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Course Criteria
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4.00 Credits
4 Semester Hours Pre/Corequisite: MTH 125 or consent of Academic Program Director. A Laboratory Course: 3 hours lecture and 2 hours laboratory work each week. This course provides the student with a complete understanding of the fundamental laws, principles and analysis techniques for DC linear circuits. Steady state and transient responses are covered in RLC circuits.
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4.00 Credits
4 Semester Hours Prerequisite: EET 100 A Laboratory Course: 3 hours lecture and 2 hours laboratory work each week. This course provides the students with a complete understanding of alternating current fundamentals and theory with emphasis on the study of reactance; resonance; RC, RL, and RLC circuits; transformers; phase angles and power factors.
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4.00 Credits
4 Semester Hours Prerequisite: EET 105 A Laboratory Course: 3 hours lecture and 2 hours laboratory work each week. This course introduces the student to the theory and application of solid-state devices. Topics include semiconductor theory, diodes, transistor, thyristors, integrated circuits, amplifiers, and oscillators.
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4.00 Credits
4 Semester Hours Prerequisite: EET 105 A Laboratory Course: 3 hours lecture and 2 hours laboratory work each week. This course provides the student with a basic understanding of basic logic concepts and digital circuits. This course covers basic digital logic, combinational logic, sequential logic, and digital systems. The student will learn to design and troubleshoot digital circuits using up-to-date components. The student will learn to work with TTL and CMS logic families along with other analog and digital components.
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3.00 Credits
3 Semester Hours Prerequisite: RDG 090 or minimum placement test score for placement in college level reading. This course introduces the student to occupational safety and health. It develops the student's understanding and competence in occupational safety and health by introducing safety practices applicable to the industrial workplace. It provides analysis of various Occupational Safety and Health Administration (OSHA) regulations including: hazard identification, confined spaces, electrical safety, lockout/tagout, personal protective equipment, disaster preparedness and emergency response, materials handling and storage, means of egress and fire prevention, and machine guarding. Other topics relating to occupational safety and health will be investigated during the course.
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4.00 Credits
4 Semester Hours Pre/Co-requisite: MTH 125 Lecture/Laboratory: 3 hours lecture and 3 hours laboratory per week This course introduces the student to direct-current electrical circuits and devices. Theory of series, parallel and series-parallel circuits will be studied. The student will learn about components, instruments, and linear networks and theorems. Measuring and troubleshooting techniques will be used to analyze circuits and components. Magnetism and electro-magnetic induction will be studied.
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4.00 Credits
4 Semester Hours Prerequisite: ELM 105 Lecture/Laboratory: 3 hours lecture and 3 hours laboratory per week This course concentrates on alternating-current electrical circuits. Inductance, capacitance, inductive and capacitive reactance and their effect on AC circuits will be studied. The theory of resonance is introduced and the practical use and function of filters and filtering circuits will be investigated. Transformer theory and applications will be studied.
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3.00 Credits
3 Semester Hours Pre/Co-requisite: ELM 106 Lecture/Laboratory: 2 hours lecture and 2 hours laboratory per week This course introduces the student to the concepts, design and function of electrical control systems for machines and processes. Control devices used for motor starting, speed control, pressure control, temperature control, time control and count control will be covered. The development, design and use of relay logic, ladder control and wiring diagrams will be emphasized. The construction and operation of AC and DC motors will also be studied.
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3.00 Credits
3 Semester Hours Pre/Co-requisite: MTH 125 Lecture/Laboratory: 2 hours lecture and 2 hours laboratory per week This course introduces the student to the theory and application of fluid power. Hydraulic and pneumatic devices and circuits will be studied. The construction, function and application of these devices will be emphasized. Fluid power schematics, circuitry, instrumentation, and control will be investigated.
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1.00 - 3.00 Credits
1-3 Semester Hours Presents courses in electromechanical technology which the College expects to offer only once or occasionally in response to specific curriculum or community interests or needs. The course may consist of seminars, specialized or individual instruction, and/or research in an area related to industrial maintenance.
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