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EE221 Logic Design
Credits: 4 (3,1,2) Prerequisite: EE101
This module enables students to understand concepts in binary numbers, number base
conversion, complements and codes, definition of Boolean Algebra, Boolean functions, digital
logic gates, integrated circuits, Karnaugh map methods, combinational logic circuits, sequential
logic circuits and Memory modules. Design and analysis of sequential logic circuits such as: Shift
Registers, Counters, Synchronous and Asynchronous Sequential Circuits, State Diagrams, State
Tables, Students will be able to develop, measure, and test different types of Sequential Circuits
using D-type, T-type, and JK-type Flip-Flops.
EE231 Signals and Systems
Credits: 3 (3,1,0) Prerequisites: MATH225, EE201
This course covers basic concepts and methods related to continuous and discrete-time signals
and systems. The course includes: signals and systems and their properties, linear time-invariant
systems, stability analysis, sampling of continuous-time signals, z-transform, continuous and
discrete-time Fourier transform, discrete Fourier transform and fast Fourier Transform.
EE304 Electrical Machines
Credits: 3 (3,1,0) Prerequisites: EE202, EE341
Introduction to electrical drives, Magnetic circuit concepts, Power transformer theory, Electro-
mechanical systems (dynamics and analogies), Motor/load interactions, Standard DC machines,
Brushless DC machines. Induction Machines, Synchronous Machines, Control of Electrical DC
Machines, Control of Electrical AC Machines.
EE305 Power Electronics
Credits: 4 (3,1,2) Prerequisite: EE211
This course is an introduction to Power Electronics. It enables the student to understand the basic
Power Electronics components, operations, design, and the analysis of basic power electronics
converter circuits. The course is focused on the applications of the power converter in various
sectors e.g. industrial, electric grid, renewable energy, microgrid, electric vehicle etc. In addition,
the course covers the basic characteristics, control scheme and applications of power
semiconductor devices and circuits.
EE312 Electronic Engineering
Credits: 3 (3,1,0) Prerequisite: EE211
This course enables the students to understand the DC and AC analysis, and modelling of
multistage configuration based on BJT, FET, MOSFET. This course also helps to analyze and design
the different electronic circuitries- CMOS circuit such as NAND Gates, Transmission Gates and
memory elements.
EE322 Microprocessors design
Credits: 4 (3,1,2) Prerequisite: EE221, EE211, CEE205
The course will focus primarily on basic embedded system concepts and the student will learn the
basics of designing, interfacing, configuring, and programming embedded systems. One of popular
microcontroller is selected to implement the techniques learned in class. By the end of the course
the student will have mastered the basics of embedded system design and programming.
182 PSU UNDERGRADUATE BULLETIN
