## MOSFet Learning Materials

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1 2 3 4 [[Image(mosfet.jpg, 500px)]] By completing the MOSFET Lab in [[Resource(5065)]], you will be able to: a) understand the operation of MOSFET devices, b) understand the limitations of the gradual channel approximation, and c) understand the limitations of the drift-diffusion model. The specific objectives of the MOSFET Lab are: [[Image(mosfet_viewer.jpg, 400px)]] == Recommended Reading == For better understanding of the operation and modeling of MOSFET devices, the following texts are highly recommended: 1. Michael Shur, Physics of Semiconductor Device (Prentice Hall). 2. Simon M. Sze and Kwok K. Ng, Physics of Semiconductor Devices (Wiley, 2006). 3. Dragica Vasileska, Stephen M. Goodnick and G. Klimeck, Computational Electronics: Semiclassical and Quantum Device Modeling and Simulation, Chapter 2 (CRC Press, 2010). == Demo == [[Resource(6900)]] [[Resource(6830)]] == Theoretical descriptions == * [[Resource(5309)]] * [[Resource(5310)]] * [[Resource(5085)]] * [[Resource(5306)]] == Tool Verification == - [[Resource()]] + [[Resource(9841)]] == Worked Examples == Coming Soon == Exercises and Homework Assignments == 1. [[Resource(5191)]] 2. [[Resource(4906)]] 3. [[Resource(7190)]] 4. [[Resource(7188)]] 5. [[Resource(3948)]] 6. [[Resource(9221)]] == Solutions to Exercises == Work in progress! == Take a Test == This test will assess your conceptual understanding of the physical, mathematical and computational knowledge related to operation of MOSFET devices. == Solve the Challenge == In this final challenge you will integrate all what you have learned about operation of MOSFET devices. [[Resource()]]