|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
Practical design of switching converters, electromagnetic compatibility, thermal management, and/or control methods. Prerequisite: EECS166A or consent of instructor. Formerly ECE166B. (Design units: 1)
-
4.00 Credits
The properties of semiconductors, electronic conduction in solids, the physics and operation principles of semiconductor devices such as diodes and transistors, transistor equivalent circuits, and transistor amplifiers. Corequisite: Physics 7E. Prerequisites: EECS70A, Physics 7D. Formerly ECE113A. (Design units: 1)
-
4.00 Credits
Design and analysis of single-stage amplifiers, biasing circuits, inverters, logic gates, and memory elements based on CMOS transistors. Corequisite: EECS170LB. Prerequisites: EECS70B, EECS170A, EECS170LA. EECS170B and EECSH170B may not both be taken for credit. Formerly ECE113B. (Design units: 2)
-
4.00 Credits
Principles of operation, design, and utilization of integrated circuit modules, including multi-stage amplifiers, operational amplifiers, and logic circuits. Corequisites: EECS170LC. Prerequisites: EECS170B, EECS170LB. Formerly ECE113C. (Design units: 2)
-
4.00 Credits
Overview of design and fabrication of modern digital integrated circuits. Fabrication of CMOS process; transistor-level design simulation, functional characteristics of basic digital integrated circuits, different logic families including static and dynamic logic, layout and extraction of digital circuits; automated design tools. Prerequisites: EECS170C and EECS170LC. Formerly ECE113D. (Design units: 4)
-
4.00 Credits
Advanced topics in design of analog and communications integrated circuits. Topics include: implementation of passive components in integrated circuits; overview of frequency response of amplifiers, bandwidth estimation techniques, high-frequency amplifier design; design of radio-frequency oscillators. Prerequisite: EECS170D. Formerly ECE113E. (Design units: 3)
-
1.00 Credits
For CpE and EE majors. Laboratory accompanying EECS170A to perform experiments on semiconductor material properties, semiconductor device physics and operation principles, and transistor amplifiers to improve experimental skills and to enhance the understanding of lecture materials. Corequisites: EECS170A, Physics 7E. Prerequisites: EECS70A, EECS70B, Physics 7D. Formerly ECE113LA. (Design units: 1)
-
1.00 Credits
Laboratory accompanying EECS170C to provide hands-on training in design of digital/analog circuits/subsystems. Corequisites: EECS170C. Prerequisites: EECS170B, EECS170LB. Formerly ECE113LC. (Design units: 1)
-
4.00 Credits
Operation principle and characteristics of a broad range of semiconductor devices including bipolar junction device, field-effect transistors, quantum and nanodevices. Prerequisite: EECS170A. Formerly ECE114A. (Design units: 1)
-
4.00 Credits
Students create VLSI design projects from conception through architecture, floor planning, detailed design, simulation, verification, and submission for project fabrication. Emphasis on practical experience in robust VLSI design techniques. Prerequisites: EECS170D; EECS115 or consent of instructor. Concurrent with EECS275A. Formerly ECE115A. (Design units: 4)
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|