Analog and Pulse Circuits

Cover
Half Title
Title Page
Copyright Page
Dedication
Preface
Table of Contents
Chapter 1 Linear Wave Shaping
1.1 Introduction
1.2 High Pass RC Circuit
1.3 Sinusoidal Input
1.4 Step Input Voltage
1.5 Pulse Input
1.6 Square-Wave Input
1.7 Ramp Input
1.8 Exponential Input (HPF)
1.9 Sinusoidal Input
1.10 High Pass RC Circuit as a Differentiator
1.11 Low-pass RC Circuit
1.12 Step Voltage Input
1.13 Pulse Input Voltage
1.14 Square Wave Input
1.15 Exponential Input: (LPF)
1.16 Low Pass RC Circuit as an Integrator
1.17 Attenuators
1.18 Step Input Response
1.19 High Pass RC Circuit
1.20 Step Input Voltage of High Pass RL Circuit
1.21 Low Pass RL Circuit
1.22 Step Input Voltage of Low Pass RC Circuit
1.23 Ringing Circuit
1.24 RLC Series Circuit
1.25 RLC Parallel Circuit
Chapter 2 Non Linear Wave Shaping
2.1 Introduction
2.2 Clipper Circuit (or) Limiter
2.3 Series Negative Clipper Circuit
2.4 Series Positive Clipper Circuit
2.5 Clipping above Reference Voltage VR
2.6 Clipping below Reference Voltage VR
2.7 Additional DC Supply in Series with Diode
2.8 Parallel Positive Clipper
2.9 Parallel Positive Clipper with Cutin Voltage Diode
2.10 Parallel Negative Clipper
2.11 Parallel Clipper with Reference Voltage VR
2.12 Parallel Negative Clipper with VR (Reference Voltage)
2.13 Two Way Parallel Clipper Circuit
2.14 Transistor Clipper
2.15 Emitter Coupled Clipper
2.16 Voltage Comparator
2.17 Clamper Circuits
2.18 Clamping Circuit Theorem
2.19 Clipper Circuits and Waveform
Chapter 3 Switching Characteristics of Devices
3.1 Introduction
3.2 Switching Characteristics of Junction Diodes
3.3 Switching Times of PN Junction Diode
3.4 Breakdown Mechanisms in PN Junction Diode
3.5 Transistors as a Switch
3.6 Transistor Breakdown Voltage
3.7 Transistor Switching Times
Chapter 4: Multi-vibrator
4.1 Introduction
4.2 Bistable Multi-vibrator
4.3 Collector Catching Diodes using a Fixed-bias Binary Multi-vibrator
4.4 Self Biased Transistor Bistable Multi-vibrator
4.5 Speed-up Capacitor (or) Commutating Capacitor
4.6 Non-saturating Binary
4.7 Unsymmetrical Triggering of Bistable Multi vibrator
4.8 Unsymmetrical Triggering using Unilateral Device (Diode)
4.9 Triggering Symmetrically Through a Unilateral Device
4.10 Direct-connection Binary
4.11 Mono Stable Multi-vibrator
4.12 Emitter Coupled Mono Stable Multi-vibrator
4.13 Triggering of Mono Stable Multi-vibrator
Chapter 5: Time Base Generator
5.1 Errors of Generation of Sweep Waveform
5.2 Displacement Error (ED)
5.3 Transmission Error
5.4 UJT Saw Tooth Generators
5.5 Separate Supply Voltage of UJT Saw Tooth Generator
5.6 A Transistor Constant Current Sweep
5.7 Miller Voltage Generators
5.8 Bootstrap Voltage Generators
5.9 Practical Bootstrap Sweep Generator
Chapter 6 Logic Gates
6.1 The and Gate
6.2 The not Gate (Inverter)
6.3 The Universal Gates
6.4 The Derived Gates
6.5 CMOS Logic Families
6.6 Characteristics of Logic Family
6.7 Two-input TTL N and Gate (Standard TTL)
6.8 Totem-pole Output
6.9 Open-collector Gates
Chapter 7 Sampling Gates
7.1 Introduction
7.2 Basic Operating Principle of Sampling Gates
7.3 Unidirectional Sampling Gates
7.4 Unidirectional Sampling Gates for more than one Input Signal
7.5 Sampling Gate with Multiple Gate Signals
7.6 Sampling Gate not Sensitive to Higher Level of Gate Signal
7.7 Bidirectional Sampling Gates
7.8 Bidirectional Diode Sampling Gate
7.9 Four Diode Sampling Gate
7.10 Six Diode Sampling Gate
7.11 Chopper Stabilized Amplifier