College Catalog
ELN Electronics
Courses are listed by course discipline prefix, number, course title, credit hours, and, in parentheses, the number of lecture, laboratory and/or work experience/clinical hours, and the semester the course is offered. Local and state prerequisites and corequisites are identified by superscript L for localL and S for stateS. The symbol “AND” indicates the course will be offered “As Needs Demand.”
UGETC represents the Universal General Education Transfer Component as described in the Comprehensive Articulation Agreement (CAA).
| Prefix | Number | Title | Hours | Semester |
|---|---|---|---|---|
| ELN | 131 | Analog Electronics I | 4 (3-3) | Spring |
Prerequisite: None
Corequisite: None
This course introduces the characteristics and applications of semiconductor devices and circuits. Emphasis is placed on analysis, selection, biasing, and applications. Upon completion, students should be able to construct, analyze, verify, and troubleshoot analog circuits using appropriate techniques and test equipment.(2013 FA)
| Prefix | Number | Title | Hours | Semester |
|---|---|---|---|---|
| ELN | 133 | Digital Electronics | 4 (3-3) | Summer |
Prerequisite: None
Corequisite: None
This course covers combinational and sequential logic circuits. Topics include number systems, Boolean algebra, logic families, medium scale integration (MSI) and large scale integration (LSI) circuits, analog to digital (AD) and digital to analog (DA) conversion, and other related topics. Upon completion, students should be able to construct, analyze, verify, and troubleshoot digital circuits using appropriate techniques and test equipment.(2013 FA)
| Prefix | Number | Title | Hours | Semester |
|---|---|---|---|---|
| ELN | 232 | Intro to Microprocessors | 4 (3-3) | Spring |
Prerequisite: None
Corequisite: None
This course introduces microprocessor architecture and microcomputer systems including memory and input/output interfacing. Topics include low-level language programming, bus architecture, I/O systems, memory systems, interrupts, and other related topics. Upon completion, students should be able to interpret, analyze, verify, and troubleshoot fundamental microprocessor circuits and programs using appropriate techniques and test equipment.(1997 SU)