Credit Hours | |||
---|---|---|---|
EET | 105 | Applied Human Anatomy & Physiology | 3 |
EET | 150 | Lasers and Optics | 3 |
EET | 225 | Diagnostic Imaging | 3 |
EET | 175 | Biomedical Equipment Technology Internship | 4 |
or | |||
EET | 227 | Biomedical Instrumentation Systems Lab | 2 |
EET | 228 | Biomedical Instrumentation Systems | 3 |
SUB-TOTAL | 14-16 |
Refer to the General Education Requirements and General Education Courses in the College Catalog.
Credit Hours | |||
---|---|---|---|
NST | 101 | Network Fundamentals | 3 |
SUB-TOTAL | 3 |
Credit Hours | |||
---|---|---|---|
COM | 125 | Job Search Strategies | 1 |
SUB-TOTAL | 1 |
PROGRAM TOTAL | 18-20 |
Credit Hours | |||
---|---|---|---|
EET | 124 | Digital Electronics w/Lab | 5 |
EET | 128 | DC Circuit Analysis w/Lab | 4 |
EET | 129 | AC Circuit Analysis w/Lab | 4 |
EET | 135 | Semiconductor Devices & Analog Circuits w/Lab | 5 |
EET | 140 | Microcomputer Hardware, Operation and Repair | 4 |
EET | 150 | Lasers and Optics | 3 |
EET | 220 | Electronic Controls w/Lab | 6 |
EET | 238 | Electronic Telecommunications with Lab | 3 |
COM | 211 | Technical Writing | 3 |
MAT | 121 | Trigonometry | 3 |
Optional: | |||
EET | 155 | Fiber Optic Principles | 3 |
SUB-TOTAL | 40-43 |
Refer to the General Education Requirements and General Education Courses in the College Catalog.
Credit Hours | |||
---|---|---|---|
General Education Requirements | 19 | ||
Must Include: | |||
MAT | 115 | College Algebra | 3 |
PHY | 101 | College Physics | 4 |
PHY | 102 | College Physics Lab | 0 |
NST | 101 | Network Fundamentals | 3 |
SUB-TOTAL | 19 |
Credit Hours | |||
---|---|---|---|
EET | 230 | Microcontrollers & Embedded Systems | 4 |
EET | 250 | Capstone with Embedded Controller Application | 5 |
EET | 270 | Electronic Systems Applications | 3 |
SUB-TOTAL | 12 |
Credit Hours | |||
---|---|---|---|
EET | 105 | Applied Human Anatomy & Physiology | 3 |
EET | 225 | Diagnostic Imaging | 3 |
EET | 170 | Biomedical Engineering Technology Internship | 4 |
or | |||
EET | 227 | Biomedical Instrumentation Systems Lab | 2 |
EET | 228 | Biomedical Instrumentation Systems | 3 |
SUB-TOTAL | 11-13 |
Credit Hours | |||
---|---|---|---|
COM | 125 | Job Search Strategies | 1 |
SUB-TOTAL | 1 |
PROGRAM TOTAL | 71-76 |
This course is an overview of the body systems, structures, and functions. Emphasis is placed on the nervous, cardiovascular and respiratory systems.
Credit Hours: 3
This course teaches logic design, combinational logic circuits, sequential logic circuits, timing concepts, digital arithmetic operations and circuits, integrated circuit logic families, medium scale integrated (MSI) and large scale integrated (LSI) logic circuits, memory devices and circuits, microprocessor architecture, instruction types and addressing modes, and memory organization. Laboratory experiments designed to support the course content are included.
Requisite:
Prerequisite MAT 051 minimum grade C
Credit Hours: 5
This course teaches theoretical and practical analysis of electrical physics, conductors, semiconductors, and insulators. Topics include resistance, capacitance, inductance, application of laws and theorems, conversion of electrical units, power, and energy. Also included is the theoretical analysis of direct current (DC) series and parallel combinational circuits, voltage dividers, magnetism, and electromagnetism. Other topics covered include test equipment and meter scales, waveforms and waveform analysis, vector analysis, reactive circuits, and filter construction and application.
Credit Hours: 4
This course teaches theoretical and practical analysis of electrical physics, conductors, semiconductors, and insulators. Topics include resistance, capacitance, inductance, application of laws and theorems, conversion of electrical units, power, and energy. Also included is the theoretical analysis of alternating current (AC) series and parallel combinational circuits, voltage dividers, magnetism, and electromagnetism. Other topics covered include test equipment and meter scales, waveforms and waveform analysis, vector analysis, reactive circuits, and filter construction and application.
Requisite:
Prerequisite EET 128
Credit Hours: 4
This course teaches the analysis and design of circuits, utilizing both discrete and integrated circuit components, which are implemented into various system applications. Topics include electronic conduction in conductors and semiconductors, the P-N junction, diodes, diode circuits, special purpose diodes, bipolar transistors, transistor fundamentals, transistor biasing, alternating current (AC) models, amplifiers, field-effect transistors (FET), FET circuits, operational amplifiers, amplifier frequency effects, negative feedback, and linear operational amplifier circuits. The laboratory portion of the course is designed to provide practical experience in the construction, analysis, and troubleshooting of electronic devices. Breadboarding of circuits utilizing electronic devices will be performed.
