Table of contents for PSpice for basic microelectronics / Joseph G. Tront.

Bibliographic record and links to related information available from the Library of Congress catalog.

Note: Contents data are machine generated based on pre-publication provided by the publisher. Contents may have variations from the printed book or be incomplete or contain other coding.

PSpice for Basic Microelectronics
Joseph G. Tront
Virginia Tech
Chapter 1: Introduction
1.1. Background
1.2. The Design Process
1.3. Appropriate Use of CAD
1.4. Versions of SPICE and Limitations
Chapter 2: Getting Started
2.1	Circuit Description
2.2	Specifying the Analysis
2.3	Simulation Results
2.4	Generating the Simulation File by Hand
Chapter 3: Simple DC Circuits
3.1	Independent Sources
3.2	Dependent Sources
3.3	DC Sweep Analysis
Chapter 4: Time Domain Analysis
4.1	Source-Free RL Circuits
4.2	Source-Free RC Circuits
4.3	Time-Varying Sources
4.4	Circuits with Time-Varying Sources
Chapter 5: Frequency Domain Analysis
5.1	Frequency Response
Chapter 6: Mutual Inductance and Transformers
6.1	Modeling Mutual Inductance
6.2	ideal Transformers
Chapter 7: Diode Circuits
7.1	Diode Circuit Elements
7.2	Basic Diode Behavior
7.3	Basic PSpice Diode Model
7.4	Diode DC Analysis Examples
	7.5 Diode Transient Analysis
Chapter 8: Bipolar Junction Transistor Circuits
 8.1 BJT Circuit Elements
 8.2 Basic BJT DC Behavior
 8.3 BJT DC Simulation
 8.4 BJT Transient Behavior Simulation
Chapter 9: Metal Oxide Semiconductor Field
9.1	MOSFET Circuit Elements
9.2	Basic MOSFET Behavior
9.2.1	MOSFET DC Current Equations
9.2.2	MOSFET Capacitance Equations
9.3	MOSFET DC Circuit Simulation
9.4 MOSFET Frequency Domain 
9.5 MOSFET Time Domain Simulation
Chapter 10: Conclusions
10.1	Common Mistakes
10.2	Tips
10.2.1Opening Projects
 10.2.2 Running PSpice
10.3 Summary
			Appendix I: Converting OrCAD Version 9.x Files to Version 10.0 
 Appendix II: Files Used by PSpice

Library of Congress Subject Headings for this publication:

Electric circuit analysis -- Data processing.
Microelectronics -- Data processing.