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General Option
The Electronics Engineering Technology program provides graduates with a diverse knowledge base and a comprehensive understanding of the principles of electricity, microcomputers, communications and industrial electronics. Graduates have the ability to apply these concepts in solving technical and scientific problems. Emphasis on practical skills and state-of-the-art applications ensure immediate applicability to the needs of industry.
Students enrolling in the Electronics Engineering Technology program have two degree options to choose from:
Electronics Engineering Technology General Option The Electronics Engineering Technology General Option focuses on the fundamentals of the technology driving today’s systems, including computer systems, telecommunications, networks, wireless, controls and instrumentation. Graduates have a broad knowledge base that qualifies them for challenging career-entry positions in the dynamic electronics fields. All students have the opportunity to become a certified electronics technician through the International Society of Certified Electronics Technicians, which gives them a career advantage. The Electronics Engineering Technology General Option is accredited by the Technology Accreditation Commission (TAC) of ABET and the Federal Aviation Administration’s Air Traffic Organization, Technical Operations, Collegiate Training Initiative.
Electronics Engineering Technology Biomedical Engineering Technology Option The Electronics Engineering Technology Biomedical Engineering Technology Option provides students with an intensive, hands-on experience that concentrates on general biomedical equipment with an introduction to diagnostic imaging. All students will have the opportunity to become certified through the International Society of Certified Electronics Technicians. They will also be qualified to take the Association for the Advancement of Medical Instrumentation (AAMI) certification exam.
Program Mission
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|
CORE CURRICULUM |
Credit Hours | ||
|
122 |
DC/AC Circuit Analysis w/Lab |
6 |
|
|
EET |
123 |
Semiconductor Devices and Analog Circuits w/Lab |
8 |
|
EET |
125 |
Digital Electronics w/Lab |
4 |
|
EET |
215 |
Microcomputer Hardware, Operation, Repair, and Interfacing w/Lab |
4 |
| EET | 237 | Electronic Telecommunications w/Lab |
5 |
|
|
|
SUB-TOTAL |
27 |
|
|
|||
| GENERAL EDUCATION REQUIREMENTS |
|
||
| General Education Requirements |
19 |
||
| Must Include: |
|
||
| MAT | 122 |
Elements of Calculus |
3 |
| PHY | 201 | General Physics |
5 |
| SUB-TOTAL |
20 |
||
|
PROGRAM REQUIREMENTS |
|||
| General Option | |||
|
EET |
163 |
Software Development and Assembly Language Programming w/Lab |
3 |
|
EET |
210 |
Industrial Electronics w/Lab |
5 |
|
EET |
214 |
Programmable Controllers |
3 |
|
EET |
240 |
Computer Integrated Manufacturing w/Laboratory |
3 |
|
COM |
211 |
Technical Writing |
3 |
|
MAT |
120 |
Pre-Calculus |
5 |
|
OR |
|
|
|
|
MAT |
115 |
College Algebra |
3 |
|
AND |
|
|
|
|
MAT |
121 |
Trigonometry |
3 |
|
SUB-TOTAL |
22-23 |
||
| OR |
|
||
| Biomedical Engineering Technology Option |
|
||
|
EET |
105 |
3 |
|
|
EET |
110 |
Medical Terminology |
2 |
|
EET |
133 |
Biomedical Instrumentation I |
3 |
|
EET |
222 |
3 |
|
|
EET |
225 |
Diagnostic Imaging |
3 |
|
COM |
211 |
Technical Writing |
3 |
|
MAT |
120 |
Pre-Calculus |
5 |
|
OR |
|
|
|
|
MAT |
115 |
College Algebra |
3 |
|
AND |
|
|
|
|
MAT |
121 |
Trigonometry |
3 |
| Optional | |||
|
EET |
170 |
Biomedical Engineering Technology Internship (Optional) |
(4) |
|
SUB-TOTAL |
22-27 |
||
| GRADUATION REQUIREMENT |
|
||
|
BUS |
125 |
Job Search Strategies |
1 |
| SUB-TOTAL |
1 |
||
|
|
|||
| PROGRAM TOTAL |
70-75 |
||
EET 105 Human Anatomy and Physiology as applied to Biomedical Instrumentation. This course is an overview of the body systems, structures and functions. Emphasis is placed on the nervous, cardiovascular and respiratory systems. This course will introduce students to therapeutic and diagnostic biomedical instrumentation as it relates to the body systems. 3 credit hours.
