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Power Supply & Power Adapter Solutions

Evolving Ef f iciency StandardsEvolving regulations and incentives, targeted towards improving energy efficiency, are intended to limit global climate change. Enhancing power supply efficiency alone can save over 2% of global energy consumption. Many organizations worldwide (such as China Certification Center, USA Environmental Protection Agency, European Code of Conduct) now develop regulations and incentives for power supply efficiency, like ENERGY STAR® and 80 PLUS®. ON Semiconductor actively participates in standards organizations and working groups, so that we can provide solutions to the market that meet all of the relevant specifications, worldwide.

Power Supply E xper tiseON Semiconductor provides products and solutions that save power From-the-Socket-to-the-Pocket™, enabling quick deployment of cost-effective power supplies that meet evolving global efficiency standards. Our expertise in high-efficiency power 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 components – from highly integrated power factor controllers, ac-dc controllers, and dc-dc controllers, to discrete MOSFETs, rectifiers, diodes, and transistors – we can help you design complete power supply solutions, with all active components sourced from and supported by a single supplier.

GreenPoint™ Reference DesignsON Semiconductor provides GreenPoint 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 that includes schematics, BOMs, Gerber files, design descriptions, and test results. The reference designs meet all relevant global efficiency standards, providing access to global markets with a single design.

Global Power Supply PresenceON Semiconductor maintains a broad, global network of design and applications resources, including resources devoted to power supplies.

Our Product Design Centers define and develop advanced power management integrated circuits, utilizing the latest architectures and development tools. Products are targeted for a range of process technologies, including analog CMOS, Bi-CMOS, and Very High Voltage (VHV).

Our Solutions Engineering Centers focus on developing value-added total solutions for specific end market applications. These centers are staffed with applications engineers with design experience, and are equipped with all of the resources necessary for local manufacturers to benefit from the vast power

management experience of ON Semiconductor.

A global network of Field Applications Engineers provides truly customer-specific support. These local resources can help you optimize your power supply designs, by contributing their experience and training, with both applications and specific components, to your design location.

ON Semiconductor Provides Expertise, Solutions, and Products that Enable Quick Deployment of Highly-Efficient Power Supplies

ON Semiconductor

Advanced Semiconductors for All Power Supply Functions

EMI PowerFilter

InputBridge

Rectification

PowerFactor

Correction

VoltageRegulation

(Linear, Switching)Transformer DC

OutACIn

OutputRectification/

Sync Rect

Hot Swap/Inrush

Limiting

IsolatedConversion

Non-IsolatedConversion

DCOut

DCIn

RegulatedOutput

PostRegulation

AC-DC Power Supplies and Adapters

DC-DC Power Supplies

See Page 9 See Pages 10, 14, 17 See Page 19

See Pages 10, 14See Pages 10, 14See Page 8

See Pages 14, 16, 17

ON Semiconductor provides a complete portfolio of semiconductors designed to efficiently convert and manage power, in each energy interchange From the Socket to the Pocket™.

Contents:GreenPoint™ Reference Designs . . . . . . . . . 4-7Hot Swap . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Power Factor Correction . . . . . . . . . . . . . . . . . 9AC-DC Controllers and Regulators . . . . . 10-13MOSFET Drivers . . . . . . . . . . . . . . . . . . . . . . 13DC-DC Controllers and Regulators . . . . . 14-15Secondary Side Controllers . . . . . . . . . . . . . 16Voltage References . . . . . . . . . . . . . . . . . . . 16Voltage Regulators . . . . . . . . . . . . . . . . . . . . 17MOSFETs . . . . . . . . . . . . . . . . . . . . . . . . . . . 18Rectifiers . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Sales and Design Assistance . . . . . . . . . . . . 20

From the Socket to the Pocket™


300 W 80 PLUS® ATX Reference Design

• Production ready design accelerates time-to-market• Exceeds new ENERGY STAR® efficiency standards for desktop computers• Achieves >80% efficiency with room to spare• Advanced architecture is at cost parity or lower compared to other topologies

for similar efficiencies• Meets IEC 61000-3-2 requirements• Download TND313/D for full design documentation

ON Semiconductor

220 W LCD TV Power Supply Reference Design

160 W CRT TV Power Supply Reference Design

• Production ready design accelerates time-to-market• Standby power <1 W• Meets IEC 61000-3-2 requirements• Download TND316/D for full design documentation


