Undergraduate PROGRAMS

Course Information


Experimental verification of principles and practice of protective relaying. Experiments and design projects to demonstrate the principles and techniques of industrial power system design. Fuses, time overcurrent and instantaneous relays. Differential relaying for transformers. Distance relaying. Current and Voltage transformers.

Why take this course?

This course provides experimental and project oriented verification of principles of industrial system design and power system protection. The laboratory experience will be invaluable to a student who intends to make power engineering his professional career. The course will complement the work done in the parallel course ECE 4354 that deals with the theory of power system protection.

Technical Elective


C- or better in 4334. Co-requisite: 4354

This course requires an understanding of the basic principles of power system protection system design. This material is covered in ECE 4354, which is a co-requisite. Also needed is an understanding of power system analysis techniques, which are covered in ECE 4334.

Major Measurable Learning Objectives

  • Apply measurement techniques associated with power system transient phenomena
  • evaluate the influence of transients on protective systems
  • evaluate the operation of protective devices
  • develop experimental techniques for setting and testing relays
  • develop the skills to report experimental findings in written reports.

Course Topics


Percentage of Course

General laboratory on instrumentation 10%
Current transformer performance 10%
Electromechanical TOC relays 10%
Doble test equipment 10%
Solid state TOC relay 20%
Computer based TOC relay 10%
Transformer Differential relay 10%
Distance Relays 20%