TEACHING PLAN Digital Electronics
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MEHRAN UNIVERSITY OF ENGINEERING AND TECHNOLOGY, JAMSHORO DEPARTMENT OF TELECOMMUNICATION ENGINEERING FRM-001/00/QSP-004 Dec. 01, 2001 Tentative Teaching Plan Name of Teacher: Engr. Naeem Aijaz Yousfani Subject: Digital Electronics Batch: 16 TL Year: First (1 st Term) Term Starting Date: 04-01-2016 Term Suspension Date: 24-04-2016 S. #. Topics No. of Lecture Hrs Require Sec - I 1 Introduction 01 5-1 2 Number Systems 01 6-1 3 Number System Conversion 01 6-1 4 Grey Code 01 5 Logic Event, Binary Variables and Fundamental Boolean Operation 01 6 Boolean Operations (XOR, NOR, NAND ….), Truth Table 01 7 Digital Logic Gates, Symbols 01 8 Parity in Codes 01 9 Boolean Algebra and Boolean Rules 01 10 DeMorgan’s Theorems 01 11 Boolean Expression 01 12 Reducing expression using Boolean Rules 01 13 Karnaugh Map 01 14 Reducing expression using K-Map 01 15 Universal Gates, Design Logic Ckts using Universal gates 01 16 Driving SOP and POS Expressions + Class Test # 1 01 17 Combinational Logic Examples 01 18 Half Adder, Full Adder 01 19 Parallel Adder, Parallel Adder Subtractor 01 20 Active High Decoder, Active Low Decoder 01 21 Code Converter, Grey Code Converter 01 22 Binary to BCD Converter 01 23 Multiplexer and DeMultiplexer 01 24 Seven Segment Drivers, CC and CA Seven Segmented Displays 01
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Curriculum Taught at Second year Electronic Engineering
Transcript of TEACHING PLAN Digital Electronics
MEHRAN UNIVERSITY OF ENGINEERING AND TECHNOLOGY, JAMSHORODEPARTMENT OF TELECOMMUNICATION ENGINEERING
FRM-001/00/QSP-004 Dec. 01, 2001
Tentative Teaching Plan
Name of Teacher: Engr. Naeem Aijaz YousfaniSubject: Digital Electronics Batch: 16 TL Year: First (1st Term)Term Starting Date: 04-01-2016 Term Suspension Date: 24-04-2016
S. #.
Topics
No. of Lecture
Hrs Require
Sec - I
1 Introduction 01 5-1
2 Number Systems 01 6-13 Number System Conversion 01 6-14 Grey Code 015 Logic Event, Binary Variables and Fundamental Boolean Operation 016 Boolean Operations (XOR, NOR, NAND ….), Truth Table 017 Digital Logic Gates, Symbols 018 Parity in Codes 019 Boolean Algebra and Boolean Rules 0110 DeMorgan’s Theorems 0111 Boolean Expression 0112 Reducing expression using Boolean Rules 0113 Karnaugh Map 0114 Reducing expression using K-Map 0115 Universal Gates, Design Logic Ckts using Universal gates 0116 Driving SOP and POS Expressions + Class Test # 1 0117 Combinational Logic Examples 0118 Half Adder, Full Adder 0119 Parallel Adder, Parallel Adder Subtractor 0120 Active High Decoder, Active Low Decoder 0121 Code Converter, Grey Code Converter 0122 Binary to BCD Converter 0123 Multiplexer and DeMultiplexer 0124 Seven Segment Drivers, CC and CA Seven Segmented Displays 0125 Combinational Logic Using ICs 0126 Logic Families Resister Transistor Logic (RTL) 0127 Logic Families Diode Transistor Logic (DTL) 0128 Logic Families Transistor – Transistor Logic (TTL) and Classes of
TTL. Class Test # 201
29 Logic Families Emitted Coupled (EC), Injection Integrated (II) and Direct Coupled Transistor Logic.
01
30 CMOS Logic CMOS NOT Gate and CMOS NAND Gate 0131 Switch Parameters 0132 Propagation Delay Times in TTL and CMOS 0133 Buffers, Calculating fan-in and fan-out of logic gates 0134 Interfacing TTL to CMOS, Pull-up-resistor 0135 Multivibrators, Transistors Ckts of Bi-stable Multivibrators 0136 Transistor Ckts of Mono stable Multivibrators 0137 Transistor Ckts of A-stable Multivibrators 0138 Timing diagram of Multivibrators 01
39 Ckt operation and TT of SR Latch, Ckt operation and TT of SR Flip Flop
01
40 Ckt operation and TT of JK Flip Flop, Ckt operation and TT of Master-Slave JK Flip Flop
01
41 Ckt operation and TT of D Flip Flop, Ckt operation and TT of T Flip Flop
01
42 555 Timer Internal Structure, Astable and Monostable Mode. Class Test # 3
01
Total Number of required Lectures 42
Signature of Teacher: Dated:
Remarks of DMRC:
Signature of Chairman: Dated:
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