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Please see “ portrait orientation ” PowerPoint file for Appendix A

Please see “ portrait orientation ” PowerPoint file for Appendix A. Figure A.1. Light switch example. Please see “ portrait orientation ” PowerPoint file for Appendix A. Figure A.5. Minimization using Karnaugh maps. Please see “ portrait orientation ” PowerPoint file for Appendix A.

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Please see “ portrait orientation ” PowerPoint file for Appendix A

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  1. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.1. Light switch example.

  2. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.5. Minimization using Karnaugh maps.

  3. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.6. Four-variable Karnaugh maps illustrating don’t cares.

  4. Figure A.12. A transistor circuit implementation of a NOR gate.

  5. (a) NMOS transistor (b) PMOS transistor

  6. (b) Truth table and transistor states Figure A.15. CMOS realization of a NOT gate.

  7. (b) Truth table and transistor states (a) Circuit (b) Truth table and transistor states Figure A.17. CMOS realization of a NAND gate.

  8. (a) Circuit (b) Truth table and transistor states Figure A.18. CMOS realization of a NOR gate.

  9. Figure A.19. CMOS realization of an AND gate.

  10. V f V Slope =  1 s u p p l y 0 V V  d V + d V t t s u p p l y V x V t Figure A.20. The voltage transfer characteristic for the CMOS inverter.

  11. T ransition time V 10% 1 Input waveform 50% 90% V 0 Propagation delay V 1 90% Output waveform 50% V 10% 0 T ransition time Figure A.21. Definition of propagation delay and transition time.

  12. e = 0 f x e x f e = 1 x f (a) Symbol (b) Equivalent circuit f e x e 0 0 Z 0 1 Z x f 1 0 0 1 1 1 (c) Truth table (d) Implementation Figure A.22. Tri-state buffer.

  13. Figure A23.A 14-pin integrated circuit package (DIP).

  14. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.25. Gated SR latch.

  15. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.27. Gated D latch.

  16. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.28.Master-slave D flip-flop.

  17. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.29. A negative edge-triggered D flip-flop.

  18. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.30. T flip-flop.

  19. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.32. Master slave D flip-flop with Preset and Clear.

  20. F F F F 1 2 3 4 In Out D Q D Q D Q D Q Clock Q Q Q Q Figure A.33. A simple shift register.

  21. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.37. A BCD to seven-segment display decoder.

  22. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.38. A four-input multiplexer.

  23.      •••      

  24. Please see “portrait orientation” PowerPoint file for Appendix A Figure A.42. A simplified sketch of the PLA in Figure A.41.

  25. PAL-like PAL-like             PAL-like PAL-like Figure A.45. Structure of a complex programmable logic device (CPLD).

  26. x = 0 ¤ z = 0 S0 S1 x = 1 ¤ z = 0 x = 1 ¤ z = 0 x = 0 ¤ z = 0 x = 0 ¤ z = 0 x = 1 ¤ z = 1 x = 1 ¤ z = 0 S3 S2 x = 0 ¤ z = 1 Figure A.47.State diagram of a mod-4 up/down counter that detects the count of 2.

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