|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
Two hours lecture, three hours lab weekly. Prerequisite: Computer Science/Electronics/Engineering Technology 104. Electronics118 and 119 or Electronics 111 and 112 and 113 and 114. Acceptable for credit: CSU A study of the principles behind energy generation and conversion that can be applied to modern electrical, mechanical, and chemical devises that use or produce power. Special emphasis will be given to the study of electricity as a renewable energy source. This course is not open to students who are enrolled in or have received credit for Computer Electronics 128 or Electronics 128. (GR/P/NP) (A)
-
3.00 Credits
Two hours lecture, three hours lab weekly. Prerequisite: Electronics 125 or Computer Science 141. Acceptable for credit: CSU A study of the purpose and operating features of a programmable logic controller (PLC). Topics include PLC terminology, architecture, input/output modules, memory, commands for internal relays, on/off timers, up/down counters, use of subroutines, program control, and math instructions. Relay schematics, ladder logic diagrams, and programming of logic controllers are emphasized. Sensing devices and time-driven process sequences will be studied and integrated into control systems. This course is not open to students who are enrolled in or have received credit for Computer Electronics 131 or Electronics 131. (GR/P/NP) (A)
-
3.00 Credits
Two hours lecture, three hours lab weekly. Prerequisite: Computer Electronics/Electronics 104. Electronics 122 or Electronics 125 or Computer Science 141. Acceptable for credit: CSU A study with hands-on application of the mechanical engineering, electronics, computer programming and electromechanical concepts (mechatronics) in the production of goods and services. Emphasis is on how a wide variety of technical elements fit into industrial applications. Topics include transducers and sensors for light, heat, motion, pressure and position; switching devices; input and output signal conditioning; continuous, closed-loop, and proportional integral derivative process control; and safety. This course is not open to students who are enrolled in or have received credit for Computer Electronics 133 or Electronics 133. (GR/P/NP) (A)
-
3.00 Credits
Two hours lecture, three hours lab weekly. Prerequisite: Computer Science 141 or Electronics 125. Acceptable for credit: CSU An exploration of the Motorola MC 68000 family of microprocessors including internal architecture, memory, addressing, support devices and its control through the use of Assembly and C languages. Students will write programs to perform logic functions and high speed hardware control operations. The use of assemblers, compilers, linkers, and debugging tools will be explored. This course is not open to students who are enrolled in or have received credit for Computer Electronics 138 or Electronics 138. (GR/P/NP) (A)
-
3.00 Credits
Two hours lecture, three hours lab weekly. Prerequisite: Electronics 122 and Electronics 125 or Computer Science 141. Acceptable for credit: CSU A study of electronics, signal communication and power technology that support efficient manufacturing processes for various industries. Topics include motors, their drives and controls, power electronics, PLCs, and communications networks used to monitor industrial processes. This course is not open to students who are enrolled in or have received credit for Computer Electronics 139 or Electronics139. (GR/P/NP) (A)
-
3.00 Credits
Two hours lecture, four hours lab weekly. Prerequisite: Engineering Technology 100. Acceptable for credit: CSU The principles and application of engineering drawing, including orthographic projections, freehand sketching, pictorial drawings, engineering lettering, dimensioning, sections, auxiliary, surface finish, standard and geometric tolerancing, threads, and fasteners are the core of this course. A computer aided drafting system (CAD) will be used extensively by the student to complete the requirements of this course. (GR/P/NP) (F,S)
-
3.00 Credits
One hour lecture, five hours lab weekly. Prerequisite: Engineering Technology 140. Acceptable for credit: CSU Use of advanced technical drawing techniques on a CAD system to solve design component problems requiring details and assemblies. The course covers freehand sketching to develop ideas, fabrication and working drawings dimensioned to ANSI standards, including tolerances, title blocks, change orders, symbols and notes. Use of handbooks, ordinances, codes, selection of hardware and materials will be incorporated in each student's individual project. (GR/P/NP) (F,S)
-
3.00 Credits
Two hours lecture, three hours lab weekly. Advisory: Architecture 111. Acceptable for credit: CSU Introduces computer design and presentation skills for architecture students. Topics include image editing, page layout and 3D modeling. This course is not open to students who are enrolled in or have received credit for Architecture 160. (GR/P/NP) (A)
-
2.00 Credits
Two hours weekly. Acceptable for credit: CSU An introduction to the generation, control and basic applications of hydraulics and pneumatics force and motion systems. Topics include safety, properties of and forces in liquids, pumps, motors, valves, reservoirs, strainers, filers, accumulators, basic diagramming, system design and troubleshooting. This course is not open to students who are enrolled in or have received credit for Computer Electronics 162 or Electronics 162. (GR/P/NP) (A)
-
3.00 Credits
179 - Acceptable for credit: CSU, UC-Determined after admission For course description see "Workshops."
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|