Introduction To Variable-Frequency Drives; The Purpose Of Motor Speed Control For Industry; What Is An Inverter; Torque And Constant Volts/Hertz Operation - Omron 3G3MX2 User Manual
Mx2 series 200 v class three-phase input 0.1 to 15 kw 200 v class single-phase input 0.1 to 2.2 kw 400 v class three-phase input 0.4 to 15 kw
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Introduction to Variable-Frequency Drives
1-3
Introduction to Variable-Frequency Drives
1-3-1
The Purpose of Motor Speed Control for Industry
1-3-2
What is an Inverter
1-3-3
Torque and Constant Volts/Hertz Operation
14
Omron inverters provide speed control for 3-phase AC induction motors. You
connect AC power to the inverter, and connect the inverter to the motor. Many
applications benefit from a motor with variable speed, in several ways:
• Energy savings - HVAC
• Need to coordinate speed with an adjacent process - textile and printing
presses
• Need to control acceleration and deceleration (torque)
• Sensitive loads - elevators, food processing, pharmaceuticals
The term inverter and variable-frequency drive are related and somewhat
interchangeable. An electronic motor drive for an AC motor can control the
motor's speed by varying the frequency of the power sent to the motor.
An inverter, in general, is a device that converts DC power to AC power. The
figure below shows how the variable-frequency drive employs an internal
inverter. The drive first converts incoming AC power to DC through a rectifier
bridge, creating an internal DC bus voltage. Then the inverter circuit converts
the DC back to AC again to power the motor. The special inverter can vary its
output frequency and voltage according to the desired motor speed.
Power
Variable-frequency Drive
Input
Converter
Internal
DC Bus
L1
Rectifier
L2
L3
The simplified drawing of the inverter shows three double-throw switches. In
Omron inverters, the switches are actually IGBTs (insulated gate bipolar tran-
sistors). Using a commutation algorithm, the microprocessor in the drive
switches the IGBTs on and off at a very high speed to create the desired out-
put waveforms. The inductance of the motor windings helps smooth out the
pulses.
In the past, AC variable speed drives used
an open loop (scalar) technique to control
speed. The constant-volts-hertz operation
maintains a constant ratio between the
applied voltage and the applied frequency.
With these conditions, AC induction motors
inherently delivered constant torque across
the operating speed range. For some appli-
cations, this scalar technique was ade-
quate.
Inverter
U/T1
V/T2
W/T3
Output
voltage
V
Constant torque
0
Output frequency
Section 1-3
Motor
f
100%
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