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Course Criteria
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1.00 Credits
Six hours lab weekly (eight weeks). Prerequisite: Electronics 112 and completion of or concurrent enrollment in Electronics 113. Acceptable for credit: CSU Provides the student with practical experiences for the comprehension of AC electrical concepts introduced in Electronics 113 and to present the proper use of electronic test instrumentation for the measurement of circuit parameters. Safety and troubleshooting concepts are presented in each laboratory assignment. (GR/P/NP) (F,S,)
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3.00 Credits
Three hours weekly. Prerequisite: Math 311. Corequisite: Concurrent enrollment in Electronics 112 and Electronics 114 or Electronics 119. Acceptable for credit: CSU An introductory study of the nature of electricity, the processes employed in the analysis and documentation of DC and AC electric circuits, and the use of basic electronic testing instruments. Topics include: current, voltage, resis- and bridge resistive and reactive circuits, Kir and current laws, loading effects of meters and supplies, capacitors, inductors, filters, RC and RL time constants, applications of Kirchhoff laws to multiple source seriesparallel circuits, complex numbers and network theorems. (GR/P/NP) This course is not open to students who are enrolled in or have received credit for Electronics 111. (GR/P/NP) (F,S)
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2.00 Credits
Six hours lab weekly. Prerequisite: Completion of or concurrent enrollment in Electronics 118. Acceptable for credit: CSU Practical experience for the comprehension of DC and AC electrical concepts introduced in Electronics 118 and also presents the proper use of electronic test instrumentation for the measurement of circuit parameters. (GR) (F,S)
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3.00 Credits
Three hours weekly. Prerequisite: Electronics 118 and 119. Advisory: Concurrent enrollment in Electronics 123. Acceptable for credit: CSU Introductory study of semiconductor devices and systems. Includes detailed analysis of Diodes, BJT's and FET's, thyristors and optoelectronic components, and linear integrated circuits. (GR) (F)
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2.00 Credits
Six lab hours weekly. Prerequisite: Electronics 118 and 119 and completion of or concurrent enrollment in Electronics 122. Acceptable for credit: CSU Provides the opportunity for students to apply theoretical semiconductor concepts in a laboratory environment with an emphasis on Diodes, BJT's, FET's, thyristers, optoelectronic devices, and linear integrated circuits. (GR) (F)
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3.00 Credits
Three hours weekly. Prerequisite: Electronics 118 and 119. Acceptable for credit: CSU Study of modern logic devices, circuits, and design techniques emphasizing logic families, implementation of devices, combinational and sequential logic circuits, number systems and codes, A/D and D/A conversion, ALU's, digital computer math techniques, memories, and system design practices and troubleshooting. (GR) (F,S)
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2.00 Credits
Six hours weekly. Prerequisite: Electronics 118 and 119. Advisory: Completion of or concurrent enrollment in Electronics 125. Acceptable for credit: CSU Digital electronics laboratory designed to parallel Electronics 125. Emphasizes device operation in circuits and networks, and the proper use of standard digital logic test instruments used in the process of troubleshooting and verifying proper circuit operation. (GR) (F,S)
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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 Engineering Technology 128. (GR/P/NP) (A)
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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 Engineering Technology 131. (GR/P/NP) (A)
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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 Engineering Technology 133. (GR/P/NP) (A)
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