lecture note explains the following topics: What is a device model, Constituents
of a device model, Ideal Diode Model, Real Diode Model, IC design procedure,
Semi-classical Bulk Transport: Qualitative Model, EM field and Transport
This note explains
statistical modeling and the control of semiconductor fabrication processes and
plants. Topics covered includes: design of experiments, response surface
modeling, and process optimization, defect and parametric yield modeling,
process or device or circuit yield optimization, monitoring, diagnosis, and
feedback control of equipment and processes, and analysis and scheduling of
semiconductor manufacturing operations.
semiconductor devices is critical in designing and improving many types of
systems. This note will give you an understanding of how devices work, the
critical issue and the key design tradeoffs in the devices.
This lecture note covers the following topics: Building
block of silicon devices and general band diagram, Semiconductor statistics
based on general band diagram, Transport Equation, Relaxation time, PN junction
as a basic building block, Voltage limitation, PN junction under light, BJT
general operation principle, BJT general opera, CV characteristics of MOS
devices , MOSFET mobility, Nonideal MOS characteristics, Trend of the scaled
topics are: operation of diodes and bipolar junction transistors, bipolar
devices to include the influence of recombination, the physical mechanisms
underlying the delays and speed limitations of the devices and to extract
equivalent circuit models for the devices.