BioMedical Instrumentation Lab., BME, Yonsei University 윤 자 웅윤 자 웅 2010. 12. 28 The Design of Output Stages & Driver Section in SMPS Power Supply CookBook.

Slides:

Advertisements

Similar presentations

Basic Electronics Part 2: Power Supply Design

Advertisements

Power Semiconductor Systems I

Introduction to DC-DC Conversion – Cont.

Professor Sung-Yeul Park

ECE 4501 Lecture 11: Rectifiers, Switches and P ower Supplies.

Switching-Mode Regulators

Power Electronics Chapter 5 DC to DC Converters (Choppers)

Chapter 8 Switching Power Supplies

Course Outline 1. Chapter 1: Signals and Amplifiers

EKT214 - ANALOG ELECTRONIC CIRCUIT II

DC-DC Fundamentals 1.3 Switching Regulator

CHAPTER 6 VOLTAGE REGULATOR POWER SUPPLIES (VOLTAGE REGULATORS) Fig. 6.1 Block diagram showing parts of a power supply. Power supply Power supply: a.

Semiconductors and Diodes

BioMedical Instrumentation Lab., BME, Yonsei University 윤 자 웅윤 자 웅 Switching Mode Power Supplies (SMPS) Power Supply CookBook (2 nd ) – Marty.

Power Electronics Lecture-9 Power Transistors & GTO Dr. Imtiaz Hussain

Chapter 1 Power Electronic Devices

Power Electronics and Drives (Version ) Dr. Zainal Salam, UTM-JB 1 Chapter 3 DC to DC CONVERTER (CHOPPER) General Buck converter Boost converter.

Transistors Three-terminal devices with three doped silicon regions and two P-N junctions versus a diode with two doped regions and one P-N junction Two.

© The McGraw-Hill Companies, Inc McGraw-Hill 1 PRINCIPLES AND APPLICATIONS OF ELECTRICAL ENGINEERING THIRD EDITION G I O R G I O R I Z Z O N I 11.

CIRCUITS, DEVICES, AND APPLICATIONS Eng.Mohammed Alsumady

C H A P T E R 4 Diodes (non-linear devices)

Power Supply Design J.SHANMUGAPRIYAN.

Industrial Electrical Engineering and Automation Structures of the Energy flow system Mechatronics 2007.

Diodes and Diode Circuits

Lecture # 12&13 SWITCHING-MODE POWER SUPPLIES

Dc regulated power supply SKN. Introduction All electronic circuits need DC power supply either from battery or power pack units. Many electronic equipment.

BASIC SEMICONDUCTOR ELECTRONIC CIRCUITS Introduction of two basic electronic elements: diode and transistor LEARNING GOALS Diodes structure and four modeling.

Linear Power Supplies, Switched Mode Power Supply

Introduction to DC-DC Conversion – Cont.

Amateur Radio Licensure Week 5: Advanced Electronics Seth Price, N3MRA New Mexico Institute of Mining and Technology February 28, 2016.

Switch Mode Power Supply(SMPS) BY: Arijit Acharya NETAJI SUBHASH ENGINEERING COLLEGE M.tech(P.S.) Roll No - 1.

Rectifier A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which.

Bridge Rectifier Circuit with Working Operation and Their Types.

(SWTCHED - MODE POWER SUPPLY)

6/22/2016 “IN THE NAME OF ALLAH THE MOST MERCIFUL AND THE MOST BENEFICIAL”

Power Supplies (Voltage Regulators)

SILVER OAK COLLEGE OF ENGG. & TECHNOLOGY  SUB – Electronics devices & Circuits  Topic- JFET  Student name – Kirmani Sehrish  Enroll. No

Chapter 6: Voltage Regulator

Electronics Technology Fundamentals Chapter 21 Field-Effect Transistors and Circuits.

UNIT- II Rectifiers and Filters. Basic Rectifier setup, half wave rectifier, full wave rectifier, bridge rectifier, derivations of characteristics of.

Rectifiers, Switches and Power Supplies

Switching-Mode Regulators

Power Electronics Prof. Mohammed Zeki Khedher

Lecture 10 Power Device (1)

Chapter 2 Overview of Power Semiconductor Devices

Rectifiers and Filters

Power Semiconductor Systems I

Prepared By: Talar Upendra ( ) Sodha Akram ( )

AC Inlet & AC Input Filter

Dr John Fletcher Rm 131 Power Electronics Dr John Fletcher Rm 131.

Institute of Technology

Subject Name: POWER ELECTRONICS Subject Code: 10EC73

Electronics Fundamentals

Vibration Energy Harvesting Circuit to Power Wireless Sensor Nodes

Basics of Electronics Conductors: have low resistance which allows electrical current flow easily. Insulators: have high resistance which suppresses electrical.

ECE 442 Power Electronics Text:

POWER SEMICONDUCTOR DEVICES OVERVIEW

Diodes AIM: To understand diode characteristics

Power Semiconductor Systems I

Power Semiconductor Systems II

Introduction Dr. Kakade K.P.

JFET Junction Field Effect Transistor.

