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Digital Electronics

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Digital Electronics in Electrical/Electronics Engineering

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Welcome to the course EE 111.

Syllabus

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Lab Materials

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Lecture plan

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  • EE 111 Digital Electronics
    • Lecture 1, Introduction to Binary, Octal and Hexadecimal Mathematics
    • Lecture 2, Digital Logic
      • Analysis of the inside of the basic logic types TTL MOS CMOS
    • Lecture 3, Combinatorial Functions
      • Basic logic gates
    • Lecture 4, Karnaugh Map Reductions
    • Lecture 5, Arithmetic
      • Half Adder, Full Adder
    • Lecture 6, Flip-flops
      • JK SR D T flipflops/latches
  • Mid-term Exam
    • Lecture 7, Sequential Logic
    • Lecture 8, Memory Elements
    • Lecture 9, Registers and Counters
    • Lecture 10, Advanced Sequential Circuits
    • Lecture 11, Logic Simulation
    • Lecture 12, High Level Language Logic Modelling and Synthesis
  • Final Exam

Datasheets Relevant

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74=Lower Voltage 40=Higher Voltage

Gates

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Unless noted 2-6V 2-6V 2-6V 2-6V 3-18V 3-18V 3-18V 3-18V
Unless noted DUAL TRIPLE QUAD OCTAL DUAL TRIPLE QUAD OCTAL
NOT 6 Inverters
(TI CD74HC04)
(TI CD74HC240) 6 Inverters
(TI CD4009UB)
AND 4 Input
(TI SN74HC21)
3 Input
(TI SN74HC11)
2 Input
(TI SN74HC08)
4 Input
(TI CD4081B)
3 Input
(TI CD4073B)
2 Input
(TI CD4082B)
1 Gate 8 Input
(TI CD4068B)
NAND 4 Input
(TI CD74HC20)
3 Input
(TI CD74HC10)
2 Input
(TI CD74HC00)
1 Gate 8 Input
(TI CD74HC30)
2 Input
(TI CD40107B)
2 Input
(TI CD4011B)
1 Gate 8 Input
(TI CD4068B)
OR 3 Input
(TI CD74HC4075)
2 Input
(TI SN74HC32)
4 Input
(TI CD4072B)
3 Input
(TI CD4075B)
2 Input
(TI CD4071B)
1 Gate 8 Input
(TI CD4078B)
NOR 4 Input
(TI CD74HC4002)
3 Input
(TI CD74HC27)
2 Input
(TI CD74HC02)
4 Input
(TI CD4002B)
3 Input
(TI CD4025B)
2 Input
(TI CD4001B)
1 Gate 8 Input
(TI CD4078B)
XOR 2 Input
(TI SN74HC86)
2 Input
(TI CD4030B)
XNOR 2 Input
(TI SN74HC266)
2 Input
(TI CD4077B)
JK Flip Flop
/SR latch
(TI CD74HC112) (TI CD4027)
D Flip Flop (TI CD74HC74) (TI CD74HC175) (TI CD74HC273) (TI CD4013) (TI CD40175)

specialty

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3-18V 4-Bit
Magnitude Comparator
(TI CD4063B)
2-6V Full Adder 4bit
(TI CD74HC283)
9-Bit Odd/Even
Parity Generator/Checker
(TI CD74HC280)
8-Bit Identity/
Magnitude Comparators
(TI SN74HC682)
4-Bit
Magnitude Comparator
(TI CD74HC85)
3-18V Presettable
Up/Down Counter
(TI CD4029B)
Presettable
Divide-By-N Counter(TI CD4018B)
2-6V Presettable
Up/Down Counter
(TI SN74HC191)
12-Bit Asynchronous
Bin Counter
(TI SN74HC4040)
3-18V BCD-to-Decimal or
Binary-to-Octal
4to10 demux
(TI CD4028B)
BCD-to-hex or
4to16 demux
(TI CD4515B)
2bit to 1-4 selector
demux DUAL
(TI CD4556B)
2-6V BCD-to-Decimal or
Binary-to-Octal
4to10 demux
(TI SN74HC42)
BCD-to-hex or
4to16 demux
(TI CD74HC154)
2bit to 1-4 selector
demux DUAL
(TI CD74HC139)
BCD-to-7 Segment LED
Latch/Decoder/Driver
(TI CD74HC4511)

Reference books

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Digital Principles And Design - Donald D Givone Sanador 11:38, 13 March 2009 (UTC)Santosh A G

Online resources

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Learning projects

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Research projects

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Debugging for RedHawk Duels: When trying to compile ship_proto.v first open ship_proto_assignment_defaults.qdf. Then change INCREMENTAL_COMPILATION to off (line 595). The code should then compile.

If this does not work, you may have to add the statement >>set_global_assignment -name INCREMENTAL_COMPILATION OFF<< in the .qdf file

Wikiversity activities

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Active participants

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To do

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See also

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Back to: Topic:Electronic Engineering


Educational level: this is a tertiary (university) resource.
Type classification: this resource is a course.
Subject classification: this is an engineering resource.
Completion status: About halfway there. You may help to clarify and expand it.