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List of Experiments Subject-wise

Basic Electronics

List of experiment (Basic Electronics)
1) To study of CRO
2) Test the performance of diode
3) Test the performance of LED
4) Test the performance of Zenor Diode,
5) Testing the performance of BJT
6) Test the performance of PNP Transistor Common Emiter
7) Test the performance of PNP Transistor Common collector
8) Test the performance of PNP transistor Common Base
9) Test the Performance of NPN Transistor Common Emiter
10) Test the Performance of NPN Transistor Common Collector
11) Test the Performance of NPN Transistor Common Base
12) Test the performance of FET
13) Teat the Performance of filter(testing & characteristic)
14) Test the Half Wave Rectifier... A)without Filter B)With Filter
15) Test the Full Wave center tapped type Rectifier..a)Without Rectifier b)With Rectifier
16) Test the Full Wave Bridge type Rectifier...a)Without Rectifier b)With Rectifier
17) Test the Output Waveform of a)Positive Clamper b) Negative Clapper
18) Test the Output Waveform of a)Positive clipper b)Negative clipper

Electrical Circuit

1) To study of Kirchhoffs Law
2) Resistance, Current and Voltage Measurements
3) Power in DC Circuits
4) Series, Parallel and Mixed Circuits
5) Verification of Super Position Theorem
6) Verification of Thevenin Theorem
7) Verification of Norton Theorem
8) Verification of OHM's Law
9) To study of Reciprocity Theorem
10) To study Maximum Power Transfer Theorem
11) Voltage Distribution of Capacitors in Series and Parallel
12) Total Capacitance of Capacitors in series and Parallel
13) Charging and Discharging of Capacitor through resistance and Time Constant
14) To study Wheatstone's Bridge
15) Series Resonance Trainer
16) Parallel Resonance Trainer
17) Two Port Network-Z,Y,ABCD parameters & Star-Delta networks

a) R-L Series Circuit
b) R-C Series Circuit
c) R-L-C Series Circuit (Series Resonance)
d) R-L Series Circuit
e) R-C Parallel Circuit
f) R-L-C Parallel Circuit (Parallel Resonance )
g) Active, Reactive Power & Power Factor (Vector Diagram)
h) Average & RMS Value Measurement

Electrical Machine Lab

1. Synchronization / Paralleling of 2 Three Phase Alternator Trainer.
3.1 Dc separately Excited shunt motor
a. Speed Torque Characteristics.
b. Efficiency against various loads.
c. Speed variation by field weaking.
d. Study of soft start mechanism and armature resistance method of starting.
e. Plugging or reverse current breaking of separately excited DC Motor
3.2 DC Series Motor
a. Speed Torque Characteristics.
b. Efficiency against various loads.
c. Speed variation using variable armature supply.
3.3 DC Shunt Motor
a. Speed Torque Characteristics.
b. Efficiency against various loads.
c. Speed variation using variable armature supply
3.4 DC Compound Motor
a. Speed Torque Characteristics.
b. Efficiency against various loads.
c. Speed variation using variable armature supply
3.5 DC Generator
a. Output Volt-Amp Characteristics of DC Shunt Generator
b. Efficiency of DC Shunt Generator.
c. Output Volt-Amp Characteristics of DC Separately Excited Generator.
d. Efficiency of DC Separately Excited Generator.
e. Output Volt-Amp Characteristics of DC Series Generator.
f. Efficiency of DC Series Generator.
g. Output Volt-Amp Characteristics of DC Compound Generator.
h. Efficiency of DC Compound Generator.
i. Hopkinson’s Test (Optional).
j. Swinburne’s test or No Load Test or Losses Method.
k. Study of open circuit Characteristics determine of critical speed & critical resistance of DC Shunt Motor
l. Study of Ward- Leonard
m. Study of Ward- Leonard speed control system for Dc Motor.
n. Measurement of machine parameter and determine machine Parameter.
o. Dc Motor Shunt, Series, Compound 3000rpm / 1 HP
p. Study of DC Motor 2 HP &3 Phase AC Silent pole 2 HP Couple set.
d. Study of Speed Torque Characteristics DC Shunt Motor( DC + DC Couple set 2-HP)
e. Study of Speed Torque Characteristics separately Excited DC Shunt Motor( DC + DC Couple set 2-HP)
q. Study of Speed Torque Characteristics separately Excited DC Shunt Motor [DC Shunt(2HP) + 3 HP AC-1HP]

