Lab on the Web: Running Real Electronics Experiments via the Internet

From the Publisher: A groundbreaking resource for remote study of interactive electronics applications The widespread use of the Internet as a communication medium has opened up a broad range of possibilities for extending its use into new areas. One such area is remote education, a rapidly growing part of today’s university curricula. Using the Internet and Web technology, courses can be offered to students anywhere in the world with no more technical requirements than a personal computer and an Internet connection. Until recently however, lab courses have been considered impractical for remote access. But thanks to technical advances of the past decade, even these courses with their often complex interactive techniques have been made accessible to remote students. Lab on the Web: Running Real Electronics Experiments via the Internet is the first text to present, in detail, experiments that can be run over the Web, specifically in the area of electronics. The authors present detailed descriptions of approximately 100 experiments in solid state electronics that can be used by engineering and science students at all levels, anywhere in the world, as well as by researchers working on semiconductor devices. Topics covered include: Electronics laboratory experiments accessible through the Internet MIT Microelectronics WebLab Instrumentation on the Web Next Generation Laboratory: a solution for remote characterization of analog integrated circuits A Remote Lab for electrical experiments The Remote Lab as it can be applied to semiconductor devices The book has achieved widespread collaboration that will enable universities around the world to participate in these remote access experiments. Enhanced by interactive Web sites which will accommodate a growing array of experimental modules from participating institutions, the text opens up a virtual Pandora’s box of possibilities for students to access a wide variety of real experiments, and for institutions, jointly or individually, to establish their own remote laboratory sites. About the Author: TOR A. FJELDLY received his MSc from the Norwegian University of Science and Technology and his PhD from Brown University. He is a professor at UniK-University Graduate Center and the Norwegian University of Science and Technology, an adjunct professor at the University of Oslo, a visiting professor at Rensselaer Polytechnic Institute, as well as a Fellow of the IEEE and an elected member of the Norwegian Academy of Technical Sciences. MICHAEL S. SHUR received an MSEE (with honors) from St. Petersburg Electrotechnical Institute and a PhD in Physics and a doctor of science degree from A. F. Ioffe Institute. From 1989 to 1996, he was John Money Professor at the University of Virginia, where he served as director of the Applied ElectroPhysics Laboratory. He is currently Roberts Professor of Solid State Electronics, Professor of Physics, Professor of Information Technology, and Director of the Center for Broadband Data Transport Science and Technology at Rensselaer Polytechnic Institute. A Fellow of IEEE and Fellow of APS, he is the author of Introduction to Electronic Devices and coauthor, with Professor Fjeldly and Trund Ytterdal, of Introduction to Device Modeling and Circuit Simulation, both published by Wiley.