EET 110 Medical Terminology. This comprehensive introduction to medical terminology is organized by body system and specialty areas of practice. Word building rules assist in understanding the basis for combining word elements; and medical terms are broken down into component parts each time a new term is introduced. The course is designed to help the student acquire a working medical vocabulary to spell, use, and define medical terms. 2 credit hours.
EET 120 Basic Electricity and Electronics. This course introduces the fundamental concepts of electricity/electronics and test equipment to non-electrical/electronic majors. Topics include basic DC and AC principles (voltage, current, resistance, and impedance); components (resistors, inductors, capacitors, and semi-conductors); power; and the operation of test equipment. Upon completion of this course the student will be able to construct and analyze/troubleshoot basic DC and AC circuits (series, parallel, and series-parallel). 3 credit hours.
EET 122 DC/AC Circuit Analysis w/Lab. Topics include: elements of electrical physics, electrical conductors, resistors and insulators, application of Ohm’s law, conversion of electrical units, resistor color code, power, energy, alternating current (AC) and direct current (DC), series-combination DC and AC circuits, voltage dividers, network theorems, voltage and current sources, magnetism and electromagnetism, meter movements and scales, generation of sinusoidal waveforms, vector analysis, capacitance, inductance, impedance, reactive circuits, RC circuits, RL circuits, RLC circuits, and electrical safety. The course includes a laboratory course designed to provide theory of experimentation and use of electronic instruments, electrical safety, soldering, and practical experience in basic measurement and meters. 6 credit hours.
EET 123 Semiconductor Devices and Analog Circuits w/Lab. The analysis and design of circuits utilizing both discrete and integrated circuit components, is then implemented into various system applications. Topics include: electronic conduction in conductors and semiconductors, the pn junction, diodes, diode circuits, special purpose diodes, optoelectronic devices, bipolar transistors, transistor fundamentals, transistor biasing, AC models, amplifiers, field effect transistors, FET circuits, thyristors, operational amplifiers, amplifier frequency effects, negative feedback, linear op-amp circuits, oscillators and regulated power supplies. Also includes laboratory experiences which include device testing, observation of characteristics, schematic tracing, circuit analysis and troubleshooting techniques. Prerequisite: EET 122. Corequisites: MAT 120 or MAT 115 and MAT 121. 8 credit hours.
EET 125 Digital Electronics w/Lab. Logic design, combinational logic circuits, sequential logic circuits, timing concepts, digital arithmetic operations and circuits, integrated circuit logic families, MSI/LSI logic circuits, memory devices and circuits, microprocessor architecture, instruction types and addressing modes and memory organization. Also includes a laboratory course with experiments designed to support this course. 4 credit hours.
EET 133 Biomedical Instrumentation I. An introduction to sensors and electronic circuits used in biomedical equipment. Circuits covered are operational amplifiers, instrumentation amplifiers, filters, and other various signal processing circuits. Transducers and associated circuitry used to measure ECG, EEG, EMG, ph and other biopotentials will be covered in this course. This course includes laboratory work to reinforce topics covered in the lecture. Prerequisites: EET 105, EET 123, and EET 125. 3 credit hours.
EET 163 Software Development and Assembly Language Programming w/Lab. A comprehensive course covering problem definition and program design, flowcharting, modular programming, structured programming, debugging, documentation and testing of software developed for the Intel microprocessor-based computers. Assembly language programming skills are developed using editor/assembler software. Topics include: Intel instruction set, addressing modes, assembler conventions, character coded data, code conversions, arithmetic and logic functions, input/output routines and interrupt handling. 3 credit hours.