POWER ELECTRONICS DC-DC CONVERTERS (CHOPPERS) PART 2

POWER ELECTRONICS DC-DC CONVERTERS (CHOPPERS) PART 1

Lecture 10 Power Device (1)

Power Electronic Systems Power electronics refers to control and conversion of electrical power by power semiconductor devices wherein these devices operate.

Presentation On Schottky Diode. Course Code:3208 Course Title : Microwave radar and satellite communication lab Presented By Salma Akter BKH F.

Presentation transcript:

BioMedical Instrumentation Lab., BME, Yonsei University 윤 자 웅윤 자 웅 The Design of Output Stages & Driver Section in SMPS Power Supply CookBook (2 nd ) – Marty Brown

Contents BioMedical Instrumentation Lab., BME, Yonsei University 1.The Design of Output Stages - Passive Rectifier and Output stage - Active Rectifier and Output stage 2. The Design of Driver Section - BJT ( fixed base, proportional base ) - MOSFET - IGBT

The Design of Output Stages BioMedical Instrumentation Lab., BME, Yonsei University A good design of the Output stage -> High efficiency of Power Supply Two Basic types of Output stage : ( Forward-Mode, Boost)

The Design of Output Stages - Rectification BioMedical Instrumentation Lab., BME, Yonsei University The designer should choose the type of rectification technology that is most appropriate for the application. Synchronous rectification (vs Passive rectification) 1.More effiicient 2.Typically, used in battery operated product 3.Restricted only to continuous forward-mode output 4. Need the added cost of the driving circuit. Adv. Dis Adv.

The Design of Output Stages – Passive Output Stage BioMedical Instrumentation Lab., BME, Yonsei University Traditional passive semiconductor rectifier based design Recommended to the SMPS those efficiencies of 72 ~ 84% How to choose ? ( k = 1 (full-wave), 2 (center-tapped) )

The Design of Output Stages – Schottky vs Ultrafast Diode BioMedical Instrumentation Lab., BME, Yonsei University Schottky Ultrafast P-N 0.3 – 0.6 V0.8 – 1.1 V Drop Out 35 – 85 ns Reverse recovery time Less than 15VDC out Less than 10ns Recommendation Junction Semiconductor - SemiconductorSemiconductor - Metal Characteristic Curve

The Design of Output Stages – Schottky vs Ultrafast Diode BioMedical Instrumentation Lab., BME, Yonsei University

The Design of Output Stages – Active Output Stage BioMedical Instrumentation Lab., BME, Yonsei University Active Output Stage = Synchronous Rectifiers Used in higher current (power) outputs. Power MOSFETs : Turned on whenever the rectifier is required to conduct. Very low resistance when conducting, On-Resistance (Rds(on))

The Design of Output Stages – Active Output Stage BioMedical Instrumentation Lab., BME, Yonsei University

The Design of Output Stages – The Output Filter BioMedical Instrumentation Lab., BME, Yonsei University Convert the rectified rectangular ac waveform into the dc output Forward Mode - 2 LC filter, Boost Mode – 1 LC filter Key Design factor 1. Inductor (L) : To operate in the continuous current mode 2. Capacitor (c) : Determine the ripple peak to peak voltage ( Usually, 30mVpp)

The Design of Output Stages – The Output Filter BioMedical Instrumentation Lab., BME, Yonsei University

The Design of Driver section BioMedical Instrumentation Lab., BME, Yonsei University Power Switch : BJT, Power MOSFET – needed a driver IGBT ( Integrated gate bipolar transistor) -> Higher power industrial applications, such as >> 1 kW

The Design of Driver section - BJT BioMedical Instrumentation Lab., BME, Yonsei University Current Driven Device. Full Saturation, Full Cutoff -> Switch-like operation Symbol & Equivalent Circuit

The Design of Driver section - BJT BioMedical Instrumentation Lab., BME, Yonsei University Current Driven Device. Full Saturation, Full Cutoff -> Switch-like operation Symbol & Equivalent Circuit

The Design of Driver section – Fixed base drive circuit BioMedical Instrumentation Lab., BME, Yonsei University

The Design of Driver section – Proportional base drive circuit BioMedical Instrumentation Lab., BME, Yonsei University

The Design of Driver section – Power MOSFET Power Switch BioMedical Instrumentation Lab., BME, Yonsei University The most common choice as a power switch Voltage-controlled current source. - to drive a MOSFET into saturation, enough voltage must be applied between the Gate – Source terminal. D-MOSFET, E-MOSFET Ciss, Coss, Cres

The Design of Driver section – IGBT Power Switch BioMedical Instrumentation Lab., BME, Yonsei University IGBT = Insulated Gate Bipolar Transistor Advantage of BJT + MOSFET Slow switching time ( < 100 kHz)

Selecting the optimum Control Method BioMedical Instrumentation Lab., BME, Yonsei University Selection of the control IC is very important Voltage-Mode control : Forward Mode Converter Current – Mode control : Buck, Boost, Buck-Boost, Flyback Needed some additional protection & feedback circuit 1. Voltage-Mode : Error Voltage Feedback 2. Current – Mode : Overloaded current protection circuit

Epilogue – Q&A BioMedical Instrumentation Lab., BME, Yonsei University Thank you for your attention !