1 single operator (see 2.5 for dual gates), 1 high voltage connections – Controlled Products Systems Group 6300-080 User Manual
Page 28
2.1 High
Voltage
Connections
Use Table 1 to determine high voltage wire size requirements. The distance shown in the chart is
measured in feet from the operator to the power source. If power wiring is greater than the maximum
distance shown, it is recommended that a service feeder be installed. When large gauge wire is
used, a separate junction box must be installed for the operator connection. The wire table is based
on stranded copper wire. Wire run calculations are based on a 110 VAC power source with a 3%
voltage drop on the power line, plus an additional 10% reduction in distance to allow for other losses
in the system.
WIRE SIZE / DISTANCE IN FEET
MODEL VOLTS AMPS
12 AWG
10 AWG
8 AWG
6 AWG
6300 1/2 HP
115
5.4
170
275
460
685
6300 1/2 HP
230
2.7
685
1100
1830
2750
6300 1/2 HP
460
1.35
2875
4600
7665
11500
6300 1 HP
115
7.0
130
210
380
520
6300 1 HP
230
3.5
520
845
1415
2120
6300 1 HP
460
1.8
1110
1775
2955
4435
Reduce wire distance in half for primary/secondary (dual) gate applications.
Table 1
2.1.1 Single Operator (see 2.5 for Dual Gates)
CONDUIT
POWER
SWITCH
HIGH VOLTAGE
TERMINAL STRIP
115
VA
C H
O
T
1
1
5
V
A
C
NE
UTRA
L
GR
OU
N
D
2
30-
46
0 VA
C
2
30-
46
0 VA
C
1
1
5
V
A
C
NE
UTRA
L
1
1
5
V
A
C
NE
UTRA
L
115
VA
C H
O
T
GR
OU
N
D
115 VAC Models
230-460 VC Models
• Route incoming high voltage
power through conduit and
into the operator as shown in
Figure 19.
• Be sure wiring is installed in
accordance with local codes.
Be sure to color code all
wiring.
• Connect power wires as
shown.
• It is recommended that a
surge suppresser be installed
on the high voltage power
lines to help protect the
operator and circuit board
from surges and power
fluctuations.
Figure 19
• Note: For 230 and 460 Volt 3-phase input, use only two legs of the incoming 3-phase power.
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28
6300-065-E-4-08