
heatsinking
Device
NTMFS4897NF
NTMFS4898NF
NTMFS4899NF
NTMFS4934N
NTMFS4833N
NTMFS4852N
NTMFS4935N
NTMFS4936N
NTMFS4937N
NTMFS4939N
NTMFS4925N
NTMFS4921N
NTMFS4926N
NTMFS4927N
NTMFS4825NFE
NTMFS4922NE*
NTMFS4923NE
NTMFS4826NE
NTMFS4925NE*
NTMFS4926NE*
NTTFS4932N
NTTFS4937N
NTTFS4939N
NTTFS4941N
NTTFS4928N
NTTFS4929N
NTTFS4930N
Configuration Polarity
Int. Schottky
Int. Schottky
Int. Schottky
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
Single
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
N
VDS
(V)
VGS
(V)
30
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
20
RDS(ON) mΩ
VGS = 10V VGS = 4.5V
Typ
Typ
1.3
2.2
3.9
1.5
1.3
1.6
2.7
2.9
3.5
4.1
4
5.3
4.8
5.4
1.3
1.5
2.7
4.3
4.8
5.4
2.5
3.4
4.1
4.8
5.7
8.8
15
2
3.4
6
2.2
2.3
2.4
3.7
3.9
5
6
6.4
8.6
7.8
8.9
2
2.2
3.7
6.6
7.8
8.9
3.6
4.9
6
7
9.2
12.7
22.7
Vin
Cin
Sync
PWM
Controller
Cout
Qg
(nC)
Qgd
(nC)
Ciss
(pF)
Cjss
(pF)
RG
(Ω)
Application
40.2
25
12.2
34
39
34.3
22
19
15.9
12.8
11.3
10.7
8.5
8.3
40.2
34
22.9
20
8.5
8.3
20
15.7
12.4
10.1
8.3
13
4.6
13.4
8.6
4.6
8.1
17
11.3
3
2.4
2.2
2.5
2.5
2.5
2.5
2.5
13.4
8.1
3.8
4.5
2.5
2.5
3.3
1.9
1.8
1.3
3.3
4
2.3
5660
3233
1600
5505
5600
4970
3579
3044
2516
1954
1325
1400
1058
969
5660
5505
3579
1850
1058
969
3111
2540
1979
1619
969
920
476
495
310
165
90
650
427
39
39
25
27
158
136
126
115
495
90
39
170
126
115
42
26
20.2
18
115
175
91
0.7
1.4
1.5
0.6
1
1
1.1
1
1.1
1.1
0.8
1.1
0.9
0.9
0.7
0.6
1.1
0.9
0.9
0.9
1.1
1.1
1.1
0.7
0.9
0.6
0.6
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Control Side
Control Side
Control Side
Control Side
Synchronous Side
Synchronous Side
Synchronous Side
Control Side
Control Side
Control Side
Synchronous Side
Synchronous Side
Synchronous Side
Synchronous Side
Control Side
Control Side
Control Side
Vout
Package
SO8-FL
Thermally
Enhanced
SO8-FL
m8-FL
* Pending 2011.
