Power Electronics Principles and Applications

Name: Power Electronics Principles and Applications
Price: 14.04 USD
Availability: InStock
ISBN: 9780766823327

ISBN-10: 0766823326

ISBN-13: 9780766823327

Edition: 2002

Authors: J. Michael Jacob

List price: $239.95

30 day, 100% satisfaction guarantee!

Marketplace

3 new & used from $14.04

what's this?

Rush Rewards U
Members Receive:

You have reached 400 XP and carrot coins. That is the daily max!

Description:

Power Electronics; Principles and Applications guides the reader through the circuit analysis techniques in the design, analysis and fabrication of power electronics for consumer, and commercial applications as well as those unique to industrial manufacturing. Included are composite high-voltage amplifiers, power op amps, linear audio power ICs, MOSFETs used in class AB amplifiers and in power switches, switching power supplies, thyristors and thyristor control circuits. Ideal for use in ABET-accredited engineering technology programs, the book adds to the classical industrial power control a rare mix of electronics designed to deliver power to consumer and commercial loads such as audio…

Book details

List price: $239.95
Copyright year: 2002
Publisher: Delmar Cengage Learning
Publication date: 8/3/2001
Binding: Hardcover
Pages: 512
Size: 8.13" wide x 9.50" long x 1.00" tall
Weight: 2.442
Language: English



Preface



Advanced Operational Amplifier Principles


Introduction


Objectives



Op Amp Characteristics


Voltage Follower


Noninverting Amplifier


Inverting Amplifier



A Universal Analysis Technique


Difference Amplifier


Instrumentation Amplifier



Composite Amplifier


Power Output Stage


Active Feedback



Suspended Supply Amplifier


Suspending the Supply


The Amplifier


Tolerances, Tolerances, Tolerances!


Composite Amplifier


Summary


Problems


Suspended Supply Amp Lab Exercise



Power Electronics Circuit Layout


Introduction


Objectives



Mechanical and Thermal Details



Part Placement



Interconnections


Wire Gage


Traces



Other Considerations


Summary


Problems



Power Parameter Calculations


Introduction


Objectives



Common Waveforms


DC


Sinusoid


Rectangular Waves


Triangular Waves



Average Value


Rectangular Waves


Sinusoids


Triangular Waves



Root Mean Squared Value


DC Value


Rectangular Waves


Triangular Waves


Sinusoids



Power


DC Voltage and Current


Sinusoids


Rectangular Waves


Summary


Problems



Linear Power Amplifier Integrated Circuits


Introduction


Objectives



OPA548 Operational Amplifier IC



Power Calculations


DC Signal to the Load


Sinusoidal Signal to the Load



Heat Sinks



Protecting the OPA548



Audio Power Parameters



Low Power Audio Amplifier IC



High Power Audio Amplifier IC


Summary


Problems


Power Op Amp Lab Exercise



Discrete Linear Power Amplifier


Introduction


Objectives



The Enhancement Mode MOSFET


N-Channel


P-Channel



Class A Common Drain Amplifier


Bias


AC Operation



Class B Push-Pull Amplifier


The Push Amplifier


The Pull Amplifier


The Push-Pull Amplifier



Class B Amp with Op Amp Driver


Noninverting Amplifier


The Suspended Supply Amplifier


Layout Concerns


Inverting Amplifier


Op Amp Selection



Parallel MOSFETs in a Linear Amp



Amplifier Protection


Current Limiting


Thermal Shutdown



Driving a Reactive Load


Summary


Problems


Class B Amplifier Lab Exercise



Power Switches


Introduction


Objectives



Switching Characteristics


Diodes


Transistors



Parallel MOSFET Switches



Low Side Switches


Bipolar Junction Transistor


Open Collector Inverter


MOSFET Low Side Switch



High Side Switches


N-Channel High Side Switch


P-Channel High Side Switch


PNP High Side Switch



MOSFET Switch Drivers


Low Side MOSFET Driver


High and Low Side MOSFET Driver



H Bridge


Summary


Problems


Transistor Switch Lab Exercise



Switching Power Supplies


Introduction


Objectives



Buck Regulators


Basics


LM2595 Simple Switcher Buck Regulator IC



Boost Regulators


Basics


LM2585 Simple Switcher Flyback Regulator IC



Line Voltage Flyback Converter


The Flyback Converter


Line Voltage Input


Summary


Problems


Buck Regulator Lab Exercise


Boost Regulator Lab Exercise



Thyristors


Introduction


Objectives



Thyristor Device Characteristics


Silicon Controlled Rectifier


Triac


Low Side versus High Side Switch



Snubbing


Critical Rate of Rise of Current


Critical Rate of Rise of Voltage



Triggers


Shockley Diode


Diac


Optically Coupled Triac Trigger



Proportional Power Circuits


Time Proportioning


Phase Angle Firing


Summary


Problems


Triac Lab Exercise



Power Conversion and Motor Drive Applications


Introduction


Objectives



DC-to-DC Converters


Buck


Boost


Flyback Converter



AC-to-DC Converters


Single-Phase


Three-Phase



DC-to-AC Converters


Input Inverter


Secondaries


Microcontroller


H Bridge and Driver


Output Filter


Negative Feedback



Permanent Magnet Motor Drivers


Common Concerns


DC Brush Motor


DC Brushless Motor


Summary


Problems



Answers to Odd-Numbered Problems



Laboratory Parts and Special Equipment


Index