简介
《数字基础(第10版英文影印版)》由Thomas
L.Floyd所著,全面论述了数字电路设计的基础知识,结合练习、实例和插图,对数字电路设计进行了高度精确的理论解释,故障诊断和应用都使用实际设备进行验证。内容包括数字电路概念、数字系统运作及编码、逻辑门、布尔数学运算和逻辑简化、组合逻辑电路分析及应用、可编程逻辑器件、触发器、计数器、移位记录器、记忆和存储、可编程逻辑及软件、信号接口和进程等。
《数字基础(第10版英文影印版)》可作为电类各专业数字系统课程的双语教材或参考书,也可供工程技术人员参考。
目录
《数字基础(第十版)(英文影印版)》
1 introductory concepts
1-1 digital and analog quantities 2
1-2 digits, logic levels, and digital waveforms 4
1-3 basic logic operations 10
1-4 introduction to the system concept 12
1-5 fixed-function integrated circuits 19
1-6 test and measuremen! lnstnuments 22
1-7 introduction to programmable logic 32
2 number systems, operations, and codes
2-1 decimal numbers 46
2-2 binary numbers 48
2-3 decimal-to-binary conversion 51
2-4 binary arithmetic 54
2-5 l's and 2's complements of binary numbers 58
2-6 signed numbers 60
2-7 arithmetic operations with signed numbers 66
2-8 hexadecimal numbers 72
2-9 octal numbers 79
2-10 binary coded decimal (bcd) 82
.2-11 digital codes 85
2-12 error detection codes 92
3 logic gates
3-1 the inverter 108
3-2 the and gate 110
3-3 the or gate 117
3-4 the nand gate 121
3-5 the nor gate 126
3-6 the exclusive-or and exclusive-nor gates 130
3-7 fixed-function logic 134
3-8 troubleshooting 144
3-9 programmable logic 150
4 boolean algebra and logic simplification 171
4-1 boolean operations and expressions 173
4-2 laws and rules of boolean algebra 174
4-3 demorgan's theorems 179
4-4 boolean analysis of logic circuits 183
4-5 simplification using booleanalgebra 185
4-6 standard forms of boolean expressions 189
4-7 boolean expressions and truth tables 196
4-8 the kamaugh map 199
4-9 kamaugh map sop minimization 202
4-10 five-variable karnaugh maps 212
4-11 describing logic with an ltdl 215
5 system application activity 217
5-1 basic combinational logic circuits 234
5-2 implementing combinational logic 239
5-3 the universal property of nand and nor gates 245
5-4 combinational logic using nand and nor gates 247
5-5 logic circuit operation with pulse waveform inputs 252
5-6 troubleshooting 255
5-7 combinational logic with vhdl 261
6 system application activity 267
6-1 basic adders 286
6-2 parallel binary adders 289
6-3 ripple carry versus look-ahead carry adders 2
6.4 comparators 299
6-5 decoders 303
6-6 encoders 312
6-7 code converters 317
6-8 multiplexers (data selectors) 319
6-9 demultiplexers 328
6-10 parity generators/checkers 330
6-11 troubleshooting 333
7 system application activity 336
7-1 latches 360
7-2 edge-triggered flip-flops 366
7-3 flip-flop operating characteristics 377
7-4 flip-flop applications 380
7-5 one-shots 384
7-6 the astable multivibrator 393
7-7 troubleshooting 397
system applicatior/activity 399
8 counters
8-1 asynchronous counters 417
8-2 synchronous counters 425
8-3 up/down synchronous counters 432
8-4 design of synchronous counters 435
8-5 cascaded counters 445
8-6 counter decoding 449
8-7 counter applications 452
8-8 logic symbols with dependency notation 457
8-9 troubleshooting 459
system application activity 463
9 shift registers
9-1 basic shift register operations 481
9-2 serial in/serial out shift registers 482
9-3 serial in/parallel out shift registers 486
9-4 parallel in/serial out shift registers 488
9-5 parallel in/parallel out shift registers 492
9-6 bidirectional shift registers 494
9-7 shift register counters 497
9-8 shift register applications 501
9-9 logic symbols with dependency notation 508
9-10 troubleshooting 509
system application activity 512
10 memory and storage
10-1 memory basics 526
10-2 the random-access memory (ram) 530
10-3 the read-only memory (rom) 543
10-4 programmable roms 548
10-5 the flash memory 551
10-6 memory expansion 556
10-7 special types of memories 562
10-8 magnetic and optical storage 566
10-9 troubleshooting 573
system application activity 577
11 programmable logic and software
11-1 programmable logic: splds and cplds 591
11-2 altera cplds 599
11-3 xilinx cplds 605
11-4 macrocells 608
11-5 programmable logic: fpgas 613
11-6 altera fpgas 618
11-7 xilinx fpgas 622
11-8 programmable logic software 628
11-9 boundary scan logic 638
11-10 troubleshooting 646
system application activity 652
12 signal interfacing and processing
12-1 converting analog signals to digital 678
12-2 analog-to-digital conversion methods 684
12-3 digital4o-analog conversion methods 695
12-4 digital signal processing basics 703
12-5 the digital signal processor (dsp) 704
13 computer concepts 719
13-1 the basic computer 720
13-2 the microprocessor 724
13-3 basic microprocessor operation 729
13-4 computer programming 736
13-5 inten-upts 746
13-6 direct memory access (dma) 748
13-7 lntemal interfacing 750
13-8 bus standards 753
14 integrated circuit technologies
14-1 basic operational characteristics and parameters 770
14-2 cmos circuits 777
14-3 tfl (bipolar) circuits 782
14-4 practical considerations in the use of ttl 787
14-5 comparison of cmos and ttl performance 794
14-6 emitter-coupled logic (ecl) circuits 795
14-7 pmos, nmos, and e2cmos 797
appendices
a conversions 808
b karnaugh map pos minimization 810
c the quine-mcclusky method 814
