Courses in Applied Microtechnology

Number	Course Title
Junior Level
EE331	Devices and Circuits I
EE332	Devices and Circuits II
Senior Level
CerE414/415	Electromagnetic Properties of Ceramics
EE427	Microfabrication Techniques*
EE433	Analog Circuit Design
EE436	Medical Instrumentation
BioE455	BioMEMS
ChemE461	Electrochemical Engineering Laboratory
EE465	Fiber Optics, Devices, and Applications
MSE466	Electronic Properties of Materials
EE476	Digital Integrated Circuit Design
EE482	Semiconductor Devices
EE484	Sensors and Sensor Systems
EE485	Introduction to Photonics
ME/MSE485/EE400	Introduction to Electronic Packaging and Materials
EE486	Fundamentals of Integrated Circuit Technology and Semiconductor Processing
EE488	Laser Electronics
ME/MSE498/EE400	Electronic Packaging Laboratory
ME4XX	Micro Fluid Mechanics*
Graduate Level
MSE501	Advanced Processing of Inorganic Materials
EE502	Introduction to MEMS
EE527	Microfabrication Techniques
EE528	Band Theory^†
EE529	Semiconductor Optics and Optical Devices
EE530	Optical Properties of Materials^†
EE531	Semiconductor Devices and Device Modeling
EE532	Device Modeling and Circuit Simulation^†
EE533	Photodetectors^†
EE535	Design of Digital Integrated Circuits and Systems
EE536	Design of Analog Integrated Circuits and Systems
EE539B	Physics and Modeling of VLSI Fabrication
EE539C	Numerical Modeling of MEMS
EE539D	Making Sensors on Silicon
ChemE/MSE559	Thin Film Science, Engineering, and Technology^†
ChemE/MSE565	Electron Theory of Materials
BioE573A	Biosensors, Principles and Practice
BioE599J	Bioengineering Applications of Microfabrication
EE5XX	MEMS Process Integration (capstone class)*
	* Course under development. ^† Course currently not offered.

This page is under construction.

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For more information please contact Karl Böhringer (karl@ee.washington.edu).