Measurement Of Currents; Use Of Ct And Transducer; Measurement Of Drive Unit Input Power Factor; Measurement Of Converter Output Voltage (Across Terminals P/+ And N/-) - Mitsubishi Electric FR-E700EX Instruction Manual

Measurement of main circuit voltages, currents and powers
6.2.3

Measurement of currents

Use moving-iron type meters on the input side of the drive unit, use approximate effective-value rectifier type AC ammeter on
the output side.
Since current on the drive unit input side tends to be unbalanced, measurement of three phases is recommended. Correct
value can not be obtained by measuring only one or two phases. On the other hand, the unbalanced ratio of each phase of
the output side current should be within 10%.
When a clamp ammeter is used, always use an effective value detection type. A mean value detection type produces a large
error and may indicate an extremely smaller value than the actual value. The value monitored on the operation panel is
accurate if the output frequency varies, and it is recommended to monitor values (provide analog output) using the operation
panel.
Examples of process value differences produced by different measuring meters are shown below.
[Measurement conditions]
Value indicated by moving-iron type ammeter is 100%.
%
Clip AC power meter
120
Moving-iron
type
100
80
60
Clamp meter
0 20
Example of measuring input current
6.2.4

Use of CT and transducer

A CT may be used in both the input and output sides of the drive unit, but the one used should have the largest possible VA
ability because an error will increase if the frequency gets lower.
When using a transducer, use the effective value calculation type which is immune to harmonics.
6.2.5

Measurement of drive unit input power factor

Calculate using effective power and apparent power. A power-factor meter can not indicate an exact value.
Total power factor of the drive unit
6.2.6

Measurement of converter output voltage (across terminals P/+ and N/-)

The output voltage of the converter is developed across terminals P/+ and N/- and can be measured with a moving-coil type
meter (tester). Although the voltage varies according to the power supply voltage, approximately 270VDC to 300VDC is
output when no load is connected and voltage decreases during driving load operation.
When energy is regenerated from the motor during deceleration, for example, the converter output voltage rises to nearly
400VDC to 450VDC maximum.
298
Clamp-on
wattmeter current measurement
40 60Hz
Effective power
=
Apparent power
=
 V (power supply voltage)  I (input current effective value)
√
3
[Measurement conditions]
The value indicated by an approximate effective-value
rectifier type AC ammeter is 100%.
%
Approximate
120
effective-value
rectifier type
100
80
Clamp-on
wattmeter current
60
measurement
0
Example of measuring output current
3-phase input power found by 3-wattmeter method
Clip AC power meter
Clamp meter
20 40 60Hz