Q-222-031
12
8. Input and output relationship
LAG/LEAD polarity
Second quadrant
[V][mA]
0 0
OUTPUT
5 1
-5 -1
1 0 1 0 1[kvar]
2 0 2 0 2[kvar]
Power transmission Power receiving
LEAD LAG LEAD LAG INPUT
[V][mA]
3 12
OUTPUT
5 20
1 4
1 0 1 0 1[kvar]
2 0 2 0 2[kvar]
Power transmission Power receiving
LEAD LAG LEAD LAG INPUT
[V][mA]
2.5 0.5
OUTPUT
5 1
0 0
1 0 1 0 1[kvar]
2 0 2 0 2[kvar]
Power transmission Power receiving
LEAD LAG LEAD LAG INPUT
Fourth quadrant
[V] [mA]
0 0
OUTPUT
5 1
-5 -1
2.5 0.5
-2.5 -0.5
1 0 1 0 1[kvar]
2 0 2 0 2[kvar]
Power transmission Power receiving
LEAD LAG LEAD LAG INPUT
[V][mA]
3 12
OUTPUT
5 20
1 4
4 16
2 8
1 0 1 0 1[kvar]
2 0 2 0 2[kvar]
Power transmission Power receiving
LEAD LAG LEAD LAG INPUT
[V] [mA]
2.5 0.5
OUTPUT
5 1
0 0
3.75 0.75
1.25 0.25
1 0 1 0 1[kvar]
2 0 2 0 2[kvar]
Power transmission Power receiving
LEAD LAG
LEAD LAG INPUT
9. Calibration
Because this product is adjusted, there is not need of calibration especially.
However, if discrepancy arises in an output in long-term use, please adjust in the next way.
Remove the terminal cover and VR cap before adjustment, and attach the VR cap and terminal cover after adjustment.
(1) For the output load, connect an actual load (within the output load range indicated on the name plate)
or a simulated load with the same resistance value as the actual load.
(2) Apply the auxiliary power supply (rated) and the input equivalent to 50% of the rated output value, and
energize for 15 minutes.
(3) Enter the lower limit of the rated output range and adjust with BIAS adjustment VR so that the output becomes
the lower limit.
Next, enter the upper limit of the rated output range and adjust the MAX adjustment VR so that the output
reaches the upper limit.
(The screwdriver for adjustment:Tip width of 1.8 to 2.3mm, Phillips-head screwdriver or flat-blade
screwdriver)
0°
90°
180°
270°
LAG
LEAD
LAG
LEAD
Power receiving (Power purchase)
Power transmission (Power selling)
Polarity seen from the power transmission side during
power transmission (P<0) (V reference, 180
°
inversion)
Reference V
(For power receiving)
Current of
lagging
Current of
leading
Current of
leading phase
Current of
lagging phase
Reference V
(For power transmission)