30 V / 1 A

EMIFilter

85 - 265 Vac

24 V / 6 A

12 V / 3 A

MBRS340

TL431

NCP1605PFC

Controller

NCP1027SMPS

Regulator

BiasOutput 5 V / 2.5 A

Discontinuous Conduction Modeand/or Critical Conduction Mode

for Optimal Topology

Highly IntegratedCurrent Mode

SMPS Regulator

Resonant Technologyfor Increased

Efficiency and Lower EMI

TL431

NCP1396ResonantController

Half BridgeDriver+

MBRS4201MBRF20100MBRS4201

EMIFilter

AC

135 V

135 V

5 VStandby

SignalSimulatedby SW1

20 V

12 V

8 V

SMPSMOSFET

NCP1337SMPS

Controller

MUR460

MUR420

MUR420

MUR420MC78L05

TL431

Reg

P

Flyback Quasi-ResonantController Technology

for Increased Efficiencyand Lower EMI

EMI Filter

85 - 265 Vac MBR20100

MBR20100 BAS20

NCP1351

32 V / 1 A

16 V / 0.625 A

EMIFilter

AC

OPTO-1

OPTO-1

Voltage Feedback Over VoltageProtection

OPTO-2

12 V

SMPSMOSFET

NCP1337SMPS

Controller

NTP75N06

SynchronousRectification

Circuitry

Flyback Quasi-ResonantController Technology

for Increased Efficiencyand Lower EMI 12V

12V

TL431OPTO-2

12V


40 W Printer Power Adapter Reference Design

60 W Monitor Power Adapter Reference Design

• Production ready design accelerates time-to-market• Standby power <150 mW• >85% Efficiency at nominal load• >80% Efficiency for loads above 2 W• Download TND320/D for full design documentation

• Production ready design accelerates time-to-market• Standby power <1 W• >88% Efficiency • Download TND318/D for full design documentation

Active Clamp Technologyfor Increased Efficiency

Switching Regulatorwith Integrated High

Voltage MOSFET

EMIFilter

AC

90-132Vac

Monitoringand

Protection

12 V @

16.6 A

TL431

NCP1014Standby

Regulator

NCP1562SMPS

Controllerwith

IntegratedDriver

TL431

5 V @ 1.5 A

SMPSMOSFET

ClampMOSFET

BiasOutput

OutputRectification

SynchronousRectification

Dedicated SR ControllerNot Required

ON Semiconductor

200 W Game Console Power Adapter Reference Design

90 W Notebook PC Power Adapter Reference Design

• Production ready design accelerates time-to-market• Achieves ENERGY STAR® requirements for game

console power adapters• Standby power <1 W• >88% Efficiency at nominal load• Design can be modified to include power factor correction


EMIFilter

AC

VO

NCP1651PFC

Controller


Hot Swap

Device Description Control ModeVI Max

(V)RDS(on) Max

(mΩ) Package

NIS5102QP1H Inrush Limiter/Circuit Breaker Latch Off 18 12 PLLP-12

NIS5102QP2H Inrush Limiter/Circuit Breaker Auto-Retry 18 12 PLLP-12

NIS5112D1 Electronic Fuse Latch Off 18 35 SOIC-8

NIS5112D2 Electronic Fuse Auto-Retry 18 35 SOIC-8

SMART HotPlug™ for Hotswap and Inrush Limiting

Features• Includes built-in temperature sensing diodes which

keep devices within their safe junction operating tem-peratures

• Integrates power MOSFET with analog control• Includes adjustable current limit and other supervi-

sory functions

NIS5102 Turn-On Waveforms for 3300 mF Load Capacitors

Supporting MaterialsDevice Type Designator Description

NIS5102

Evaluation Board NIS5102QP1EVB NIS5102 SMART HotPlug IC/Inrush Limiter/Circuit Breaker OVLO/UVLO Latch-Off Evaluation Board

Evaluation Board NIS5102QP2EVB NIS5102 SMART HotPlug IC/Inrush Limiter/Circuit Breaker OVLO/UVLO Auto-Retry Evaluation Board

Application Note AND8212/D NIS5102 SMART HotPlug™ Demonstration Board

Application Note AND8287/D NIS5102 SMART HotPlug ™ dv/dt Control

Application Note AND8249/D Board Mounting Notes for NIS5102 Leadless Package (QFN)

NIS5112Application Note AND8259/D NIS5112 Hot Plug Evaluation Board Manual

Application Note AND8283/D NIS5112 Transient Performance

NIS51xx

Application Note AND8140/D SMART HotPlug™ Current Limit Function

Application Note AND8168/D SMART HotPlug™ Precision UVLO Circuit

Application Note AND8166/D Power Good Circuits Using the NUD3048

Application Note AND8199/D Thermal Stability of MOSFETs

ON Semiconductor

Power Factor CorrectionFeatures

• Single stage PFC operation• Combination of Critical Conduction (CRM) and Fixed Frequency

Discontinuous modes optimizes performance with benefits of both modes

• 8 pin Continuous Conduction Mode PFC controllers with limited number of external components for rugged designs

• Supports more efficient PFC stages with skip mode operation, low start-up current, shut-down function

Power Factor Controllers

Device Conduction Mode FrequencyControl Mode Package

NCP1601 Critical Discontinuous Variable and/or Fixed Voltage SOIC-8, PDIP-8NCP1603 Critical, Discontinuous Variable and/or Fixed Voltage SOIC-16NCP1605 Critical, Discontinuous Variable and/or Fixed Voltage SOIC-16NCP1606 Critical Variable Voltage SOIC-8, PDIP-8NCP1651 Continuous Fixed Current SOIC-16NCP1653 Continuous Fixed Current SOIC-8, PDIP-8NCP1654 Continuous Fixed Current SOIC-8, PDIP-8


NCP1601Design Tool — NCP1601 PFC Boost Design Worksheet

Evaluation Board NCP1601AEVB NCP1601A 100 W PFC Boost Regulator Evaluation BoardApplication Note AND8182/D 100 Watt Universal Input PFC Boost Using NCP1601A

