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EE 2313: Electrical Engineering Science I Lab

1.00 Credits

Temple University

This laboratory is concerned with the analysis and design of first and second order circuits with direct current (DC) power sources. This laboratory complements EE 2312: Electrical Engineering Science I. Topics include independent and dependent sources, circuit elements such as resistors, inductors, capacitors, and operational amplifiers. We also investigate the concept of linearity and source transformation, Thevenin equivalent circuits, and Norton Equivalent circuits.
Mode: Laboratory. Corequisite: EE 2312

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EE 2322: Electrical Engineering Science II

3.00 Credits

Temple University

This course is concerned with the analysis of alternate current (AC) circuits. Sinusoidal steady-state analysis, AC power analysis, magnetically coupled circuits, and frequency responses are covered. Laplace transforms are introduced and are used to solve first, second and higher order differential equations. The use of Laplace transforms for circuit analysis is studied and applied.
Mode: Lecture. Prerequisite: EE 2312 (0161) and MATH 1042 (0086) Corequisite: EE 2323 and MATH 3041 (0251)

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EE 2323: Electrical Engineering Science II Lab

1.00 Credits

Temple University

This course provides hands-on experience of the principles discussed in EE 2322. Specifically students will gain practical experience on the use of various electrical equipment and their applications for measuring alternating current quantities.
Mode: Laboratory. Corequisite: EE 2322

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EE 2612: Digital Circuit Design

3.00 Credits

Temple University

This course considers binary number systems, codes, truth tables and the fundamental operation of digital logic circuits. The implementation of combination and sequential digital logic is by a hardware description language in Verilog behavioral synthesis. Complex digital logic and state machine analysis and design are implemented in simulation and programmable gate array hardware.
Mode: Lecture. Prerequisite: EE 2312 Corequisite: EE 2613

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EE 2613: Digital Circuit Design Laboratory

1.00 Credits

Temple University

Laboratory for EE 2612: Digital Circuit Design. This course provides hands-on experience in digital circuits, gates, flip-flops etc.
Mode: Laboratory. Corequisite: EE 2612 (0156)

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EE 2922: Honors Electrical Engineering Science II

3.00 Credits

Temple University

Topics in this course include: sinusoidal analysis, power measurements, three-phase circuits, complex frequency and network functions, resonance, scaling, frequency response, two-port networks, Fourier series and transforms. This Honors course will be challenging and held to a high standard. Prerequisite: C or better in EE 2312/2313 and MATH 1942

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EE 2923: Honors Electrical Engineering Science II Lab

1.00 Credits

Temple University

Topics in this course include: sinusoidal analysis, power measurements, three-phase circuits, complex frequency and network functions, resonance, scaling, frequency response, two-port networks, Fourier series and transforms. This Honors course will be challenging and held to a high standard. Prerequisite: C or better in EE 2312/2313 and MATH 1942

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EE 3082: Independent Study in Electrical Engineering

1.00 - 3.00 Credits

Temple University

With the department chair’s approval, students may complete a regular course during semesters the course is not offered in order to meet prerequisite or graduation requirements. An instructor supervises the student.

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EE 3091: Independent Research in Electrical Engineering

1.00 - 3.00 Credits

Temple University

Project assigned with the approval of the department chair and conducted under the supervision of a faculty sponsor.

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EE 3312: Electrical Devices and Circuits

3.00 Credits

Temple University

Students study ideal and non ideal operational amplifier circuits, diodes in nonlinear circuit applications, bipolar junction transistors, field-effect transistors (JFETs), metal oxide semiconductor field effect transistors (MOSFETs), biasing techniques, gain and bandwidth, the design of amplifiers, and transistors as loads.
Mode: Lecture. Prerequisite: EE 2322 (0165) Corequisite: EE 3313 (0255)

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