EET 170 Biomedical Engineering Technology Internship. The internship is an optional work experience in a biomedical facility under the supervision of an experienced biomedical engineering technician. The student will assist in the performance of safety inspections, preventive maintenance, repairs and calibration of various medical equipment. Prerequisites: EET 105. 4 credit hours.
EET 210 Industrial Electronics w/Lab. This course includes operational amplifiers for industrial applications, linear integrated circuits for industrial applications, A/D and D/A conversion, DC motors and generators, industrial control devices and circuits, power control devices and circuits, optical electronics control devices, temperature and humidity transducers, industrial process control applications and circuits, pulse modulation techniques, data acquisition, industrial telemetry and data communication, sequential process control and control logic and programmable controllers. Also includes a laboratory course with experiments designed to support this course. Prerequisites: EET 123 and EET 125. 5 credit hours.
EET 214 Programmable Controllers. Course includes the hardware configuration, I/O modules, memory organizations, and instruction sets of several different programmable controllers. Students study ladder logic and apply it to several industrial control applications. Prerequisite: EET 125. 3 credit hours.
EET 215 Microcomputer Hardware, Operation, Repair, and Interfacing. Topics include: microcomputer architecture, LSI support devices, DRAM subsystem, video display, floppy and hard disk subsystems, troubleshooting and repair, interfacing to the PC bus, serial interfacing, parallel interfacing, sensor interfacing, user input device interfacing. Also includes a laboratory course with experiments designed to support this course. Prerequisites: EET 123 and EET 125. 4 credit hours.
EET 222 Biomedical Instrumentation II. This course will instruct the student in the operation, diagnostics, preventive maintenance, and calibration of medical equipment. Various types of biomedical equipment will be demonstrated and/or used in the labs. Prerequisite: EET 133. 3 credit hours.
EET 225 Diagnostic Imaging. This course covers the theory of diagnostic imaging including x-ray, computer aided tomography, nuclear imaging and ultrasound. Components and safety of nuclear imaging systems are included. Safety aspects of x-ray are also taught. Prerequisites: EET 123, and EET 125. 3 credit hours.
EET 237 Electronic Telecommunications w/Lab. A course designed to study all the relevant aspects of communications systems. Topics include signals and their spectra, noise, amplitude, single side band, frequency, angle and pulse modulation, transmission and reception, communications techniques, digital and data communications, digital-to-analog and analog-to-digital conversions, radio telemetry, transmission lines, antennas, antenna wave propagation, LASER and fiber optic techniques and television theory. Also includes a laboratory course where digital and analog communications systems troubleshooting procedures are emphasized. Prerequisite: EET 123, Corequisite: MAT 122. 5 credit hours.
EET 240 Computer Integrated Manufacturing w/Lab. A comprehensive technical survey of the important topics in production automation and related systems. Topics include flow line production, numerical control, industrial robotics, material handling, group technology, flexible manufacturing systems, automated inspection, process control, and computer integrated manufacturing (CIM). Students design and model a CIM system. Skills in system design and layout, controller design, hardware interfacing, control and timing implementation, and software interfacing are developed. Prerequisites: EET 210 and EET 215. 3 credit hours.
EET 299 Special Topics in Electronics Engineering Technology. Special Topics in Electronics Engineering Technology (EET) may include instruction on topics not covered in other EET courses. Topics covered in other EET courses may also be covered in more depth in this special topics course. Projects may be undertaken in any area related to the major program with credit hours determined by the level and amount of involvement. The minimum involvement required for one credit is 30 contact hours. The specific topic(s), objectives, plan of instruction, and evaluation criteria must be documented in the syllabus; approved by the Department/Division Chair; and filed in the Academic Records Office. Students may complete more than one Special Topics course, provided that the credits earned in this manner do not exceed a total of four (4) credits. 1-4 credit hours
