Preface |
Acknowledgments |
Semiconductor Diodes / 1: |
Introduction / 1.1: |
Ideal Diode / 1.2: |
Semiconductor Materials / 1.3: |
Energy Levels / 1.4: |
Extrinsic Materials--n- and p-Type / 1.5: |
Semiconductor Diode / 1.6: |
Mathcad / 1.7: |
Resistance Levels / 1.8: |
Diode Equivalent Circuits / 1.9: |
Diode Specification Sheets / 1.10: |
Transition and Diffusion Capacitance / 1.11: |
Reverse Recovery Time / 1.12: |
Semiconductor Diode Notation / 1.13: |
Diode Testing / 1.14: |
Zener Diodes / 1.15: |
Light-Emitting Diodes (LEDs) / 1.16: |
Diode Arrays--Integrated Circuits / 1.17: |
Summary / 1.18: |
Computer Analysis / 1.19: |
Diode Applications / 2: |
Load-Line Analysis / 2.1: |
Diode Approximations / 2.3: |
Series Diode Configurations with DC Inputs / 2.4: |
Parallel and Series--Parallel Configurations / 2.5: |
AND/OR Gates / 2.6: |
Sinusoidal Inputs; Half-Wave Rectification / 2.7: |
Full-Wave Rectification / 2.8: |
Clippers / 2.9: |
Clampers / 2.10: |
Voltage-Multiplier Circuits / 2.11: |
Practical Applications / 2.13: |
Bipolar Junction Transistors / 2.14: |
Transistor Construction / 3.1: |
Transistor Operation / 3.3: |
Common-Base Configuration / 3.4: |
Transistor Amplifying Action / 3.5: |
Common-Emitter Configuration / 3.6: |
Common-Collector Configuration / 3.7: |
Limits of Operation / 3.8: |
Transistor Specification Sheet / 3.9: |
Transistor Testing / 3.10: |
Transistor Casing and Terminal Identification / 3.11: |
DC Biasing--BJTs / 3.12: |
Operating Point / 4.1: |
Fixed-Bias Circuit / 4.3: |
Emitter-Stabilized Bias Circuit / 4.4: |
Voltage-Divider Bias / 4.5: |
DC Bias with Voltage Feedback / 4.6: |
Miscellaneous Bias Configurations / 4.7: |
Design Operations / 4.8: |
Transistor Switching Networks / 4.9: |
Troubleshooting Techniques / 4.10: |
PNP Transistors / 4.11: |
Bias Stabilization / 4.12: |
Field-Effect Transistors / 4.13: |
Construction and Characteristics of JFETs / 5.1: |
Transfer Characteristics / 5.3: |
Specification Sheets (JFETs) / 5.4: |
Instrumentation / 5.5: |
Important Relationships / 5.6: |
Depletion-Type MOSFET / 5.7: |
Enhancement-Type MOSFET / 5.8: |
MOSFET Handling / 5.9: |
VMOS / 5.10: |
CMOS / 5.11: |
Summary Table / 5.12: |
Fet Biasing / 5.13: |
Fixed-Bias Configuration / 6.1: |
Self-Bias Configuration / 6.3: |
Voltage-Divider Biasing / 6.4: |
Depletion-Type MOSFETs / 6.5: |
Enhancement-Type MOSFETs / 6.6: |
Combination Networks / 6.7: |
Design / 6.9: |
Troubleshooting / 6.10: |
P-Channel FETs / 6.11: |
Universal JFET Bias Curve / 6.12: |
BJT Transistor Modeling / 6.13: |
Amplification in the AC Domain / 7.1: |
The Important Parameters: Z[subscript i], Z[subscript o], A[subscript v], A[subscript i] / 7.3: |
The r[subscript e] Transistor Model / 7.5: |
The Hybrid Equivalent Model / 7.6: |
Graphical Determination of the h-Parameters / 7.7: |
Variations of Transistor Parameters / 7.8: |
BJT Small-Signal Analysis / 8: |
Common-Emitter Fixed-Bias Configuration / 8.1: |
CE Emitter-Bias Configuration / 8.3: |
Emitter-Follower Configuration / 8.5: |
Collector Feedback Configuration / 8.6: |
Collector DC Feedback Configuration / 8.8: |
Approximate Hybrid Equivalent Circuit / 8.9: |
Complete Hybrid Equivalent Model / 8.10: |
FET Small-Signal Analysis / 8.11: |
FET Small-Signal Model / 9.1: |
JFET Fixed-Bias Configuration / 9.3: |
JFET Self-Bias Configuration / 9.4: |
JFET Voltage-Divider Configuration / 9.5: |
JFET Source-Follower (Common-Drain) Configuration / 9.6: |
JFET Common-Gate Configuration / 9.7: |
E-MOSFET Drain-Feedback Configuration / 9.8: |
E-MOSFET Voltage-Divider Configuration / 9.11: |
Designing FET Amplifier Networks / 9.12: |
Systems Approach--Effects of R[subscript S] and R[subscript L] / 9.13: |
Two-Port Systems / 10.1: |
Effect of a Load Impedance (R[subscript L]) / 10.3: |
Effect of a Source Impedance (R[subscript S]) / 10.4: |
Combined Effect of R[subscript S] and R[subscript L] / 10.5: |
BJT CE Networks / 10.6: |
BJT Emitter-Follower Networks / 10.7: |
BJT CB Networks / 10.8: |
FET Networks / 10.9: |
Cascaded Systems / 10.10: |
