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EE 202: Circuit Analysis I
4.00 Credits
University at Buffalo
Credits: 4 Prerequisites: None Corequisites: MTH 306, PHY 108 Type: LEC/REC Systematic development of network analysis methods. Topics include resistive circuits, Kirchhoff s laws, equivalent subcircuits; dependent sources and op amps; loop and nodal analysis and duality; energy-storage elements; transient analysis of first-order and second-order circuits.
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EE 202 - Circuit Analysis I
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EE 203: Circuit Analysis II
4.00 Credits
University at Buffalo
Credits: 4 Prerequisites: EE 02 Corequisites: None Type: LEC/REC A continuation of EE 0. Brief review of basic concepts of time-domain circuit analysis; phasor analysis of steady-state ac circuits; complex power and three-phase systems; Laplace transform techniques and s-domain circuit analysis; transfer function; linear circuit design. Selected problem assignments and a final design project require use of circuit analysis software tools.
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EE 203 - Circuit Analysis II
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EE 303: Signal Analysis and Transform Methods
4.00 Credits
University at Buffalo
Credits: 4 Prerequisites: EE 03 or CEN junior standing Corequisites: None Type: LEC/REC Analyzes linear-, discrete-, and continuous-time signals and systems. Topics include Laplace and z-transforms; Fourier analysis; sampling.
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EE 303 - Signal Analysis and Transform Methods
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EE 310: Electronic Devices and Circuits I
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: EE 02 Corequisites: EE 31or EE 35 Type: LEC/REC Electronic devices, including operational amplifiers, diodes, bipolar junction transistors and field-effect transistors, the basic circuits in which these devices are used, and computer-aided circuit analysis for these devices and circuits.
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EE 310 - Electronic Devices and Circuits I
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EE 311: Electronic Devices and Circuits II
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: EE 310 Corequisites: None Type: LEC/LAB Differential and multistage amplifiers with bipolar junction transistors (BJT) and field-effect transistors (FET). Biasing in integrated circuits and active loads. Frequency response of common-emitter (common-source), common-base (common-gate), common-collector (common-drain) single BJT (FET) stages. Frequency response of differential-pair, cascode, and multistage circuits. Selection of coupling and bypass capacitors. Analog integrated circuits. Metal-Oxide-Semiconductor (MOS) digital circuits with emphasis on CMOS.
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EE 311 - Electronic Devices and Circuits II
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EE 312: Basic Electronic Instrumentation Laboratory
3.00 Credits
University at Buffalo
Credits: Prerequisites: EE 02 Corequisites: EE 310 Type: LEC/LAB Trains students how to design, build, diagnose, and characterize electronic circuits. Topics include instrumentation, semiconductor devices, and electronic circuits. Covers both analog and digital circuits. Laboratory projects include filters, operational amplifiers, dc power supply, MOSFET amplifier, BJT amplifier, logic gates, timing, and counters.
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EE 312 - Basic Electronic Instrumentation Laboratory
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EE 324: Applied Electromagnetics
4.00 Credits
University at Buffalo
Credits: 4 Prerequisites: EE 0, MTH 41, PHY 108 Corequisites: None Type: LEC/REC Topics include vector calculus; electric fields; charge distributions; dielectrics, energy, forces in the presence of dielectrics; Laplace s and Poisson s equations; magnetostatics; Faraday s induction law; time-dependent phenomena; waves.
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EE 324 - Applied Electromagnetics
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EE 340: Nantechnology,Engineering,and Science
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: PHY 107, PHY 108, PHY 207, MTH 41 Corequisites: EE 342 Type: LEC/REC Through the examples, exercises, and educational Java applets, this course covers the electrical and optical properties of materials and nanostructures, chemically-directed assembly of nanostructures, biomolecules, traditional and nontraditional methods of nanolithography, heterostructures, nanotubes, resonant-tunneling diodes, transistors, single-electron transfer devices, nano-electromechanical systems, and more.
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EE 340 - Nantechnology,Engineering,and Science
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EE 342: Nanotechnology Engineering and Science Lab
1.00 Credits
University at Buffalo
Credits: 1 Prerequisites: EE 40 and MTH 41 Corequisites: None Type: LAB The laboratory course consists of ten experiments, divided into two groups: five Scanning Probe Microscope experiments and five experiments devoted to phenomena that form the basis for modern Nanoelectronics and Nanotechnology. A complete set of laboratory experimental modules delivers to students a hands-on experience in this field.
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EE 342 - Nanotechnology Engineering and Science Lab
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EE 352: Introduction to Electronics Lab
3.00 Credits
University at Buffalo
Credits: 3 Prerequisites: EE 0and EE 03 Corequisites: EE 310 Type: LEC/LAB Trains students how to design, build, diagnose, and characterize electronic circuits. Topics include instrumentation, semiconductor devices, and electronic circuits. Covers both analog and digital circuits. Laboratory projects include filters, operational amplifiers, diodes, dc power supply, ac power control, MOSFET amplifier, BJT amplifier, logic gates, timing, and counters.
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EE 352 - Introduction to Electronics Lab
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