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variable frequency drive
- 1. SPEED CONTROL OF AC MOTORS BY FREQUENCY CONTROL METHOD USING VARIABLE FREQUENCY DRIVE SPEED CONTROL OF AC MOTORS USING VARIABLE FREQUENCY DRIVE Government polytechnic, Nagpur Presented by, RUSHIKESH ARUN PORATE ELECTRICAL ENGG. (3RD YEAR) GUIDE BY :-H.N.KHARKAR SIR
- 2. CONTENTS INTRODUCTION FREQUENCY CONTROL WHAT IS VFD ? MAIN COMPONENTS OF VFD SCHEMATIC DIAGRAM OF VFD PURPOSE VFD HOW ENERGY IS SAVE USING VFD ADVANTAGES DRAWBACKS APPLICATIONS
- 3. INTRODUCTION • A Variable Frequency Drive (VFD) controls the speed of a motor, specifically a three phase motor. To better understand a VFD, let's examine the motors they control. • Most commercial HVAC systems require powerful motors, and often operate on a three phase power (The standard method for electric power distribution systems because of its efficiency). • A three phase motor is cheaper to operate than single phase motors because it uses less current (less current often results in reduced wire size and cost), especially where large motor requirements are necessary. • A VFD eliminates high in-rush current - When a standard motor is turned on, it draws a very high amount of current for a very short duration of time. • A Variable Frequency Drive is designed to slowly start, therefore preventing inrush current; reducing the stress on the components of the motor; thus extending the motor life. • A VFD controls the speed of a three phase AC motor, while resulting in energy savings! It saves energy because the motor does not require as much current at lower speeds. The solution is a Variable Frequency Drive (VFD).
- 4. HOW SPEED OF INDUCTION MOTOR IS CONTROL BY FREQUENCY CONTROL METHOD ???? SYNCHRONOUS SPEED , NS = 120F/P rpm Therefore synchronous speed of motor & in turns operating speed of motor depends upon frequency but since E1 = 4.44FmNPhkpkd E1 V1 V1 = 4.44FmNPhkpkd m = 𝑉1 𝐹 1 4.44NPhkpkd = 𝑽 𝑭 …………….(1)
- 5. As seen in equation (1), The speed control is achieved by changing frequency the supply voltage should also simultaneous changed. This is because if the supply frequency is reduced keeping the applied voltage constant the flux is increase. If flux increase core loss will increase and reduced the efficiency. Hence need to vary voltage to keep flux constant. If frequency is increase , flux will decrease and therefore reduce the developed torque. Therefore it is important that frequency changing device should change frequency and voltage simultaneously as a direct ratio. Thus for speed control of induction motor by changing frequency method we require not only variable frequency source but also variable voltage source .
- 6. What is a VFD? A Variable Frequency Drive (VFD) is used to control the speed of the induction motor, through changing the input frequency and voltage. It varies both the frequency and amps of the AC waveform being delivered to the motor saving money in electricity.
- 7. Main Components of VFD ➢ Rectifier ➢ DC Bus ➢ Inverter
- 8. VFD Basics Block diagram of VFD
- 9. HOW SPEED IS CONTROLLED USING VFD? RECTIFIER ➢ The rectifier in a VFD is used to convert incoming A.C power into D.C. ➢ A one rectifier diode will allow power to pass through only when the voltage is positive. ➢ A second rectifier diode will allow power to pass through only when the voltage is negative
- 10. DC BUS The DC bus contains capacitors and inductors, it accepts power from the rectifier and absorbs the ac ripple and delivers a smooth DC voltage.
- 11. Inverter The inverter contains IGBT that invert DC power into AC and deliver it to the motor. The IGBT can switch on and off several thousand times per second and precisely control the power delivered to the motor. The IGBT uses “pulse width modulation” technique (PWM) to simulate a voltage sine wave at the desired frequency to the motor.
- 13. SCHEMATIC DIAGRAM OF VFD
- 14. PURPOSE OF VARIABLE FREQUENCY DRIVES To eliminate disadvantage of convention speed control method which is as following 1. Stator pole changing - Can vary speed in only steps such as 3000, 1500,1000 rpm etc. 2. Voltage control method -Additional autotransformer which increases size and power losses. -Less starting torque due to less applied voltage. 3. Rotor resistance method -power loss. -use For slip ring induction motor only
- 15. How Energy is Saved Using VFD ➢ VFD consuming only the power that’s needed. ➢ As a result, a large amount of energy is saved. ➢ Energy savings vary from 25 to 30 percent. ➢ Resulting in a return on investment of six months to two years. VFD
- 16. ADVANTAGES 1.Provides the most efficient means of motor speed control. 2.Reduces the thermal and mechanical stresses on the motor. 3.Improved efficiency of motor. 4.Smooth starting. 5.Increase power factor. 6.Step less speed variation below and above rated speed. 7.Energy saving. 8.Starting current is reduced. This reduces chances of insulation or winding damage. 9.Extended machine life and less maintenance.
- 17. DRAWBACKS ➢ Initial cost of installing VFDs can be expensive ➢ VFDs can produce harmonic distortion ➢ Special shielded cable is used ➢ Separate arrangement is required for VFD
- 18. APPLICATION OF VFD 1. They are mostly used in industries for large induction motor whose power rating from few kW to few MW. 2. They are also used in modern lifts, pumping system. 3. Nowadays they are being also used in energy efficient refrigerators, AC’s . 4. Variable frequency drive is used in traction system. In India it is being used by Delhi Metro Rail Corporation.
- 19. CONCLUSION VFDs provide the most energy efficient means of capacity control. VFDs have the lowest starting current of any starter type. VFDs reduce thermal and mechanical stresses on motors and belts. VFD installation is as simple as connecting the power supply to the VFD. VFDs provide high power factor. VFDs provide lower KVA.
- 20. THANK YOU