EEE Labs

Sl. No.Room No.Name of the LaboratoryBrief Description of LabLab Photo
1B102Electrical Measurements and instrumentation LabDC and AC bridges, transducers, testing of CT’s and PT’s, Calibration of Wattmeter and Energy meter. Transformer Oil testing, turns ratio, real and reactive power measurements.
2B103/ABasic Electrical Engineering LabTo acquaint students with basic Concepts & properties of Electrical Circuits & Networks and experimentally verify the characteristics of DC & AC Machines.
3B103/BElectrical WorkshopTo provide exposure to the students with hands on experience on various Electrical Engineering practices
4B104Power Systems LabTo provide the exposure to the students with different types of relay operations and fault analysis of Transformers and Generators. To develop MATLAB programs for the following basic requirements:
a) Formation of Y and Z bus matrices.
b) Power flow solution of small systems using Gauss-Seidel and NR method.
5B116Electrical Machines Lab-IThis lab is used to experimentally verify the characteristics and testing of DC machines.
6B117Electrical Machines Lab-IIThis lab is used to experimentally verify the characteristics and testing of AC machines.
7B205Power Electronics LabThis lab is used to study the power switching devices characteristics, power conversion technologies and speed control of electrical machines.
8B206Electrical Circuits LabTo acquaint students with basic Concepts & properties of Electrical Circuits & networks
Control Systems LabIntroduction to signals and various controllers, Transfer function of DC motor, Generator, DC and AC Servomotors, operation of PLC. Design of controllers using Matlab/Simulink
9B410Basic Electrical Simulation LabIntroduction to signals and Design of controllers, Circuits and Networks, Power Electronics ircuits using Matlab/Simulink and Pspice.
Electrical Systems Simulation LabTo acquire experience in the usage of standard packages for the following analysis / simulation / control functions.
a) Steady-state analysis of large system using NRPF and FDPF methods.
b) steady-state (Fault) analysis for balanced and unbalanced faults.
c) Transient stability simulation of multi-machine power system.
d) Simulation of Load-Frequency Dynamics and control of power system.