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Course Criteria
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4.00 Credits
(4 credit/5 contact hours) Continues direct current (DC) concepts and applications. Topics include: complex series/parallel circuits and DC theorems. Prerequisites: None. Corequisites: IFC 101 MAT 103 MAT 191 . Spring 2009 Course Availability
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4.00 Credits
(4 credit/5 contact hours) Continues development of AC concepts with emphasis on constructing, verifying, and troubleshooting reactive circuits using RLC theory and oscilloscopes. Topics include: reactive components, simple RLC circuits, AC circuit resonance, passive filters, and non-sinusoidal wave forms. Prerequisites: None. Corequisites: None. Spring 2009 Course Availability
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4.00 Credits
(4 credit/5 contact hours) Continues the exploration of the physical characteristics and applications of solid state devices. Topics include: PN diodes, power supplies, voltage regulation, special applications, bipolar junction theory, and bipolar junction application. Prerequisites: None. Corequisites: None. Spring 2009 Course Availability
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4.00 Credits
(4 credit/5 contact hours) Provides in-depth instruction on the characteristics and applications of linear integrated circuits. Topics include: operational amplifiers, timers, and three-terminal voltage regulators. Prerequisites: None. Corequisites: None. Spring 2009 Course Availability
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4.00 Credits
(4 credit/5 contact hours) Introduces the basic building blocks of digital circuits. Topics include: binary arithmetic, logic gates and truth tables, Boolean algebra and minimization techniques, logic families, and digital test equipment. Prerequisites: ELC 114 IFC 103 . Corequisites: None. Spring 2009 Course Availability
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4.00 Credits
(4 credit/10 contact hours) Uses the concepts developed in Digital Electronics I as a foundation for the study of more advanced devices and circuits. Topics include: flip-flops, counters, multiplexers and demultiplexers, encoding and decoding, display drivers, and analog to digital and digital to analog conversions. Prerequisites: None. Corequisites: None. Spring 2009 Course Availability
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4.00 Credits
(4 credit/5 contact hours) Provides a basic understanding of microprocessor and microcontroller operation, programming, interfacing, interrupts, and troubleshooting. The choice of microprocessor and microcontroller used in the lab experiences and illustration of basic operation is not important. The main objective of the course is to give the student a basic understanding of microprocessor operation and applications. Prerequisites: None. Corequisites: None. Spring 2009 Course Availability
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7.00 Credits
(7 credit/10 contact hours) Introduces microprocessor fundamentals with a focus on current generation microprocessors. Topics include: microprocessor architecture, instruction set, addressing schemes, debugging, and memory devices. Prerequisites: ELC 115 . Corequisites: None. Spring 2009 Course Availability
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4.00 Credits
(4 credit/5 contact hours) Introduces the fundamental concepts and technologies utilized in industrial electronics applications. Topics include: process controls, sensors, motor controls, programmed controls, mechanical devices, fluid power, and robotics. Prerequisites: None. Corequisites: None. Spring 2009 Course Availability
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6.00 Credits
(6 credit/8 contact hours) Introduces industrial process control applications with an emphasis on sensors and signal conditioning. Topics include: symbology and drawing standards, control techniques, sensors and signal conditioning, and ISA and other relevant standards. Prerequisites: ELC 120 . Corequisites: None. Spring 2009 Course Availability
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