Page 18
Power Supply & Power Adapter Solutions
MOSFETs for Power Conversion
PFC Switch
Primary Side Switch
Sync FETs
85 to
265 Vac
Control
PFC
Controller
PWM
Isolation
Control
PFC Switch and Primary Side Switch MOSFETs
Device
VDS
(V)
ID
(A)
VGS
(V)
Max RDS(on) @ 50% ID
(mΩ)
Qg Typ
(nC)
Package
NDF10N62ZG
620
10
30
NDF06N62ZG
620
6
30
0.75
47
TO-220FP
1.2
31
TO-220FP
NDF04N62ZG
620
4
30
2
19
TO-220FP
NDF10N60ZG
600
10
30
0.75
47
TO-220FP
NDF08N60ZG
NDF06N60ZG
600
8
30
0.95
39
TO-220FP
600
6
30
1.2
31
TO-220FP
NDF04N60ZG
600
4
30
2
19
TO-220FP
NDD04N60ZT4G
600
4
30
2
19
DPAK
NDD04N60Z-1G
600
4
30
2
19
IPAK
NDF03N60ZG
600
3
30
3.6
12
TO-220FP
NDD03N60ZT4G
600
3
30
3.6
12
DPAK
NDD03N60Z-1G
600
3
30
3.6
12
IPAK
NDF02N60ZG
600
2
30
4.8
10.1
TO-220FP
NDD02N60ZT4G
600
2
30
4.8
10.1
DPAK
NDD02N60Z-1G
600
2
30
4.8
10.1
IPAK
NDF11N50ZG
500
11
30
0.52
46
TO-220FP
NDF08N50ZG
500
8
30
0.85
31
TO-220FP
NDF05N50ZG
500
5
30
1.5
18.5
TO-220FP
NDD05N50ZT4G
500
5
30
1.5
18.5
DPAK
NDD05N50Z-1G
500
5
30
1.5
18.5
IPAK
NDD04N50ZT4G
500
4
30
2.7
12
DPAK
NDD04N50Z-1G
500
4
30
2.7
12
IPAK
NDD03N50ZT4G
500
3
30
3.3
10
DPAK
NDD03N50Z-1G
500
3
30
3.3
10
IPAK
ON Semiconductor
Page 19
MOSFETs for Power Conversion
Synchronous Rectification MOSFETs
VDS
(V)
Device
ID
(A)
VGS
(V)
Max RDS(on) @ 50% ID
(mΩ)
Qg Typ
(nC)
Package
NTD5862N
60
90
20
5.7
82
DPAK
NTD5865N
60
38
20
18
23
DPAK
NTMFS5844NL
60
60
20
12
30
SO-8 FL
NTMFS5832NL
40
110
20
4.2
53
SO-8 FL
NTMFS5834NL
40
74
20
9.3
24
SO-8 FL
MOSFET Drivers
Features
•Drives high voltage power MOSFETs and IGBTs,
provides two outputs
•Suitable for multiple topologies like half-bridge,
asymmetrical half-bridge, active clamp, full bridge
•High voltage range, up to 600 V
•Robust devices with dV/dt immunity of ±50 V/ns
•Pin to pin compatible with industry standards
MOSFET Drivers
Device
Function
Type
No of Drivers
Package
NCP5104
Single Input High and Low Side Power MOSFET Driver
Half-Bridge
2
SOIC-8, PDIP-8
NCP5111
Single Input Half-Bridge Power MOSFET or IGBT Driver
Half-Bridge
2
SOIC-8, PDIP-8
NCP5106A/B
Dual Inputs High Voltage High and Low-Side MOSFET or IGBT Driver
Half-Bridge
2
SOIC-8, PDIP-8
NCP5304
Dual Inputs High Voltage High and Low-Side MOSFET or IGBT Driver
Half-Bridge
2
SOIC-8, PDIP-8
NCP5181
Dual Inputs High Voltage High and Low-Side MOSFET or IGBT Driver
Half-Bridge
2
SOIC-8, PDIP-8
Supporting Materials
Device
NCP5181
NCP5104
NCP5106A/B
Page 20
Type
Designator
Evaluation Board
Application Note
Application Note
Reference Design
Evaluation Board
Application Note
Evaluation Board
Application Note
NCP5181BAL36WEVB
AND8244/D
AND8257/D
TND321/D
NCP5104BA36WGEVB
AND8312/D
NCP5106BA36WGEVB
AND8295/D
Description
NCP5181 36 W Ballast Evaluation Board
A 36 W Ballast Application with the NCP5181
Implementing a Medium Power AC-DC Converter with the NCP1395
220 W LCD TV Power Supply Reference Design Featuring NCP1395 and NCP1653 Documentation
