CCOG for MT 113A archive revision 202203
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- Effective Term:
- Summer 2022 through Winter 2024
- Course Number:
- MT 113A
- Course Title:
- Applications of Semiconductor Devices
- Credit Hours:
- Lecture Hours:
- Lecture/Lab Hours:
- Lab Hours:
Addendum to Course Description
The laboratory portion of this course provides students with the opportunity to develop skills in the operation of electronics test instruments (signal generators, digital multimeters and oscilloscopes). Students will work in teams of two or more to perform and complete laboratory exercises. Through the hands-on practice, they will learn how to apply general troubleshooting strategies to narrow the scope of a problem’s location, and to further isolate it.
Intended Outcomes for the course
Upon completion of the course students should be able to:
- Construct, test and troubleshoot circuits that incorporate semiconductor devices.
- Operate electronic test equipment including multimeters, power supplies, signal generators and oscilloscopes.
- Recognize and interpret technical documentation such as schematic diagrams and device data sheets.
- Practice safe electronics testing procedures.
Through the lab experiments and the hands-on practice, the students will learn how to apply general troubleshooting strategies to narrow the scope of a problem’s location, and to further isolate it.
Course Activities and Design
One hour of lecture followed by two hours of hand-on activities will be taken every week. Demonstrations and explanations will be provided by the instructor during the lecture lab hours. The emphasis of all the course activities will be on troubleshooting circuits made with semiconductor components.
Outcome Assessment Strategies
Homework, one final exam on paper and one final practical exam should be expected.
The emphasis of each of these examinations is on electronic test equipment
proper use and on mastering the circuit troubleshooting techniques.
Course Content (Themes, Concepts, Issues and Skills)
The theme of the course will be diagnosing and fixing problems with electronic circuits made with semiconductor devices such as rectifiers, power amplifiers, inverters, etc. Students will learn how to apply troubleshooting techniques like:
divide system into sections and test each individual section
remove parallel components
swap identical components
A general troubleshooting approach like the one below will be demonstrated and practiced in the lab setting:
Understand the system.
Understand the problem and history.
Eliminate the obvious.
Develop possible causes and theories.
Eliminate causes, start with what is easy, or likely.
Validate and document the solution.