Here is a brief syllabus of the course: Introduction to CMOS analog integrated circuit design. MOS transistor as the basic design unit: device structure, I-V characteristics, second order effects, SPICE models. Basic amplifier topologies: CS, CG, CD, cascode amplifiers. Differential amplifiers: single ended and differential operation, small signal analysis. Current mirrors: passive and active topologies. Performance parameters of analog circuits: frequency response, noise. Feedback in analog integrated circuits: types of feedback, stability and frequency compensation. Operational amplifiers: topologies, performance parameters. Layout of analog integrated circuits.

For further details visit http://iitgoa.ac.in/~npnandakumar/ee632.html

- Teacher: NANDAKUMAR N P

Here is a brief syllabus of the course: Overview of communication systems. Wireless systems: Overview of wireless communication systems, Design considerations-nonlinearity, noise, sensitivity, dynamic range etc., Review of modulation techniques, Transceivers-Building blocks such as low noise amplifiers, mixers, voltage controlled oscillators, phase locked loops, frequency synthesizers, digital synthesis, power amplifiers etc. Broadband systems: Overview of broadband and optical communication systems, Transceivers-Building blocks not covered in wireless systems such as broadband amplifiers, transimpedance amplifiers, clock and data recovery circuits etc. System level integration: Challenges in board level integration, Interconnects and transmission lines, Antennas.

For further details visit http://iitgoa.ac.in/~npnandakumar/ee634.html

- Teacher: NANDAKUMAR N P

- Teacher: Sheron Figarado
- Teacher: Apeksha Madhukar
- Teacher: Apeksha Madhukar
- Teacher: Shakthi Prasad

Here is a brief syllabus of the course: Review of basics of digital electronics: Number systems, Boolean algebra, logic gates and circuits, minimization of logic functions. Number representation and arithmetic circuits: Signed and unsigned numbers, binary codes, arithmetic operation of binary numbers-addition, subtraction and multiplication. Combinational circuit elements: Multiplexers and demultiplexers, decoders and encoders, code converters. Synthesis of combinational logic functions. Cyclic and acyclic logic circuits. Memory elements: latches and flipflops, applications-shift registers and counters. Sequential circuits and finite state machines: analysis and synthesis. Synchronous and asynchronous sequential circuits. Timing analysis of clocked circuits. Hazards in digital circuits. Transistor level implementation of digital circuit elements: CMOS digital family. Introduction to VHDL and programmable logic devices. Advanced digital system design topics and applications.

For further details visit http://iitgoa.ac.in/~npnandakumar/ee232.html

- Teacher: NANDAKUMAR N P

- Teacher: Apeksha Madhukar
- Teacher: Shakthi Prasad