NCP5104 36 W Ballast Evaluation Board
A 36 W Ballast Application with NCP5104
A 36 W Ballast Application with NCP5106B Evaluation Board
A 36 W Ballast Application with NCP5106B
Power Supply & Power Adapter Solutions
Trench Based Schottky Rectifiers for Improved Efficiency
90.0
89.5
89.0
88.5
LVFR Features
•Low Vf
•High operating temperature
capabilities
•Enhanced efficiency
Efficiency (%)
88.0
87.5
87.0
86.5
86.0
85.5
85.0
Competitive 30A Planar
84.5
NTST30100SG
84.0
83.5
83.0
12.5
25.0
37.5
50.0
62.5
75.0
87.5
100.0
Load (% of rated maximum)
65 W Adapter Low Line Efficiency
Rectifiers
Device
MBRF10H150CT
MBR20H150CT
MBRF20H150CT
MBR30H150CT
MBRF30H150CT
MBR10H100CT
MBR16100CT
MBR20100CT
MBR20H100CT
NTST30100S
MBRF20100CT
MBRF20H100CT
MBR30H100CT
MBRF30H100CT
MBR41H100CT
MBRB41H100CT-1
MBR60H100CT
MBR2080CT
MBR20L80CT
MBRF20L80CT
MBR10L60CT
MBRF10L60CT
MBR2060CT
MBR20L60CT
MBRF2060CT
MBRF20L60CT
VRRM
(V)
VF Max
(V)
IR Max
(uA)
IO
(A)
IFSM
(A)
Package
150
150
150
150
150
100
100
100
100
100
100
100
100
100
100
100
100
80
80
80
60
60
60
60
60
60
0.69
0.68
0.68
0.73
0.73
0.61
0.60
0.75
0.64
0.78
0.75
0.64
0.67
0.67
0.67
0.67
0.72
0.75
0.61
0.61
0.49
0.49
0.85
0.54
0.75
0.54
45
50
50
60
60
3.5
100
100
4.5
1000
150
4.5
4.5
4.5
10
10
10
100
500
500
220
220
150
380
150
380
10
20
20
30
30
10
16
20
20
30
20
20
30
30
40
40
60
20
20
20
10
10
20
20
20
20
150
180
180
200
200
180
150
150
250
250
150
250
250
250
350
350
350
150
175
175
200
200
150
240
150
240
TO-220 FULLPAK
TO-220
TO-220 FULLPAK
TO-220
TO-220 FULLPAK
TO-220
TO-220
TO-220
TO-220
TO-220
TO-220 FULLPAK
TO-220 FULLPAK
TO-220
TO-220 FULLPAK
TO-220
I2PAK
TO-220
TO-220
TO-220
TO-220 FULLPAK
TO-220
TO-220 FULLPAK
TO-220
TO-220
TO-220 FULLPAK
TO-220 FULLPAK
Note: All VF data is taken at rated current, 125°C ambient. All IR data is taken at rated voltage, 25°C, per leg.
ON Semiconductor
Page 21
Rectifiers
Device
VRRM
(V)
VF Max
(V)
IR Max
(uA)
IO
(A)
IFSM
(A)
Package
60
60
60
60
60
60
45
45
45
45
45
45
45
45
45
45
45
45
45
30
30
30
0.56
0.57
0.56
0.57
0.56
0.58
0.57
0.57
0.47
0.57
0.47
0.57
0.62
0.57
0.57
0.44
0.44
0.48
0.53
0.40
0.40
0.40
300
350
300
350
300
550
100
100
500
100
500
200
200
200
200
650
650
1200
1200
5000
800
800
30
30
30
30
30
40
15
20
20
20
20
30
25
30
30
30
30
40
60
20
30
30
260
240
260
240
260
240
150
150
180
150
180
150
150
150
150
190
190
200
200
150
260
260
TO-220
TO-220
TO-220 FULLPAK
TO-220 FULLPAK
I2PAK
TO-220
TO-220
TO-220
TO-220
TO-220 FULLPAK
TO-220 FULLPAK
TO-220
TO-220 FULLPAK
TO-220
I2PAK
TO-220
TO-220 FULLPAK
TO-220
TO-220
TO-220
TO-220
I2PAK
MBR30H60CT
MBR30L60CT
MBRF30H60CT
MBRF30L60CT
MBRB30H60CT-1
MBR40L60CT
MBR1545CT
MBR2045CT
MBR20L45CT
MBRF2045CT
MBRF20L45CT
MBR2545CT
MBRF2545CT
MBR3045ST
MBRB3045CT-1
MBR30L45CT
MBRF30L45CT
MBR40L45CT
MBR60L45CT
MBR2030CTL
MBR30H30CT
MBRB30H30CT-1
Note: All VF data is taken at rated current, 125°C ambient. All IR data is taken at rated voltage, 25°C, per leg.
