7 SPECIFICATIONS
49
Table 18 400 V Class Specifications
Model CIMR-R5Uj 43P7 45P5 47P5 4011 4015 4018 4022 4030 4037 4045 4055 4075
Rated Capacity kW
3.7 5.5 7.5 11 15 18.5 22 30 37 45 55 75
ing
Rated DC Current A
6 9 13 19 26 32 37 51 64 77 96 128
Rati
Rated Current on
Power Side A
5 7.5 10 15 20 25 30 40 50 60 75 100
Regenerative Torque
100 % for 1 minute, 25 % ED, 80 % continuous
er
Voltage Frequency
380 to 460 VAC 50/60 Hz,
ut Pow
pply
Allowable Voltage
Fluctuation
+10 to −15 % (Imbalance rate between phases: within 2 %)
Inp
Su
Allowable Frequency
Fluctuation
¦3 Hz (Free phase rotation)
stics
Control Method
120° current conduction
trol
racteri
Input Power Factor
0.9 or more (Rated current)
Cont
Char
Overload Capacity
Stops in 30 seconds at approx. 150 % of rated current.
Operation Input
External terminals
Fault
1C contact output
Status
Output
Running, READY
Signal
Photocoupler output
Analog Output
Analog output: 1 point can be selected (current monitor)
Instantaneous
Overcurrent
Stops at approx. 200 % of the current on power side
Blown Fuse
Motor stops by blown fuse.
Overload
Stops after 30 seconds at 150 % of rated current
ction
Undervoltage
(DC Voltage)
Stops at approx. 380 VDC or less.
ive Fun
Undervoltage
(Power Side Voltage)
Stops at approx. 300 VAC or less.
tecti
Overload
Stops at approx. 800 VDC or less.
Prot
Fin Overheat
Protected by thermister
Power Supply Open
Phase
Stops at power supply open phase detection.
Power Frequency Error
Stops by fluctuation more than ± 3 Hz of rated input frequency.
Power Charge
Indication
Indicated until main output voltage is approx. 50 V or less.
al
Location
Indoor (Protected from corrosive gases and dust)
onment
itions
Ambient Temperature
−10°C to +40°C (Closed wall-mounted)
−10°C to +45°C (Open chasis type)
nvir
ondi
Humidity
90 % RH or less (non-condensing)
E
Vibration
9.8 m/s
2
(1G) less than 20 Hz, up to 1.96 m/s
2
(0.2G) at 20 to 50 Hz
* Use a power regenerative unit with larger output capacity if the imbalance rate between phases
exceeds 2 %.
Imbalance rate between phases can be calculated using the following formula (Conforming to IEC1800-3).
Imbalance rate between phases [%
]
=
Three-phase average voltage
Max. voltage - Min. voltage
× 67
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