Inverter output voltage measurement techniques – Hitachi L300P User Manual

Maintenance and Inspection

T

roub

leshooting

and Maintenance

6–16

The figure below shows measurement locations for voltage, current, and power measurements
listed in the table on the previous page. The voltage to be measured is the fundamental wave
effective voltage. The power to be measured is the total effective power.

Inverter Output
Voltage Measure-
ment Techniques

Taking voltage measurements around drives equipment requires the right equipment and a safe
approach. You are working with high voltages and high-frequency switching waveforms that
are not pure sinusoids. Digital voltmeters will not usually produce reliable readings for these
waveforms. And, it is usually risky to connect high voltage signals to oscilloscopes. The
inverter output semiconductors have some leakage, and no-load measurements produce
misleading results. So, we highly recommend using the following circuits to measure voltage
for performing the equipment inspections.

HIGH VOLTAGE: Be careful not to touch wiring or connector terminals when working with
the inverters and taking measurements. Be sure to place the measurement circuitry above in an
insulated housing before using them.

E

1

I

1

I

1

I

1

I

1

E

U-V

E

U-V

E

U-V

W

01

W

02

INVERTER

MOTOR

R

T

U

V

W

L1

L3

W

01

W

02

E

1

E

1

I

2

I

3

L2

S

Three-phase measurement diagram

T1

T2

T3

V class

Diode bridge

Voltmeter

200V class

600V 0.01A min.

300V range

400V class

1000V 0.1 A min.

600V range

220 k

Ω

2W

+

–

220 k

Ω

2W

+

–

Voltage measurement with load

Inverter

U/T1

V/T2

W/T3

Voltage measurement without load

Inverter

U/T1

V/T2

W/T3

V class

Diode bridge

Voltmeter

200V class

600V 0.01A min.

300V range

400V class

1000V 0.1 A min. 600V range

R/L1

S/L2

T/L3

R/L1

S/L2

T/L3

5k

Ω

30W