Enhancing Student Learning Through State-of-the-Art Systems Level Design and Implementation: The development of a lower division learning module
11 pages. Copyright © American Society for Engineering Education, 2008
The Cal Poly/Allan Hancock team is developing a learning module that will allow all lower division engineering students to design, fabricate, assemble, and test an electronic system implemented on a printed circuit board (PCB). All the services necessary to perform this laboratory experiment will be provided with low-cost vendors available on the . The learning module is being developed so that it can be integrated into the existing electrical engineering lower division courses that are required by all engineering students. The laboratory learning module will use operational amplifiers (op amp), resistors, capacitors and other common electronic components to study the theory of op am circuits, and to apply these circuits to the interfacing of electronic signals with the physical world. The learning module will replace two existing laboratory experiments on op amps with a five week exercise. After lecture on the theory, the five week exercise will consist of one week of laboratory introducing the PCB technology and the PCB design tool. Outside of class, the students will submit their designs (after instructor review) to a vendor for fabrication, and order their parts. After about three weeks, the students are expected to have received the fabricated PCB and to have assembled the parts on the PCB. On the last week, they will test their board and perform the experiment. Thus, this learning module will be compatible with current course/lab schedules, and could be conveniently incorporated into an existing course/lab to meet and extend the existing laboratory learning objectives.
James G. Harris, Dominic Dal Bello, Jianbiao Pan, and Albert Liddicoat. "Enhancing Student Learning Through State-of-the-Art Systems Level Design and Implementation: The development of a lower division learning module" Proceedings of the 2008 ASEE Annual Conference & Exposition: Pittsburg, PA.. Jun. 2008.
Available at: http://works.bepress.com/jharris/2