Flip-flops, Counters, Shift Registers, Decoders, Multiplexers
This textbook for a one-semester course in Digital Systems Design describes the basic methods used to develop “traditional” Digital Systems, based on the use of logic gates and flip flops, as well as more advanced techniques that enable ...
The book is written for an undergraduate course on digital electronics. The book provides basic concepts, procedures and several relevant examples to help the readers to understand the analysis and design of various digital circuits.
New, updated and expanded topics in the fourth edition include: EBCDIC, Grey code, practical applications of flip-flops, linear and shaft encoders, memory elements and FPGAs.
This book presents the basic principles of digital electronics in an accessible manner, allowing the reader to grasp the principles of combinational and sequential logic and the underlying techniques for the analysis and design of digital ...
This book provides the reader with the key concepts and techniques of modern digital logic design and applications.
INTRODUCTION Digital systems employ a number of devices that are not classified specifically as logic gates. These devices play a unique role in the operation of a digital system. Such things as flip-flops, counters, registers, ...
This book will be an extremely valuable asset for technical and engineering students studying digital system design.
Given binary number is 1011011011 Groups of four bits are 0010 1101 1011 Convert each group to hex 2 D B The result is 2DB16 EXAMPLE 2.52 Convert 01011111011.0111112 to hexadecimal. Solution Given binary number is 01011111011.011111 ...
This implementation requires six NAND gates while the master-slave D flip-flop needs eleven gates (10 gates for GDL#1 and GDL#2 plus one inverter). In Figure 9.8, when Clk = 0, then S = R = 1. The outputs of NAND gate #1 and NAND gate ...