Fundamentals of electronics.
By: Schubert, Thomas, Jr [author.].
Contributor(s): Kim, Ernest M [author.].
Material type: BookSeries: Synthesis digital library of engineering and computer science: ; Synthesis lectures on digital circuits and systems: # 50.Publisher: San Rafael, California (1537 Fourth Street, San Rafael, CA 94901 USA) : Morgan & Claypool, 2016.Description: 1 PDF (xvi, 925-1174 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9781627055697.Other title: Oscillators and advanced electronics topics.Subject(s): Electronics | Electronic apparatus and appliances | Oscillators, Electric | Harmonic oscillators | Nonlinear oscillators | oscillators | phase-shift oscillator | Wien-Bridge oscillator | Colpitts oscillator | Hartley oscillator | multivibrator | waveform shaping | 555 timer | silicon controlled rectifier (SCR) | Triac | voltage regulator | transient suppression | overvoltage protection | analog to digital conversion | voltage controlled oscillator (VCO) | phase-locked look (PLL) | filter | modulator | demodulator | TTL | ECLDDC classification: 621.381 Online resources: Abstract with links to resource Also available in print.Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
---|---|---|---|---|---|---|
E books | PK Kelkar Library, IIT Kanpur | Available | EBKE714 |
Mode of access: World Wide Web.
System requirements: Adobe Acrobat Reader.
Part of: Synthesis digital library of engineering and computer science.
Includes bibliographical references.
12. Oscillator circuits -- 12.1 Linear analysis -- 12.1.1 Design of practical oscillators -- 12.1.2 Frequency stability -- 12.2 RC oscillators -- 12.2.1 Phase-shift oscillator -- 12.2.2 Wien-bridge oscillator -- 12.3 LC oscillators -- 12.3.1 Colpitts oscillator -- 12.3.2 Hartley oscillator -- 12.4 Crystal oscillators -- 12.5 Concluding remarks -- 12.6 Problems -- References --
13. Waveform generation and waveshaping -- 13.1 Multivibrators -- 13.1.1 Bistable multivibrators -- 13.1.2 Astable multivibrators -- 13.1.3 Monostable multivibrators -- 13.2 Generation of square and triangular waveforms using Astable multivibrators -- 13.2.1 Precision square wave generation -- 13.2.2 Simultaneous square and triangle wave generation -- 13.2.3 Voltage-controlled frequency of oscillation -- 13.3 Non-linear waveform shaping -- 13.4 Integrated circuit multivibrators -- 13.4.1 A 555 timer monostable multivibrator -- 13.4.2 A 555 timer Astable multivibrator -- 13.5 Concluding remarks -- 13.6 Problems -- 13.7 References --
14. Power circuits -- 14.1 Thyristors -- 14.1.1 The silicon controlled rectifier -- 14.1.2 The Triac -- 14.2 Voltage regulator design -- 14.2.1 The voltage reference -- 14.2.2 The error amplifier -- 14.2.3 Linear voltage regulators -- 14.2.4 Switching voltage regulators -- 14.3 Voltage regulator applications -- 14.3.1 Extending the capabilities of a simple voltage regulator -- 14.4 Transient suppression and overvoltage protection -- 14.5 Concluding remarks -- 14.6 Problems -- References --
15. Communication circuits -- 15.1 Analog-to-digital conversion -- 15.1.1 Quantizing and sampling -- 15.1.2 Quantizing error and sampling frequency -- 15.1.3 Flash analog-to-digital converters -- 15.2 Voltage-controlled oscillators -- 15.3 Mixers -- 15.3.1 BJT mixers -- 15.3.2 Dual gate FET mixer -- 15.4 Phase-lock loops -- 15.5 Active and passive filter design -- 15.5.1 Passive LC filters -- 15.5.2 Tuned amplifiers -- 15.6 Modulator/demodulator design -- 15.7 Receiver design issues -- 15.8 Concluding remarks -- 15.9 Problems -- References --
16. Digital circuits -- 16.1 The switching speed of bipolar junction transistors -- 16.2 Bipolar digital gate circuits -- 16.2.1 TTL and DTL logic gates -- 16.2.2 ECL logic gates -- 16.2.3 I2L logic gates -- 16.3 Dynamic properties of metal oxide semiconductor transistors -- 16.4 MOS digital gate circuits -- 16.5 Bistable logic circuits -- 16.6 Semiconductor memories -- 16.7 Gallium arsenide logic -- 16.8 Concluding remarks -- 16.9 Problems -- References -- Authors' biographies.
Abstract freely available; full-text restricted to subscribers or individual document purchasers.
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This book, Oscillators and Advanced Electronics Topics, is the final book of a larger, four-book set, Fundamentals of Electronics. It consists of five chapters that further develop practical electronic applications based on the fundamental principles developed in the first three books. This book begins by extending the principles of electronic feedback circuits to linear oscillator circuits. The second chapter explores non-linear oscillation, waveform generation, and waveshaping. The third chapter focuses on providing clean, reliable power for electronic applications where voltage regulation and transient suppression are the focus. Fundamentals of communication circuitry form the basis for the fourth chapter with voltage-controlled oscillators, mixers, and phase-lock loops being the primary focus. The final chapter expands upon early discussions of logic gate operation (introduced in Book 1) to explore gate speed and advanced gate topologies. Fundamentals of Electronics has been designed primarily for use in upper division courses in electronics for electrical engineering students and for working professionals. Typically such courses span a full academic year plus an additional semester or quarter. As such, Oscillators and Advanced Electronics Topics and the three companion book of Fundamentals of Electronics form an appropriate body of material for such courses.
Also available in print.
Title from PDF title page (viewed on April 16, 2016).
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