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16.421: Real Time Digital Signal ProcessingCredits
3.00 Credits
University of Massachusetts-Lowell
3 This course provides an introduction to real-time digital signal processing techniques using the TMS320C3x floating point and TMS320C5x fixed point processors. The architecture, instruction set and software development tools for these processors will be studied via a series of C and assembly language computer projects where real-time adaptive filters, modems, digital control systems and speech recognition systems are implemented. Pre-Req: 16.362 Signals & Systems I
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16.423: Introduction to Solid State ElectronicsCredits
3.00 Credits
University of Massachusetts-Lowell
3 A design of semiconductor device and manufacturing technology is linked to the solid state physics principles in this course. Topics covered: The electronic structure of the atom, wave-particle duality of moving electrons. Schrodinger equation for periodic crystalline structure. Band theory of semiconductors. Brillouin zones. Statistics of electrons and holes. Kinetic effects: electrical conductivity, Hall effect, magnetoresistance. Optical properties: photoconductivity, light absorption and emission. Thermal properties including thermal conductivity, thermo EMF, recombination processes and role of defects. Pre-Req: 16.365 Electronics I or Instructor permission
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16.423 - Introduction to Solid State ElectronicsCredits
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16.427: Advanced VLSI Design TechniquesCredits
3.00 Credits
University of Massachusetts-Lowell
3 This course builds on the previous experience with Cadence design tools and covers advanced VLSI design techniques for low power circuits. Topics covered include aspects of the design of low voltage and low power circuits including process technology, device modelig, CMOS circuit design, memory circuits and subsystem design. This will be a research-oriented course based on team projects. Pre-Req: 16.469/502 VLSI Design, or Instructor permission
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16.427 - Advanced VLSI Design TechniquesCredits
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16.428: Alternative Energy SourcesCredits
3.00 Credits
University of Massachusetts-Lowell
3 PV conversion, cell efficiency, cell response, systems and applications. Wind Energy conversion systems: Wind and its characteristics; aerodynamic theory of windmills; wind turbines and generators; wind farms; siting of windmills. Other alternative energy sources: Tidal energy, wave energy, ocean thermal energy conversion, geothermal energy, solar thermal power, satellite power, biofuels. Energy storage: Batteries, fuel cells, hydro pump storage, flywheels, compressed air.
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16.428 - Alternative Energy SourcesCredits
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16.429: Electric Vehicle TechnologyCredits
3.00 Credits
University of Massachusetts-Lowell
3 Electric vehicle VS internal combustion engine vehicle. Electric vehicle (EV) saves the environment. EV design, EV motors, EV batteries, EV battery chargers and charging algorithms, EV instrumentation and EV wiring diagram. Hybrid electric vehicles. Fuel cells. Fuel cell electric vehicles. The course includes independent work.
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16.429 - Electric Vehicle TechnologyCredits
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16.435: Computational ElectromagneticsCredits
3.00 Credits
University of Massachusetts-Lowell
3 Formulation of electromagnetic problems for computer solution. Variational principles in electromagnetics. Method of moments. Applications in electrostatics, wire antennas, waveguides and cavities. Simple scattering problems. Finite difference methods. Finite element method. Pre-Req: 16.461 Emag Theory II
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16.435 - Computational ElectromagneticsCredits
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16.441: Introduction to BiosensorsCredits
3.00 Credits
University of Massachusetts-Lowell
3 This course introduces the theory and design of biosensors and their applications for pathology, pharmacogenetics, public health, food safety civil defense, and environmental monitoring. Optical, electrochemical and mechanical sensing techniques will be discussed. Pre-Req: 16.365 Electronics I
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16.441 - Introduction to BiosensorsCredits
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16.444: Power Distribution SystemCredits
3.00 Credits
University of Massachusetts-Lowell
3 An intermediate course in analysis and operation of electrical power distribution systems using applied calculus and matrix algebra. Topics include electrical loads characteristics, modeling , metering, customer billing, voltage regulation, voltage levels, and power factor correction. The design and operation of the power distribution system components will be introduced: distribution transformers, distribution substation, distribution networks, and distribution equipment. Prerequisite: 16.355 Pre-Req: 16.355 Electromechanics
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16.445: Analog Devices and TechniquesCredits
3.00 Credits
University of Massachusetts-Lowell
3 A survey of analog devices and techniques, concentrating on operational amplifier design and applications. Operational amplifier design is studied to reveal the limitations of real opamps, and to develop a basis for interpreting their specifications. Representative applications are covered, including: simple amplifiers, differential and instrumentation amplifiers, summers, integrators, active filters, nonlinear circuits, and waveform generation circuits. A design project is required. Pre-Req: 16.366 Electronics II
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16.445 - Analog Devices and TechniquesCredits
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16.450: Advanced Digital System DesignCredits
3.00 Credits
University of Massachusetts-Lowell
3 Pre-Req: 16.265 Intro Logic Design
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16.450 - Advanced Digital System DesignCredits
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