NCP1603Design Tool — NCP1603 Design Excel Spreadsheet

Evaluation Board NCP1603EVB NCP1603 AC-DC Adapter with PFC Evaluation BoardApplication Note AND8207/D Universal Input AC-DC Adaptor with PFC Using NCP1603

NCP1605Design Tool — NCP1605 PFC Boost Design Worksheet

Application Note AND8281/D Implementing the NCP1605 to Drive the PFC Stage of a 19 V/8 A Power SupplyReference Design TND316/D 220 W LCD TV Power Supply Reference Design Featuring NCP1396 and NCP1605 Documentation

NCP1606Design Tool — NCP1606 Design Worksheet

Evaluation Board NCP1606BOOSTGEVB NCP1606 100 W BOOST Evaluation BoardApplication Note AND8282/D Implementing Cost Effective and Robust Power Factor Correction with the NCP1606

NCP1651

Design Tool — NCP1651 Design AidEvaluation Board NCP165119VEVB NCP1651 90 W 19 V Adapter Evaluation BoardEvaluation Board NCP165148VEVB NCP1651 90 W Universal Input Single Stage PFC Converter Evaluation BoardApplication Note AND8209/D 90 W, Single Stage, Notebook AdaptorApplication Note AND8124/D 90 W, Universal Input, Single Stage, PFC ConverterApplication Note AND8147/D Innovative Approach to Achieving Single Stage PFC & Step-Down Conversion for Distributive SystemsApplication Note TND308/D Graphical Data Test Circuits for the NCP1651Reference Design TND317/D 90 W Notebook AC-DC Adapter Reference Design Documentation

NCP1653

Design Tool — NCP1653 PFC Boost Design WorksheetEvaluation Board NCP1653EVB NCP1653 PFC Dive Continuous Conduction Mode Step-Up Pre-Converter Evaluation BoardApplication Note AND8185/D 300 W, Wide Mains, PFC Stage Driven by the NCP1653Application Note AND8184/D Four Key Steps to Design a Continuous Conduction Mode PFC Stage Using the NCP1653Reference Design TND321/D 220 W LCD TV Power Supply Reference Design Featuring NCP1395 and NCP1653 DocumentationReference Design TND313/D 300 W, 80 PLUS Compliant ATX Reference Design Documentation Package


AC-DC Controllers and Regulators

AC-DC Controllers and RegulatorsDevice Topology Frequency Control Mode Package

NCP1010~15 Buck/Boost/Buck-Boost/Flyback Fixed Current SOT223, PDIP-7, SMD PDIP-7

NCP1027~28 Buck/Boost/Buck-Boost/Flyback Fixed Current PDIP-7

NCP1200 Flyback Fixed Current SOIC-8, PDIP-8



NCP1212 Flyback/Forward Fixed Current SOIC-8, PDIP-8

NCP1215A Flyback Variable Current SOIC-8, TSOP-6

NCP1216/16A Flyback/Forward Fixed Current SOIC-8, PDIP-7

NCP1217/17A Flyback/Forward Fixed Current SOIC-8, PDIP-7


NCP1271 Flyback Variable Current SOIC-7, PDIP-7

NCP1562 NCP1282

Forward Active Clamp Fixed Voltage SOIC-16

NCP1207A/B Flyback Variable Current SOIC-7, SOIC-8, PDIP-7

NCP1308 Flyback Variable Current SOIC-8

NCP1337 Flyback Variable Current SOIC-7, PDIP-7

NCP1351 Flyback Variable Current SOIC-8

NCP1377/78 Flyback Variable Current SOIC-7, SOIC-8, PDIP-7

NCP1381/82 Flyback Variable Current SOIC-14

NCP1395 Half-Bridge/Full Bridge Resonant Variable Voltage SOIC-16, PDIP-16

NCP1396 Half-Bridge Resonant Variable Voltage SOIC-16, PDIP-16

Features• Comprehensive, versatile portfolio supports:

n Fixed frequency and variable frequencyn Different topologies, from the classical flyback, to the half bridge

resonant via the forward active clampn Broad 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 standardsDemonstrated Efficiency vs. Power

ON Semiconductor

Supporting Materials — AC-DC Controllers and RegulatorsDevice Type Designator Description

NCP1012~15

Evaluation Board NCP1014LEDEVB NCP1014 Offline LED Driver Evaluation Board

Application Note AND8142/D A 6 W/12 W Universal Mains Adapter with the NCP101X

Application Note AND8134/D Designing Converters with the NCP101X Family

Application Note AND8125/D Evaluating the Power Capability of NCP101X Members

Application Note AND8272/D Implementing Simple Brown-Out Solution for NCP101X Series

Application Note AND8224/D NCP101x LED Flasher with Luxeon V Star LED

Application Note AND8190/D Non-isolated Negative Output Buck AC/DC Converter

Application Note AND8191/D Non-isolated Positive Output Buck/Boost AC/DC Converter

Application Note AND8225/D Nonisolated Negative Output Buck/Boost AC/DC Convertor