Voltage References
Features
•Provides accurate reference voltage from
0.9 V to 2.5 V
•Tight voltage tolerances from 0.4% to 3%
•Output voltage range up to 36 V
•Low dynamic impedance, low noise and
stable operation over time and temperature
•
Available in a wide range of packages,
including surface mount and through hole
Voltage References
Device
Page 22
Type
Tolerance
Package
LM285
Fixed
1%, 1.5%
SOIC-8, TO-92
LM385
Fixed
1%, 1.5%, 2%, 3%
SOIC-8, TO-92
LM385B
Fixed
1%, 1.5%
SOIC-8, TO-92
TL431
Adjustable
2.2%
SOIC-8, PDIP-8, Micro8, TO-92
TL431A
Adjustable
1.0%
SOIC-8, PDIP-8, Micro8, TO-92
TL431B
Adjustable
0.4%
SOIC-8, PDIP-8, Micro8, TO-92
Power Supply & Power Adapter Solutions
Applications Support
See www.onsemi.com > Applications > Power Supply
Power Supply Interactive Block Diagrams
Build a customized list of products to complete your design, by using these interactive application diagrams.
» AC-DC Power Supply: 20 - 75 W
» AC-DC Power Supply: < 20 W
» AC-DC Power Supply: > 75 W
» CRT TV Power Supply
» DC-DC Power Supply: 10 - 23 VIN
» DC-DC Power Supply: 24 - 60 VIN
» DC-DC Power Supply: < 10 VIN
» High Efficiency ATX Power Supply
» LCD TV Power Supply
» Li-Ion Battery Charger
» PoE Power Supply
» Power Adapter: 20 - 75 W
» Power Adapter: < 20 W
» Power Adapter: > 75 W
Tutorials
Document Title
AD2 - Adapter Less than 75 W
ADAP1 - Fixed Frequency Adapter with Very Low Power Consumption
ADAP2 - QR Adapter Design
ATX - Designing High-Efficiency ATX Solutions
Achieving High Power Density Designs
AiO - 200 W Power Supply for All-in-One PC
F2S - 2 Switch Forward Converter
FB1 - DC-DC Converters Feedback and Control
FB2 - The TL431 in Switching Power Supplies
HB - Half-Bridge Drivers, a Transformer-Based Solution or an All-Silicon Drive
LCD - AC-DC Power Architecture in LCD TV
MAG - Magnetics in Switched-Mode Power Supplies
MOF - Multi-Output Flyback Off-Line Power Supply
OVR - Overview of Efficient Power Supply Solutions
PFC1 - Advanced Power Factor Correction
PFC2 - Compensating a PFC Stage
QR - Analysis and Design of Quasi-Resonant Converters
SIM - Simulating Power Supplies with SPICE
SMPS Overview
SMPS Topologies
Standby Power Reduction Techniques
TEL - DC-DC Telecom and Networking Solutions
iPFC - Interleaved Power Factor Controller
ON Semiconductor
Document ID
TND355/D
TND376/D
TND377/D
TND356/D
TND325/D
TND383/D
TND378/D
TND352/D
TND381/D
TND379/D
TND353/D
TND350/D
TND351/D
TND357/D
TND344/D
TND382/D
TND348/D
TND349/D
TND342/D
TND343/D
TND324/D
TND347/D
TND380/D
Page 23
Sales and Design Assistance from ON Semiconductor
ON Semiconductor Distribution Partners
AMERICAS REP FIRMS
AMSC Co.
www.amsc.co.jp
(81) 422 54 6622
Arrow Electronics
www.arrow.com
(800) 777-2776
Avnet
www.em.avnet.com
(800) 332-8638
Digi-Key
www.digikey.com
(800) 344-4539
EBV Elektronik
www.ebv.com/en/locations.html
(49) 8121 774-0
Fuji Electric Co.
www.fujiele.co.jp
(81) 3 3814 1411
Future & FAI Electronics
www.futureelectronics.com/contact
1-800-FUTURE1 (388-8731)
KH Electronics Inc.
www.khelec.com/kor
(82) 42 471 8521
Marubun
www.marubun.co.jp
(81) 3 3639 5630
Mitsui Electronics Inc.
www.btel.co.jp
(81) 3 6403 5900
Mouser Electronics
www.mouser.com
(800) 346-6873
Newark/Farnell
www.farnell.com/onsemi
(800) 4-NEWARK
Promate Electronic Co.
www.promate.com.tw
(886) 2 2659 0303
Segyung Britestone Co.
www.britestone.com
(82) 2 3218 1511
Serial Microelectronics, HK
www.serialsys.com.hk
(852) 2790 8220
Taewon Inc.
www.taewon.net
(82) 2 6679 9000
Tokyo Electron Device Co.
hwww.teldevice.co.jp
(81) 45 443 4000
World Peace Industries Co.
www.wpi-group.com
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