BACHELOR OF SCIENCE

 

 

 

 

Bachelor of Science in Electrical Engineering

The Electrical Engineering curriculum has changed from what is printed in the 2005-2007 catalog. This is part of the continuous improvement process that the department has undertaken towards meeting the professional needs of the rapidly evolving discipline of Electrical Engineering.

You can download the revised version of Electrical Engineering Undergraduate Flow ChartPDF File Opens in new window here. 

For more information about Bachelor of Science in Electrical Engineering Program, please download the BS brochurePDF File Opens in new window here.

The requirements of the new curriculum, which were effective starting Fall 2005, are listed below:

General Education Requirements (24 Units)

General Education is the basis of an education at the university. It is intended to provide students with a wide range of knowledge and understanding across the major disciplines of science, social science, arts, and humanities. It is also intended to assist students acquire widely relevant abilities such as critical thinking and writing, improve their lifelong learning capacity, and improve their ability to efficiently contribute to our culturally varied community.

Please visit lists of GE coursesOpens in new window that meet your GE requirements.

Technical Electives in Electrical Engineering (15 Units)

Before enrolling in any elective course, approval of the adviser must be obtained. At least 3.5 units of design content must be included. Design Project: EGEE 497 (1-3 units), and Independent Study: EGEE 499 (1-3), are elective courses; students must complete a study application form and submit it for approval to the supervising faculty member and the department chair prior to the semester in which the course work is to begin.

VLSI and Electronic Circuits

Course Description Units

EGEE 404Opens in new window

Introduction to Microprocessors and MicrocomputersOpens in new window

3

EGEE 410Opens in new window

Electro-Optical SystemsOpens in new window

3

EGEE 420Opens in new window

Introduction to Digital FilteringOpens in new window

3

EGEE 435Opens in new window

Microwave EngineeringOpens in new window

3

EGEE 442Opens in new window

Electronic CircuitsOpens in new window

3

EGEE 445Opens in new window

Digital ElectronicsOpens in new window

3

EGEE 448Opens in new window

Digital Systems Design and VHDLOpens in new window

3

EGEE 455Opens in new window

Microelectronics and Nano Devices

3

EGEE 465Opens in new window

Introduction to VLSI DesignOpens in new window

3

EGEE 469Opens in new window

Antennas for Wireless CommunicationsOpens in new window

3

 

Communication Systems and Signal Processing

Course

Description

Units

EGEE 404Opens in new window

Introduction to Microprocessors and MicrocomputersOpens in new window

3

EGEE 410Opens in new window

Electro-Optical SystemsOpens in new window

3

EGEE 420Opens in new window

Introduction to Digital FilteringOpens in new window

3

EGEE 435Opens in new window

Microwave EngineeringOpens in new window

3

EGEE 442Opens in new window

Electronic CircuitsOpens in new window

3

EGEE 443Opens in new window

Electronic Communication SystemsOpens in new window

3

EGEE 460Opens in new window

Introduction to Cellular Mobile Communications SystemsOpens in new window

3

EGEE 469

Antennas for Wireless CommunicationsOpens in new window

3

EGEE 480

Optical Engineering and CommunicationsOpens in new window

3

EGEE 483Opens in new window

Introduction to Global Positioning Systems (GPS)Opens in new window

3

EGEE 483LOpens in new window

Global Positioning Systems LabOpens in new window

2

 

Control Systems

Course

Descriptions

Units

EGEE 404Opens in new window

Introduction to Microprocessors and MicrocomputersOpens in new window

3

EGEE 416Opens in new window

Feedback Control SystemsOpens in new window

3

EGEE 420Opens in new window

Introduction to Digital FilteringOpens in new window

3

EGEE 424Opens in new window

Computer Simulation of Continuous SystemsOpens in new window

3

EGEE 483Opens in new window

Introduction to Global Positioning Systems (GPS)Opens in new window

3

 

Computer Engineering

Course

Description

Units

EGGN 403Opens in new window

Computer Methods in Numerical AnalysisOpens in new window

3

EGEE 404Opens in new window

Introduction to Microprocessors and MicrocomputersOpens in new window

3

EGEE 406Opens in new window

Design Applications with Microcontroller and FPGAOpens in new window

3

EGEE 407Opens in new window

Digital Computer Architecture & Design IOpens in new window

3

EGEE 412Opens in new window

Digital Computer Architecture and Design IIOpens in new window

3

EGEE 445Opens in new window

Digital ElectronicsOpens in new window

3

EGEE 448Opens in new window

Digital Systems Design with VHDLOpens in new window

3

EGEE 455Opens in new window

Microelectronics and Nano DevicesOpens in new window

3

EEGEE 465Opens in new window

Introduction to VLSI DesignOpens in new window

3

Upper-Division Writing Requirements

In addition to the Examination in Writing Proficiency (EWP), all of the following courses are required to fulfill the upper-division writing requirement.

Course Description Units

EGEE 303LOpens in new window

Electronics LaboratoryOpens in new window

1

EGEE 310LOpens in new window

Electronic Circuits LaboratoryOpens in new window

1

EGEE 313LOpens in new window

Power LaboratoryOpens in new window

1

EGEE 485Opens in new window

Electrical Engineering Design Projects LaboratoryOpens in new window

3

Written work for these courses must meet professional standards. All these courses must be passed with at least a “C” (2.0).