Quartz Crystal Oscillator Circuits Design Handbook

Quartz Crystal Oscillator Circuits Design Handbook PDF

Author: D. Firth

Publisher:

Published: 1965

Total Pages: 552

ISBN-13:

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The object of this handbook is to assemble a set of design methods for crystal oscillators in the frequency range of 1 KC to 200 MC with the aim of facilitating design, eliminating crystal unit misapplications, and reducing design costs. The handbook is not directed at the design of ultra-stable crystal oscillators, but rather at the non-temperature controlled, medium frequency stability oscillator commonly in use in many types of communications equipment. The handbook contains discussions of: (1) The electrical characteristics of crystal units, condition of usage, and methods of measurement. (2) Characteristics of tube and transistor amplifiers. (3) Characteristics of impedance transforming networks. (4) Detailed design information on series resonance and anti-resonance oscillators. (5) Design examples together with experimental evaluation data covering most of the 1 KC to 200 MC range. (Author).

Practical Oscillator Handbook

Practical Oscillator Handbook PDF

Author: Irving Gottlieb

Publisher: Elsevier

Published: 1997-06-12

Total Pages: 259

ISBN-13: 0080539386

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Oscillators have traditionally been described in books for specialist needs and as such have suffered from being inaccessible to the practitioner. This book takes a practical approach and provides much-needed insights into the design of oscillators, the servicing of systems heavily dependent upon them and the tailoring of practical oscillators to specific demands. To this end maths and formulae are kept to a minimum and only used where appropriate to an understanding of the theory. Once grasped, the theory of the general oscillator is easily put into practical use in actual oscillators. The final two chapters present a collection of oscillators from which the practising engineer or the hobbyist can obtain useful guidance for many kinds of projects. Irving Gottlieb is a leading author of many books for practising engineers, technicians and students of electronic and electrical engineering. First Newnes title by this best-selling author Clarity and crispness in an often obscure field

Electronic Methods

Electronic Methods PDF

Author: E. Bleuler

Publisher: Academic Press

Published: 2013-10-22

Total Pages: 461

ISBN-13: 1483191761

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Methods of Experimental Physics, Volume 2 – Part A: Electronic Methods, Second Edition focuses on techniques and experimental methods involving vacuum-tube and solid-state electronic devices and vacuum-tube circuitry. This volume consists of eight main topics—passive linear circuit elements and networks, semiconductor circuit elements, vacuum tubes, gas tubes, rectifier circuits and power supplies, amplifiers, oscillators, and nonlinear circuits. In these topics, this book specifically discusses the relations between time and frequency response; devices employing bulk semiconductor properties; Richardson-Dushman equation; and gas tube phenomena. The full-wave rectifiers with capacitive load; vacuum tube and field-effect transistor bias circuits; and harmonic oscillators are also elaborated. This text likewise covers the oscillators that use negative resistance devices; field-effect transistors; and analog-to-digital (A/D) converters. This publication is a good source for physicists and students interested in techniques and methods involving electronic equipment.

Crystal Oscillator Design and Temperature Compensation

Crystal Oscillator Design and Temperature Compensation PDF

Author: Marvin Frerking

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 252

ISBN-13: 9401160562

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Crystal oscillators have been in use now for well over SO years-one of the first was built by W. G. Cady in 1921. Today, millions of them are made every year, covering a range of frequencies from a few Kilohertz to several hundred Mega hertz and a range of stabilities from a fraction of one percent to a few parts in ten to the thirteenth, with most of them, by far, still in the range of several tens of parts per million.Their major application has long been the stabilization of fre quencies in transmitters and receivers, and indeed, the utilization of the frequency spectrum would be in utter chaos, and the communication systems as we know them today unthinkable,'without crystal oscillators. With the need to accommodate ever increasing numbers of users in a limited spectrum space, this traditional application will continue to grow for the fore seeable future, and ever tighter tolerances will have to be met by an ever larger percentage of these devices.

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