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General inverter electrical measurements, Troub leshooting and maintenance – Hitachi SJ200 Series User Manual

Page 202

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Maintenance and Inspection

T

roub

leshooting

and Maintenance

6–12

General Inverter Electrical Measurements

The following table specifies how to measure key system electrical parameters. The
diagrams on the next page show inverter-motor systems and the location of measurement
points for these parameters.

Note 1:

Use a meter indicating a fundamental wave effective value for voltage, and
meters indicating total effective values for current and power.

Note 2:

The inverter output has a distorted waveform, and low frequencies may cause
erroneous readings. However, the measuring instruments and methods listed
above provide comparably accurate results.

Note 3:

A general-purpose digital volt meter (DVM) is not usually suitable to measure
a distorted waveform (not pure sinusoid).

Parameter

Circuit location

of measurement

Measuring

instrument

Notes

Reference Value

Supply voltage

E

1

E

R

– across L1 and L2

E

S

– across L2 and L3

E

T

– across L3 and L1

Moving-coil
type voltmeter or
rectifier type
voltmeter

Fundamental
wave effective
value

Commercial
supply voltage
(200V class) 200–
240V, 50/60 Hz
400V class 380–
460V, 50/60 Hz

Supply current

I

1

I

r

– L1, I

s

– L2, I

t

– L3

Total effective
value

Supply power

W

1

W

11

– across L1 and L2

W

12

– across L2 and L3

Total effective
value

Supply power

factor Pf

1

Output voltage

E

0

E

U

– across U and V

E

V

– across V and W

E

W

– across W and U

Rectifier type
voltmeter

Total effective
value

Output current

I

o

I

U

– U

I

V

– V

I

W

– W

Moving-coil
ammeter

Total effective
value

Output power

W

o

W

01

– across U and V

W

02

– across V and W

Electronic type
wattmeter

Total effective
value

Output power

factor Pf

o

Calculate the output power factor from the output voltage E,
output current I, and output power W.

Pf

1

W

1

3 E

1

×

I

1

Ч

------------------------------

100%

Ч

=

Pf

0

W

0

3 E

0

×

I

0

Ч

------------------------------

100%

Ч

=