matrix converter based direct torque control of induction motor
DESCRIPTION
This topic falls under the area of speed control of induction motor. The using of advanced power electronic converters provides better response. In this case, a AC/AC converter is used to control the induction motor.TRANSCRIPT
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
Matrix Converter Based Direct Torque Control Of Induction
Motor
By:Neehar N.L.N
Guide:Mrs.P.Sweety Jose
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
The direct torque control (DTC) scheme for a matrix-converter-fed induction motor drive system is a high performance motor control scheme with fast torque and flux responses. By selecting appropriate switching patterns, the advantages of DTC and benefits of matrix converters can be combined to achieve a satisfactory servo drive.
Matrix Converter based DTC
ABSTRACT
NEEHAR NLN [12MQ36] 16/07/2013 2
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
Over the years, there have been many advancements in the field of induction motor control.
The main disadvantage of scalar control is poor dynamic response or sluggish response which is
due to the inherent coupling effect between Torque and flux components.
This led to development of vector control wherein the torque and flux components are decoupled so that both can be controlled independently.
Matrix Converter based DTC
INTRODUCTION
NEEHAR NLN [12MQ36] 16/07/2013 3
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
Matrix Converter based DTC
Direct Torque Control(DTC):
NEEHAR NLN [12MQ36] 16/07/2013 4
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
Comparison property DTC FOC
Dynamic response to torque Very fast Fast
Coordinates reference frame alpha, beta (stator) d, q (rotor)
Low speed (< 5% of nominal) behaviorRequires speed sensor for continuous braking
Good with position or speed sensor
Controlled variables torque & stator fluxrotor flux, torque current iq & rotor flux current id vector components
Steady-state torque/current/flux ripple & distortion
Low (requires high quality current sensors)
Low
Parameter sensitivity, sensorless Stator resistance d, q inductances, rotor resistance
Parameter sensitivity, closed-loopd, q inductances, flux (near zero speed only)
d, q inductances, rotor resistance
Rotor position measurement Not required Required (either sensor or estimation)
Current control Not required Required
PWM modulator Not required Required
Coordinate transformations Not required Required
Switching frequency Varies widely around average frequency Constant
Switching lossesLower (requires high quality current sensors)
Low
Audible noise spread spectrum sizzling noise constant frequency whistling noise
Control tuning loops speed (PID control)speed (PID control), rotor flux control (PI), id and iq current controls (PI)
Complexity/processing requirements Lower Higher
Typical control cycle time 10-30 microseconds 100-500 microseconds
NEEHAR NLN [12MQ36] 16/07/2013 5 Matrix Converter based DTC
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEDesired features in frequency changers:
Simple and compact power circuit. Sinusoidal input and output currents. Operation with unity power factor for any load.
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEMatrix Converter: It is a forced commutated converter which uses an
array of bidirectional switches as the main power elements to create a variable output voltage system with unrestricted frequency.
It has an array of mxn bidirectional switches connecting m-phase source voltage source to a n-phase load.
Converter of 3x3 switches has the highest practical interest because it connects a three-phase voltage source with three-phase load, typically a motor.
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEECircuit of matrix converter:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEBlock diagram:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEELosses comparison:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEBidirectional switches:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEECommutation circuit:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEMathematical Model:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEState table:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEDirect method:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEIndirect approach:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEERectifier states:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEInverter states:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEMaximum output-input ratio:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEESpace vector modulationOutput voltage vectors:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEESimulink Model:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEESimulation Results:
Output Voltage and Current waveforms
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
MC based DTC:2 HP, 400 V, 50 Hz Squirrel Cage Induction Motor with following parameters:Stator Resistance and Inductance: 5 Ohms and 0.03230 HRotor Resistance and Inductance: 4.861 Ohms and 0.03230 HMutual Inductance : 0.4088 H
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEESwitching table:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEESimulation Results:Load Current:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEESpeed waveform:
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEEReferences: Electric Motor Drives by Vedam Subramaniam. Fundamentals of Electrical Drives by Gopal.K.Dubey. High power converters and AC Drives-BinWu,IEEE Press. Matrix Converters: A technological review-P.W.Wheeler,
J.Rodriguez,J. Clare, L.Empringham and A.Weinstein.IEEE Transactions on Industrial Electronics,Vol. 49, No. 2,April 2002.
Direct Torque Control of Matrix Converter Fed Induction Motor Drive: A Review-R.A.Gupta,Virendra Sangtani, Ajay Kumar Bansal.Proc. Of Intl. Conf. on Advances in Computer,Electronics and Electrical Engineering,2012.
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE Contd.
Alesina A. and Venturini M.G.B.,”Analysis and design of Optimum Amplitude nine-switch direct AC-AC Converters” ,IEEE Transactions on Power Electronics Vol. 4. NO.1.,january 1989,pp101-112.
Modeling,Analysis and simulation of matrix converters,J.Rodriguez,E.Silva,R.Burgos,F.Blaabjerk-Universidad Tecnica Federico Santa Mari,Valparaiso,Chile.
Modelling,Simulation and Analysis of Matrix Converter using Matlab and Simulink-Hulusi Karaca and Ramazan Akkaya-International Journal of Modeling and Optimization,Vol.2,No. 3,June 2012.
PSG COLLEGE OF TECHNOLOGYME – Power Electronics & Drives
Dept. of EEE
Thank You