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Electronics / Allan R. Hambley.

By: Material type: TextTextPublisher: Upper Saddle River, N.J. : Prentice Hall, 2000Edition: 2nd editionDescription: xvi, 888 pages : illustrations ; 24 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 0136919820
Subject(s): DDC classification:
  • 621.381 21 H.A.E.
Contents:
1. Introduction -- Electronic Systems -- The Design Process -- Integrated Circuits -- Basic Amplifier Concepts -- Cascaded Amplifiers -- Power Supplies and Efficiency -- Decibel Notation -- Amplifier Models -- Ideal Amplifiers -- Amplifier Frequency Response -- Differential Amplifiers -- Summary -- Problems 2. Operational Amplifiers -- The Ideal Operational Amplifier -- The Summing-Point Constraint -- The Inverting Amplifier -- The Noninverting Amplifier -- Design of Simple Amplifiers -- Op-Amp Imperfections in the Linear Range of Operation -- Large-Signal Operation -- DC Imperfections -- Computer-Aided Analysis of Op-Amp Circuits -- A Collection of Amplifier Circuits -- Integrators and Differentiators -- Summary -- Problems 3. Diodes and Diode Circuits -- Diode Characteristics -- Load-Line Analysis -- The Ideal-Diode Model -- Rectifier Circuits -- Wave-Shaping Circuits -- Diode Logic Circuits -- Voltage-Regulator Circuits -- Linear Small-Signal Equivalent Circuits -- Basic Semiconductor Concepts -- Physics of the Junction Diode -- Switching and High-Frequency Behavior -- Computer-Aided Analysis of Diode Circuits -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A FUNCTION GENERATOR -- 4. Bipolar Junction Transistors -- Basic Operation of the npn Bipolar Junction Transistor -- Load-Line Analysis of a Common-Emitter Amplifier -- The pnp Bipolar Junction Transistor -- Large-Signal DC Circuit Models -- Large-Signal DC Analysis of BJT Circuits -- Small-Signal Equivalent Circuits -- The Common-Emitter Amplifier -- The Emitter-Follower -- The BJT as a Digital Logic Switch -- Summary -- Problems 5. Field-Effect Transistors -- NMOS Transistors -- Load-Line Analysis of a Simple NMOS Amplifier -- Bias Circuits -- Small-Signal Equivalent Circuits -- The Common-Source Amplifier -- The Source Follower -- JFETS, Depletion-Mode MOSFETs, and p-channel Devices -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A DISCRETE MULTISTAGE AMPLIFIER -- 6. Digital Logic Circuits -- Basic Concepts -- Electrical Specifications for Logic Gates -- The Resistor-Pull-Up NMOS Inverter -- Dynamic Response of the Resistor-Pull-Up NMOS Inverter -- The CMOS Inverter -- Propagation Delay of the CMOS Inverter -- CMOS NOR and NAND Gates -- Dynamic Logic -- The CMOS Transmission Gate and Pass Transistor Logic -- Summary -- Problems 7. Differential and Multistage IC Amplifiers -- Design Rules for Discrete and Integrated Circuits -- IC Biasing with BJTs -- IC Biasing with FETs -- Large-Signal Analysis of the Emitter-Coupled Differential Pair -- Small-Signal Equivalent-Circuit Analysis of the Emitter-Coupled Differential Pair -- Design of the Emitter-Coupled Differential Amplifier -- The Source-Coupled Differential Pair -- Examples of Multistage IC Amplifiers -- Summary -- Problems 8. Frequency Response -- Bode Plots -- Common-Source Amplifiers at High Frequencies -- The Miller Effect -- The Hybrid-…p Model for the BJT -- Common-Emitter Amplifiers at High Frequencies -- Common-Base, Cascode, and Differential Amplifiers -- Emitter Followers -- Low-Frequency Response of RC-Coupled Amplifiers -- Summary -- Problems 9. Feedback and Oscillators -- Effects of Feedback on Gain -- Reduction of Nonlinear Distortion and Noise -- Input and Output Impedances -- Practical Feedback Networks -- Design of Feedback Amplifiers -- Transient and Frequency Response -- Effects of Feedback on Pole Locations -- Gain Margin and Phrase Margin -- Dominant-Pole Compensation -- Examples of IC Amplifiers with Feedback -- Oscillator Principles -- The Wien-Bridge Oscillator -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A CARDIAC PACEMAKER -- 10. Output Stages and Power Supplies -- Thermal Considerations -- Power Devices -- Class-A Output Stages -- Class-B Amplifiers -- Linear Voltage Regulators -- Linear-Power-Supply Design -- Summary -- Problems 11. Active Filters and Tuned Circuits -- Active Low-Pass Filters -- Active High-Pass Filters -- Active Bandpass Filters -- The Series Resonant Circuit -- The Parallel Resonant Circuit -- Series-Parallel Transformations -- Impedance-Matching Networks: A Design Example -- Tuned Amplifiers -- LC Oscillators -- Crystal-Controlled Oscillators -- Summary -- Problems 12. Waveshaping Circuits and Data Converters -- Comparators and Schmitt Trigger Circuits -- Astable Multivibrators -- The 555 Timer -- Precision Rectifiers -- Precision Peak Detector -- Sample-and-Hold Circuits -- Precision Clamp Circuits -- Data Conversion -- Digital-to-Analog Converters -- Analog-to-Digital Converters -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A PRECISION AC TO DC CONVERTER -- Appendix A -- Discrete Resistors -- Appendix B -- Data Sheet for the 2N2222A BJT -- Index
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Item type Current library Collection Call number Status Date due Barcode
Books Books Main library B3 Faculty of Engineering & Technology (Electrical) 621.381 H.A.E. (Browse shelf(Opens below)) Available 00007867

Includes bibliographical references and index.

