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Course Criteria
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3.00 Credits
The first course in digital electronics covering basic electrical concepts, number systems, combinational gates (AND, OR, NOT, NAND, NOR, and XOR), electrical characteristics and internal structures of TTL gates, Boolean algebra, Karnaugh mapping, and use of MSI devices including adders, decoders, encoders, multiplexers and demultiplexers. Includes a 3 hour per week laboratory. Prerequisite: MTH 65.
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3.00 Credits
The second course in digital electronics presents sequential circuit elements (latches and D/JK flip-flops) with applications including counters, registers, and shift registers. Sequential network analysis and synthesis are covered including the use of state tables and state diagrams. An introduction to sampling and the Nyquist Sampling Theorem are included along with introductory coverage of analog-todigital converters (ADC) and digital-to-analog converters (DAC). Includes a 3 hour per week laboratory. Prerequisite: EET 121.
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5.00 Credits
The third course in digital electronics continues prior coverage of digital-toanalog converters (DACs) and analog-to-digital converters (ADCs) with additional conversion topologies, a more detailed analysis of the Nyquist sampling theorem, additional coverage of programmable logic devices (PLDs), and the implementation of sequential state machines. Includes a 3 hour per week laboratory. Prerequisite: EET 122.
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1.00 Credits
Safety practices in the electronics industry. Emphasizes electrical and chemical hazards. Safe handling of electronic components in the manufacturing environment including ESD control. Prerequisite: EET 111 or 121.
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5.00 Credits
Introduction to semiconductor devices. Characteristics and biasing of diodes and transistors. Design and analysis of circuits using diodes, bipolar transistors, and field effect transistors. Application of transistors as amplifiers and switches. A 3-hour per week laboratory includes applications of computer tools in circuit design, evaluation, and analysis. Prerequisites: EET 113, MTH 112.
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5.00 Credits
Characteristics and applications of operational amplifiers (op-amps). Design and analysis of op-amp amplifiers, comparators, voltage and current regulators, summers, integrators, and differentiators. Frequency response of op-amp circuits. Applications of the op-amp in power supplies and control systems. A 3-hour per week laboratory includes project design, evaluation, and documentation. Use of computer tools. Prerequisite: EET 221. Recommended prerequisite or concurrent registration: MTH 251.
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1.00 Credits
Topics include information on finding employment in the electronics industry, writing resumes, and interviewing. Prerequisite: Sophomore standing in RET.
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4.00 Credits
This course introduces the student to the basic concepts, principles, and circuits of automated industrial control systems. The student will be expected to have completed a digital systems course, have a basic understanding of microprocessors and assembly language programming, and linear transistor and operational amplifier circuits. In addition, an introduction to integral and differential calculus is recommended.
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3.00 Credits
Covers the roles and responsibilities of the EMT, emergency medical services system, medicallegal considerations, major incident response, hazardous materials awareness, and stress management.
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4.00 Credits
Part 1 of the Oregon EMT Basic course is designed to develop student skills in the recognition of symptoms of illness and injuries and proper procedures of emergency care. Department permission required. Prerequisites: WR 115, MTH 20, RD 90.
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