BJT and Jfet Frequency Response / 10.12: |
Logarithms / 11.1: |
Decibels / 11.3: |
General Frequency Considerations / 11.4: |
Low-Frequency Analysis--Bode Plot / 11.5: |
Low-Frequency Response--BJT Amplifier / 11.6: |
Low-Frequency Response--FET Amplifier / 11.7: |
Miller Effect Capacitance / 11.8: |
High-Frequency Response--BJT Amplifier / 11.9: |
High-Frequency Response--FET Amplifier / 11.10: |
Multistage Frequency Effects / 11.11: |
Square-Wave Testing / 11.12: |
Compound Configurations / 11.13: |
Cascade Connection / 12.1: |
Cascode Connection / 12.3: |
Darlington Connection / 12.4: |
Feedback Pair / 12.5: |
CMOS Circuit / 12.6: |
Current Source Circuits / 12.7: |
Current Mirror Circuits / 12.8: |
Differential Amplifier Circuit / 12.9: |
BIFET, BIMOS, and CMOS Differential Amplifier Circuits / 12.10: |
Operational Amplifiers / 12.11: |
Differential and Common-Mode Operation / 13.1: |
Op-Amp Basics / 13.3: |
Practical Op-Amp Circuits / 13.4: |
Op-Amp Specifications--DC Offset Parameters / 13.5: |
Op-Amp Specifications--Frequency Parameters / 13.6: |
Op-Amp Unit Specifications / 13.7: |
Op-Amp Applications / 13.8: |
Constant-Gain Multiplier / 14.1: |
Voltage Summing / 14.2: |
Voltage Buffer / 14.3: |
Controller Sources / 14.4: |
Instrumentation Circuits / 14.5: |
Active Filters / 14.6: |
Power Amplifiers / 14.7: |
Introduction--Definitions and Amplifier Types / 15.1: |
Series-Fed Class A Amplifier / 15.2: |
Transformer-Coupled Class A Amplifier / 15.3: |
Class B Amplifier Operation / 15.4: |
Class B Amplifier Circuits / 15.5: |
Amplifier Distortion / 15.6: |
Power Transistor Heat Sinking / 15.7: |
Class C and Class D Amplifiers / 15.8: |
Linear-Digital ICs / 15.9: |
Comparator Unit Operation / 16.1: |
Digital-Analog Converters / 16.3: |
Timer IC Unit Operation / 16.4: |
Voltage-Controlled Oscillator / 16.5: |
Phase-Locked Loop / 16.6: |
Interfacing Circuitry / 16.7: |
Feedback and Oscillator Circuits / 16.8: |
Feedback Concepts / 17.1: |
Feedback Connection Types / 17.2: |
Practical Feedback Circuits / 17.3: |
Feedback Amplifier--Phase and Frequency Considerations / 17.4: |
Oscillator Operation / 17.5: |
Phase-Shift Oscillator / 17.6: |
Wien Bridge Oscillator / 17.7: |
Tuned Oscillator Circuit / 17.8: |
Crystal Oscillator / 17.9: |
Unijunction Oscillator / 17.10: |
Power Supplies (Voltage Regulators) / 17.11: |
General Filter Considerations / 18.1: |
Capacitor Filter / 18.3: |
RC Filter / 18.4: |
Discrete Transistor Voltage Regulation / 18.5: |
IC Voltage Regulators / 18.6: |
Other Two-Terminal Devices / 18.7: |
Schottky Barrier (Hot-Carrier) Diodes / 19.1: |
Varactor (Varicap) Diodes / 19.3: |
Power Diodes / 19.4: |
Tunnel Diodes / 19.5: |
Photodiodes / 19.6: |
Photoconductive Cells / 19.7: |
IR Emitters / 19.8: |
Liquid-Crystal Displays / 19.9: |
Solar Cells / 19.10: |
Thermistors / 19.11: |
pnpn and Other Devices / 19.12: |
Silicon-Controlled Rectifier / 20.1: |
Basic Silicon-Controlled Rectifier Operation / 20.3: |
SCR Characteristics and Ratings / 20.4: |
SCR Construction and Terminal Identification / 20.5: |
SCR Applications / 20.6: |
Silicon-Controlled Switch / 20.7: |
Gate Turn-Off Switch / 20.8: |
Light-Activated SCR / 20.9: |
Shockley Diode / 20.10: |
DIAC / 20.11: |
TRIAC / 20.12: |
Unijunction Transistor / 20.13: |
Phototransistors / 20.14: |
Opto-Isolators / 20.15: |
Programmable Unijunction Transistor / 20.16: |
Oscilloscope and Other Measuring Instruments / 20.17: |
Cathode Ray Tube--Theory and Construction / 21.1: |
Cathode Ray Oscilloscope Operation / 21.3: |
Voltage Sweep Operation / 21.4: |
Synchronization and Triggering / 21.5: |
Multitrace Operation / 21.6: |
Measurement Using Calibrated CRO Scales / 21.7: |
Special CRO Features / 21.8: |
Signal Generators / 21.9: |
Appendices / 21.10: |
Making the Chips That Run the World / A: |
Hybrid Parameters--Conversion Equations (Exact and Approximate) / B: |
Ripple Factor and Voltage Calculations / C: |
Charts and Tables / D: |
Solutions to Selected Odd-Numbered Problems / E: |
Index |
Preface |
Acknowledgments |
Semiconductor Diodes / 1: |