Electrical Machines - I

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Overview Transformer and D.C rotating machine will be the main topics to be discussed in this course. Working principle of ideal transformer and its equivalent circuit referred to two sides. Analysis of practical transformer & its equivalent circuit. Equivalent circuit referred to different sides and phasor diagram. Core loss and copper loss. Regulation & efficiency.

Advanced 3G and 4G Wireless Mobile Communications

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Overview Contents: Wireless Communications and Diversity : Fast Fading Wireless Channel Modeling - Rayleigh/Ricean Fading Channels - BER Performance in Fading Channels - Diversity modeling for Wireless Communications - BER Performance Improvement with diversity - Types of Diversity Frequency, Time, Space Broadband Wireless Channel Modeling : WSSUS Channel Modeling, RMS Delay Spread - Doppler Fading, Jakes Model, Autocorrelation - Jakes Spectrum - Impact of Doppler Fading

Micro and Smart Systems

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Overview Contents: Introduction : Glimpses of Microsystems; scaling effects - Smart materials and systems: an overview - Microsensors: some examples - Microactuators: some examples - Microsystems: some examples - Examples of smart systems: structural health monitoring and vibration control

Advanced Electric Drives

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Overview Generalized theory and Krons primitive machine model - Modeling of dc machines - Modeling of induction machine - Modeling of synchronous machine - Reference frame theory and per unit system - Control of Induction Motor Drive - Scalar control of induction motor

Control Engineering I

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Overview Introduction to control problem - Basic Feedback Structure - Introduction to Control Problem - Dynamic Systems and Dynamic Response

Numerical techniques in Electromagnetics

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Numerical Techniques in Electromagnetics with MATLAB®, Third Edition continues to teach readers how to pose, numerically analyze, and solve EM problems, to give them the ability to expand their problem-solving skills using a variety of methods, and to prepare them for research in electromagnetism.

Embedded Systems I

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Overview The goal of this course is to solidify and build upon a student's knowledge of computer organization by presenting hands-on experience with microcontrollers. Students will also examine a few sensors that are used in commercial and medical products and learn how to interface them in a microcontroller system.

An Introduction to Electronics System Packaging

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Overview Contents: Overview of electronic systems packaging : Introduction and Objectives of the course - Definition of a system and history of semiconductors - Products and levels of packaging - Packaging aspects of handheld products; Case studies in applications - Case Study (continued); Definition of PWB, summary and Questions for review

Microcontroller student projects

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A microcontroller is a compact integrated circuit designed to govern a specific operation in an embedded system. A typical microcontroller includes a processor, memory and input/output (I/O) peripherals on a single chip. Sometimes referred to as an embedded controller or microcontroller unit (MCU), microcontrollers are found in vehicles, robots, office machines, medical devices, mobile radio transceivers, vending machines and home appliances, among other devices. They are essentially simple miniature personal computers (PCs) designed to control small features of a larger component, without a complex front-end operating system (OS).