What Is Vector Control - Mitsubishi Electric FR-V500 Instruction Manual

High precision & fast response vector inverter

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Instruction manual (112 pages)

Instruction manual (119 pages)

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What is vector control?

2.1 What is vector control?

Vector control is one of the control techniques for driving an induction motor. To help explain vector control, the

fundamental equivalent circuit of an induction motor is shown below:

In the above diagram, currents flowing in the induction motor can be classified into a current id (excitation current)

for making a magnetic flux in the motor and a current iq (torque current) for causing the motor to develop a torque.

Motor-generated torque (TM), slip angular velocity (ωs) and the motor's secondary magnetic flux (φ2) can be found

by the following calculation:

∝ φ

⋅ iq

= M ⋅ id

ωs =

where, L2 = secondary inductance

L2 =

+ M

motor current im

excitation current

r1 : Primary resistance

r2 : Secondary resistance

: Primary leakage inductance

: Secondary leakage inductance

M : Mutual inductance

S : Slip

id : Excitation current

iq : Torque current

im : Motor current

In vector control, the voltage and output frequency are

calculated to control the motor so that the excitation

current and torque current (as shown in the left figure)

flow to the optimum as described below:

(1) The excitation current is controlled to place the

internal magnetic flux of the motor in the optimum

status.

(2) Derive the torque command value so that the

difference between the motor speed command and

the actual speed obtained from the encoder

connected to the motor shaft is zero. Torque current

is controlled so that torque as set in the torque

command is developed.

Vector control provides the following advantages:

(1) Excellent control characteristics when compared to

V/F control and other control techniques, achieving

the control characteristics equal to those of DC

machines.

(2) Applicable to fast response applications with which

induction motors were previously regarded as

difficult to use. Applications requiring a wide

variable-speed range from extremely low speed to

high

speed,

frequent

operations, continuous four-quadrant operations etc.

(3) Allows torque control.

(4) Allows servo-lock torque control which generates a

torque at zero speed (i.e. status of motor shaft =

stopped).

acceleration/deceleration

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What Is Vector Control - Mitsubishi Electric FR-V500 Instruction Manual

What is vector control?

2.1 What is vector control?

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