This course is a study of direct and alternating currents, covering resistance and
impedance in series, parallel, and series-parallel circuits using Ohm's Law, Kirchhoff's
laws, and basic circuit theorems. Circuits are analyzed using mathematics and verified
using electrical instruments.
This course is a continuation in electrical circuits, including advanced network theorems.
Circuits are analyzed using mathematics and verified using electrical instruments.
This course is a study of semiconductor theory and principles, diodes and diode circuits,
transistors, transistor circuits, and other components. Circuits are modeled, constructed,
and tested.
This course is a study of number systems, basic logic gates, Boolean algebra, logic
optimization, flip-flops, counters and registers. Circuits are modeled, constructed,
and tested.
This course covers constructing and troubleshooting a series of applicable circuits
using integrated circuit chips and other components, including the use of data books
and test equipment.
This course is a study of digital integrated circuits, including multiplexers, demultiplexers,
buffers, decoders, encoders, converters, memory devices, and programmable logic devices.
Circuits are modeled, constructed, and tested.
This course is a study of power generation, transmission, transformers, distribution,
and motor controls.
This course includes analysis, application, and experiments involving such integrated
circuits as op-amps, timers and IC regulators. Circuits are modeled, constructed,
and tested.
This course is a study of AC and DC electro-mechanical energy conversion devices,
theory, applications and control. Devices are tested and verified using electrical
instruments.
This course is a survey of topics related to industrial application of electronic
devices and circuits. The course covers switches, DC and AC motor controls, sensors
and transducers, open and closed loop control circuits and voltage converting interfaces.
Circuits are constructed and tested.
This course is a study of relay logic, ladder diagrams, theory of operation, and applications.
Loading ladder diagrams, debugging, and trouble-shooting techniques are applied to
programmable controllers.
This course covers advanced topics in programmable logic controllers (PLC) systems
and programming including timing, conversions, analog operations, PID control, auxiliary
commands and functions, and PLC to PLC systems communications.
This course is a study of the techniques for sending and receiving information. Topics
include media characteristics, modulation/demodulation, signal conversions, multiplexing
and demultiplexing, protocols, industrial standards, networks, and error detection
and correction. Circuits are modeled, constructed and tested.
This course is a study of software and hardware interfacing techniques. Circuits are
modeled, constructed, and tested.
This course introduces required skills for robotics manufacturing technicians. Instruction
includes integrated content from electrical, mechanical, photonic, and geospatial
systems. Students will experience industry simulations and practical application of
content.