CS6201 DIGITAL PRINCIPLES AND SYSTEM DESIGN Question Bank regulation 2013 Anna University
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CS6201 DIGITAL PRINCIPLES AND SYSTEM DESIGN Question Bank regulation 2013 Anna University

CS6201 DIGITAL PRINCIPLES AND SYSTEM DESIGN Question Bank

CS6201 DIGITAL PRINCIPLES AND SYSTEM DESIGN Question Bank regulation 2013 Anna University free download. DIGITAL PRINCIPLES AND SYSTEM DESIGN CS6201 Question Bank pdf free download.

Sample CS6201 DIGITAL PRINCIPLES AND SYSTEM DESIGN Question Bank:

PART-A (2 Marks)

1. What are Logic gates?

2. What are the basic digital logic gates?

3. What is BCD adder?

4. What is Magnitude Comparator?

5. What is code conversion?

6. Draw the logic circuit of full adder using half adder

7. What is code converter?

8. Define Combinational circuit.

9. Define sequential circuits.

10. What is Binary parallel adder?

PART-B 16 marks CS6201 Digital Principles and System Design Question Bank

1. Design a combinational logic circuit to convert the Gray code into Binary code (16)

2. Draw the truth table and logic diagram for full-Adder (16)

3. Draw the truth table and logic diagram for full-Subtractor (16)

4. Explain Binary parallel adder. (16)

5. Design a combinational logic circuit to convert the BCD to Binary code (16)

Part A 2 Marks CS6201 Digital Principles and System Design Question Bank

1. Define Multiplexing? 2.What is Demultiplexer? 3.Define decoder & binary decoder 4.Define Encoder & priority Encoder 5.Give the applications of Demultiplexer. 6. Mention the uses of Demultiplexer. 7. List the types of ROM. 8. Differentiate ROM & PLD‘s 9. What are the different types of RAM? 10.What are the types of arrays in RAM?

PART-B 16 Marks CS6201 Digital Principles and System Design Question Bank

1. Implement the following function using PLA. (16) A (x, y, z) = _m (1, 2, 4, 6) B (x, y, z) = _m (0, 1, 6, 7) C (x, y, z) = _m (2, 6)

2. Implement the following function using PAL. (16) W (A, B, C, D) = _m (2, 12, 13) X (A, B, C, D) = _m (7, 8, 9, 10, 11, 12, 13, 14, 15) Y (A, B, C, D) = _m (0, 2, 3, 4, 5, 6, 7, 8, 10, 11, 15) Z (A, B, C, D) = _m (1, 2, 8, 12, 13)

3. Implement the given function using multiplexer (16)

4. Explain about Encoder and Decoder? (16)

5. Explain about 4 bit Magnitude comparator? (16)

Subject Name DIGITAL PRINCIPLES AND SYSTEM DESIGN
Subject code CS6201
Regulation 2013

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