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Course Criteria
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3.00 Credits
3 HRS. Study of theory and laboratory experiments in basic and advanced direct current circuits as well as networks. Concepts covered include voltage, current, resistance, conductance and power. Topics studied are: Ohms Law, Series Circuits, Parallel Circuits, Complex Circuits and Network Theorems. (2 lecture and 2 lab hours per week) (Prerequisite: MATH 111 or 114 or concurrent registration) F
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3.00 Credits
3 HRS. Theory and laboratory experiments in the area of alternating current in resistive, capacitive and inductive circuits. Topics covered are: sinusoidal and nonsinusoidal waveforms, current/ voltage relationships in RC, RL and RLC circuits, power factor, phase angles, phasor diagrams and network analysis. (2 lecture and 2 lab hours per week) (Prerequisite: ELEC 105, Math 111 or 128) S
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1.00 Credits
3 HRS. Concepts covered include atomic structures, P-type and N-type material. Diode fabrication. Devices studied include: Rectifier diodes, zener diodes, varactors, varistors, LEDS and bipolar transistors. Topics covered: Half & full wave rectifiers, filtered and regulated power supplies, PNP and NPN transistors characteristics, biasing and models. Laboratory experiments are used to verify most of the topics covered in the lecture. (2 lecture and 2 lab hours per week) (Prerequisites: ELEC 105, 120 or concurrent registration) S
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2.00 Credits
3 HRS. Continuation in the study of analog devices and their behavior in circuits. Devices studied include: Junction field effect transistors (FET), thyristors, SCRS, and UJTS. Topics covered include: JFET amplifiers, analog switches, frequency response of bipolar and field effect transistor amplifiers, and positive and negative feedback. Laboratory exercises will be used in most of the classroom instruction. (2 lecture and 2 lab hours per week) (Prerequisite: ELEC 124). F
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3.00 Credits
3 HRS. Industrial, commercial and residential electrical wiring, safety code, motor starters and controllers. (2 lecture and 2 lab hours per week.) (Prerequisite: ELEC 120) S
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1.00 Credits
3 HRS. Study of the operation of industrial power control circuits. Devices covered include: Relays, conductors, solid state switches, SCRs, and TRIACs. Control circuit devices include UJTs, PUTs, DIACs, photo-devices and timers. Systems studied include conveyers, First Failure Annunciator, automatic welding converters and output amplifiers. Laboratory exercises are used to test and troubleshoot most of the systems covered in lectures. (2 lecture and 2 lab hours.) (Co-requisite: ELEC 222.) F
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2.00 Credits
3 HRS. Study of the devices found in the industry as inputs and outputs for programmable controllers, including motor, solenoid, alarm, light, relay stepping motor, limit switch proximity switch, transducers, etc. Concepts studied include: Examine ON, Examine OFF, Series Functions, Parallel Functions, Series and Parallel Rungs, PC Timing Cycle, and Time and Event Driven Sequence. Systems studied include: 4 station punch press, pipe threader, material handling, microcomputer assembly batch process control, spray paint robotic welder, etc. Laboratory exercise using programmable controller to set up the systems covered in lecture. (2 lecture and 2 lab hours.) (Prerequisite: ELEC 220) S
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3.00 Credits
3 HRS. The analysis of digital logic circuits and systems with the help of truth table diagrams, numbering systems, logic gates, Boolean Algebra and Karnaugh maps. Devices studied include: inverters and Gates, or Gates NAND and NOR Gates, Exclusive OR and Exclusive NOR Gates. Systems studied include: Half and Full Adders, Encoders, and Decoders Code Converters, Multiplexers, Demultiplexers and Parity Generators (2 lecture and 2 lab hours per week.) (Prerequisite: ELEC 124) F
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3.00 Credits
3 HRS. The analysis of the sequential systems and digital logic circuits through the use of timing diagrams, sequential states tables, waveforms, truth tables and Karnaugh maps. Devices studied include: Counters, Flip-Flops, various memory devices, Microprocessors, Buffers and Arithmetic Logic Units (ALU). Circuits include: interfacing, data transmission, and arithmetic processors. Laboratory exercises will be used to support classroom instruction plus troubleshooting will be exercised. (2 lecture and 2 lab hours per week.) (Prerequisite: ELEC 222.) S
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2.00 Credits
2 HRS. Building, trouble shooting, and adjusting for optimum results of electronic circuits such as regulated power supplies and solid state device testers, sirens, security systems, etc. (1 lecture hour and 2 lab hours per week. (Prerequisite: ELEC 124).
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