1. Introduction -- Electronic Systems -- The Design Process -- Integrated Circuits -- Basic Amplifier Concepts -- Cascaded Amplifiers -- Power Supplies and Efficiency -- Decibel Notation -- Amplifier Models -- Ideal Amplifiers -- Amplifier Frequency Response -- Differential Amplifiers -- Summary -- Problems 2. Operational Amplifiers -- The Ideal Operational Amplifier -- The Summing-Point Constraint -- The Inverting Amplifier -- The Noninverting Amplifier -- Design of Simple Amplifiers -- Op-Amp Imperfections in the Linear Range of Operation -- Large-Signal Operation -- DC Imperfections -- Computer-Aided Analysis of Op-Amp Circuits -- A Collection of Amplifier Circuits -- Integrators and Differentiators -- Summary -- Problems 3. Diodes and Diode Circuits -- Diode Characteristics -- Load-Line Analysis -- The Ideal-Diode Model -- Rectifier Circuits -- Wave-Shaping Circuits -- Diode Logic Circuits -- Voltage-Regulator Circuits -- Linear Small-Signal Equivalent Circuits -- Basic Semiconductor Concepts -- Physics of the Junction Diode -- Switching and High-Frequency Behavior -- Computer-Aided Analysis of Diode Circuits -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A FUNCTION GENERATOR -- 4. Bipolar Junction Transistors -- Basic Operation of the npn Bipolar Junction Transistor -- Load-Line Analysis of a Common-Emitter Amplifier -- The pnp Bipolar Junction Transistor -- Large-Signal DC Circuit Models -- Large-Signal DC Analysis of BJT Circuits -- Small-Signal Equivalent Circuits -- The Common-Emitter Amplifier -- The Emitter-Follower -- The BJT as a Digital Logic Switch -- Summary -- Problems 5. Field-Effect Transistors -- NMOS Transistors -- Load-Line Analysis of a Simple NMOS Amplifier -- Bias Circuits -- Small-Signal Equivalent Circuits -- The Common-Source Amplifier -- The Source Follower -- JFETS, Depletion-Mode MOSFETs, and p-channel Devices -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A DISCRETE MULTISTAGE AMPLIFIER -- 6. Digital Logic Circuits -- Basic Concepts -- Electrical Specifications for Logic Gates -- The Resistor-Pull-Up NMOS Inverter -- Dynamic Response of the Resistor-Pull-Up NMOS Inverter -- The CMOS Inverter -- Propagation Delay of the CMOS Inverter -- CMOS NOR and NAND Gates -- Dynamic Logic -- The CMOS Transmission Gate and Pass Transistor Logic -- Summary -- Problems 7. Differential and Multistage IC Amplifiers -- Design Rules for Discrete and Integrated Circuits -- IC Biasing with BJTs -- IC Biasing with FETs -- Large-Signal Analysis of the Emitter-Coupled Differential Pair -- Small-Signal Equivalent-Circuit Analysis of the Emitter-Coupled Differential Pair -- Design of the Emitter-Coupled Differential Amplifier -- The Source-Coupled Differential Pair -- Examples of Multistage IC Amplifiers -- Summary -- Problems 8. Frequency Response -- Bode Plots -- Common-Source Amplifiers at High Frequencies -- The Miller Effect -- The Hybrid-…p Model for the BJT -- Common-Emitter Amplifiers at High Frequencies -- Common-Base, Cascode, and Differential Amplifiers -- Emitter Followers -- Low-Frequency Response of RC-Coupled Amplifiers -- Summary -- Problems 9. Feedback and Oscillators -- Effects of Feedback on Gain -- Reduction of Nonlinear Distortion and Noise -- Input and Output Impedances -- Practical Feedback Networks -- Design of Feedback Amplifiers -- Transient and Frequency Response -- Effects of Feedback on Pole Locations -- Gain Margin and Phrase Margin -- Dominant-Pole Compensation -- Examples of IC Amplifiers with Feedback -- Oscillator Principles -- The Wien-Bridge Oscillator -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A CARDIAC PACEMAKER -- 10. Output Stages and Power Supplies -- Thermal Considerations -- Power Devices -- Class-A Output Stages -- Class-B Amplifiers -- Linear Voltage Regulators -- Linear-Power-Supply Design -- Summary -- Problems 11. Active Filters and Tuned Circuits -- Active Low-Pass Filters -- Active High-Pass Filters -- Active Bandpass Filters -- The Series Resonant Circuit -- The Parallel Resonant Circuit -- Series-Parallel Transformations -- Impedance-Matching Networks: A Design Example -- Tuned Amplifiers -- LC Oscillators -- Crystal-Controlled Oscillators -- Summary -- Problems 12. Waveshaping Circuits and Data Converters -- Comparators and Schmitt Trigger Circuits -- Astable Multivibrators -- The 555 Timer -- Precision Rectifiers -- Precision Peak Detector -- Sample-and-Hold Circuits -- Precision Clamp Circuits -- Data Conversion -- Digital-to-Analog Converters -- Analog-to-Digital Converters -- Summary -- Problems ANATOMY OF A CIRCUIT DESIGN: A PRECISION AC TO DC CONVERTER -- Appendix A -- Discrete Resistors -- Appendix B -- Data Sheet for the 2N2222A BJT -- Index

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