Requisites:
Prerequisite EET 128
and
Prerequisite EET 129
Credit Hours: 5
This course teaches: operating systems; motherboards; central processing units; power supplies; input and output devices; magnetic storage devices; laptops; troubleshooting, repair, and introducation to networking. Also includes laboratory work with experiments designed to support course objectives.
Credit Hours: 4
This course teaches the fundamentals of lasers and optics. It covers the nature and properties of light, optical handling and positioning, light sources, laser safety, basic geometric optics, basic physical optics, and principles of laser operation.
Requisites:
Corequisite MAT 071
or
Corequisite Equivalent
or
Corequisite Placement into college-level algebra
Credit Hours: 3
This course teaches the principles of fiber optics, fiber optic networks, optical fiber cable types, estimating and bidding for fiber optic installation, specifying fiber optic cable, and understanding the guidelines for fiber optic design and installation. The course also covers the principles of fiber optic hardware to include connectors, splices, tools, and test equipment. Planning the fiber installation, fiber optic safety, pulling the fiber, and fiber restoration are also covered.
Credit Hours: 3
The internship is a work experience in a biomedical facility under the supervision of an experienced biomedical engineering technician or biomedical equipment technician. The student will assist in the performance of safety inspections, preventive maintenance, repairs and calibration in various medical equipment.
Requisite:
Corequisite EET 105
Credit Hours: 4
The internship is a work experience in a biomedical facility under the supervision of an experienced biomedical engineering technician or biomedical equipment technician. The student will assist in the performance of safety inspections, preventive maintenance, repairs and calibration in various medical equipment.
Requisite:
Corequisite EET 228
Credit Hours: 4
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, thyristors, optical electronics control devices, temperature and humidity transducers, industrial control applications and circuits, pulse modulation techniques, data acquisition, and industrial telemetry and data communication. Also includes a laboratory course with experiments designed to support this course.
Requisites:
Prerequisite EET 124
and
Prerequisite EET 135
Credit Hours: 6
This course covers the theory of diagnostic imaging. Primarily the theory of x-ray imaging is covered. Safety issues related to servicing x-ray equipment are also covered. An overview of nuclear and ultrasound imaging is taught.
Requisites:
Prerequisite EET 124
and
Prerequisite EET 135
Credit Hours: 3
This lab course covers sensors, transducers, and electronic circuits associated with biomedical instrumentation. Operation, maintenance, diagnostics, preventive maintenance, calibration, and electrical safety tests will be performed on various types of biomedical instrumentation. Electrodes and circuitry used to record electroencephalograms, electromyography, and electrocardiograms will be analyzed.
Requisite:
Corequisite EET 228
Credit Hours: 2
Topics taught in this course are sensors, transducers, and electronic circuits associated with biomedical instrumentation. Operation, maintenance, diagnostics, calibration, and preventive maintenance of various types of biomedical instrumentation will be covered. Origination of biopotentials will be discussed. Electrodes and circuitry used to record electroencephalograms, electromyography, and electrocardiograms will be analyzed.
Requisites:
Prerequisite EET 105
Prerequisite EET 140
and
Prerequisite EET 220
Credit Hours: 3
This course teaches system-level design of embedded systems with a top-down design approach. Assembly language programming skills are developed using editor/assembler software. The lectures teach fundamental concepts, theory and design principles of embedded systems, while the labs provide students the opportunities to apply the learned concepts. Topics will include: basic concepts of embedded control systems and applications of microcontrollers, basics of structured programming using assembly language, architecture of the microcontroller, interfacing with off-chip peripheral hardware, and microcontroller programming techniques.
Requisites:
Prerequisite EET 124 minimum grade C
and
Prerequisite EET 140 minimum grade C
Credit Hours: 4
This course is designed to study all the relevant aspects of communications systems. Topics include: signals and their spectra; noise; amplitude; frequency, angle, and phase modulation; analog to digital conversion; radio telemetry; transmission lines; antennas; antenna wave propagation; and lasers and fiber optic techniques. The course also includes a laboratory component where digital and analog communication systems are emphasized.
Requisite:
Prerequisite EET 135
Credit Hours: 3
This course provides a comprehensive technical survey of the important topics in production automation systems and systems integration. It combines the hardware configuration, input and output modules, memory organizations, and instruction sets of several different programmable controllers with ladder logic, flow line production, industrial robotics, group technology, flexible manufacturing systems, automated inspection, process control, and computer integrated manufacturing (CIM). Students design and model a project using an embedded controller and electronics components and technology that have been taught in previous Electronics Engineering Technology classes. Skills in system design and layout, controller design, hardware interfacing, control and timing implementation, and software interfacing are developed.
Requisites:
Prerequisite EET 220
and
Prerequisite EET 230
Credit Hours: 5
This course teaches students to analyze and design the applications of electronic systems in today's world. Topics include radio frequency (RF) signal analysis with spectrum analyzer, avionics system analysis, wireless data transmission, transceiver design and implementation, cables and cabling concepts, soldering standards, fiber optics, robotics design and implementation, and access and fire control systems. This course is primarily lab focused where application of electronic systems are emphasized.
Requisites:
Corequisite EET 238
and
Prerequisite EET 220 minimum grade C
Credit Hours: 3