Application Note AND8226/D Nonisolated Positive Output Buck AC/DC Converter

Application Note AND8132/D Performance Improvements to the NCP1012 Evaluation Board

Application Note AND8136/D Offline isolated power supply to drive 3 LEDs

Design Note DN06002/D NCP1012: 1 W, Dual Output, Off-line Converter

Design Note DN06013/D NCP1012: 3.6 W Auxiliary Power Supply for Appliances / White Goods

Design Note DN06005/D NCP1014: 10 W, 3-Output Off-line Power Supply

Design Note DN06020/D NCP1014: 10W, Dual Output Power Supply

Design Note DN06009/D NCP1014: 5 W, CCCV Cell Phone Battery Charger

Design Note DN06011/D NCP1014: 8 W Off-Line Non-Isolated Buck Regulator

Design Note DN06003/D NCP1014: 8 W, 3-Output Off-Line Switcher

NCP1027/28

Design Tool — NCP1027 BROWNOUT COMPUTING

Evaluation Board NCP1027ATXEVB NCP1027 5.0 V/2.0 A Standby ATX Power Supply Evaluation Board

Application Note AND8241/D A 5 V/2 A Standby Power Supply for INTEL Compliant ATX Applications

Design Note DN06006/D NCP1027: 1 A, 12 W Constant Current Off-Line LED Driver

Design Note DN06012/D NCP1027: 10 W, 24 V / 5 V Off-Line Power Supply

Design Note DN06021/D NCP1027: 16 W, 12 Vdc Modem Power Supply

Reference Design TND313/D 300 W, 80 PLUS Compliant ATX Reference Design Documentation Package

Reference Design TND316/D 220 W LCD TV Power Supply Reference Design Featuring NCP1396 and NCP1605 Documentation


NCP1200

Design Tool — NCP1200 Discont.xls

Design Tool — NCP1200, How to Use the Spreadsheet

Evaluation Board NCP1200ADAPEVB NCP1200 10 W Adapter Evaluation Board

Application Note AND8076/D A 70 W Low Standby Power Supply w/NCP120x Series

Application Note AND8078/D A Simple Low-Cost Non-Isolated Universal Input Off-Line Converter

Application Note AND8032/D Conducted EMI Filter Design for the NCP1200

Application Note AND8042/D Implementing Constant Current Constant Voltage AC Adapter by NCP1200 and NCP4300A

Application Note AND8023/D Implementing the NCP1200 in Low-Cost AC/DC Converters

Application Note AND8038/D Implementing the NCP1200 in a 10 W AC/DC Wall Adapter

Application Note AND8029/D Ramp Compensation for the NCP1200

Application Note AND8069/D Tips and Tricks to Build Efficient Circuits with NCP1200

NCP1203

Design Tool — NCP1200 Discont.xls

Design Tool — NCP1200, How to Use the Spreadsheet

Evaluation Board NCP1203EVB NCP1203 70 W 19 V/3.6 A Adapter Evaluation Board



Application Note AND8029/D Ramp Compensation for the NCP1200

NCP1216/16A

Evaluation Board NCP1216AFORWEVB NCP1216A 35 W Forward DC-DC Converter Evaluation Board



Application Note AND8042/D Implementing Constant Current Constant Voltage AC Adapter by NCP1200 and NCP4300A

Application Note AND8023/D Implementing the NCP1200 in Low-Cost AC/DC Converters

Application Note AND8069/D Tips and Tricks to Build Efficient Circuits with NCP1200

Application Note AND8161/D Implementing a DC/DC Single-Ended Forward Converter with the NCP1216A



NCP1217/17A



Design Note DN06010/D NCP1217: 200 W, single output power supply

NCP1230Evaluation Board NCP1230EVB NCP1230 90 Watt, Universal Input Adapter Power Supply Evaluation Board

Application Note AND8154/D NCP1230 Applications Note

NCP1271

Design Tool — NCP1271 DESIGN SPREADSHEET

Evaluation Board NCP1271ADAPGEVB NCP1271 57 W Adapter Evaluation Board

Application Note AND8242/D 19 V, 3 A, Universal Input AC-DC Adaptor Using NCP1271

NCP1562 / NCP1282

Design Tool — NCP1282 Excel Based Design Tool

Design Tool — NCP1562 Excel Based Design Tool

Application Note AND8273/D Design of Active Clamp Forward of DC-DC Converter using NCP1562


NCP1207A/B

Design Tool QR IND CALC Spreadsheet to calculate QR power supplies inductor’s value

Design Tool QR DESIGN AID Spreadsheet to help in the design of a QR power supply

Evaluation Board NCP1207AADAPEVBG NCP1207A 24 W 12 V/2 A Adapter Synchronous Rectification Evaluation Board

Application Note AND8129/D A 30 W Power Supply Operating in A Quasi-Square Wave Resonant Mode

Application Note AND8145/D A 75 W TV Power Supply Operating in Quasi-square Wave Resonant Mode Using NCP1207 Controller

Application Note AND8112/D A Quasi-Resonant SPICE Model Eases Feedback Loop Designs

Application Note AND8089/D Determining the Free-Running Frequency for QR Systems

Application Note AND8252/D High Efficiency 8 Output, 60 W Set Top Box Power Supply Design

