
The first chapters explain the characteristics of pulse waveforms and RC circuits that must be understood before the study of pulse circuitry can commence. The operation of diodes, BJTs, FETs, and op-amps in switching circuits is covered next and leads to the design and analysis of inverters, Schmitt trigger circuits, multivibrators, IC timer circuits, ramp generators, and function generators. Logic gates, logic circuits, and IC logic families are also explained. After individual circuits and gates are studied, they are used as building blocks to explain digital counting, digital frequency meters, ADCs and DACs, pulse modulation, time division multiplexing.Many design and analysis examples are offered throughout the text. The circuit design approach is a simple step-by-step procedure. Device data sheets in the appendices are referred to, and standard-value components are selected.
This text investigates the fundamental principles and practical design methodologies required to analyze and construct solid-state pulse circuits. David A. Bell provides a structured technical framework for students and practitioners, utilizing foundational circuit theory to explain complex switching operations. The book integrates theoretical analysis with practical application, emphasizing the use of standard-value components and real-world device data sheets to facilitate circuit design.
What You Will Find
Experts and educators recognize this work as a foundational resource for understanding the transition from discrete switching components to complex digital systems. Readers frequently note the clarity of the step-by-step design approach, which makes the technical density of the subject matter accessible for undergraduate engineering students.
Page Count:
594
Publication Date:
2019-02-06
Publisher:
Oxford University Press
ISBN-10:
0199001855
ISBN-13:
9780199001859
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