Industrial Automation Lab

1). Identify different input and output devices that ca be connected to a given PLC.
2).test the digital input and output lines of the given PLC.
3).Develop Ladder diagram of AND , OR, NOT , NAND, NOR ,X-OR, X-NOR gate along with truth table.
4). Check the UP/DOWN COUNTER operation of the given given PLC.
5).Check the on, off and reset delay timer operation of the given PLC.
6).Test ladder program to put LED /lamp in the blinking mode.
7).Develop Ladder program for traffic light control system.
8).Test ladder program for tank water level control.
9).Test ladder program for rotating stepper motor in forward and reverse direction at constant speed.
10).Test the given parameters of SCADA.

Instrumentation & Process Control Lab

1). Plot the displacement versus output voltage characteristic of LVDT.
2). Level Measurement Trainer by Bubbler Method.
3). Flow Measurement Trainer By Venturimeter.
4). Measure the Pressure using Bourdon tube.
5). Measure the strain using strain guage.
6). To study the calibration of different types of thermocouple
7).To Measure and study Temperature Sensor Panel kit.
8).Pressure Measurement using LVDT panel .

Power Electronics Lab

A) SCR Converters
1. Half Wave SCR Converter.
2. Full Wave Fully Controlled Converter.
3. AC Voltage Controller Lamp and / OR Universal Drill motor.
4. SCR Controlled Converter 1 phase with R-L Load
5. Effect of Free-Wheeling Diode on SCR Converter performance with inductive Load.
6. Study of SCR Converter (open loop) output with inductance input and capacitance input filters.
7. Effect of source impedance on performance of SCR Converters.
8. Study of closed loop SCR converters with Resistive load.
9. Study of closed loop SCR Converters with motor load.
10. Study of Full Wave –half controlled SCR Bridge.
11. Study of Single Phase Half Controlled Asymmetric Bridge Converter.
Single Phase Dual Convert Control OR Bi-directional DC Motor Speed Control Panel
A) Single Phase Dual Converter control
B) Single Phase Dual Converter operation in non circulating current mode.
C) Single Phase Dual Converter operation in current circulating mode.
D) IGBT based full bridge PWM Chopper (DC motor ).
E) PC Based Dual Converter FED DC motor Drive
3-Phase High Voltage(HV) Thyristor Control Trainer (Model: XPO – HVDC)
A) Working with 3 Phase HVDC
1) 3 phase Half Wave uncontrolled converter with R-Load using Diode.
2) 3 phase Full Wave Bridge (Uncontrolled converter) with R_ Load.
3) Study of SCR Firing circuit in 3-phase converter environment.
4) 3 Phase half Wave SCR Converter with R-Load.
5) 3 phase Full Wave half Controlled SCR converter with R-Load.
6) 3 phase Full Wave fully Controlled SCR converter with R-Load.
7) 3 phase Full Wave fully Controlled SCR converter with Motor-Load.
B) Working with 3 Phase AC Voltage Control
1) Study Of SCR Firing circuit in 3-phase AC Voltage Control.
2) 3-phase AC Voltage Controller with R-Load using SCRs.
3) 3-phase Induction motor speed control using SCR based Ac Voltage Controller
4) 3-Phase AC Voltage controller Fed Induction motor drive.
C) Working with 3 phase cyclo-converter
1) Study of SCR Firing circuit in 3-phase Cyclo -Converter
2) 3-phase Cycloconverter with R-Load.
3) 3-phase Cycloconverter with motor-Load.

Power System Operation & Protection Lab

1. Percentage biased differential relay trainer
a. To plot characteristics of % bias differential relay
b. Pick up test for differential relay
c. Transformer protection using differential relay for in Zone trip faults.
d. Transformer out zone or non trip faults.
2. Distance Protection Relay Trainer
a. To perform experiment for distance protection of transmission line.
b. To perform experiments for auto reclose function of the relay.