Schematic Capture With Cadence Pspice,9780130276940

Schematic Capture With Cadence Pspice

by
Edition: CD
ISBN13: 9780130276940
ISBN10: 0130276944
Format: Paperback
Pub. Date: 2000-12-01
Publisher(s): Pearson College Div
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Summary

With step-by-step screen captures, this manual demonstrates how to use the Cadence®/Orcad® version of the Pspice® circuit simulation program with the Orcad Capture® front end. Focusing on a wide range of circuits, it features a collection of examples that show how to create a circuit, how to run the different analyses, and how to obtain the results from those analyses. Chapter topics cover editing a basic schematic using Orcad capture, introduction to probe, DC nodal analysis, DC sweep, AC sweep, transient analysis, creating and modifying models using Orcad capture, digital simulations, and Monte Carlo analyses.

Table of Contents

Editing A Basic Schematic With Orcad Capture
1(76)
Starting Orcad Capture
1(6)
Placing Parts
7(12)
Correcting Mistakes
19(1)
Changing Properties
19(11)
Wiring Components
30(4)
Correcting Wiring Mistakes
34(1)
Grounding Your Circuit
34(3)
Labeling Nodes
37(6)
Saving Your Schematic
43(1)
Editing the Title Block
44(20)
Modifying the Title Block in the Current Schematic
44(1)
Specifying Commonly Used Information for All Title Blocks
45(4)
Selecting A Different Title Block
49(5)
Creating Your Own Title Block
54(10)
Adding Schematic Pages to a Project
64(8)
Changing the Size of a Schematic
72(5)
Introduction To Probe
77(51)
Plotting Traces
83(6)
Deleting Traces
89(1)
Using the Markers to Add Traces
90(7)
Zooming In and Out
97(5)
Adding a Second Y-Axis
102(4)
Adding Plots
106(2)
Adding a Window
108(5)
Placing Text on Probe's Screen
113(3)
Placing Arrows on the Screen
116(1)
Moving Items on the Screen
117(2)
Using the Cursors
119(5)
Labeling Points
124(2)
Modifying Probe Trace Colors and Line Widths
126(2)
DC Nodal Analysis
128(34)
Resistive Circuit Nodal Analysis
128(12)
Nodal Analysis with Dependent Sources
140(6)
Diode DC Current and Voltage
146(5)
Finding the Thevenin and Norton Equivalents of a Circuit
151(5)
Transistor Bias Point Detail
156(5)
Summary
161(1)
DC Sweep
162(85)
Basic DC Analysis
162(5)
Diode I-V Characteristic
167(9)
Temperature Sweep---Diode I-V Characteristic
172(4)
Parametric Sweep---Maximum Power Transfer
176(7)
DC Transfer Curves
183(30)
Zener Clipping Circuit
183(2)
Secondary Sweep---Family of Transfer Curves
185(5)
NMOS Inverter Transfer Curve
190(5)
Goal Functions---Inverter Analysis
195(9)
Parametric Sweep---Family of Transfer Curves
204(9)
DC Secondary Sweep---BJT Characteristic Curves
213(3)
DC Current Gain of a BJT
216(11)
HFE Versus Collector Current
216(4)
HFE Versus IC for Different Values of VCE
220(3)
HFE Versus Temperature
223(4)
Temperature Analysis---Constant Current Sources
227(19)
Temperature Characteristics of a Resistor
227(9)
BJT Constant Current Source
236(5)
Op-Amp Constant Current Source
241(5)
Summary
246(1)
AC Sweep
247(49)
Magnitude and Phase (Phasors) Text Output
247(8)
Magnitude and Phase (Phasors) Graphical Output
255(5)
Bode Plots
260(7)
Using Goal Functions to Find the Upper 3 DB Frequency
263(4)
Amplifier Gain Analysis
