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Course Criteria
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1.00 - 3.00 Credits
Provides hands-on opportunities to analyze, design, implement, and test instrumentation systems, integrating hardware and software. Main topics include electromechanical, electromagnetic, optical, thermal, and sonic sensors and transducers, signal conditioning electronics, grounding and isolation, attenuation and amplification, noise and filtering, data acquisition hardware architecture, data acquisition software, virtual instrumentation, user interfaces, instrument control, and instrumentation system design and implementation.
Prerequisite:
PHYS315 OR PHS315 OR PHY3315
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2.00 Credits
Provides an overview of career opportunities in engineering technology in preparation for the fulltime cooperative experience in industry. Topics include tips and techniques for resume and cover letter development, job search process, interviewing skills, employer and employee expectations, professional communication, technical documentation and report writing, engineering ethics, and professional engineer licensure process.
Corequisite:
ENGT321
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3.00 Credits
Provides hands-on opportunities to analyze, design, implement, and test automated industrial processes. Main topics include hardware components for electronics manufacturing and automation, printed circuit board design and assembly using electronic design automation software, programmable logic controller (PLC) hardware architecture and programming, human-machine interface (HMI), supervisory control, and industrial network systems.
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4.00 Credits
Provides a mathematical basis for analyzing and designing electrical systems in continuous and discrete time. Main topics include Fourier series and transforms, Laplace and Z transforms, linear time invariant systems, transfer functions, frequency response, poles and zeroes, system stability, convolution, sampling and aliasing, and software simulation exercises focusing on finding the response of continuous and discrete time linear systems.
Prerequisite:
ENGT141 AND CMSC115 AND MATH170
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1.00 Credits
Provides fulltime work experience for the summer semester and the following fall semester in an industrial or research setting to enhance engineering skills in electronics engineering technology. A Cooperative Education Application form must be completed and approved by the department. This is a required course for EET majors, and is offered under Pass/Fail Only basis.
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2.00 Credits
Presents case studies of industry-relevant engineering topics including innovation, design, manufacturing, testing, organizational structure, project management, and ethics. Implementation of quality management systems and the use of engineering standards are discussed for various industrial sectors including automotive, telecommunications, aerospace, and pharmaceutical.
Prerequisite:
ENGT380
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3.00 Credits
Provides hands-on opportunities to analyze, design, implement, and test feedback control systems, integrating hardware and software. Main topics include modeling of dynamic systems, steady state and transient performance, feedback control, system stability, controller design in time and frequency domains, types of controller configurations including PID, software simulation of control systems, and control system implementation using discrete electronics and microcontrollers.
Prerequisite:
ENGT241 AND ENGT331
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4.00 Credits
Presents the theory and application of modern analog and digital communications systems, including types of modulation, noise, multiplexing, multiple access, and digital signaling. Topics include linear modulation methods, angle modulation, noise effects, analog and digital pulse modulation systems, source coding, channel coding, software simulation of communication systems, and hands-on laboratory experiences.
Prerequisite:
ENGT331 AND PHYS315
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1.00 - 2.00 Credits
Presents transmission line theory, strip lines and microstriplines, s-parameters, microwave devices, directional couplers, attenuators, radiation and antennas, and satellite communication systems. Students will explore receiver and antenna measurements, Smith charts, power, impedance matching, standing-wave ratio, and radio-frequency shielding.
Prerequisite:
ENGT441 OR ENTC441
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3.00 Credits
Provides an opportunity for student teams to design, build, test, and document their project-based work. Project definition, specification development, project management, design and implementation, and economic feasibility are discussed. Ethical issues related to the discipline, written and oral communication skills, and functionality as a member of an engineering design team are emphasized.
Prerequisite:
ENGT431 OR ENTC431
Corequisite:
ENGT461
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