Application Note AND8127/D Implementing NCP1207 in QR 24 W AC-DC Converter with Synchronous Rectifier

Application Note AND8187/D Synchronizing NCP1207 (NCP1377/B, NCP1378)

NCP1215AEvaluation Board NCP1215AADAPGEVB NCP1215 5 W ADAPTER EVB

Application Note AND8128/D Low Cost AC-DC 5.0 W Adapter with NCP1215

NCP1308



Application Note AND8129/D 30 W Power Supply Operating in A Quasi-Square Wave Resonant Mode

Application Note AND8145/D A 75 W TV Power Supply Operating in Quasi-square Wave Resonant Mode Using NCP1207 Controller



Application Note AND8127/D Implementing NCP1207 in QR 24 W AC-DC Converter with Synchronous Rectifier


Design Note DN06008/D NCP1308: +/- 18 V Dual Output Power Supply

Design Note DN06014/D NCP1308: 170 Vdc output, quasi-resonant power supply

NCP1337



Evaluation Board NCP1337ADAPEVB NCP1337 60W 12V/5A Adapter Evaluation Board

Evaluation Board NCP1337CRTTVEVB NCP1337 160 W CRT TV Evaluation Board

Application Note AND8246/D A 160 W CRT TV Power Supply Using NCP1337


Application Note AND8266/D Designing NCP1337


Reference Design TND315/D 160 W CRT TV Power Supply Reference Design Documentation

Reference Design TND318/D 60 W Adapter Reference Design Documentation

NCP1351

Design Tool — NCP1351 Inductor Calculation

Evaluation Board NCP1351ADAPGEVB NCP1351 57 W Adapter Evaluation Board

Application Note AND8278/D NCP1351 Evaluation Board Printer Power Supply

Application Note AND8263/D NCP1351 Evaluation Board, 19 V - 3 A Adaptor

Application Note AND8280/D NCP1351 Modeling Using the PWM Switch Technique

Reference Design TND320/D 40 W Printer Power Supply Reference Design Documentation

ON Semiconductor


NCP1377/78






NCP1381/82



Evaluation Board NCP1381ADAPEVB NCP1381 120 W Adapter Evaluation Board



Application Note AND8240/D Designing NCP1381 in High Power AC-DC Adapters

Application Note AND8260/D NCP1381 Demonstration Board: 120 W Notebook Adapter

NCP1395

Design Tool NCP1395 BROWNOUT COMPUTING NCP1395 Brownout Computing

Design Tool LLCDESIGN Spreadsheet to help LLC circuit design

Evaluation Board NCP1395FLATTVEVB NCP1395 220 W Flat TV Evaluation Board

Evaluation Board NCP1395LLCEVB NCP1395 240 W LLC Evaluation Board

Application Note AND8255/D A Simple DC SPICE Model for the LLC Converter

Application Note AND8257/D Implementing a Medium Power AC-DC Converter with the NCP1395


NCP1396

Design Tool NCP1396 Computing NCP1396 Computing

Design Tool LLCDESIGN Spreadsheet to help LLC circuit design

Application Note AND8255/D A Simple DC SPICE Model for the LLC Converter

Application Note AND8293/D Implementing an LCD TV Power Supply with NCP1396A, NCP1605, and NCP1027


MOSFET DriversFeatures

• 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 DriversDevice Function Type No of Drivers Package

NCP5106A/B Dual Inputs High Voltage High and Low-Side MOSFET or IGBT 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

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


NCP5181

Evaluation Board NCP5181BAL36WEVB NCP5181 36 W Ballast Evaluation Board

Application Note AND8244/D A 36 W Ballast Application with the NCP5181

Application Note AND8257/D Implementing a Medium Power AC-DC Converter with the NCP1395


NCP5106A/BEvaluation Board NCP5106BPGEVB Demo with NCP5106BPG

Application Note AND8295/D A 36 W Ballast Application with NCP5106B


DC-DC Controllers

DeviceVin (V)

IsolatedFrequency

(kHz) Control Mode PackageMin MaxCS51022 3.3 72 Yes 200 - 1000 Current SOIC-16, TSSOP-16CS51221 3.3 72 Yes 200 - 1000 Voltage SOIC-16, TSSOP-16CS5124 7.7 75 Yes 400 Current SOIC-8

NCP5424 10.8 13.2 No 150 - 600 Voltage SOIC-16NCP1582/3 4.5 15 No 300 / 350 Voltage SOIC-8CS51033 3.3 5 No 200 - 700 Hysteretic SOIC-8CS51031 4.5 16 No 200 - 700 Hysteretic SOIC-8

TL494 7 40 No 40 - 200 Voltage SOIC-16, PDIP-16TL594 7 40 No 40 - 300 Voltage SOIC-16, PDIP-16

SG3525 8 35 No 100 - 400 Voltage SOIC-16, PDIP-16NCP1571 — — No 200 V2 SOIC-8NCP1217A — — — 65, 100, 133 Current SOIC-8, PDIP-7NCP1216A — — — 65, 100, 133 Current SOIC-8, PDIP-7

DC-DC Regulators

DeviceVin (V)