267(2)
Operational Amplifier Gain
269(3)
Parametric Sweep---Op-Amp Gain Bandwidth
272(8)
Performance Analysis---Op-Amp Gain Bandwidth
280(5)
Mutual Inductance
285(5)
Measuring Impedance
290(5)
Impedance Measurement of a Passive Circuit
290(2)
Impedance Measurement of an Active Circuit
292(3)
Summary
295(1)
Transient Analysis
296(102)
Introduction
296(6)
Sources Used with the Transient Analysis
296(1)
Maximum step size
297(3)
Convergence
300(2)
Capacitor Circuit with Initial Conditions
302(8)
Note on Initial Conditions
309(1)
Capacitor Step Response
310(5)
Inductor Transient Response
315(3)
Regulated DC Power Supply
318(6)
Zener Clipping Circuit
324(6)
Plotting Transfer Curves
327(3)
Amplifier Voltage Swing
330(13)
Fourier Analysis with Probe
333(7)
Fourier Analysis with PSpice
340(3)
Ideal Operational Amplifier Integrator
343(5)
Multiple Operational Amplifier Circuit
348(2)
Operational Amplifier Schmitt Trigger
350(4)
Parametric Sweep---Inverter Switching Speed
354(9)
Performance Analysis---Inverter Rise Time
363(7)
Stimulus Editor
370(5)
Temperature Sweep---Linear Regulator
375(5)
Analog Behavioral Modeling
380(17)
Examples of ABM Parts
380(7)
Modeling the Step Response of a Feedback System
387(6)
Op-Amp Models with ABM Parts
393(2)
AC Sweep with ABM Parts
395(1)
Switching Power Supply
396(1)
Summary
397(1)
Creating And Modifying Models Using Capture
398(30)
Changing the Model Reference
399(4)
Creating New Models Using the Breakout Parts
403(4)
Modifying Existing Models
407(4)
Changing The Library Path
411(3)
Model Parameters For Commonly Used Parts
414(4)
Downloading Models Using The World Wide Web
418(9)
Obtaining a Model From the Web: Diode Model
419(5)
Obtaining Subcircuit Models From The Web: Op-Amp
424(3)
Summary
427(1)
Digital Simulations
428(31)
Digital Signal Sources
428(13)
Digital Signal
428(4)
Digital Clock
432(1)
Digital Stimulus Part (DigStim)
433(8)
Mixed Analog and Digital Simulations
441(8)
Effect of Not Initializing Flip-Flops
449(2)
Start-Up Clear Circuit
450(1)
Pure Digital Simulations
451(5)
Gate Delays
456(2)
Summary
458(1)
Bibliography
458(1)
Monte Carlo Analysis
459(44)
Device Models
459(1)
Uniform Distribution
459(1)
Gaussian Distribution
460(1)
Voltage Divider Analysis
460(16)
Voltage Divider Minimum and Maximum Voltage Gain
461(5)
Voltage Divider Monte Carlo Analysis
466(6)
Performance Analysis---Voltage Divider Gain Spread
472(4)
Voltage Divider Summary
476(1)
BJT Bias Analysis
476(5)
BJT Maximum and Minimum Collector Current
476(4)
BJT Minimum VCE
480(1)
BJT Amplifier Minimum and Maximum Gain
481(2)
Performance Analysis---Amplifier Frequency Response
483(7)
JFET Minimum and Maximum Drain Current
490(4)
JFET Minimum Bias Drain Current
490(3)
JFET Maximum Bias Drain Current
493(1)
Performance Analysis---Inverter Switching Speed
494(8)
Summary
502(1)
Bibliography
502(1)
A. INSTALLINGu ORCAD LITE VERSION 9.2 503(10)
Installing the Orcad Lite Software
503(5)
Installing the Libraries
508(2)
Circuit Files Used in the Text
510(3)
B. SCALE MULTIPLIERS FOR PSPICE AND CAPTURE 513(1)
C. FUNCTIONS AVAILABLE WITH PROBE 514(1)
D. SCHEMATIC ERRORS 515(8)
E. LISTING OF CLASS.LIB LIBRARY 523(9)
Index 532

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