The Complete 18CS33 | Analog and Digital Electronics - CSE Notes

Description

Course Learning Objectives: This course (18CS33) will enable students to:

• Explain the use of photoelectronics devices, 555 timer IC, Regulator ICs and uA741 opamap IC

• Make use of simplifying techniques in the design of combinational circuits.

• Illustrate combinational and sequential digital circuits

• Demonstrate the use of flipflops and apply for registers

• Design and test counters, Analog-to-Digital and Digital-to-Analog conversion techqniues.

Course Outcomes: The student will be able to :

• Design and analyze application analog circuits using photodevices, timer IC, power supply and regulator IC and opamp.

• Simplify digital circuits using Karnaugh Map , POS and Quine-McClusky Methods

• Explain Gates and flipflops and make us in designing different data processing circuits, registers and counters and compare the types.

• Develop simple HDL programs

• Explain the basic principles of A/D and D/A conversion circuits and develop the same.

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What You’ll Learn

Module 1

Optoelectronic Devices: Photodiodes, Phototransistors, Light Emitting Diodes, Liquid Crystal Displays, and Optocouplers.

Wave Shaping Circuits: Integrated Circuit Multivibrators

Linear Power Supplies: Linear IC Voltage, Regulated Power Suppy Parameters Operational Amplifier Application Circuits: Inverting Amplifier, Non-inverting amplifier, Voltage Follower, Summing Amplifier, Difference Amplifier, Averagor, Integrator, Differentiator, Peak Detector, Absolute Value Circuit, Comparotor, Instrumentation Amplifier, Relaxation Oscillator, Current-to-Voltage and Voltage-to-Current Converter

Module 2

Combinational Logic Circuits: Sum-of-Products Method, Truth Table to Karnaugh Map, Pairs Quads, and Octets, Karnaugh Simplifications, Don’t-care Conditions, Product-of-sums Method, Product-of-sums simplifications, Simplification by Quine-McClusky Method

Introduction to HDL, HDL Implementation Models.

Module 3

Data-Processing Circuits: Multiplexers, Demultiplexers, 1-of-16 Decoder, BCD to Decimal Decoders, Seven Segment Decoders, Encoders, Exclusive-OR Gates, Parity Generators and Checkers, Magnitude Comparator, Programmable Array Logic, Programmable Logic Arrays, HDL Implementation of Data Processing Circuits.

Module 4

Flip- Flops: RS Flip-Flops, Gated Flip-Flops, Edge-triggered RS FLIP-FLOP, Edge-triggered D FLIP-FLOPs, Edge-triggered JK FLIP-FLOPs, FLIP-FLOP Timing, JK Master-slave FLIP-FLOP, HDL Implementation of FLIP-FLOP.

Registers: Types of Registers, Serial In - Serial Out, Serial In - Parallel out, Parallel In -Serial Out, Parallel In - Parallel Out, Universal Shift Register, Applications of Shift Registers.

Module 5

Counters: Asynchronous Counters, Decoding Gates, Synchronous Counters, Changing the Counter Modulus, Decade Counters, Counter Design using HDL.

D/A Conversion and A/D Conversion: Variable, Resistor Networks, Binary Ladders, D/A Converters, D/A Accuracy and Resolution, A/D Converter-Simultaneous Conversion, A/D Converter-Counter Method, Continuous A/D Conversion

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