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Course Criteria
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3.00 Credits
Industrial safety; NEC Code; electrical wiring symbols and drawings; loads, branch circuits; switches and receptacles; branch circuit installation; lamps and lighting requirements; motors and special equipment; circuit breakers, fuses and ground-fault protection; lightning protection; service equipment; panel boards; feeders and substations. Commercial and industrial wiring exercises in accordance with the NEC code. Projects include: branch circuit and receptacle wiring using romex, flexible and rigid metallic conduit, non-metallic tubing and raceways; load computations and branch circuit design; transformers, feeders and service panels; lighting circuits, motor circuits, special circuits, ground-fault protective devices and circuits. Prerequisite: IE 100 and EL 060.
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3.00 Credits
Introduction to PLCs; hard-wired relay logic versus PLCs; the PLC as a computer; memory addressing and I/O addressing; ladder logic programming; timers and counters; I/O modules; arithmetic instructions; sequencer instructions; troubleshooting PLC systems; plant floor communications and industrial networks and introduction to microcontrollers. Experiments include: PLC I/O characteristics, sinking and sourcing; reading digital inputs and producing on-off outputs; fail-safe circuits; industrial process programming; motor control logic; time delays and timer intervals; counting events; reading AC inputs and controlling AC loads; sequencer control; troubleshooting PLC systems; PID control demo and PLC communications. Prerequisite: IE 120.
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3.00 Credits
This course provides an introduction to process control and servo control systems. Topics include: open and closed loop control; position, velocity, proximity, pressure, temperature, liquid level and flow sensors; signal conditioning; DC and brushless servo motors, servo drive circuits; stepper motors and drives; electric, hydraulic and pneumatic actuators; feedback control principles, set-point, control and process variables; closed-loop performance; two-point and proportional control, PID control and system stability. Experiments include: position, velocity, proximity, temperature, pressure and liquid- level sensor characteristics; signal conditioning; electrical and pneumatic actuator characteristics; process control loops for electrical, thermal, mechanical and pneumatic systems; DC servo control and stepper motor control; PID control concepts and stability. Prerequisite: IE 130.
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3.00 Credits
An introductory course in the essentials of crime scene investigation and evidence collection. Topics will include crime scene protection, types of evidence, methods of discovery, collection, preservation, chain of custody, the process for submission to forensic laboratory and presentation at court. F/S (C, N)
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4.00 Credits
Will familiarize student with the use and operation of a camera. Topics will include camera, lens, focal length, f-stop, film speed and flash. In addition, students will become familiar with taking pictures at crime and accident scenes, photo development, enlargements and the courtroom presentation of evidence. F/S (C, N)
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4.00 Credits
Will familiarize students with the history of fingerprint development, taking of inked fingerprints, development of latent and patent prints on evidence and classification and identification of fingerprints. F/S (C, N)
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3.00 Credits
Will cover the essentials of courtroom presentation of evidence. Topics will include the creation of courtroom charts, including crime scene drawings, photographs, fingerprint comparisons, use of crime and crash zone, ComPARAprint+II, photograph enlargement and fingerprint comparisons. F/S (C, N)
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3.00 Credits
This course is a study of all basic machine tools; it encompasses theory, design and applications, including CNC fundamentals.
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2.00 Credits
An introduction to Computer Numerical Control theory, application and programming for CNC milling machines. Students will develop standard G and Mcode programs used to operate CNC milling machines writing and running programs with CNC simulation software that replicates an actual CNC machine control. The final project is an advanced part produced on an operational CNC mill. Prerequisite: IT 121 or permission of the instructor.
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2.00 Credits
An introduction to Computer Numerical Control theory, application and programming. Students will learn to develop standard G and M-code programs using CNC simulation software that replicates an actual CNC machine control. The final project is an advanced part produced on an operational CNC lathe. Prerequisite: IT 121 or permission of the instructor.
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