|Sl. No.||Room No.||Name of the Laboratory||Brief Description of Lab||Lab Photo|
|1||B102||Electrical Measurements and instrumentation Lab||DC 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.|
|2||B103/A||Basic Electrical Engineering Lab||To acquaint students with basic Concepts & properties of Electrical Circuits & Networks and experimentally verify the characteristics of DC & AC Machines.|
|3||B103/B||Electrical Workshop||To provide exposure to the students with hands on experience on various Electrical Engineering practices|
|4||B104||Power Systems Lab||To 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.
|5||B116||Electrical Machines Lab-I||This lab is used to experimentally verify the characteristics and testing of DC machines.|
|6||B117||Electrical Machines Lab-II||This lab is used to experimentally verify the characteristics and testing of AC machines.|
|7||B205||Power Electronics Lab||This lab is used to study the power switching devices characteristics, power conversion technologies and speed control of electrical machines.|
|8||B206||Electrical Circuits Lab||To acquaint students with basic Concepts & properties of Electrical Circuits & networks|
|Control Systems Lab||Introduction to signals and various controllers, Transfer function of DC motor, Generator, DC and AC Servomotors, operation of PLC. Design of controllers using Matlab/Simulink|
|9||B410||Basic Electrical Simulation Lab||Introduction to signals and Design of controllers, Circuits and Networks, Power Electronics ircuits using Matlab/Simulink and Pspice.|
|Electrical Systems Simulation Lab||To 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.