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Chapter 6

Chapter 6. Functions of Combinational Logic. Adder. Figure 6--1 Logic symbol for a half-adder. Figure 6--2 Half-adder logic diagram. Figure 6--3 Logic symbol for a full-adder. Figure 6--4 Full-adder logic. Figure 6--5 Full-adder implemented with half-adders.

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Chapter 6

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  1. Chapter 6 Functions of Combinational Logic

  2. Adder Figure 6--1 Logic symbol for a half-adder

  3. Figure 6--2 Half-adder logic diagram.

  4. Figure 6--3 Logic symbol for a full-adder

  5. Figure 6--4 Full-adder logic

  6. Figure 6--5 Full-adder implemented with half-adders.

  7. Figure 6--7 Block diagram of a basic 2-bit parallel adder using two full-adders.

  8. Figure 6--9 A 4-bit parallel adder.

  9. Figure 6--10 Four-bit parallel adders.

  10. Figure 6--12 Examples of adder expansion.

  11. Figure 6--13 Two 74LS83A adders connected as an 8-bit parallel adder (pin numbers are in parentheses).

  12. Figure 6--14 A voting system using full-adders and parallel binary adders.

  13. Figure 6--15 Basic comparator operation. (Equality) Comparators

  14. Figure 6--16 Logic diagram for equality comparison of two 2-bit numbers

  15. Figure 6--17 : Example 6-5

  16. Figure 6--18 Logic symbol for a 4-bit comparator with inequality indication.

  17. Figure 6—19 : Example 6-6

  18. Figure 6--20 Pin diagram and logic symbol for the 74HC85 4-bit magnitude comparator (pin numbers are in parentheses).

  19. Figure 6--21 An 8-bit magnitude comparator using two 74HC85s.

  20. Figure 6--22 Decoding logic for the binary code 1001 with an active-HIGH output. Decoders

  21. Figure 6--23 Decoding logic for producing a HIGH output when 1011 is on the inputs.

  22. Figure 6--24 Logic symbol for a 4-line-to-16-line (1-of-16) decoder.

  23. BCD-to-Decimal Decoder Figure 6--28 The 74HC42 BCD-to-decimal decoder.

  24. Figure 6--29

  25. BCD-to-7-Segment Decoder Figure 6--30 Logic symbol for a BCD-to-7-segment decoder/driver with active-LOW outputs.

  26. Figure 6--31 Pin diagram and logic symbol for the 74LS47 BCD-to-7-segment decoder/driver.

  27. Figure 6--32 Examples of zero suppression using the 74LS47 BCD to 7-segment decoder/driver.

  28. Encoders Figure 6--33 Logic symbol for a decimal-to-BCD encoder.

  29. Figure 6--34 Basic logic diagram of a decimal-to-BCD encoder. A 0-digit input is not needed because the BCD outputs are all LOW when there are no HIGH inputs.

  30. Figure 6--35 Pin diagram and logic symbol for the 74HC147 decimal-to-BCD priority encoder (HPRI means highest value input has priority).

  31. Figure 6--36 Logic symbol for the 74F148 8-line-to-3-line encoder.

  32. Figure 6--37 A 16-line-to-4 line encoder using 74F148s and external logic.

  33. Figure 6--38 A simplified keyboard encoder.

  34. Code Converter BCD-to-Binary Conversion

  35. Figure 6--39 Four-bit binary-to-Gray conversion logic.

  36. Figure 6--40 Four-bit Gray-to-binary conversion logic

  37. Figure 6--41 : Example 6-13

  38. Multiplexers (Data Selectors) Figure 6--42 Logic symbol for a 1-of-4 data selector/multiplexer.

  39. Figure 6--43 Logic diagram for a 4-input multiplexer.

  40. Figure 6--44

  41. Figure 6--45 Pin diagram and logic symbol for the 74HC157A quadruple 2-input data selector/multiplexer.

  42. Figure 6--46 Pin diagram and logic symbol for the 74LS151 8-input data selector/multiplexer.

  43. Figure 6--47 A 16-input multiplexer.

  44. Figure 6--48 Simplified 7-segment display multiplexing logic.

  45. Demultiplexers Figure 6--51 A 1-line-to-4-line demultiplexer.

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