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SPICE Circuit Handbook [Raamat]

  • Formaat: Book, 310 pages, kõrgus x laius x paksus: 231x155x29 mm, kaal: 631 g, 75 Illustrations
  • Ilmumisaeg: 16-Aug-2006
  • Kirjastus: McGraw-Hill Professional
  • ISBN-10: 0071468579
  • ISBN-13: 9780071468572
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SPICE Circuit HandbookSuurem pilt
  • Formaat: Book, 310 pages, kõrgus x laius x paksus: 231x155x29 mm, kaal: 631 g, 75 Illustrations
  • Ilmumisaeg: 16-Aug-2006
  • Kirjastus: McGraw-Hill Professional
  • ISBN-10: 0071468579
  • ISBN-13: 9780071468572
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780071468572.html
Märksõnad:
The expert guidance needed to customize your SPICE circuits

Over the past decade, simulation has become an increasingly integral part of the electronic circuit design process. This resource is a compilation of 50 fully worked and simulated Spice circuits that electronic designers can customize for use in their own projects. Unlike traditional circuit encyclopedias Spice Circuit Handbook is unique in that it provides designers with not only the circuits to use but the techniques to simulate their customization.

Acknowledgments xi
Chapter
1. Introduction		 1(6)
Chapter
2. Description of the PSpice, IsSpice, SIMetrix, and Micro-Cap Simulators		 7(12)
Basic Overview of SPICE
10(4)
SPICE syntax and tutorial
10(1)
DC analysis
11(1)
Transient analysis
12(1)
AC analysis
13(1)
Simulation Types and Data Acquisition
14(1)
Convergence Problems
14(5)
Steps to avoid common mistakes
14(1)
DC convergence solutions
15(1)
Transient convergence solutions
16(1)
AC convergence solutions
17(2)
Chapter
3. Filter Circuits		 19(42)
Fourth-Order Butterworth Low Pass Filter
19(5)
Fourth-Order Butterworth High Pass Filter
24(1)
Fourth-Order Butterworth Band Pass Filter
25(2)
Bessel—Thompson Delay Low Pass Filter
27(6)
Bessel—Thompson Delay Low Pass Filter with Pulse Shaper
33(4)
Inverted Bessel—Thompson Delay High Pass Filter
37(2)
Chebyshev Band Pass Filter
39(7)
Chebyshev Low Pass Filter
46(6)
Chebyshev High Pass Filter
52(1)
Electromagnetic Interference (EMI) Filter
52(9)
Chapter
4. Power Conversion Circuits		 61(58)
LM117 Three-Terminal Linear Regulator
61(7)
LM78S40 Simple Switcher DC-to-DC Converter
68(5)
UA723 Hysteretic Buck Regulator
73(9)
1524A Buck Regulator
82(11)
Low Drop-Out Regulator
93(13)
STR6600 Quasi-Resonant Discontinuous Flyback
106(6)
Discontinuous Flyback Converter
112(7)
Chapter
5. Electronic Load Circuits		 119(24)
Power Section of an Electronic Load
119(10)
Positive DC to Negative DC Comparator Converter
129(4)
Built-in Variable Electronic Load Adjustment
133(4)
Electronic Load Using Power BJT Transistors
137(6)
Chapter
6. Instrumentation Circuits		 143(52)
555 Timer
143(5)
555 Missing-Pulse Detector
148(12)
Class AB Amplifier
160(1)
Window Detector
161(15)
Voltage Clamp
176(1)
Resistance to Voltage
176(10)
Polarity Gain
186(9)
Chapter
7. Logic Circuits		 195(20)
Binary Counter
195(4)
Binary Decoder
199(6)
Set-Reset Latch
205(3)
Staircase Generator
208(7)
Chapter 8 Resonator/Oscillator Circuits 215(46)
555 Timer Oscillator
215(1)
Fourth-Order Butterworth. Low Pass Oscillalor
216(6)
Hex Inverter Oscillator
222(6)
Fourth-Order Butterworth No-Offset Low Pass Oscillator
228(10)
Harmonic Neutralized Sine-Wave Oscillator
238(6)
Colpitts Oscillator
244(15)
Schmitt Trigger Oscillator
259
LM111 Oscillator
256(5)
Chapter
9. Gate Drive Circuits		 261(16)
UC1846 50% Duty Cycle Gate Drive Circuit
262(4)
555 Pulse-Shaped MOSFET Driver
266(3)
Zero-to-100% Duty Cycle Driver
269(8)
Chapter 10, Voltage Multiplier Circuits 277(28)
AC-to-DC Voltage Doubler
277(4)
Cascade Doubler
281(4)
Bridge AC-to-DC Doubler
285(2)
AC-to-DC Quadrupler
287(5)
AC-to-DC Octupler (x 8)
292(5)
High Voltage, High Current DC-to-DC Doubler
297(8)
Index 305


Steven M. Sandler (Mesa, AZ) is currently a consultant to AEi Systems LLC, a power electronics firm he founded in 1995. He has developed and taught courses at Motorola University and has published many articles on power circuit modeling for PCIM, PEIN, and Intusoft Online. He holds a BSEE from Pacific Western University, and is the author of Spice3 SMPS Simulation.