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ESE 201: Principles of Digital Design Lab
3.00 Credits
University of Pennsylvania
This is the companion course for ESE 200 and provides hands-on experience in modern digital circuit design. It makes use of state-of-the-art computer-aided design software including schematic capture, behavioral description, logic-simulation, minimization and implementation tools. The students will get familiar with programmable logic devices and hardware description languages (VHDL). The lab experiments make use of Xilinx FPGAs which allow rapid implementation and testing of the designed circuits. The course consists of weekly 3-hour laboratory sessions.
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ESE 205: Electrical Circuits and Systems I Lab
3.00 Credits
University of Pennsylvania
This course is the companion lab for ESE 215 and provides an introduction to electrical measurements and measuring equipment; electrical sources; resistive, RL, RC, & RLC circuits and their non-electrical analogs; op-amp circuits; transient response and sinusoidal steady state for linear and nonlinear, e.g. neural/biological circuits and systems. LabVIEW and the use of data acquisition boards will be introduced.
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ESE 205 - Electrical Circuits and Systems I Lab
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ESE 206: Electrical Circuits and Systems II Lab
3.00 Credits
University of Pennsylvania
This course is the companion lab for ESE 216. It covers experiments involving transformers, diodes, and transistors. DC and small signal model amplifiers, rectification, and non-linear op amp circuits.
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ESE 210: Introduction to Dynamic Systems
3.00 Credits
University of Pennsylvania
Prerequisite(s): Math 240. This first course in systems modeling focuses on linear discrete-time systems. We draw on a set of examples used throughout the course as the necessary mathematical tools are developed. The examples demonstrate the breadth of systems models and are drawn from engineering, the biological sciences, and economics. MATLAB will be used extensively.
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ESE 210 - Introduction to Dynamic Systems
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ESE 215: Electrical Circuits and Systems I
3.00 Credits
University of Pennsylvania
Prerequisite(s): PHYS 151. Corequisite(s): MATH 240. Common principles of Circuits, Systems and flows of electron, photons, and other entities as applied to electrical, and non-electrical systems such as optical (plasmonic), fluidic, traffic, neural, electrochemical, and biological circuits. Class demonstration and computer simulations will be given where applicable to help in rapid understanding of concepts and applications.
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ESE 215 - Electrical Circuits and Systems I
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ESE 216: Electrical Circuits and Systems II
3.00 Credits
University of Pennsylvania
Prerequisite(s): ESE 215. The course starts with a discussion of power in electric systems followed by frequency response of circuits. Laplace transforms will be used to analyze circuits and to represent network functions. Next, the course will focus on modern solid-state devices and electronic circuits including diodes and their applications, the metal-oxide-semiconductor(MOSFET) transistor and single stage MOS amplifiers. Use of CAD packages such as SPICE will be introduced. The associated lab, ESE 206, is required for EE and CTE majors.
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ESE 216 - Electrical Circuits and Systems II
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ESE 218: Physics and Models of Semiconductor Devices
3.00 Credits
University of Pennsylvania
Prerequisite(s): ESE 215. Physical electronics of semiconductor devices. Energy bands in solids. Statistics governing the charge carriers in semiconductors. Equilibrium and nonequilibrium transport phenomena in semiconductors. Operation and equivalent circuits for the pn junction, bipolar and field effect transisto, and other semiconductor devices. Scaling issues in transistors and introduction to next-generation nanotechnologies.
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ESE 218 - Physics and Models of Semiconductor Devices
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ESE 252: Transportation Systems Engineering
3.00 Credits
University of Pennsylvania
Development of transportation and its impact on society and the economy. Geometric characteristics of vehicles. Theory of traction and vehicle dynamic performance. Travel time computations. Transportation networks. Street design and traffic engineering. Railroad technology and operations. High-speed railroads. Air transportation system components and operations. Air traffic control and navigation. Transportation system performance and scheduling. Field trip to major transportation facilities.
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ESE 252 - Transportation Systems Engineering
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ESE 301: Engineering Probability
3.00 Credits
University of Pennsylvania
Prerequisite(s): MATH 114. Basic ideas of probability theory. Combinatorics. Random variables and functions of random variables. Means, moments and generating functions. Order statistics and special distributions. Inequalities and the central limit theorem.
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ESE 301 - Engineering Probability
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ESE 302: Engineering Applications of Statistics
3.00 Credits
University of Pennsylvania
Prerequisite(s): ESE 301. Principles and engineering applications of statistical inference. The basic topics covered are parameter estimation, confidence intervals, and hypothesis testing. Additional topics may include analysis of variance (ANOVA) and/or linear regression. Each method is treated both from theoretical and applied viewpoints, including software analysis of selected data sets.
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ESE 302 - Engineering Applications of Statistics
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