LABORATORIES:

S.No Programme Year Semester Lab Code Lab Name
1 B.TECH 2 1 EE306PC ELECTRICAL MACHINES-I LAB
2 B.TECH 2 2 EE407PC ELECTRICAL MACHINESLAB-II
3 B.TECH 2 2 EE408PC CONTROL SYSTEMS LAB
4 B.TECH 2 1 EE307PC ANALOG ELECTRONICS   LAB
5 B.TECH 2 1 EE308PC ELECTRICAL CIRCUITS   LAB
6 B.TECH 2 2 EE406PC DIGITAL ELECTRONICS   LAB
7 B.TECH 3 1 EE505PC POWER SYSTEM SIMULATION LAB
8 B.TECH 3 1 EE506PC POWER ELECTRONICS   LAB
9 B.TECH 3 1 EE507PC MEASUREMENTS AND   INSTRUMENTATION LAB
10 B.TECH 3 2 EE605PC POWER SYSTEMS LAB
11 B.TECH 3 2 EE606PC MICROPROCESSORS   & MICROCONTROLLERS LAB
12 B.TECH 3 2 EE607PC SIGNALS AND SYSTEMS   LAB
13 B.TECH 4 1 EE704PC ELECTRICAL WORKSHOP
14 B.TECH 4 1 EE703PC ELECTRICAL SYSTEMS   SIMULATION LAB

ELECTRICAL MACHINES-I LAB

After completion of Electrical Machines-I lab the student is able to  

  • Start and control the Different DC Machines.
  • Assess the performance of different machines using different testing methods
  • Identify different conditions required to be satisfied for self – excitation of DC Generators.
  • Separate iron losses of DC machines into different components

ELECTRICAL MACHINES-II LAB

After completion of Electrical Machines-I lab the student is able to

  • Assess the performance of different machines using different testing methods
  • To convert the Phase from three phase to two phase and vice versa
  • Compensate the changes in terminal voltages of synchronous generator after estimating the change by different methods.
  • Control the active and reactive power flows in synchronous machines
  • Start different machines and control the speed and power factor

CONTROL SYSTEMS LAB

After completion of Control Systems lab, the student is able to

  • How to improve the system performance by selecting a suitable controller and/or a compensator for a specific application
  • Apply various time domain and frequency domain techniques to assess the system performance
  • Apply various control strategies to different applications(ex: Power systems, electrical drives etc)
  • Test system controllability and observability using state space representation and applications of state space representation to various systems

ANALOG ELECTRONICS LAB

At the end of Analog Electronics Lab, students will demonstrate the ability to  

  • Know the characteristics, utilization of various components.
  • Understand the biasing techniques
  • Design and analyze various rectifiers, small signal amplifier circuits.
  • Design sinusoidal and non-sinusoidal oscillators.
  • A thorough understanding, functioning of OP-AMP, design OP-AMP based circuits with linear integrated circuits

ELECTRICAL CIRCUITS LAB

After Completion of Electrical Circuitslab, the student is able to  

  • Analyze complex DC and AC linear circuits
  • Apply concepts of electrical circuits across engineering.
  • Evaluate response in a given network by using theorems

DIGITAL ELECTRONICS LAB

At the end of Digital Electronics Lab, students will demonstrate the ability to

  • Understand working of logic families and logic gates.
  • Design and implement Combinational and Sequential logic circuits.
  • Understand the process of Analog to Digital conversion and Digital to Analog conversion.
  • Be able to use PLDs to implement the given logical problem.

POWER SYSTEM SIMULATIONLAB

After completion of Power System Simulationlab, the student will be able to

  • Perform various transmission line calculations
  • Understand Different circuits time constants
  • Analyze the experimental data and draw the conclusions

POWER ELECTRONICS LAB

After completion of Power Electronics Lab, the student is able to

  • Understand the operating principles of various power electronic converters.
  • Use power electronic simulation packages& hardware to develop the power converters.
  • Analyze and choose the appropriate converters for various applications

MEASUREMENTS AND INSTRUMENTATION LAB

After completion of Measurements and Instrumentation lab the student is able to

  • To choose instruments
  • Test any instrument
  • Find the accuracy of any instrument by performing experiment
  • Calibrate PMMC instrument using D.C potentiometer

POWER SYSTEMS LAB

After completion of Power Systems lab, the student will be able to

  • Perform various load flow techniques
  • Understand Different protection methods
  • Analyze the experimental data and draw the conclusions

MICROPROCESSORS & MICROCONTROLLERS LAB

At the end of Microprocessors & Microcontrollers Lab, each student should be able to

  • To familiarize with the assembly level programming
  • An indepth knowledge of applying the concepts on real time applications

SIGNALS AND SYSTEMS LAB

At the end of Signals and Systems Lab, students will demonstrate the ability to

  • Understand the concepts of continuous time and discrete time systems.
  • Analyse systems in complex frequency domain.
  • Understand sampling theorem and its implications.

ELECTRICAL WORKSHOP

After completion of Electrical Workshop, student will be able to

  • Get practical knowledge related to electrical.
  • Fabricate basic electrical circuit elements/networks.
  • Trouble shoot the electrical circuits.
  • Design filter circuit for application.
  • Get hardware skills such as soldering, winding etc.
  • Get debugging skills.

ELECTRICAL SYSTEMS SIMULATION LAB

After going through Electrical Systems Simulationlab, the student will be able to

  • Design and Analyze electrical systems in time and frequency domain.
  • Analyze various transmission lines and perform fault analysis.
  • Model Load frequency control of Power Systems.
  • Design various Power Electronic Converters and Drives.
  • Get debugging skills.