Electrical Engineering from University Of Pennsylvania is a Campus Bachelor Electrical Engineering degree that prepares you for a Engineering career. The broad umbrella of electrical engineering is involved in some part in almost all modern day technological advances and products in areas ranging across telephony, mobile and satellite communications , fiber optics, electrical power and machinery, instrumentation, computer systems, satellite systems, microelectronics, robotics, graphics, automatic control, and telecommunications to name but a few. The Electrical Engineering major at Penn is a flexible, broadbased program that provides a rigorous grounding in the analytical and experimental foundations of electrical engineering while allowing a student substantial flexibility in crafting an individualized program reflecting his or her interests and career goals. A student can elect to specialize in one or more of the following areas of concentration: Microelectronic Circuits and Systems. The field of microelectronic circuits has a profound impact on products that range from automobiles to healthcare. Many of these products involve acquiring physical world information, such as analog sound recorded from a live concert and stored in digital form on a compact disk. Course offerings in this area are balanced between analog and digital integrated circuits. Students are exposed to state-of-the-art computer tools used by professional designers. In addition, students can select courses that provide instruction and handson experience in the development of efficient layouts for microelectronic systems, and in the processing of electronic materials for their fabrication. Photonics and Electronic Materials. Course offerings in these areas relate to photonic materials and the development of materials for processes leading to the fabrication of devices such as: silicon integrated circuits, solid state lasers for telecommunications and printing, light emitting diodes for scanning and displays, liquid crystal displays, magnetic materials for recording applications, high temperature superconductors for high speed microchips, and microsensors and actuators for medical applications. Signals and Communications . Courses in signals and communications allow students to focus on the representation, processing, transmission, and use of information-bearing electrical signals. Such signals arise in diverse applications in speech, video, sonar, medical imaging, and communications systems in settings such as the Pathfinder/Sojourner Mars Mission, the Voyager fly-by of Saturn and Jupiter, mobile telephony, computer-aided tomography (CAT scans), computer vision, multi-user network data access, video conferencing, wireless systems, and radio and television broadcasting, to name but a few. Students graduating with a degree in Electrical Engineering are in demand in a very broad spectrum of high technology industries ranging across microelectronics, photonics, electronic materials, communications , and computers. The fundamental nature of the field is manifested intrinsically in many other industries as well where electronic instrumentation, signal processing, communication, and control are essential: Penn graduates in Electrical Engineering may be found in a divers palate of arenas in finance, biotechnology and medicine, chemical, mechanical, civil, and environmental engineering . The combination of fundamental rigor and exposure to cutting-edge technology in the curriculum also provides students with an exceptional preparation for further study in a variety of these areas at the graduate level. View more details on University Of Pennsylvania . Ask your questions and apply online for this program or find other related Electrical Engineering courses.
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