Digital Logic Circuit Analysis and Design For introductory digital logic design or computer engineering courses in electrical and computer engineering or computer science at the sophomore- or junior-level. Many recent texts place instructors in the difficult position of choosing between authoritative, state-of-the art coverage and an approach that is highly supportive of student learning. This carefully developed text was widely praised by reviewers for both its great clarity and its rigor. The book balances theory and practice in depth without getting bogged down in excessive technical or mathematical language and has abundant coverage of current topics of interest, such as programmable devices, computer-aided design, and testability. An unusually large number of illustrations, examples, and problems help students gain a solid sense of how theory underlies practice. |
Contents
D0 Introduction | 1 |
Analysis and Synthesis of Synchronous | 8 |
5 | 42 |
Copyright | |
11 other sections not shown
Common terms and phrases
ABCD Active high active low active-low Algorithm arithmetic array B₁ binary numbers Boolean C₁ Chapter circuit of Fig clock pulse combinational logic counter Data Book Volume decimal decoder derived digital systems diode don't-cares enable encoder error essential prime implicants example Figure following functions full adder full-adder Hamming code illustrated in Fig implementation JK flip-flop K-map Karnaugh map latch logic circuit logic diagram logic equations logic function logic gates logic symbol maxterms memory minimization minimum cover minterms module multiplexer NAND gate operation presented product terms programmable logic devices PROM propagation delay realized represent schematic sequence sequential circuit shift register shown in Fig simulation SOP form sum term switching algebra switching expression switching function synchronous Texas Instruments theorem truth table TTL Data Book two's complement variables Venn diagram X₁ XOR gate Y₁