Post-Baccalaureate Certificate in Power Systems Engineering

Certificate Level: Graduate
Admission Requirements: Bachelor's degree in electrical engineering
Certificate Type: Graduate Certificate
Number of Credits to Completion: 24.0
Instructional Delivery: Online
Calendar Type: Quarter
Expected Time to Completion: 2 years
Financial Aid Eligibility: Not aid eligible

Classification of Instructional Program (CIP) Code: 14.4801
Standard Occupational Classification (SOC) Code: 11-9041

 

About the Program

The objective of this certificate is to provide students/professionals with the knowledge to support related technical project including electrification, de-carbonation, and aging equipment retirement expansion. This program will prepare students/engineers to be equipped with the technical knowledge and to meet the needs of utility corporations to retain existing employees, to develop professionals in meeting the new rising technical challenges, and to attract new, young professionals to join the challenging workforce.

Admission Requirements

Students should have a bachelor's degree in electrical engineering with the necessary pre-requisites. Student's without a bachelor's degree in electrical engineering would require coursework exposure to circuits (i.e., RLC circuits, nodal analysis phasors) and linear algebra (i.e., vector and matrix computation). Visit the School of Engineering Graduate Admissions Guidelines for more information.

For More Information

Visit the School of Engineering Certificates Programs web page.

Degree Requirements

Required Courses:
ECEP 501Power System Analysis3.0
ECEP 502Computer Analysis of Power Systems3.0
ECEP 601Modeling & Analysis of Power Distribution Systems3.0
ECEP 602Power Distribution Automation and Control3.0
ECEP 641Protective Relaying3.0
ECEP 642Protective Relay Laboratory0.0,3.0
ECEP 671AC-DC and DC-AC Power Electronic Converters3.0
Technical Electives *
Select one from the list below:3.0
Synchronous Machine Modeling
Service and Power Quality in Distribution Systems
Economic Operation of Power Systems
Solid State Protective Relaying
Power Electronic Experiments: Hardware and Software
Power Electronic Applications
Load Forecasting & Probability Methods
Special Topics in Electrical & Computer Engineering - Power Engineering
Total Credits21.0-24.0
*

Select a course from the list below or any ECE department course with advisor approval.

Sample Plan of Study

Plan of Study Grid
First Year
FallCredits
ECEP 501 Power System Analysis 3.0
 Credits3
Winter
ECEP 502 Computer Analysis of Power Systems 3.0
 Credits3
Spring
ECEP 641 Protective Relaying 3.0
 Credits3
Summer
ECEP 642 Protective Relay Laboratory 3.0
 Credits3
Second Year
Fall
ECEP 601 Modeling & Analysis of Power Distribution Systems 3.0
 Credits3
Winter
ECEP 602 Power Distribution Automation and Control 3.0
 Credits3
Spring
Technical Elective * 3.0
 Credits3
Summer
ECEP 671 AC-DC and DC-AC Power Electronic Converters 3.0
 Credits3
 Total Credits24
*

Select a course from the list outlined in the degree requirements or any ECE department course with advisor approval.

Additional Information

For more information about this program, contact Anup Das PhD at ad3639@drexel.edu.