555 Timer Monostable Multivibrator
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Design of Function Circuits with 555 Timer Integrated Circuit
This text discusses sigma- delta- type function circuits, peak detecting function circuits, and peak sampling function circuits in a detailed manner. It further covers all the function circuits designed by using the basic principles of the six building blocks: integrator, the 555 timer integrated circuit, switch, low pass fi lter, peak detector, and sample and hold circuit. It is a useful reference text for senior undergraduate and graduate students in the fi elds of electrical engineering and electronics and communication engineering. This book is accompanied by teaching resources, including a solution manual for the instructors. • Discusses function circuits such as multipliers, dividers, and multiplier cum dividers using the 555 timer. • Explains how function circuits are developed with a simple integrator and the 555 timer. • Extends the applications of 555 timers to perform in function circuits. • Covers important topics such as monostable multivibrator, inverting amplifi er, and peak responding divider. • Presents function circuit conversion such as multiplier to square root and divider to a multiplier. This comprehensive book covers the design of function circuits with the help of 555 timer integrated circuits in a single volume. It further discusses how derived function circuits are implemented with integrator, comparator, low pass fi lter, peak detector, and sample and hold circuits.
DIGITAL ELECTRONICS AND LOGIC DESIGN
Author: B. SOMANATHAN NAIR
language: en
Publisher: PHI Learning Pvt. Ltd.
Release Date: 2002-01-01
Designed as a textbook for undergraduate students in Electrical Engineering, Electronics, Computer Science, and Information Technology, this up-to-date, well-organized study gives an exhaustive treatment of the basic principles of Digital Electronics and Logic Design. It aims at bridging the gap between these two subjects. The many years of teaching undergraduate and postgraduate students of engineering that Professor Somanathan Nair has done is reflected in the in-depth analysis and student-friendly approach of this book. Concepts are illustrated with the help of a large number of diagrams so that students can comprehend the subject with ease. Worked-out examples within the text illustrate the concepts discussed, and questions at the end of each chapter drill the students in self-study.
Electronic Digital System Fundamentals
Electronic Digital Systems Fundamentals, 2nd Edition is an introductory text that provides coverage of the various topics in the field of digital electronics. The key concepts presented in this book are discussed using a simplified approach that greatly enhances learning. The use of mathematics is kept to the very minimum and is discussed clearly through applications and illustrations. Each chapter is organized in a step-by-step progression of concepts and theory. The chapters begin with an introduction, discuss important concepts with the help of numerous illustrations, as well as examples, and conclude with summaries. The overall learning objectives of this book include: Describe the characteristics of a digital electronic system. Explain the operation of digital electronic gate circuits. Demonstrate how gate functions are achieved. Use binary, octal, and hexadecimal counting systems. Use Boolean algebra to define different logic operations. Change a logic diagram into a Boolean expression and a Boolean expression into a logic diagram. Explain how discrete components are utilized in the construction of digital integrated circuits. Discuss how counting, decoding, multiplexing, demultiplexing, and clocks function with logic devices. Change a truth table into a logic expression and a logic expression into a truth table. Identify some of the common functions of digital memory. Explain how arithmetic operations are achieved with digital circuitry. Describe the operation of microcontrollers.