MITSUBISHI ELECTRIC INVERTER FR-F700 User Manual

Features

Standard

Specifications

Outline

Dimension

Drawings

Operation

Panel

Protective

Functions

Options

Instructions

Motor

Compatibility

W

arranty

Inquiry

Peripheral Devices

Why energy

savings?

Te

rminal Connection

Diagram

Te

rminal Specification

Explanation

Parameter

List

Explanations

of

Parameters

58

Selection of rated sensitivity current of

earth (ground) leakage breaker

When using the earth leakage circuit breaker with the inverter
circuit, select its rated sensitivity current as follows,
independently of the PWM carrier frequency:

example

(Note)1. Install the earth leakage breaker (ELB) on the input side

of the inverter.

2. In the connection earthed-neutral system, the

sensitivity current is purified against an earth (ground)
fault in the inverter output side. Earthing (Grounding)
must conform to the requirements of national and local
safety regulations and electrical codes. (JIS, NEC
section 250, IEC 536 class 1 and other applicable
standards)

Selection example (in the case of the left figure)

Inverter leakage current (with and without EMC filter)

Input power conditions
(200V class : 220V/60Hz, 400V class : 440V/60Hz,
power supply unbalance within 3%)

* For the 200V class 0.75K and 1.5K, the EMC filter is always valid.

The leakage current is 1mA.

⋅ Breaker designed for harmonic and surge suppression

Rated sensitivity currentI

∆n ≥ 10 × (Ig1 + Ign + Igi + Ig2 + Igm)

⋅ Standard breaker

Rated sensitivity currentI

∆n ≥ 10 × {Ig1 + Ign + Igi + 3 × (Ig2 + Igm)}

Ig1, Ig2 : Leakage currents in wire path during commercial power supply

operation

Ign

: Leakage current of inverter input side noise filter

Igm

: Leakage current of motor during commercial power supply operation

Igi

: Inverter unit leakage current

Motor capacity (kW)

For " " connection, the amount of leakage current is 1/3

(Three-phase three-wire delta
connection 400V60Hz)

Example of leakage current
per 1km during the commercial
power supply operation when
the CV cable is routed in
metal conduit

Leakage current example of
Three-phase induction motor
during the commercial
power supply operation

(Totally-enclosed fan-cooled
type motor 400V60Hz)

0

2 0

4 0

6 0

8 0

100

120

leakage currents (mA)

leakage currents (mA)

2 3.5

5.5

8 1422

30

38

60

80

100

150

Power supply size (mm

2

)

0. 1

0. 2

0. 3

0. 5

0. 7

1. 0

2. 0

1. 5 3. 7

2. 2

7. 5 1522

11

37

30

55

45

5.5

18. 5

Noise

filter

Inverter

ELB

Ig1

Ign

Igi

Ig2

Igm

5.5mm

2

×

5m

5.5mm

2

×

60m

IM

3

φ

400V

2.2kW

Voltage

(V)

EMC Filter

ON (mA)

OFF (mA)

200

22(1) *

1

400

30

1

400

1

1

Breaker Designed for

Harmonic and Surge

Suppression

Standard Breaker

Leakage current
Ig1 (mA)

1

Ч 66 Ч

5m

= 0.11

3

1000m

Leakage current
Ign (mA)

0 (without noise filter)

Leakage current Igi
(mA)

1 (Without EMC filter)

Refer to the following table for the leakage current of the

inverter

Leakage current
Ig2(mA)

1

Ч 66 Ч

60m

= 1.32

3

1000m

Motor leakage
current Igm (mA)

0.36

Total leakage
current (mA)

2.79

6.15

Rated sensitivity
current (mA)(

≥ Ig ×

10)

30

100

Phase
grounding

Earthed-neutral
system