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Power Electronics for Technology [Hardback]

  • Formāts: Hardback, 448 pages, height x width x depth: 100x100x100 mm, weight: 100 g
  • Izdošanas datums: 29-Jul-1998
  • Izdevniecība: Pearson
  • ISBN-10: 0132310694
  • ISBN-13: 9780132310697
Citas grāmatas par šo tēmu:
Power Electronics for TechnologyPalielināt
  • Formāts: Hardback, 448 pages, height x width x depth: 100x100x100 mm, weight: 100 g
  • Izdošanas datums: 29-Jul-1998
  • Izdevniecība: Pearson
  • ISBN-10: 0132310694
  • ISBN-13: 9780132310697
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780132310697.html
Keywords:
Intended for use as a one-semester introductory course on the principles of power electronics at the sophomore/junior undergraduate level in an Electrical Engineering technology program; requires only a basic knowledge of mathematics. With an eye on new developments and the current demands of the workplace, this applications-oriented introduction offers an easy-to-understand explanation of the principles of power electronics, with complete coverage on the switching, control, and conversion of electrical power using semiconductor devices. Reflecting the increasing demand for efficient conversion and control of electrical power, it considers the latest power devices, circuits, and control schemes that continue to extend power electronics technology to new applications areas.
1 Power Electronics
1(17)
1.1 Introduction
2(1)
1.2 What Is Power Electronics?
2(1)
1.3 Why Power Electronics?
3(3)
1.4 Power Semiconductor Switches
6(1)
1.5 Power Losses in Real Switches
7(6)
1.6 Types of Power Electronics Circuits
13(2)
1.7 Applications of Power Electronics
15(1)
1.8 Problems
15(2)
1.9 Equations
17(1)
2 Power Diodes
18(20)
2.1 Introduction
19(1)
2.2 The PN Junction Diode
19(1)
2.3 The Voltage-Current Characteristic of a Diode
19(1)
2.4 The Ideal Diode
20(1)
2.5 The Schottky Diode
21(1)
2.6 Diode Circuit Analysis
22(3)
2.7 Diode Losses
25(2)
2.8 Principal Ratings for Diodes
27(1)
2.9 Diode Protection
28(1)
2.10 Testing a Diode
29(1)
2.11 Series and Parallel Operation of Diodes
29(6)
2.12 Problems
35(2)
2.13 Equations
37(1)
3 Power Transistors
38(35)
3.1 Introduction
39(1)
3.2 Power Bipolar Junction Transistors (BJTs)
40(12)
3.3 Power Metal-Oxide Semiconductor Field-Effect Transistors (MOSFETs)
52(10)
3.4 Insulated-Gate Bipolar Transistors (IGBTs)
62(3)
3.5 Unijunction Transistors (UJT)
65(5)
3.6 Problems
70(1)
3.7 Equations
71(2)
4 Thyristor Devices
73(49)
4.1 Introduction
74(1)
4.2 The Silicon Controlled Rectifier (SCR)
74(2)
4.3 SCR Characteristic Curves
76(2)
4.4 Testing SCRS
78(1)
4.5 SCR Ratings
79(1)
4.6 Junction Temperature Rating
90(1)
4.7 Increasing SCR Ratings
90(1)
4.8 Series and Parallel SCR Connections
91(6)
4.9 Power Loss
97(2)
4.10 SCR Protection
99(1)
4.11 Gate Circuit Protection
100(1)
4.12 SCR Gate-Triggering Circuits
101(5)
4.13 Triggering SCRs in Series and in Parallel
106(1)
4.14 SCR Turn-Off (Commutation) Circuits
107(4)
4.15 Other Types of Thyristors
111(8)
4.16 Problems
119(1)
4.17 Equations
120(2)
5 Single-Phase Uncontrolled Rectifiers
122(28)
5.1 Introduction
123(1)
5.2 The Half-Wave Rectifier (One-Pulse Circuit)
123(9)
5.3 Full-Wave Center-Tapped Transformer Rectifier (Two-Pulse Rectifier)
132(8)
5.4 The Full-Wave Bridge Rectifier
140(7)
5.5 Problems
147(1)
5.6 Equations
148(2)
6 Single-Phase Controlled Rectifiers
150(38)
6.1 Introduction
151(1)
6.2 Half-Wave Controlled Rectifiers
151(7)
6.3 Full-Wave Controlled Center-Tap Rectifiers
158(8)
6.4 Full-Wave Controlled Bridge Rectifiers
166(9)
6.5 Half-Controlled or Semi-Controlled Bridge Rectifiers
175(5)
6.6 Dual Converters
180(1)
6.7 Problems
181(5)
6.8 Equations
186(2)
7 Three-Phase Uncontrolled Rectifiers
188(28)
7.1 Introduction
189(1)
7.2 Three-Phase Half-Wave (Three-Pulse) Rectifiers
189(9)
7.3 Three-Phase Full-Wave (Six-Pulse) Bridge Rectifiers
198(12)
7.4 Twelve-Pulse Rectifier Circuits
210(3)
7.5 Problems
213(1)
7.6 Equations
214(2)
8 Three-Phase Controlled Rectifiers
216(52)
8.1 Introduction
217(1)
8.2 Half-Wave (Three-Pulse) Controlled Rectifiers
217(13)
8.3 Full-Wave (Six-Pulse) Controlled Bridge Rectifier
230(24)
8.4 Full-Wave Half-Controlled Bridge Rectifiers with FWD
254(6)
8.5 Twelve-Pulse Bridge Converters
260(2)
8.6 Problems
262(3)
8.7 Equations
265(3)
9 DC Choppers
268(36)
9.1 Introduction
269(1)
9.2 The Principles of Basic DC Choppers
269(4)
9.3 Step-Down (Buck) Choppers
273(11)
9.4 Step-Up (Boost) Choppers
284(11)
9.5 Buck-Boost Choppers
295(5)
9.6 Problems
300(2)
9.7 Equations
302(2)
10 Inverters
304(49)
10.1 Introduction
305(1)
10.2 The Basic Inverter
305(2)
10.3 Voltage Source Inverters (VSI)
307(11)
10.4 Inverter Voltage Control Techniques
318(3)
10.5 Pulse-Width Modulation (PWM)
321(3)
10.6 Pulse-Width Modulated (PWM) Inverters
324(4)
10.7 Other Basic Types of Single-Phase Inverters
328(1)
10.8 The Basic Principle of the Three-Phase Bridge VSI Inverter
329(18)
10.9 The Ideal Current Source Inverter (CSI)
347(3)
10.10 Problems
350(1)
10.11 Equations
351(2)
11 AC Voltage Controller
353(57)
11.1 Introduction
354(1)
11.2 AC Power Control
354(3)
11.3 Integral Cycle Control
357(2)
11.4 AC Phase Control
359(10)
11.5 Three-Phase AC Phase Control
369(18)
11.6 Half-Controlled AC Voltage Controllers
387(7)
11.7 Cycloconverters
394(11)
11.8 Problems
405(3)
11.9 Equations
408(2)
12 Static Switches
410(15)
12.1 Introduction
411(1)
12.2 Comparison of Static and Mechanical Switches
411(1)
12.3 Static AC Switches
412(4)
12.4 Three-Phase Static Switches
416(3)
12.5 Hybrid Switches
419(1)
12.6 The Solid State Relay (SSR)
419(1)
12.7 Static Tap-Changing Control
420(1)
12.8 The Static VAR Controller (SVC)
421(2)
12.9 Problems
423(1)
12.10 Equations
424(1)
Index 425