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Course Criteria
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3.00 Credits
Basic DC and sinusoidal AC analysis of circuits. Introductory principles of electronic circuits, operational amplifiers, filters, digital logic, energy conversion devices, and energy conversion schemes.
Prerequisite:
[[EE-283]] and [[MTH-112]]Or Concurrent
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3.00 Credits
Analysis of dc and sinusoidal ac circuits and power calculations. Network theorems. 2-hour lecture and 2-hour lab per week.
Prerequisite:
Or Concurrent [[MTH-111]]
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3.00 Credits
Three-phase circuits, mutually coupled circuits, filter circuits, transient circuits, two-port parameters. Introduction to electronic circuits.
Prerequisite:
[[MTH-112]] or Concurrent and [[EE-216]] or [[EE-211]]
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3.00 Credits
Electronic design automation for mechatronics system design, test, debug, control, and monitor; Sensor conditioning and digital conversion; Introduction to embedded software, sensor integration and modeling. Two hours of lecture and 3-hour lab per week.
Prerequisite:
[[EE-140]], [[EE-217]], [[EE-285]], [[PHY-202]]
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4.00 Credits
Boolean Algebra. Numbering Systems. Combinational logic design and minimization. Sequential system fundamentals, state machine and programmable logic. Three hours of lectures and one two-hour lab per week. Click here for course fees.
Prerequisite:
[[EE-283]] or [[EE-285]]
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3.00 Credits
Microcontroller hardware structures. Basic software concepts such as constants, variables, control structures and subroutine calls, based on the 'C' language and as translated to machine language. Mapping of compiled software to the memory of a microcontroller. Embedded programming principles. Basic interactions with peripherals. Interrupts and their use. Debugging. Three hours of lecture and lab per week. Click here for course fee.
Prerequisite:
[[EE-140]] or [[CS-125]].
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3.00 Credits
Circuit concepts involving nonideal components, particularly diodes, bipolar transistors, and MOS transistors. Bias, load line and signal amplification principles. Analysis and design of power supply and amplifier circuits, including power amplifiers. Simulation of circuits for design and analysis.
Prerequisite:
[[EE-211]] or [[EE-216]]
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4.00 Credits
Analysis and design of analog integrated circuits at the transistor level. Single-stage, multistage amplifiers, and cascode stage; differential amplifier analysis; operational amplifiers & applications; feedback structures, output stages, and power amplifiers. Three hours of lecture and 3-hour lab per week. Click here for course fees.
Prerequisite:
[[EE-251]], [[MTH-112]], [[PHY-202]]
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4.00 Credits
Basic properties of semiconductors and their conduction processes, with special emphasis on silicon and gallium arsenide. Physics and characterizations of p-n junctions.. Homojunction and heterojunction bipolar transistors. Unipolar devices including MOS capacitor and MOSFET. Microwave and photonic devices. Three hours of lecture and one two-hour lab per week. Click here for course fees.
Prerequisite:
[[CHM-117]], [[CHM-118]], [[PHY-202]], [[MTH211]]
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1.00 Credits
Exercises on DC and AC circuits, resonant and filter circuits, operational amplifiers, and digital logic circuits. One two-hour lab per week. Click here for course fees.
Prerequisite:
Or Concurrent[[EE-211]]
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