TopologyFrequency

(kHz)Output Current

(A) PackageMin MaxLM2574 4.75 40 Buck 52 0.5 D2PAK, TO-220LM2575 4.75 40 Buck 52 1.0 D2PAK, TO-220

NCP1030/31 10 200 Buck, Boost 300 1.0 / 2.0 Micro8CS51411/2/3/4 4.5 40 Buck 260 1.5 SOIC-8, DFN-18

NCP3063 3 40 Buck, Boost, Inverting, Buck/Boost up to 250 1.5 SOIC-8, PDIP-8NCP3065 3 40 Buck, Boost 250 1.5 DFN-8, SOIC-8, PDIP-8

MC34063A 3 40 Buck, Boost, Inverting, Buck/Boost up to 100 1.5 SOIC-8, PDIP-8NCP1595 4 5.5 Buck 1200 1.5 DFN-6CS5171/2 2.7 30 Boost 280 1.5 SOIC-8CS5173/4 2.7 30 Boost 560 1.5 SOIC-8MC34166 7.5 40 Step-up/Step-down 72 3.0 D2PAK, TO-220LM2576 4.75 40 Buck 52 3.0 D2PAK, TO-220

MC34163 2.5 40 Buck, Boost, Inverting, Buck/Boost up to 100 3.4 SOIC-16, PDIP-16NCV33163 2.5 60 Buck, Boost, Inverting, Buck/Boost up to 100 3.4 SOIC-16, PDIP-17NCP3163 2.5 40 Buck, Boost, Inverting, Buck/Boost up to 300 3.4 SOIC-16WBMC34167 7 40 PWM Step-down 72 5.0 D2PAK, TO-220

Features• Integrated switching regulators from 0.5 A to 5 A• Various topologies including buck, boost, buck/boost,

and inverting• Wide input voltage range up to 200 V

DC-DC Controllers and Regulators

ON Semiconductor

Supporting Materials — DC-DC Controllers and RegulatorsDevice Type Designator Description

NCP1030/31

Design Tool — NCP1030/31 Design Tool for Isolated Output Flyback Topology

Evaluation Board NCP1030EVB NCP1030 2 W POE DC-DC Converter Evaluation Board

Evaluation Board NCP1031POEEVB NCP1031 6.5 W POE DC-DC Converter Evaluation Board

Design Note DN06007/D NCP1031: Wide Input Range (20 Vdc to 140 Vdc) DC to DC Converter

Application Note AND8119/D Design of an Isolated 2 W Bias Supply for Telecom Systems Using the NCP1030

Application Note AND8247/D Application Note for a 5.0 W to 6.5 W Power Over Ethernet (PoE) DC-DC Converter

CS51411/2/3/4

Evaluation Board CS51411EVB CS51411 1.5 A, 260 kHz Low Voltage Buck Regulator Evaluation Board

Design Note DN06018/D CS51411/NCV51411: 12V or 24Vin DC, Constant Current LED Driver

Design Note DN06025/D Starting the CS51411

Application Note AND8269/D CS51411 Layout Recommendations

NCP3063

Design Tool — NCP3063 Design Tool

Evaluation Board NCP3063BSTEXGEVB ROHS BST DEMO BD EXT FET

Evaluation Board NCP3063DIPBCKEVB NCP3063 Leaded Buck Regulator Evaluation Board

Evaluation Board NCP3063DIPBSTEVB NCP3063 Leaded Boost Regulator Evaluation Board

Evaluation Board NCP3063DIPINVEVB NCP3063 Leaded Voltage Inverting Evaluation Board

Evaluation Board NCP3063SMDBCKEVB NCP3063 Surface Mount Buck Regulator Evaluation Board

Evaluation Board NCP3063SMDBSTEVB NCP3063 Surface Mount Boost Regulator Evaluation Board

Evaluation Board NCP3063SMDINVEVB NCP3063 Surface Mount Voltage Inverting Evaluation Board

Design Note DN06015/D NCP3063: +12 V to -12 V Buck-Boost Inverter

Design Note DN06016/D NCP3063: 24 V to 12 V Buck (w/ Duty Cycle Control)

Design Note DN06001/D NCP3063: 9 V to 36 Vin dc, Constant Current LED Driver

Application Note AND8291/D >85% Efficient 12 to 5 VDC Buck Converter

Application Note AND8284/DImproving Output Voltage Ripple of the NCP3063 Series of Switching Regulators by Applying a Simple Feedfor-ward Technique

Application Note AN920/D Theory and Applications of the MC34063 and µA78S40 Switching Regulator Circuits

MC34063A

Design Tool — MC34063A Evaluation Circuit Simulation

Evaluation Board MC34063LBBEVB MC34063A up-to 100kHz, 40 V/1.5 A Leaded Buck-Boost Regulator Evaluation Board

Evaluation Board MC34063LBEVB MC34063A up-to 100kHz, 40 V/1.5 A Leaded Boost Regulator Evaluation Board

Evaluation Board MC34063LBKEVB MC34063A up-to 100kHz, 40 V/1.5 A Leaded Buck Regulator Evaluation Board

Evaluation Board MC34063LINVEVB MC34063A up-to 100kHz, 40 V/1.5 A Leaded Voltage Inverting Regulator Evaluation Board