d ni multisim for circuit simulation 817
answers to odd-numbered problems 822
glossary 849
1 introductory concepts
1-1 digital and analog quantities 2
1-2 digits, logic levels, and digital waveforms 4
1-3 basic logic operations 10
1-4 introduction to the system concept 12
1-5 fixed-function integrated circuits 19
1-6 test and measuremen! lnstnuments 22
1-7 introduction to programmable logic 32
2 number systems, operations, and codes
2-1 decimal numbers 46
2-2 binary numbers 48
2-3 decimal-to-binary conversion 51
2-4 binary arithmetic 54
2-5 l's and 2's complements of binary numbers 58
2-6 signed numbers 60
2-7 arithmetic operations with signed numbers 66
2-8 hexadecimal numbers 72
2-9 octal numbers 79
2-10 binary coded decimal (bcd) 82
.2-11 digital codes 85
2-12 error detection codes 92
3 logic gates
3-1 the inverter 108
3-2 the and gate 110
3-3 the or gate 117
3-4 the nand gate 121
3-5 the nor gate 126
3-6 the exclusive-or and exclusive-nor gates 130
3-7 fixed-function logic 134
3-8 troubleshooting 144
3-9 programmable logic 150
4 boolean algebra and logic simplification 171
4-1 boolean operations and expressions 173
4-2 laws and rules of boolean algebra 174
4-3 demorgan's theorems 179
4-4 boolean analysis of logic circuits 183
4-5 simplification using booleanalgebra 185
4-6 standard forms of boolean expressions 189
4-7 boolean expressions and truth tables 196
4-8 the kamaugh map 199
4-9 kamaugh map sop minimization 202
4-10 five-variable karnaugh maps 212
4-11 describing logic with an ltdl 215
5 system application activity 217
5-1 basic combinational logic circuits 234
5-2 implementing combinational logic 239
5-3 the universal property of nand and nor gates 245
5-4 combinational logic using nand and nor gates 247
5-5 logic circuit operation with pulse waveform inputs 252
5-6 troubleshooting 255
5-7 combinational logic with vhdl 261
6 system application activity 267
6-1 basic adders 286
6-2 parallel binary adders 289
6-3 ripple carry versus look-ahead carry adders 2
6.4 comparators 299
6-5 decoders 303
6-6 encoders 312
6-7 code converters 317
6-8 multiplexers (data selectors) 319
6-9 demultiplexers 328
6-10 parity generators/checkers 330
6-11 troubleshooting 333
7 system application activity 336
7-1 latches 360
7-2 edge-triggered flip-flops 366
7-3 flip-flop operating characteristics 377
7-4 flip-flop applications 380
7-5 one-shots 384
7-6 the astable multivibrator 393
7-7 troubleshooting 397
system applicatior/activity 399
8 counters
8-1 asynchronous counters 417
8-2 synchronous counters 425
8-3 up/down synchronous counters 432
8-4 design of synchronous counters 435
8-5 cascaded counters 445
8-6 counter decoding 449
8-7 counter applications 452
8-8 logic symbols with dependency notation 457
8-9 troubleshooting 459
system application activity 463
9 shift registers
9-1 basic shift register operations 481
9-2 serial in/serial out shift registers 482
9-3 serial in/parallel out shift registers 486
9-4 parallel in/serial out shift registers 488
9-5 parallel in/parallel out shift registers 492
9-6 bidirectional shift registers 494
9-7 shift register counters 497
9-8 shift register applications 501
9-9 logic symbols with dependency notation 508
9-10 troubleshooting 509
system application activity 512
10 memory and storage
10-1 memory basics 526
10-2 the random-access memory (ram) 530
10-3 the read-only memory (rom) 543
10-4 programmable roms 548
10-5 the flash memory 551
10-6 memory expansion 556
10-7 special types of memories 562
10-8 magnetic and optical storage 566
10-9 troubleshooting 573
system application activity 577
11 programmable logic and software
11-1 programmable logic: splds and cplds 591
11-2 altera cplds 599
11-3 xilinx cplds 605
11-4 macrocells 608
11-5 programmable logic: fpgas 613
11-6 altera fpgas 618
11-7 xilinx fpgas 622
11-8 programmable logic software 628
11-9 boundary scan logic 638
11-10 troubleshooting 646
system application activity 652
12 signal interfacing and processing
12-1 converting analog signals to digital 678
12-2 analog-to-digital conversion methods 684
12-3 digital4o-analog conversion methods 695
12-4 digital signal processing basics 703
12-5 the digital signal processor (dsp) 704
13 computer concepts 719
13-1 the basic computer 720
13-2 the microprocessor 724
13-3 basic microprocessor operation 729
13-4 computer programming 736
13-5 inten-upts 746
13-6 direct memory access (dma) 748
13-7 lntemal interfacing 750
13-8 bus standards 753
14 integrated circuit technologies
14-1 basic operational characteristics and parameters 770
14-2 cmos circuits 777
14-3 tfl (bipolar) circuits 782
14-4 practical considerations in the use of ttl 787
14-5 comparison of cmos and ttl performance 794
14-6 emitter-coupled logic (ecl) circuits 795
14-7 pmos, nmos, and e2cmos 797
appendices
a conversions 808
b karnaugh map pos minimization 810
c the quine-mcclusky method 814
d ni multisim for circuit simulation 817
answers to odd-numbered problems 822
glossary 849
Digital fundamentals
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