Toshiba VF-FS1 User Manual

E6581381

A-22

1

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Calorific values of the inverter and the required ventilation

About 5% of the rated power of the inverter will be lost as a result of conversion from AC to DC or from DC to
AC. In order to suppress the rise in temperature inside the cabinet when this loss becomes heat loss, the
interior of the cabinet must be ventilated and cooled.

The amount of forcible air-cooling ventilation required and the necessary heat discharge surface quantity
when operating in a sealed cabinet according to motor capacity are as follows.

Note1: The heat loss for the optional external devices (input reactor, radio noise reduction filters, etc.) is not

included in the calorific values in the table

Note2: Case of 100% Load Continuation operation.

Calorific Values (w)

Voltage class

Operating motor

capacity

(kW)

Carrier frequency

8kHz

Carrier frequency

12kHz

Amount of forcible air

cooling ventilation required

(m

3

/min)

Heat discharge surface

area required for sealed

storage cabinet(m

2

)

0.4

-

44

0.25

0.88

0.75

-

63

0.36

1.26

1.5

-

101

0.58

2.02

2.2

-

120

0.68

2.4

4.0

-

193

1.1

3.86

5.5

-

249

1.42

4.98

7.5

-

346

1.97

6.92

11

-

459

2.62

9.18

15

-

629

3.59

12.58

18.5

698

-

3.98

13.96

22

763

-

4.35

15.26

Three-Phase

200V class

30

1085

-

6.18

21.7

0.4

-

45

0.26

0.9

0.75

-

55

0.31

1.1

1.5

-

78

0.44

1.56

2.2

-

103

0.59

2.06

4.0

-

176

1.0

3.52

5.5

-

215

1.23

4.3

7.5

-

291

1.66

5.82

11

-

430

2.45

8.6

15

-

625

3.56

12.5

18.5

603

-

3.44

12.06

22

626

-

3.57

12.52

Three-Phase

400V class

30

847

-

4.83

16.94

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Panel designing taking into consideration the effects of noise

The inverter generates high frequency noise. When designing the control panel setup, consideration must be
given to that noise. Examples of measures are given below.
• Wire so that the main circuit wires and the control circuit wires are separated. Do not place them in the

same conduit, do not run them parallel, and do not bundle them.

• Provide shielding and twisted wire for control circuit wiring.
• Separate the input (power) and output (motor) wires of the main circuit. Do not place them in the same

conduit, do not run them parallel, and do not bundle them.

• Ground the inverter ground terminals ( ).