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EGE 250: Circuit Analysis
3.00 Credits
State University of New York at New Paltz
This course introduces students to circuit theorems, ac circuits and three phase circuits as well as two ports, frequency response mutual inductance and transformers.
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EGE 302: Antenna Laboratory
1.00 Credits
State University of New York at New Paltz
Measurement of the far field pattern and characteristics of wire antennas and arrays for VHF. Measurement of the field pattern and characteristics of reflector type antennas in the X-band, and of aperture type antennas and arrays in the X-band.
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EGE 302 - Antenna Laboratory
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EGE 303: Microwave Fundamentals Laboratory
1.00 Credits
State University of New York at New Paltz
Measurement of VSWR and wavelength in waveguides, stub tuners and matching, calibration of altenuators, time domain reflectometry and frequency domain network analyzer measurement. Prerequisite/Corequisite: EGE342.
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EGE 303 - Microwave Fundamentals Laboratory
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EGE 304: Control Laboratory
1.00 Credits
State University of New York at New Paltz
Transient response and frequency response measurements to characterize control system devices and components. Laboratory study of open-loop and csed-loop linear systems. Steady-state error analysis; positional speed control systems.
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EGE 305: Communication Laboratory
1.00 Credits
State University of New York at New Paltz
AM communication circuits. FM communication. SSB communication circuits. RF power transmitting. Phase-locked loop circuits, frequency synthesis, time division multiplexing (sampling, PCM, DM), frequency division multiplexing, amplitude shift keying, phase shift keying, frequency shift keying.
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EGE 306: Microwaves Circuits Laboratory
1.00 Credits
State University of New York at New Paltz
Design, build and test planar microwave devices such as power divider, coupler, filter, mixer, amplifier, and oscillator.
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EGE 311: Signals and Systems
3.00 Credits
State University of New York at New Paltz
Continuous and discrete-time signals, systems, and their properties. Continuous and discrete-time linear time-invariant systems. Convolution sum and convolution integral. System descriptions using differential and difference equations. Continuous - time Fourier series, Fourier transform, and their properties. Frequency - selective filters, amplitude modulation, and sampling.
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EGE 312: Communication Systems
3.00 Credits
State University of New York at New Paltz
Signal analysis, signal transmission. Digital communication systems. Amplitude modulation; angle modulation.
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EGE 316: Control Systems I
3.00 Credits
State University of New York at New Paltz
Mathematical modeling of physical systems, signal flow graph, feedback control systems; stability; time domain analysis, frequency response and analysis of design using root locus, and frequency domain methods, Nyquist criterion and Nichols Chart, design of the PID controllers, time domain design of the phase lead and lag controllers.
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EGE 316 - Control Systems I
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EGE 317: Digital Control Systems
3.00 Credits
State University of New York at New Paltz
Analysis and design of discrete-time control systems. General formulation of dynamic systems using difference equations. The Z-transform and its applications. Signal conversion and processing. Stability analysis. Design of discrete-time control system via transform methods. Compensator design using classical techniques.
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EGE 317 - Digital Control Systems
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