Digital Electronics 7
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ABOUT Digital Electronics
Digital Electronics is an important subject, common for Electrical, Electronics, and Instrumentation Engineering students. It deals with the theory and practical knowledge of Digital Systems and how they are implemented in various digital instruments. This App have been developed based on the latest GATE syllabus and will be useful for Electronics Engineering students as well as for GATE, IES and other PSU exams preparation. Digital Electronics is an Electronics that uses binary numbers of 1 and 0 to represent information 1. Number Base System 1.1 Logic Operations 1.2 Mathematical Operations 1.3 Building Circuits with Breadboards 1.4 Digital Logic Gates 2. Logic Gates 2.1 Logic Gates/Fundamental Digital Gates 2.2 Logic Gates/Combinational Gates 2.3 Logic Gates/Basic Logic Gates Summary 2.4 Logic Gates Summary 3. Digital Device 3.1 Mathematic and Logic Operations 3.2 Synchronous Device 3.3 Asynchronous Device 4. Digital Signal Processing 4.1 Digital Data 4.2 Data Encoder 4.3 Data Selector 5. Digital Controllers 5.1 Controller Concepts 5.2 Arduino 5.3 Blinking Light 6. Communication Standards 6.1 Open Standards 6.2 ANSI 6.3 ISO Some of the topics Covered in the app are: 1. Decimal System 2. Binary System 3. Representing Binary Quantities 4. Octal and Hexadecimal System 5. Binary-To-Decimal and Decimal-to-binary Conversion 6. Binary-To-Octal / Octal-To-Binary Conversion 7. Hexadecimal to Decimal/Decimal to Hexadecimal Conversion 8. Binary-To-Hexadecimal /Hexadecimal-To-Binary Conversion 9. Floating-Point Numbers 10. Binary Codes 11. Non Weighted Codes 12. Binary - Gray Code Conversion 13. Gray Code - Binary Conversion 14. Gray Code Applications 15. Alphanumeric Codes-ASCII code 16. EBCDIC code 17. Seven-segment Display Code 18. Error Detecting Codes 19. Error Correcting Codes. 20. Boolean Switching Algebras 21. Boolean Algebra Theorems 22. Minterms and Maxterms 23. Sum Of Products (SOP) and Product Of Sum (POS) 24. AND-Logic Gate 25. OR-Logic Gate 26. NOT-Logic Gate 27. NAND-Logic Gate 28. NOR-Logic Gate 29. XNOR-Logic Gate 30. Universal Gates 31. Realization of logic function using NAND gates 32. Realization of logic gates using NAND gates 33. Realization of logic function using NOR gates 34. Realization of logic gates using NOR gates. 35. Tristate Logic Gates 36. AND-OR-INVERT Gates 37. Schmitt Gates 38. Karnaugh Maps 39. Minimization Technique 40. 2-Variable K-Map 41. Grouping/Circling K-maps 42. Example of 2-Variable K-Map groups 43. 3-Variable K-Map 44. Example of 3-Variable K-Map 45. 4-Variable K-Map 46. Example of 4-Variable K-Map 47. 5-Variable K-Map 48. QUINE-Mccluskey minimization 49. QUINE-Mccluskey minimization Method-Example 50. Multiplexer 51. 2x1 Multiplexer 52. Design of a 2:1 Mux 53. 4:1 MUX 54. 8-to-1 multiplexer from Smaller MUX 55. 16-to-1 multiplexer from 4:1 mux 56. De-multiplexers 57. Mechanical Equivalent of a De-Multiplexer 58. 1-to-4 De-multiplexer 59. Boolean Function Implementation using Mux and de-Mux 60. 3-variable Function Using 4-to-1 mux 61. 2 to 4 Decoder using Demux 62. Arithmetic circuits-Adders 63. Full Adder 64. Full Adder using AND-OR 65. n-bit Carry Ripple Adder 66. 4-bit Carry Ripple Adder 67. Carry Look-Ahead Adder 68. BCD Adder 69. 2-digit BCD Adder 70. Subtracter 71. Full Subtracter 72. Parallel Binary Subtracter 73. Serial Binary Subtracter. 74. Comparators 75. Encoders 76. Decimal-to-Binary Encoder 77. Priority Encoder 78. Introduction to Sequential Circuit 79. Concept of Sequential Logic 80. Input enable signals 81. RS Latch 82. RS Latch with Clock 83. Setup and Hold Time 84. D Latch 85. JK Latch 86. T Latch 87. R-S Flip-Flop with Active LOW Inputs 88. R-S Flip-Flop with Active HIGH Inputs 89. R-S Flip-Flop Implementation with NOR gates 90. Clocked R-S Flip-Flop