Exam Details
| Subject | electric drives and control | |
| Paper | ||
| Exam / Course | b.e(electrical and electronics engineering) | |
| Department | ||
| Organization | SETHU INSTITUTE OF TECHNOLOGY | |
| Position | ||
| Exam Date | May, 2017 | |
| City, State | tamil nadu, pulloor |
Question Paper
Reg. No.
B.E. B.Tech. DEGREE EXAMINATION, may 2017
Sixth Semester
Electrical and Electronics Engineering
01UEE601 ELECTRIC DRIVES AND CONTROL
(Regulation 2013)
Duration: Three hours Maximum: 100 Marks
Answer ALL Questions
PART A (10 x 2 20 Marks)
1. Define dynamic torque.
2. Drive the equations governing motor load dynamics.
3. Explain continuous and discontinuous operations.
4. What is time ratio control?
5. List out the different methods of speed control of 3 phase induction motors.
6. What is the significance of field weakening mode control in induction motor drive system?
7. What is meant by power factor control?
8. Explain power factor control of synchronous motor with relevant vector diagram.
9. What is field weakening mode control in dc drives?
10. Compare VSI fed drives with CSI fed drives.
PART B x 16 80 Marks)
11. Explain in detail the multi quadrant dynamics in speed-torque plane.
Or
Question Paper Code: 31361
2
31361
Derive the mathematical condition to obtain steady state stability of equilibrium point.
12. Explain in detail the single phase fully controlled rectifier control of dc separately excited motor with neat diagrams. Or Explain the operation of four quadrant chopper control in dc drives.
13. Explain Variable frequency operation of induction motor in closed loop with constant air-gap flux. Or Explain about F control in Induction motor.
14. Explain the closed loop operation of permanent magnet synchronous motor drive in detail. Or Explain self-control of synchronous motor drive operated with constant margin angle control.
15. Derive the transfer function of DC motor-load system. Or
Explain closed loop operation of armature voltage control method with field weakening mode control in detail.
B.E. B.Tech. DEGREE EXAMINATION, may 2017
Sixth Semester
Electrical and Electronics Engineering
01UEE601 ELECTRIC DRIVES AND CONTROL
(Regulation 2013)
Duration: Three hours Maximum: 100 Marks
Answer ALL Questions
PART A (10 x 2 20 Marks)
1. Define dynamic torque.
2. Drive the equations governing motor load dynamics.
3. Explain continuous and discontinuous operations.
4. What is time ratio control?
5. List out the different methods of speed control of 3 phase induction motors.
6. What is the significance of field weakening mode control in induction motor drive system?
7. What is meant by power factor control?
8. Explain power factor control of synchronous motor with relevant vector diagram.
9. What is field weakening mode control in dc drives?
10. Compare VSI fed drives with CSI fed drives.
PART B x 16 80 Marks)
11. Explain in detail the multi quadrant dynamics in speed-torque plane.
Or
Question Paper Code: 31361
2
31361
Derive the mathematical condition to obtain steady state stability of equilibrium point.
12. Explain in detail the single phase fully controlled rectifier control of dc separately excited motor with neat diagrams. Or Explain the operation of four quadrant chopper control in dc drives.
13. Explain Variable frequency operation of induction motor in closed loop with constant air-gap flux. Or Explain about F control in Induction motor.
14. Explain the closed loop operation of permanent magnet synchronous motor drive in detail. Or Explain self-control of synchronous motor drive operated with constant margin angle control.
15. Derive the transfer function of DC motor-load system. Or
Explain closed loop operation of armature voltage control method with field weakening mode control in detail.
Other Question Papers
Subjects
- ac machines
- analog integrated circuits
- applied digital signal processing
- communication engineering
- conservation
- control systems
- data structures and algorithms
- dc machines and transformers
- digital logic circuits
- electric drives and control
- electric power utilization and energy
- electrical machine design
- electrical measurements and instrumentation
- environmental science and engineering
- field theory
- flexible ac transmission system
- fuzzy logic and neural networks
- high voltage engineering
- hvdc transmission
- microprocessors and microcontroller programming
- non-conventional energy resources
- numerical methods
- power electronics
- power plant engineering
- power system analysis
- power system operation and control
- programmable logic controller and scada
- project management and finance
- protection and switch gear
- qualitative and quantitative aptitude
- semiconductor devices and circuits
- special electrical machines
- transforms and partial differential equations
- transmission and distribution
- value education and human rights