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inverters
Goodrive35
Model
GD35-022G-6-C1/D1/H1
GD35-030G-6-C1/D1/H1
GD35-037G-6-C1/D1/H1
GD35-045G-6-C1/D1/H1
GD35-055G-6-C1/D1/H1
GD35-075G-6-C1/D1/H1
GD35-090G-6-C1/D1/H1
GD35-110G-6-C1/D1/H1
GD35-132G-6-C1/D1/H1
GD35-160G-6-C1/D1/H1
GD35-185G-6-C1/D1/H1
GD35-200G-6-C1/D1/H1
GD35-220G-6-C1/D1/H1
GD35-250G-6-C1/D1/H1
GD35-280G-6-C1/D1/H1
GD35-315G-6-C1/D1/H1
GD35-350G-6-C1/D1/H1
GD35-400G-6-C1/D1/H1
GD35-500G-6-C1/D1/H1
GD35-560G-6-C1/D1/H1
GD35-630G-6-C1/D1/H1
Note: the specifications can be adjusted according to the actual working, but it can not be
less than the designated values.
D.6 Reactors
Transient high current in the input power circuit may cause damage to the rectifying parts. It
is appropriate to use AC reactor in the input side for the avoidance of high-voltage input of
the power supply and improvement of the power factors.
If the distance between the inverter and the motor is longer than 50m, frequent overcurrent
protection may occur to the inverter because of high leakage current caused by parasitic
capacitance effects from the long cables to the ground. In order to avoid the damage of the
Breaker (A)
Fuse (A)
105
105
114
138
186
270
270
315
420
480
480
630
720
720
870
1110
1110
1230
1500
1000
1740
1200
2010
1380
330
www.barghmaher.ir
The rated working
current of the
contactor(A)
63
63
100
100
125
200
200
200
250
315
315
400
400
400
630
630
630
800
1035
Appendix D
50
50
63
80
95
135
135
170
230
280
280
315
380
380
450
580
580
630
780
900
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