FUNDAMENTALS OF DIGITAL CIRCUITSThe Fourth edition of this well-received text continues to provide coherent and comprehensive coverage of digital circuits. It is designed for the undergraduate students pursuing courses in areas of engineering disciplines such as Electrical and Electronics, Electronics and Communication, Electronics and Instrumentation, Telecommunications, Medical Electronics, Computer Science and Engineering, Electronics, and Computers and Information Technology. It is also useful as a text for MCA, M.Sc. (Electronics) and M.Sc. (Computer Science) students. Appropriate for self study, the book is useful even for AMIE and grad IETE students. Written in a student-friendly style, the book provides an excellent introduction to digital concepts and basic design techniques of digital circuits. It discusses Boolean algebra concepts and their application to digital circuitry, and elaborates on both combinational and sequential circuits. It provides numerous fully worked-out, laboratory tested examples to give students a solid grounding in the related design concepts. It includes a number of short questions with answers, review questions, fill in the blanks with answers, multiple choice questions with answers and exercise problems at the end of each chapter. |
Contents
1 | |
28 | |
3 BINARY CODES | 86 |
4 LOGIC GATES | 132 |
5 BOOLEAN ALGEBRA | 176 |
6 MINIMIZATION OF SWITCHING FUNCTIONS | 232 |
7 COMBINATIONAL LOGIC DESIGN | 326 |
8 PROGRAMMABLE LOGIC DEVICES | 460 |
14 SEQUENTIAL CIRCUITSII | 745 |
15 ALGORITHMIC STATE MACHINES | 799 |
16 LOGIC FAMILIES | 861 |
17 ANALOGTODIGITAL AND DIGITALTOANALOG CONVERTERS | 910 |
18 MEMORIES | 943 |
19 TIMING CIRCUITS AND DISPLAY DEVICES | 982 |
AppendixCommonly Used TTL ICs | 1005 |
Glossary | 1011 |
Common terms and phrases
2’s complement ABCD adder applied assign begin binary binary number bits block Boolean called carry chart circuit clock pulse column combinational compatible complement condition connected contains convert corresponding count counter decimal decoder device diagram equivalent Example excitation flip-flop four function gate given goes HIGH implementation input inverter K-map lines logic logic diagram machine means memory method minimal expressions minterms multiplexer NAND gate negative obtained operation output parallel parity perform positive possible present prime implicant PROGRAM realization reduced remains represented result sequence serial shift register shown in Figure shows signal single Solution STD_LOGIC Step stored subtraction switching synchronous threshold transition truth table variables voltage weighted write