Microelectronics and VLSI Courses

EE 210 MICROELECTRONICS - I
I-V characteristics of BJTs and MOSFETs, Basic amplifier configurations, Current sources and active loads, output stages, Op-amps, Feedback amplifiers, Stability and compensation, Noise in Electronic circuits, Signal processing: D/A and A/ D converters, Non-linear electronic circuits.
EE 311 MICROELECTRONICS - II
Basics of semiconductor physics, p-n junction diodes, Metal-semiconductor contacts, BJTs, MOS capacitors, MOSFETs, optoelectronic devices, Advanced semiconductor devices: MESFETs, HBTs, HEMTs, MODFETs.
EE370 DIGITAL ELECTRONICS
EE 413 SEMICONDUCTOR DEVICES TECHNOLOGY
Semiconductor materials, Ultraclean technology, Single crystal growth, Thermal oxidation of silicon, Solid state diffusion, Ion implantation, Vacuum technology, Physical and chemical vapor deposition techniques, Wet and dry etching, Lithography techniques, VLSI/ULSI process integration, Fault diagnosis and characterization techniques.
EE 414 LOW NOISE AMPLIFIERS
Noise and its characterization, Noise figure calculations, Noise in semiconductors, P-N junction, Metal semiconductor junctions, Tunnelling: Varactors and their application as parametric amplifiers and multipliers. Tunnel diode amplifiers, Schottky diode Mixers, Masers, Design aspects of low noise amplifiers and mixers.
EE 415 LINEAR INTEGRATED CIRCUIT DESIGN
Bipolar and MOS technology. Voltage regulators. Analog delay lines. IC transducers. Analog switches, S/H circuits. Noise in ICs, Special function ICs. Switched capacitor circuits. Opto-electronic ICs and systems. MOS analog circuits-building blocks, subcircuits, opamps. BiCMOS circuit design. Low power/voltage circuit design. Mixed signal design issues.
EE 416 OPTO-ELECTRONICS
Photodetectors and their characteristics. Solar cells. Optical fibers and their characteristics. Integrated optics. Fiber optic communication systems, system design consideration.
EE 417 INTRODUCTION TO VLSI DESIGN
Sequential logic design; verification and testing; arithmetic blocks, memory; architecture design; floor planning; design methodologies; example of a chip design; analysis and synthesis algorithms including circuit, switch and logic simulation, logic synthesis, layout synthesis and test generation; packaging.