Moog MSD C2 Operation Manual page 63

G394-020, G394-035 and G394-160
Designation
G394-020
Technical data
Output, motor side
1)
Voltage
Rated current effective (l ) 2.0 A
1) 2)
n
Peak current (2 x I / 3 x I )
N N
Rotating field frequenc
Switching frequency of power
stage
Input, mains side
Mains voltage (3 x 400 V AC / 3 x 460 V AC / 3 x 480 V AC) ±10 %
Device connected load
1.5 kVA 1)
(with mains choke)
Current consumption
2.2 A
1)
(with mains choke)
Asymmetry of mains voltage
Frequency
1) Data referred to output voltage 400 V AC and switching frequency 8 kHz,
2) For rated current refer to table A.3 and A.4 and A.5!
3) On design with integrated braking resistor (G394-xxx-xxx-xx2/xx4). Connection of an external braking resistor is not permitted.
4) Braking resistor always integrated. Connection of an external resistor is permissible.
5) On design C5 with integrated braking resistor (G394-xxx-xxx-xx2/xx4). Connection of an external braking resistor is only permitted if int. braking resistor is
disconnected. Parallel operation of both resistors is not permitted!
Table A.7 Technical data G394-020 to G394-160
moog
ID no.: CA97555-001 Date: 04/2018
G394-035 G394-065 G394-120 G394-160
3 phase U
Mains
3.5 A 6.5 A 13.0 A 16.0 A
1) 2) 1) 2) 1) 2)
see table A.3 and A.4 and A.5
0 ... 400 Hz
4, 8, 16 kHz
2.7 kVA 1) 5.0 kVA 1) 8.1 kVA 1) 10.2 kVA
3.9 A 7.2 A 13.5 A 16.8 A
1) 1) 1)
±3 % maximum
50/60 Hz ±10%
Designation
G394-020
Technical data
Power loss at I
N
DC link
Brake chopper switch-on
threshold
1) 2)
DC link capacitance
Minimum ohmic resistance of
an externally installed braking
resistor
Brake chopper continuous power
with external braking resistor
Peak brake chopper with external
braking resistor
Internal braking resistor 7500 Ω (PTC)
1)
Brake chopper continuous power
with internal braking resistor
1)
Peak brake chopper with internal
200 W
braking resistor
1) Data referred to output voltage 400 V AC and switching frequency 8 kHz,
2) For rated current refer to table A.3 and A.4 and A.5!
3) On design with integrated braking resistor (G394-xxx-xxx-xx2/xx4). Connection of an external braking resistor is not permitted.
4) Braking resistor always integrated. Connection of an external resistor is permissible.
5) On design C5 with integrated braking resistor (G394-xxx-xxx-xx2/xx4). Connection of an external braking resistor is only permitted if int. braking resistor is
disconnected. Parallel operation of both resistors is not permitted!
Table A.7 Technical data G394-020 to G394-160
NOTE:
For more information on the brake chopper switch-on threshold also refer to
chapter "4.15 Brake chopper connection".
MSD Single-Axis Servo Drive Compact Operation Manual
G394-035 G394-065 G394-120
42 W 80 W 150 W 263 W
1) 1) 1)
650 V DC 1)
220 µF 330 µF 440 µF 680 µF
230 Ω 180 Ω 72 Ω 35 Ω
3) 3)
1.8 kW 2.3 kW 5.9 kW 12.0 kW
1.8 kW 2.3 kW 5.9 kW 12.1 kW
4) 420 Ω 3) 90 Ω 3) 90 Ω
Dependent on the effective utilisation of the servo drive in the
0 W
specific application see chapter 4.15.2
1000 W 4700 W 4700 W
1) 1) 1)
G394-160
316 W
1) 1)
1120 µF
25 Ω
3) 3)
16.9 kW
16.9 kW
5) 90 Ω 5)
4700 W
1) 1)
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