Evaluation Board MC34063SMDBBEVB MC34063A up-to 100kHz, 40 V/1.5 A SMD Buck-Boost Regulator Evaluation Board

Evaluation Board MC34063SMDBEVB MC34063A up-to 100kHz, 40 V/1.5 A SMD Boost Regulator Evaluation Board

Evaluation Board MC34063SMDBKEVB MC34063A up-to 100kHz, 40 V/1.5 A SMD Buck Regulator Evaluation Board

Evaluation Board MC34063SMDINVEVB MC34063A up-to 100kHz, 40 V/1.5 A SMD Voltage Inverting Regulator Evaluation Board

Application Note AN920/D Theory and Applications of the MC34063 and µA78S40 Switching Regulator Circuits

CS5171Design Note DN06004/D CS5171: SEPIC LED Driver

Design Note DN06022/D CS5171: Tracking boost regulator

NCP3163

Design Tool — NCP3163 Excel Design Tool

Evaluation Board NCP3163BSTEVB NCP3163 24 V/700 mA DC-DC Converter Evaluation Board

Evaluation Board NCP3163BUCKEVB NCP3163 5 V/3 A DC-DC Converter Evaluation Board

Evaluation Board NCP3163INVEVB NCP3163 -15 V/ 500 mA Voltage Inverting Evaluation Board

NCP5424 Evaluation Board NCP5424EVB NCP5424EVB Dual Synchronous Buck Controller with Current Sharing Evaluation Board

NCP1582/3Evaluation Board NCP1582DR2GEVB NCP1582DR2 Low Voltage Synchronous Buck Controller Evaluation Board

Evaluation Board NCP1583DR2GEVB NCP1583DR2 Low Voltage Synchronous Buck Controller Evaluation Board

TL494 Application Note AN983/D A Simplified Power Supply Design Using the TL494 Control Circuit

NCP1571 Application Note AND8079/DA Low Cost DDR Memory Power Supply Using the NCP1571 Sync Buck Converter & LM358 Based Linear Volt-age Regulator

NCP1216AEvaluation Board NCP1216AFORWEVB NCP1216A 35 W Forward DC-DC Converter Evaluation Board

Application Note AND8161/D Implementing a DC-DC Single-Ended Forward Converter with the NCP1216A


Secondary Side Controllers

Voltage References

Features• Highly versatile designs support varying modes (CCM, DCM,

QR) under the flyback topology to cover a broad range of applications

• Independent skip cycle feature on output drivers improves standby power efficiency

• Multiple MOSFET drivers directly fed by secondary AC signal, provides significant advantage in terms of power efficiency, and reduces external component count

• Provides superior cross regulation performance• Integrated fault protection functions:

n Built−in delays for OVP, UVP, and Overload to avoid false tripping

n Over-temperature shut down inputs

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

Secondary Side ControllersDevice Function Package

NCP4302 Secondary Side Synchronous Flyback Controller SOIC-8

NCP4330 Secondary Side Synchronous Controller SOIC-8

NCP4350* Supervisory IC for Desktop Power Supply Monitoring SOIC-16

NCP102* Low Dropout Linear Regulator Controller TSOP-6


NCP4302 Design Tool NCP4302 Design Tool

NCP4330Evaluation Board NCP4330EVB/D 3V3 Post-Regulation Driven by the NCP4330 Evaluation Board Description


Voltage ReferencesDevice 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

* Planned 2H07

ON Semiconductor

Voltage Regulators

Features• Dropout voltages as low as 40 mV• Output currents ranging from 30 mA to 5 A• Power Supply Rejection Ratios as high as 85 dB• Ultra-fast transient response of less than 1 mS

Linear Voltage RegulatorsDevice Channels Iout Vout (V) Dropout PackageNCP590 Dual 300, 300 mA 1.2, 1.5, 1.8, 2.4, 2.8 150, 150 mV DFN-8

NCP3520 Single Note 1 1.2 Note 1 Micro8

NCP3521 Single Note 1 1.5 Note 1 Micro8

NCP5663 Single 3.0 A Adj., 1.5, 1.8 1.0 V D2PAK

NCP5666 Single 3.0 A 2.5 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

NCP565 Single 1.5 A Adj., 1.2, 1.5, 2.8, 3.0, 3.3 900 mV SOT-223, DFN-6, D2PAK

NCP566 Single 1.5 A 1.2, 1.8, 2.5 900 mV SOT-223

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

NCP3334 Single 500 mA Adj. 340 mV SO-8

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

NCP5500 Single 500 mA Adj., 1.5, 5.0 300 mV DPAK

NCP5501 Single 500 mA 1.5, 5.0 300 mV DPAK

MC33375 Single 300 mA 1.8, 2.5, 3.0, 3.3, 5.0 260 mV SOT-223, SO-8

NCP600 Single 150 mA Adj., 1.5, 1.8, 2.8, 3.0, 3.3, 3.5, 5.0 75 mV TSOP-5

NCP699 Single 150 mA 1.5, 1.8, 2.5, 2.8, 3.0, 3.3, 5.0 320 mV TSOP-5

NCP700 Single 150 mA 1.8, 2.8, 3.0 100 mV DFN-6

LM2931 Single 100 mA Adj., 5.0 160 mV SO-8, TO-92, TO-220, DPAK, D2PAK

LP2950 Single 100 mA 3.0, 3.3, 5.0 350 mV TO-92, DPAK

LP2951 Single 100 mA Adj., 3.0, 3.3, 5.0 350 mV SO-8, DIP-8, Micro8

Note 1: These electrical characteristics are determined by an external MOSFET used in conjunction with the LDO controller.


