Tuesday, January 20, 2015

JavaPrince Digital Computer Fundermental Course Outline

Course Outline by JavaPrince Embedded
CTE 213

Digital Computer Fundermenta II
GENERAL OBJECTIVES PERFORMANCE OBJECTIVES
1.0 Understand the features and design of different logic gates LOGIC GATES:
  • 1.1 Explain the principle of operation of combinational logic.
  • 1.2 Illustrate the action of gates using truth table.
  • 1.3 Write down a logical sum of products equations.
  • 1.4 Draw circuit diagram that implements the equation of 1.3 using: AND, OR, NOT, NAND, NOR, Exclusive-OR, Exclusive-NOR.
  • 1.5 Design logical circuits using a combination of logic gates.
  • 1.6 Describe the action of the Diode.
  • 1.7 Describe the construction of the AND or OR gates using diodes.
2.0 Know the sequence and data flow control DATA FLOW CONTROL:
  • 2.1 Explain error detection.
  • 2.2 Explain the features and attributes of the different logic families.
  • 2.3 Explain the characteristics and circuit parameters of logic families e.g fan-in/fan-out, speed/power factor logic levels, noise immunity, heat dissipation.
3.0 Understand the basic principles of bistable elements COUNTERS AND DATA TRANSFER BISTABLE ELEMENTS:
  • 3.1 Define a bistable (flip flop).
  • 3.2 Describe the action of flip flop.
  • 3.3 Describe the operation of the followinging elements: RS Flip-Flop, Clocked RS Flip-Flop, D-Flip-Flop, T-Flip-Flop(toggle flip-flop), J-K-Flip-Flop.
  • 3.4 Explain the function of preset and clear of the bistable element.
  • 3.5 Describe some specific I.C bistable elements e.g. SN7474, SN7476
4.0 Understand the principle of the counter and data transfer register COUNTER AND REGISTERS:
  • 4.1 Describe the operation of the basic binary ripple counter.
  • 4.2 Describe the operation of up and down counters .
  • 4.3 Describe the operation of the modules counter using as example Mod-10; Mod-12; Mod-6 counters.
  • 4.4 Define a shift-left, a shift-right and shift-round registers.
  • 4.5 Describe the parallel transfer of data through registers.
  • 4.6 Describe the serial-parallel transfer operation.
5.0 Know the implementation of the addition operation in the computer ADDITION OPERATION:
  • 5.1 Describe the serial adder.
  • 5.2 Describe the parallel adder.
  • 5.3 Describe the half-adder.
  • 5.4 Describe the full adder.
6.0 Know different logical circuit components
  • 6.1 Describe different logic elements.
  • 6.2 Identity AND, OR, NOT, NAND and XOR gates.
7.0 Understand the characteristic of basic digital devices.
  • 7.1 Describe the operation of different logic elements e.g. AND, OR, NOT etc gates.
  • 7.2 Demostrate practically the logic operations of AND, OR, NOT using 1. Logic gates 2. Descrete elements
8.0 Understand the design and construction of simple combinational logic circuits
  • 8.1 Analyse and draw the circuit diagram that implement various circuit combinations.
  • 8.2 Demonstrate practically the operations of combinational logic function.
9.0 Understand the operation of the basic principles of bistable elements
  • 9.1 Draw some specific IC bistable elements e.g. SN7474; SN7476
  • Construct 9.1 above
10.0 Understand the operation of simple sequencial circuits
  • 10.1 Analyse the design techniques of sequencial circuits.
  • 10.2 Perform experiments to illustrate sequential circuit (counters, registers) using the various bistable elements.
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