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Course Criteria
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3.00 Credits
Binary number system and digital coding techniques. Boolean algebra, combinational logic circuits, and minimization techniques. Synchronous sequential circuits and state reduction techniques. Medium Scale Integration (MSI) combinational components. (3 hrs lect, 3 hrs lab)
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3.00 Credits
Basic circuit analysis: resistive circuits, voltage and current sources-independent and dependent. Nodal and mesh analysis. Network theorems. Energy storage elements. RC, RL, and RLC transient and steady state analysis, phasors. SPICE analysis. (3 hrs lect, 3 hrs lab)
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3.00 Credits
Signal and system modeling concepts, system analysis in time domain, Fourier series and Fourier transform. Discrete time domain signals and systems, Z transform, analysis and design of digital filters, discrete Fourier transform, FFT applications. (3 hrs lect, 3 hrs lab)
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3.00 Credits
Diodes, BJTs, FETs, ideal operational amplifiers, DC analysis, small signal models, and analysis; single-stage circuits design; power amplifiers. (3 hrs lect, 3 hrs lab)
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3.00 Credits
Microcomputer components. Instruction set, machine and assembly language programming. Addressing modes. Signed/unsigned arithmetic. Stack uses. Assembly-level translation of high-level language constructions. Input/ Output interfacing. Interrupt programming. Microcomputer system hardware. (3 hrs lect, 3 hrs lab)
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3.00 Credits
System mathematical modeling: differential equations, Laplace transform, block diagrams, signal flow graphs. System performance characteristics: time response, sensitivity, steady-state error. Stability analysis: Routh- Hurwitz, root locus and Nyquist. State variables. Compensation design, software tools. (3 hrs lect)
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3.00 Credits
Multistage circuits, frequency analysis, non-ideal operational amplifiers, feedback and stability, oscillators, filters. (3 hrs lect, 3 hrs lab)
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3.00 Credits
Digital logic family characteristics. Medium Scale Integration (MSI) components and applications. Programmable Logic Devices (PLDs). Alternative clocking techniques. Computer arithmetic circuits and memory design. Fundamental mode asynchronous finitestate machine design. (3 hrs lect, 3 hrs lab)
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3.00 Credits
Fundamentals of electromagnetic analysis. Electrostatic and magnetostatic fields. Introductory numerical analysis of electromagnetic fields. Time-varying fields and potentials. Maxwell's equations and their applications. (3 hrs lect)
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3.00 Credits
(3 cr; QP-Phys 1109; SP-Phys 1204; A-F only) Fundamentals of solid-state semiconductors and devices. Quantum mechanical concepts and atomic states, solidstate structure, band structure, semiconductor statistics, and transport. (3 hrs lect)
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