NCP3520/1Evaluation Board NCP3520DMR2GEVB NCP3520 LDO Regulator Controller Evaluation Board

Evaluation Board NCP3521DMR2GEVB NCP3521 LDO Regulator Controller Evaluation Board

NCP565Evaluation Board NCP565V12EVB NCP565 1.5 A Fixed Output Voltage Linear Regulator Evaluation Board

Evaluation Board NCP565VADJEVB NCP565 1.5 A Adjustable Output Voltage Linear Regulator Evaluation Board

( ERUTAREPMET C)

806040200-20-404.954.96

4.97

5.00

5.01

5.02

5.04

5.05

Vou

t, O

UT

PU

T V

OLT

AG

E (

V)

4.98

4.99

5.03

200 mA

150 mA

100 mA 50 mA1 mA

NCP590 Output Voltage Change vs. Temperature for 5.0 Vout


MOSFETs

N-Channel Power MOSFETs

DeviceVDS (V)

VGS (V)

ID Max (A)

RDS(on) Max (mΩ) @ 10 V

RDS(on) Max (mΩ) @ 4.5 V

QG Typ (nC) @ 4.5 V

RG (W) Package

NTMFS4833N 30 20 191 2.0 3.0 39.0 1.0 SO-8 FL

NTMFS4834N 30 20 130 3.0 4.0 32.0 1.4 SO-8 FL

NTMFS4835N 30 20 104 3.5 5.0 22.0 1.3 SO-8 FL

NTMFS4836N 30 20 90 4.0 6.0 20.0 1.1 SO-8 FL

NTMFS4837NH 30 20 75 5.0 8.0 15.9 0.9 SO-8 FL

NTMFS4839NH 30 20 64 5.5 10.3 12.9 0.9 SO-8 FL

NTMFS4841NH 30 20 59 7.0 11.6 11.3 0.9 SO-8 FL

NTD4804N 30 20 117 4.0 5.5 30.0 0.6 DPAK

NTD4805N 30 20 88 5.0 7.4 20.5 0.8 DPAK

NTD4806N 30 20 76 6.0 9.4 15.0 1.8 DPAK

NTD4809NH 30 20 58 9.0 12.5 12.5 0.75 DPAK

NTD4810NH 30 20 54 10.0 16.7 8.9 0.75 DPAK

NTD4813NH 30 20 40 13.0 25.9 7.1 0.75 DPAK

NTD4815NH 30 20 35 15.0 27.7 6.4 0.75 DPAK


NTMFS48xxN, NTMFS48xxNH Application Note AND8195/D Board Mounting Notes for SO-8 Flat Lead

Features• SO-8 FL package delivers enhanced thermal performance• Minimize conduction losses with lower RDS(on)• Minimize switching losses with lower Gate Charge

ON Semiconductor

Rectifiers

Features• Low Vf• High operating temperature

capabilities• Enhanced efficiency

Rectifiers

DeviceVRRM Min

(V)IO(rec) Max

(A)VF Max

(V)IRM Max

(mA)IFSM Max

(A) Package

MBR30H150CT* 150 30 0.75 @ 5 A 200 200 TO-220

MBRF30H150CT* 150 30 0.75 @ 5 A 200 200 TO-220 FULLPAK

MBR20H150CT* 150 20 0.76 @ 5 A 150 200 TO-220

MBRF20H150CT* 150 20 0.76 @ 5 A 150 200 TO-220 FULLPAK

MBR10H150CT* 150 10 0.82 @ 3 A 100 200 TO-220 FULLPAK

MBR60H100CT 100 60 0.98 10 350 TO-220

MBR40H100WT 100 40 0.90 10 200 TO-247

MBR41H100CT 100 40 0.90 10 350 TO-220

MBRB41H100CT 100 40 0.90 10 350 D2PAK

MBRB41H100CT-1 100 40 0.90 10 350 I2PAK

MBR30H100CT 100 30 0.93 4.5 250 TO-220

MBR20H100CT 100 20 0.88 4.5 250 TO-220

MBRB20H100CT 100 20 0.88 4.5 250 D2PAK

MBRF20H100CT 100 20 0.88 4.5 250 TO-220 FULLPAK

MBR10H100CT 100 10 0.85 3.5 180 TO-220

MBR30H60CT 60 30 0.78 300 260 TO-220

MBRB30H60CT-1 60 30 0.78 300 260 I2PAK

MBRB30H30CT-1 30 30 0.55 800 260 I2PAK

* Planned 2H07

BRD8063/DBRD8063-0 PRINTED IN USA 07/07 IRONWOOD XXXX 5K

ON Semiconductor and the ON logo are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

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