EC 8th sem CMOS Circuit Design Syllabus EC-802 CMOS Circuit Design Syllabus Electronics and Communication Engineering

RGTU/RGPV EC-802 Advanced Communication Systems Syllabus
RGTU/RGPV Advanced Communication Systems SYLLABUS
Electronics and Communication Engineering EC 8th Semester Syllabus

PROGRAMME: Electronics and Communication Engineering
COURSE: EC-802 CMOS Circuit Design

Unit I Single-Stage Amplifier: Basic Concepts, Common Source Stage, Source Follower, Common-Gate Stage, Cascode Stage.
Frequency Response of Amplifiers General Consideration, Common-Source Stage, Source Followers, Common-Gate Stage, Cascode Stage, Differential Pair.          

Unit II Differential Amplifier: Single-Ended and Differential Operation, Basic Differential Pair, Common-Mode Response, Differential Pair with MOS Loads, Gilbert Cell.           
Feedback Amplifier: General Consideration, Feedback Topologies, Effect of Loading, Effect of Feedback on Noise. 
Switched-Capacitor Circuits General Consideration, Sampling Switches, Switched-Capacitor Amplifier, Switched-Capacitor Integrator, Switched-Capacitor Common-Mode Feedback.       

Unit III Oscillator: General Consideration, Ring Oscillator, Voltage Controlled Oscillator, Mathematical Model of VCOs.  
Phase-Locked Loops: Simple PLL, Charge-Pump PLLs, Nonideal Effects in PLLs, Delayed-Locked Loops.
Unit IV Sequential Circuit Design: Introduction, Sequencing Static Circuit, Circuit Design of Latches and Flip-Flops, Static Sequencing Element Methodology.
Array Subsystem:  Introduction, SRAM, DRAM, Read-Only Memory, Serial Access Memories, Content-Addressable Memory,Programmable Logic Arrays.        

Unit V Datapath Subsystems: Introduction, Addition/Subtraction, One/Zero Detector, Comparators, Counters, Boolean Logic Operation, Coding, Shifters, Multiplication, Division, Parallel-Prefix Computations.       

EC-802 CMOS Circuit Design References:
1.  B. Razavi: Design of Analog CMOS Integrated Circuits, TMH Publication.  
2.  Weste, Harris and Banerjee: CMOS VLSI Design, Pearson Education
3.  J. M. Rabaey, Digital Integrated Circuits, PHI Learning.
4.  R. Jacob Baker: CMOS-Circuit Design, Layout and Simulation, Wiley. 
5.  A. A. Raj and T. Latha: VLSI Design, PHI Learning.

EC-802 CMOS Circuit Design List of Experiments:
Practicals should be performed using any Electronic Design Automation (EDA) - eg. Microwind / Cadence / Sylvaco / Tanner silicon HiPer / Xilinx  ISE 9i or any similar software.
1. Design and simulation of:   (a) Common source amplifier  (b) Source follower amplifier   
(c) Common gate amplifier (d) Cascode amplifier.
2. Estimation of frequency response of: (a) Common source amplifier     (b) Source follower amplifier.
     (c ) Common gate amplifier    (d) Cascode amplifier.
3. Design and simulation of differential amplifier.
4. Design and simulation of feedback amplifier.
5. Design and simulation of oscillators: (a) Ring Oscillator  (b) L-C Oscillator (c) Voltage controlled Oscillator.
6. Design and simulation of: (a) Adder  (b) Subtractor  (c) One/zero detector  (d) Comparator   (e) Counter (f) Multiplier  (g) Divider.

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