Basic Engineering Courses

BEE012             Computer-Aided Engineering Drawing, (2,1,0)

        Prereq.  None

Manual sketching and computer aided engineering drawing techniques. Lettering, orthographic projections, isometric projection, oblique projections, auxiliary views, dimensioning, sectioning, working drawing.

      BE022               Engineering Thermodynamics, (2,1,0)

 Prereq.  None

Study of basic principles of thermodynamics. Engineering analysis of physical systems based on the first and second law. Properties of pure substance (ideal gas behavior, non-ideal gas behavior and equation of state). Mixture of ideal gases. Introduction to cycle analysis.

     BE032                Materials Technology, (2,1,0)

 Prereq.  None

Metals, alloys, ceramics, glass, materials used primarily for their  mechanical properties. Description of materials processing techniques, e.g. heat treatment used to develop optimum properties. Materials selection and processing for engineering applications.     

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Electronic Systems Engineering Courses

       EE013                Electric Circuits I, (2,2,0)

   Prereq.  None

Concepts and basic laws in analysis of AC and DC linear circuits. Mesh and nodal methods. Thevenin’s and Norton’s Theorems, superposition principle, and phasor notation. Transient. Basic instrumentation.

                EE023                Electric Circuits II , (2,2,0)

   Prereq.  EE013

Ac circuit analysis: alternating systems (voltage and current), waveform, average value, RMS value, form factor, frequency and period.

Power supplies: rectification, filtering, voltage requlation, short circuit and over voltage protection, transformers, oscillators.

Phasor diagram and definitions-addition and subtraction of sinusoidal signals.

Alternating current and voltage in: resistive circuits, inductive circuits, capacitive circuits and RLC circuits. Definition of impedance in a.c. circuits, capacitors and inductors impedance. Driving-point impedance of a.c. networks. Two port network: Frequency response function, Filters: 1st order low-pass, 1st order high-pass, 2nd order filters: low-pass, high-pass, band-pass (Series and parallel resonance), band reject.series and parallel resonance circuits.    

       EE033                Semiconductor Electronics and Devices, (2,2,0)

Prereq.  PH043

The physical principles of crystal structure, energy band, charge densities in doped semiconductor, especially Silicon; conduction mechanism drift and diffusion, carrier lifetime, mobility, the continuity equations. Junction diode equation, device capacitance; breakdown mechanics; diode models and applications.  Basic operation principles and device equations for pn junction diode, biplar junction transistor, MOS capacitors.

              EE043                Digital Circuits Design I, (2,2,0)

             Prereq.  None

Number systems and code. Boolean Algebra. Universal logic gates. Cominational Logic systems: Simplification of boolean expressions using Karnaugh maps, simplest sum-of-products & simplest product-of-sums forms. Gate minimization. Implementation of boolean function using NAND & NOR gates.  

Sequential logic systems: RS latch, D latch, Flip-flops: D-type & JK type flip-flops. Synchronous & Asynchronous counters, design of synchrouns counters using D-type flip-flops, registers.

               EE053                Electronic Circuits I, (2,2,0)

             Prereq.  EE033

Biasing, small signal models and elementary circuits applications of bipolar junction transistor and field effect transistors. Bipolar amplifier design, including dc bias, small signal performance, multistage amplifiers, frequency response. Bipolar logic and memory design including gate array and ECL circuit configuration. Introduction to MOSFET circuit design.

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