Incorporating Student-owned Portable Instrumentation into an Introduction to Electrical Engineering Course (original) (raw)

Pre-College Engineering Activities with Electronic Circuits (Work in Progress)

2016 ASEE Annual Conference & Exposition Proceedings, 2000

versity. She has eight years of diversified engineering design experience, both in academia and industry, and has experienced engineering design in a range of contexts, including product design, bio-inspired design, electrical and control system design, manufacturing system design, and design for the factory floor. Dr. Nagel earned her Ph.D. in mechanical engineering from Oregon State University and her M.S. and B.S. in manufacturing engineering and electrical engineering, respectively, from the Missouri University of Science and Technology. Dr. Nagel's long-term goal is to drive engineering innovation by applying her multidisciplinary engineering expertise to instrumentation and manufacturing challenges.

Developing Computer Based Laboratory Instruments In A New Undergraduate Electrical Engineering Program

2020

This paper describes the culmination of a two-year project which had two aims: (1) development of computer-based laboratory instruments (CLIs) consisting of LabVIEW virtual-instrument programs coupled with custom external hardware; (2) integration of these CLIs into the undergraduate curriculum. Students were brought into the design process wherever possible, giving them first-hand experience with open-ended design problems. Project TUNA (Texas Universal Network Analyzer), a CLI which characterizes the frequency response (magnitude and phase) of linear networks over a frequency range of 10 Hz to 100 kHz, was designed as a class project in EENG 4409 (Electronic Circuit Analysis II) in 1999, and served as the model for this project. Project TUNA was described in a previous paper presented to the 2000 ASEE Annual Conference. A grant from the National Science Foundation (DUE-9952292) was received in April, 2000, to support further development of CLIs at the University of Texas at Tyler. An interim progress report was presented to the 2001 ASEE Annual Conference. This paper summarizes the CLIs and their use in the curriculum and describes the resources developed by this project which have been made available to other electrical engineering programs. Project TUNA II: Project TUNA (Texas Universal Network Analyzer), an instrument for measuring ac frequency response of active and passive networks, was described in a paper presented at the 1999 ASEE Annual Conference 1 which later appeared in an updated version 2. Curricular resources available for Project TUNA include a tutorial describing how Project TUNA functions and how Project TUNA is used in a laboratory exercise in characterization of active filters. Construction details for those interested in duplication of Project TUNA include schematics, parts lists, AutoCAD drawings, and the Project TUNA virtual-instrument program written in LabVIEW (National Instruments, Austin, TX). Permanent copies of the Project TUNA hardware have been constructed and have been successfully used in the electrical engineering laboratory curric ulum

Ac 2011-250: Lab Experience for Circuits Classes in a Sim- Plified Lab Environment

2011

Circuit theory, analog electronics and digital electronics are essential classes for EET/CET/EE curricula and require students to complete various labs in order to gain the necessary hands-on experience they need when entering the job market. In order to provide this hands-on experience, traditional labs for circuit theory, analog electronics, and digital electronics require a number of measuring and signal-generating instruments, such as power supplies, multi-meters, oscilloscopes, function generators, etc. Learning to use proficiently the many instruments found in a typical lab is both a time consuming and challenging task. Unfortunately, students who would like to spend time outside class working on labs and projects are restricted by the significant cost of the equipment. Furthermore, students enrolled in distance learning programs, due to their remote location, struggle even more to find the opportunity to gain the required hands-on experience. This paper is a case study to ana...

Using Portable Electronics Experiment Kits for Electronics Courses in a General Engineering Program

2011 ASEE Annual Conference & Exposition Proceedings

His research interests include wearable medical devices, telehealthcare, bioinstrumentation, control systems, and biosignal processing. His educational research interests are laboratory/project-driven learning and integration of research into undergraduate education. Dr. Yao is a member of the American Society of Engineering Education (ASEE) and a senior member of Institute of Electrical and Electronics Engineers (IEEE).

P12 Resource Exchange – Electronics of Everyday Things

2016

An Electronic Instrumentation Design Project for Computer Engineering Students

Education, IEEE …, 2005

Ongoing technological progress in electronic instrumentation triggered the development of an innovative, hands-on teaching program to help students toward a fuller understanding of recent changes in the field. This paper describes the different stages of a design project to teach electronic instrumentation to computer engineering students at the University of Oviedo, Gijón, Spain. The project involves designing a weather station to measure the main meteorological variables and then displaying this information on a computer screen. Although this course is intended for nonspecialist students of electronics, it could easily be adapted to other syllabuses with minimum modification of the specifications. The course provides not only enhanced academic training but also increased student motivation, as students participate actively in all course activities and work in a team within which each student has specific responsibilities.

Incorporating Student-owned Portable Instrumentation into an Introduction to Electrical Engineering Course (original) (raw)

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