MG University S7 Electrical and Electronics (EEE) B.Tech Syllabus
Module 1
DC motors: Methods of Speed control – single phase rectifiers with motor load- single phase fully controlled bridge rectifier drives – half controlled bridge rectifier drives – freewheeling with regeneration – speed torque characteristics – power in load and source circuits
DC motors: Methods of Speed control – single phase rectifiers with motor load- single phase fully controlled bridge rectifier drives – half controlled bridge rectifier drives – freewheeling with regeneration – speed torque characteristics – power in load and source circuits
Module 2
3 Phase fully controlled bridge rectifier drives – free wheeling, freewheeling with regeneration – Dual converter fed DC motor drives – chopper fed drives – single, two and four quadrant chopper drives
3 Phase fully controlled bridge rectifier drives – free wheeling, freewheeling with regeneration – Dual converter fed DC motor drives – chopper fed drives – single, two and four quadrant chopper drives
Module 3
(Qualitative treatment only)
Speed control of 3 Phase induction motors – stator voltage control – principle – controller configurations – operation and applications
Slip power recovery scheme – principle – static Kramer’s drive – static Scherbius’ drive – applications
V/f control – constant torque and constant power control
(Qualitative treatment only)
Speed control of 3 Phase induction motors – stator voltage control – principle – controller configurations – operation and applications
Slip power recovery scheme – principle – static Kramer’s drive – static Scherbius’ drive – applications
V/f control – constant torque and constant power control
Module 4
(Qualitative treatment only)
Voltage Source Inverter – Application to induction motor drives – v/f, e/f, flux weakening schemes of control – applications
PWM inverter drive
Current Source Inverter – application to induction motor drives – operation under fixed frequency – operation under variable frequency – applications
(Qualitative treatment only)
Voltage Source Inverter – Application to induction motor drives – v/f, e/f, flux weakening schemes of control – applications
PWM inverter drive
Current Source Inverter – application to induction motor drives – operation under fixed frequency – operation under variable frequency – applications
Module 5
(Qualitative treatment only)
Speed control of synchronous motors – adjustable frequency operation of synchronous motors – principles of synchronous motor control – Voltage Source Inverter Drive with open loop control – self controlled synchronous motor with electronic commutation – self controlled synchronous motor drive using load commutated thyristor inverter.
Principle of Vector control
(Qualitative treatment only)
Speed control of synchronous motors – adjustable frequency operation of synchronous motors – principles of synchronous motor control – Voltage Source Inverter Drive with open loop control – self controlled synchronous motor with electronic commutation – self controlled synchronous motor drive using load commutated thyristor inverter.
Principle of Vector control
References
1. Power Electronic Control of AC motors – J.M.D Murphy and F.G Turnbill, Pergumon Press 1988
2. Power Semiconductor controlled Drives – G.K Dubey, Prentice hall, 1989
3. Modern Power Electronics and AC Drives – Bose B.K, Pearson Education Asia -2002
4. Electric Drives – N.K De and P.K Sen, PHI New Delhi 2001
5. Power Electronics – M.D Singh and K.B Khanchandani, TMH, 1998
6. Mohammad A and E.L Sharkaw – Fundamentals of Electric Drives – Thomson Learning
7. Power Semiconductor Drives – Vedam Subramaniam, TMH
1. Power Electronic Control of AC motors – J.M.D Murphy and F.G Turnbill, Pergumon Press 1988
2. Power Semiconductor controlled Drives – G.K Dubey, Prentice hall, 1989
3. Modern Power Electronics and AC Drives – Bose B.K, Pearson Education Asia -2002
4. Electric Drives – N.K De and P.K Sen, PHI New Delhi 2001
5. Power Electronics – M.D Singh and K.B Khanchandani, TMH, 1998
6. Mohammad A and E.L Sharkaw – Fundamentals of Electric Drives – Thomson Learning
7. Power Semiconductor Drives – Vedam Subramaniam, TMH