9. SPECIFICATIONS
9-47
Table 9-10 Power Supply Capacity (1/2)
Power supply capacity per unit
Amplifier model No. Motor model No. Main circuit power supply
(KVA)
Control power supply
(VA)
P30B04003P 0.2
P30B04005P 0.3
PY2E015 P30B04010P 0.5
(When 100 VAC) P50B03003P 0.2
P50B04006P 0.3
P50B04010P 0.5
P50B05005P 0.3
P50B05010P 0.5
40
P30B06020P 1.0
PY2E030 P50B05020P 1.0
(When 100 VAC) P50B07020P 1.0
P50B07030P 1.5
40
Table 9-11 Rush Current
Amplifier model
name
Control circuit (maximum value within
1mS after power on) *3
Main circuit (maximum value within
600mS after power on)
PY2A015 40 A (0 - P)
*
1
23 A (0 - P)
*
1
PY2A030 40 A (0 - P)
*
1
23 A (0 - P)
*
1
PY2A050 40 A (0 - P)
*
1
23 A (0 - P)
*
1
PY2E015 20 A (0 - P)
*
2
17.2 A (0 - P)
*
2
PY2E030 20 A (0 - P)
*
2
17.2 A (0 - P)
*
2
1 When using two or more motors, add the power supply capacity per unit of each motor.
2 When accelerating the motor, two-to-fourfold momentary power may be required.
1 The leakage current is maximum when 230 VAC is supplied.
2 The leakage current is the maximum when 115 VAC is supplied.
3 A thermistor is used for the leakage current prevention circuit of the control power
supply.
If the temperature of the thermistor remains high such as when turning the power supply
on immediately after turning it off, or when turning the power supply on and off
repeatedly in a short period, a leakage current higher than that given in the above table
may flow.
To Next Page
Loading...
