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Digital Logic Construction
| Rating: |
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| Type: | Courseware |
| Language: | Korean |
- Institution:
- Hanyang Cyber University
- Author:
- 임동균
- Lectures:
- 14
Abstract:
This course will study the principal digital logic elements that are essential in understanding the composition and operation of computers. This will be followed by instruction in building various logic circuits
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| No. | Lecture | Description |
|---|---|---|
| 1 | Digital System Outline | 1. Study the roles and responsibilities of a game designer in each stage of production. 2. Learn to understand a game designer’s position through case studies |
| 2 | Basic Logic Element | This course covers the behavior traits of NAND, NOR, XOR, and XNOR Gates, and how logic circuits are composed using combinational logic elements. We will learn many of the ways in which logic circuits are composed |
| 3 | Combinational Logic Circuit | This course covers the behavior traits of NAND, NOR, XOR, and XNOR Gates, and how logic circuits are composed using combinational logic elements. We will learn many of the ways in which logic circuits are composed |
| 4 | Boolean Algebra | This course touches upon the basic principles of Boolean Algebra, and studies its relationship to logic circuits, which are composed through Boolean Algebra and basic logic gates. We will also learn the dual law and ways to express Boolean Algebra through sums of minterms and multiple maxterms |
| 5 | Karnaugh Maps | This course will cover the simplification of logic functions using Karnaugh Maps. We will study how to formulate the multiplied form of minterms and sum of maxterms of a logic function. We will also seek to understand the relationship between the simplification methods of Boolean Algebra and Karnaugh Maps |
| 6 | Arithmetic Circuits and Logic Devices | This course will cover half adders, full adders, half subtractors and full subtractors, and examine BCD adders and size comparing tools as well |
| 7 | Arithmetic Circuits and Logic Devices | This course will cover half adders, full adders, half subtractors and full subtractors, and examine BCD adders and size comparing tools as well |
| 8 | 중간시험 | 중간시험 |
| 9 | Arithmetic Circuit & Logic Units | We will study the Breadboard Model. Experiments on logic circuits will be conducted using actual elements, and combinational circuits will be composed |
| 10 | Arithmetic Circuit & Logic Units | We will study the Breadboard Model. Experiments on logic circuits will be conducted using actual elements, and combinational circuits will be composed |
| 11 | Basic Logic Gate Experiment | We will study the Breadboard Model. Experiments on logic circuits will be conducted using actual elements, and combinational circuits will be composed |
| 12 | Applied Logic Gate Experiment | Applied Logic Gate Experiment |
| 13 | Digital Clock Design | This course will teach students how to make a digital clock. We will learn to apply the NE555 timer to making a 1Hz clock, and also understand the features of MR7476 flipflop. In addition, we will study the features of the MR 74192 BCD decade counter |
| 14 | Making a Digital Clock | This course will teach students how to make a digital clock. We will learn to apply the NE555 timer to making a 1Hz clock, and also understand the features of MR7476 flipflop. In addition, we will study the features of the MR 74192 BCD decade counter. |
