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The components of an electronic system require the careful balancing of tradeoffs between cost, manufacturing yield, and performance. In addition to the expected gains in the theoretical performance of the structure, the efforts to optimize the system also lead to the development of new design tools that are of interest to both those building circuits and electronic systems and to computer scientists who are building new tools for analyzing the performance of those structures. Because transistors are so fundamental to the advancement of electronics technology, it is critical to be able to understand how they operate. Thus, understanding the physics of transistors makes it possible to understand the operation of virtually every other component of an electronic system. Further, the circuit theorist can apply his knowledge of the physics of transistors to improving the understanding of circuits as a whole. For example, diodes perform the same function as transistors but are weaker than transistors by a factor of about the square root of two. Thus a diode is a pretty good low voltage transistor, but its performance degrades as the voltage rises toward the known theoretical limits. The circuits theory scholar can take advantage of this information to reduce the number of transistors required to construct circuits that serve the same function and yield the desired characteristics.
The course of study will examine the theoretical limits of devices that alter the flow of energy in conduction. Theoretical limits, operational characteristics, and fundamental insights into the behavior of these devices are discussed. Topics include reflection, absorption, rectification, and limiting current. Those principles are applied to various semiconductor devices.
Analog and digital signal processing has become a key component in modern communications. While the advances in semiconductor technology have make this possible, its development is far from complete. This course will examine this new class of signal processors and its impact on the future of communications. The signal processing problem is considered from a foundational perspective, with an emphasis on theory and on the integration of theory and technology. Focused discussion of key concepts and general design architecture issues in this exciting and promising field. d2c66b5586