1 inverter drive basics, 1 principle of an inverter drive – Yaskawa Varispeed 626M5 User Manual

Appendix

15.1.1 Principle of an Inverter Drive

15 -2

15.1 Inverter Drive Basics

This section explains the basics of an inverter drive.

15.1.1 Principle of an Inverter Drive

An inverter is a frequency conversion device that converts a commercial frequency power supply to a vari-

able frequency power supply. Fig. 15.1 show an operation diagram for a 3-phase voltage Inverter consist-

ing of switches, such as relay contacts. S

1

and S

4

, S

3

and S

6

, and S

5

and S

2

work as pairs to repeatedly turn

ON and OFF each half-cycle. Their ON/OFF timing is staggered by one-third of a cycle, so a square wave

AC voltage can be obtained as the output, as shown in Fig. 15.2. The frequency of the AC output voltage

is proportional to the speed at which the switches are turned ON and OFF; in other words, inversely propor-

tional to the cycle. This is the basic operating principle of an inverter.

S

1

Ed

S

3

S

5

S

4

S

6

S

2

U

V

W

Fig 15.1 Inverter Operating Principle

S

1

, S

4

Ed

S

3

, S

6

S

2

, S

5

Switches

S

1

ON

ON

ON

ON

ON

ON

ON

ON

ON

S

4

S

1

S

6

S

6

S

3

S

5

S

5

S

2

Vu-v0

Output

voltage

Vv-w0

Vw−u0

0 60° 120°180°

360°

Fig 15.2 Switch Operation and Output Voltage

In reality, a motor drive inverter requires a variable voltage and variable frequency (VVVF), so sine wave

pulse width modulation (PWM) control is used, as shown in Fig. 15.3. When the carrier frequency is in-

creased, sine wave current flows through the motor.

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