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SMPS Simulation with SPICE3 [Multiple-component retail product]

  • Formaat: Multiple-component retail product, 275 pages, kõrgus x laius: 157x157 mm, kaal: 450 g, Illustrations, Contains 1 Hardback and 1 Diskette
  • Ilmumisaeg: 01-Dec-1996
  • Kirjastus: McGraw-Hill Inc.,US
  • ISBN-10: 0079132278
  • ISBN-13: 9780079132277
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SMPS Simulation with SPICE3Suurem pilt
  • Formaat: Multiple-component retail product, 275 pages, kõrgus x laius: 157x157 mm, kaal: 450 g, Illustrations, Contains 1 Hardback and 1 Diskette
  • Ilmumisaeg: 01-Dec-1996
  • Kirjastus: McGraw-Hill Inc.,US
  • ISBN-10: 0079132278
  • ISBN-13: 9780079132277
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780079132277.html
Märksõnad:
SPICE3 is a software tool for simulating electronic circuits on a computer before actually building them. This guide shows how to simulate switched mode power supplies (SMPS). Along with teaching basic SPICE simulation techniques, it includes a disk of SPICE3 models for creating simulations.
Acknowledgments xi
Chapter
1. Introduction
1(16)
Why Simulate?
1(1)
About the SPICE Syntax Used in This Book
2(1)
SPICE 3 and Other SPICE Extensions
3(7)
Non-linear Dependent Sources (B element)
4(3)
Switch with Hysteresis (S Element)
7(3)
Software Included with This Book
10(1)
SPICE Based Analyses Types Used in This Book
11(6)
Operating Point Analysis
11(1)
Transfer Function Analysis
12(1)
Sensitivity Analysis
12(1)
DC Analysis
12(1)
AC Analysis
13(1)
Transient Analysis
14(1)
Fourier Analysis
14(1)
Temperature Analysis
14(1)
Monte Carlo and Worst Case Analysis
15(1)
Optimizer Analysis
15(2)
Chapter
2. SPICE Modeling of Magnetic Components
17(44)
Introduction
17(3)
Ideal Components in SPICE
20(3)
IsSpice Coupled Inductor Model
23(2)
Reluctance and Physical Models
25(8)
Saturable Core Modeling
33(1)
SPICE 2 Compatible Core Model
34(8)
How the Core Model Works
36(4)
Calculating Core Parameters
40(2)
SPICE 3 Compatible Core Model
42(8)
Example 1--MPP Core
45(2)
Ferrite Cores
47(2)
Example 2--Ferrite Core
49(1)
Constructing a Transformer
50(3)
High Frequency Winding Effects
53(8)
Chapter
3. EMI Filter Design
61(24)
Basic Requirements
61(2)
Defining the Negative Resistance
63(1)
Example 1--Input Resistance Analysis
63(1)
Defining the Harmonic Content
64(4)
Example 2--FOUR Analysis
65(1)
Example 3--Using the Optimizer to Calculate Harmonics
66(1)
Steps to Set-Up and Run and Optimizer Analysis
66(1)
Example 4--EMI Filter Design
67(1)
Calculating the Input Impedance
68(1)
Calculating the Harmonic Content
69(1)
Calculating the Required Attenuation
69(1)
Calculating the Component Values
69(1)
Damping Elements
70(1)
Fourth Order Filters
74(6)
Inrush Current
80(1)
MPP Inductors
81(2)
Inrush Current Limiting
83(2)
Chapter
4. Buck Topology Converters
85(24)
Hysteretic Switching Regulator
85(2)
Average (State Space) vs. Switching Level Transient Models
87(1)
Average Modeling Example
88(2)
SG1524A Buck Regulator
90(6)
Discontinuous Mode Simulation
96(1)
An Improved Buck Subcircuit
96(2)
Buck Model Derivation
98(2)
Definition of Terms
98(1)
Governing Equations
98(2)
Adding Slope Compensation
100(1)
Voltage Mode Control
101(1)
Improved SG1524A Buck Regulator
101(3)
Transient Model
104(5)
Chapter
5. Flyback Converters
109(18)
A Flyback Subcircuit
109(2)
Governing Equations
110(1)
Dual Output Flyback Converter
111(1)
Audio Susceptibility
111(3)
Feedforward Improvements
114(2)
Flyback Transient Response
116(2)
Simulating Regulation
118(3)
Definitions
119(2)
Time Domain Model
121(3)
Adding Slope Compensation
124(1)
Voltage Mode Control
125(2)
Chapter
6. Low Dropout Linear Regulator
127(6)
Headroom
129(1)
Transient Response
129(1)
Ripple Rejection
129(1)
Control Loop Stability
129(4)
Chapter
7. DC-to-AC Conversions
133(18)
Using SPICE to Generate a Sine ROM
133(4)
State Machine Modeling
137(3)
Using the Sine Reference to Drive a Power Stage
140(1)
Improving the Sine Wave Power Circuit
141(3)
Powering Non-linear Loads
144(3)
Three Phase Sine Reference
147(4)
Chapter
8. Improving Simulation Performance
151(12)
Building Circuit Models
152(1)
Simplifying Your Models
152(5)
OPTIONS
157(3)
State Machine Models
160(1)
Hardware Considerations
160(3)
Chapter
9. Solving Convergence and Other Simulation Problems
163(14)
What Is Convergence? (or in My Case, Non-Convergence)
163(1)
General Discussion
164(1)
IsSpice--New Convergence Algorithms
165(1)
Non-Convergence Error Messages Indications
166(1)
Convergence Solutions
166(1)
DC Convergence Solutions
166(3)
Common Mistakes and Problems
167(2)
DC Sweep Convergence Solutions
169(1)
Transient Convergence Solutions
170(2)
Modeling Tips
172(2)
Repetitive or Switching Simulations
174(1)
Other Convergence Helpers
175(2)
References 177(6)
General 177(1)
Average State Space Modeling and Simulation 178(2)
Magnetics Design and Modeling 180(3)
Index 183