Control overview, Direct vector control – Rockwell Automation 7000A PowerFlex Medium Voltage AC Drive - Air-Cooled (A Frame) User Manual

Overview of Drive 1-11

7000 “A” Frame

7000A-RM001A-EN-P – January 2011

Control Overview

Line

Converter
Feedback

Line

Converter

Protection

(HW)

Line gating

and

diagnostic

feedback

Line

Converter
Protection

Line

Side

Control

Machine

Side

Control

Line Converter

Faults

Line

Synch

Current
Control

Li

ne conv

erte

r f

iri

ng an

gl

e

Idc ref.

Ref.

Current and

phase shift

calculator

Flux

Control

Mag.Current

command

Torque current command

Speed

Control

Torque

Speed Feedback

Machine

Converter

Protection

(SW)

Motor

Model

Synch.

Transfer

Skip Speed

and Speed

Ramp

Speed

Command

Speed Ref.

Tac

h. Feedback

Motor

Machine

Converter

Protection

(HW)

Machine

Converter
Feedback

Machine

gating and

diagnostic

feedback

Faults

Motor fil. Cap.

Machine Converter

DC Link
Inductor

M

achi

ne conv

er

te

r

fi

ring angle

S

ync

. angl

e

Faults

Flux

Figure 1.5– PowerFlex 7000 Function Block Diagram

Direct Vector Control

The method of control in the PowerFlex 7000 medium voltage AC
drive is called sensorless direct vector control, meaning that the
stator current is divided into torque producing and flux producing
components, allowing the motor torque to be changed quickly
without affecting motor flux. This method of control is used without
tachometer feedback for applications requiring continuous operation
above 6 Hertz and less than 100% starting torque.

Full vector control can also be achieved with tachometer feedback
for applications requiring continuous operation down to 0.2 Hertz
with up to 150% starting torque. Vector control offers superior
performance over volts/hertz type drives. The speed bandwidth
range is 5-25 radians per second, while the torque bandwidth range is
15-50 radians per second.