Fundamentals of Power Electronics Practicals

 Fundamentals of Power Electronics Practicals

(22326)

Semester-III

(EE/EP/EU/IE)

(as per MSBTE Lab Manuals)

Program Outcomes (POs) to be achieved through Practicals of this course

1. Discipline knowledge: Apply Electrical engineering knowledge to solved board based electrical engineering related problems.

2. Experiments and practice: An ability to plan and perform experiments and practices and to use the results to solve engineering problems.

3. Engineering Tools: Apply relevant Electrical technologies and tools with an understanding of the limitations.

PSO 1. Electrical Equipments: Maintain various types of rotating and static electrical equipment.

POS 2. Electrical Power Systems: Maintain different types of electrical power systems.

 List of Practicals 

Practical No. 1: Power Transistor performance (click here)

Practical No. 2: Insulated Gate Bipolar Transistor (IGBT) Performance (click here)

Practical No. 3: DIAC Performance (click here)

Practical No. 4: Silicon Controlled rectifier (SCR) performance

Practical No. 5: SCR Triggering Circuits Performance

Practical No. 6: Uni-juction Transistor (UJT) Triggering Techniques

Practical No. 7: Class A, B, C commutation Performance

Practical No. 8: Class D, E, F commutation Performance

Practical No. 9: Half wave Controlled Rectifier Performance

Practical No. 10: Performance of Full Wave Controlled Rectifier For R and RL Load

Practical No. 11: DIAC and TRIAC Phase control circuit performance

Practical No. 12: TRIAC Phase controlled circuit computer simulation

Practical No. 13: Switching mode power supply performance

Practical No. 14: Uninterruptable power supply performance

Practical No. 15: Burglar Alarm System Troubleshooting

Practical No. 16: Emergency Lighting System Troubleshooting

Practical No. 17: Thyristor Speed Control System Troubleshooting

Practical No. 18: Temperature Control System Troubleshooting

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Instructions for Students

Note:

1) Show the connections to teacher, before turning the circuit ON.

2) Adjust the knobs of power supply to zero, before turning them ON.

3) Use correct / proper power supply.

4) Use the power scope or isolation transformer to observe the waveform.

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