6
15 AWG
20 AWG
15 AWG
15 AWG
20 AWG
20 AWG
15 AWG
20 AWG
FAAC 400 Hydraulic Swing Gate Operator
3
11/32”
3
11/32”
4
3/4”
MODEL
CBC CBAC SB SBS CBACR
CBAC
EG
SB EG
Max Traction / Thrust
Force: (daN)
620 620 620 775 465 465 465
Effective Rod Stroke:
(inches)
10 1/4 10 1/4 10 1/4 10 1/4 10 1/4 15 15
Linear Rod Speed:
(inches/sec)
0.4 0.4 0.4 0.3 0.6 0.6 0.6
Operator Weight: (lbs) 19 19 19 19 19 22 22
Use Frequency:
(cycles/hour)
70 70 70 60 80 50 50
Pump Flow-Rate:
(liters/min)
1 1 1 0.75 1.5 1.5 1.5
Hydraulic Locking:
(1) = Closing
(2) = Opening and Closing
(1) (2) / / (2) (2) /
Max Leaf Length: (feet) 16 16 18 20 12 18 20
Power Supply 115 VAC ± 10% or 230 VAC +6% -10% 50/60 Hz.
Absorbed Power (W) 220
Absorbed Current (A) 1 (230V) or 2 (115V)
Electric Motor (rpm) 1400 - 4 poles
Thermal Protection
on Winding (°F)
248°
Thrust Capacitor 25uF / 115 V or 8uF / 230 V
Ambient Operating
Temperature Range (°F)
- 4° to 131°
Protection Class IP55
MODEL 400 OPERATOR
These instructions apply to the following models:
400 CBC, 400 CBAC, 400 SB, 400 SBS, 400 CBACR, 400
CBAC EG, 400 SB EG.
The FAAC Model 400 Swing Gate Operator consists of an electric
pump and a hydraulic piston which transmits drive to the gate leaf.
Models with hydraulic locking do not require the installation of
electric locks, as they provide mechanical locking of the leaf when
the motor is not operating.
Models without hydraulic locking require the installation of electric
locks to ensure that the leaf is mechanically locked.
FAAC 400 Operators were designed and built to automate swing
leaf gates. Do not use for any other purpose.
Dimensions
2. WIRING
Figure 3
1. Operators Mod 400
2. Photocells
3. Electronic control unit
4. Key operated push-button
5. Radio receiver
6. Flashing light
7. Electric lock (if necessary)
Table 1: 400 Operator – Technical Specications
OPERATOR TYPE
STAN-
DARD
EG
A
OVERALL DIMENSIONS
40 1/2 ” 50 1/2 ”
B
DISTANCE BETWEEN
ATTACHMENTS
27 1/2 ” 32 1/4 ”
C
EFFECTIVE STROKE
10 1/4 ” 15”
1. TECHNICAL SPECIFICATIONS
• When laying electrical cables, use
conduits with adequate rigidity and exibility.
• Always separate low voltage wiring
from AC power cables. Use separate sheaths
to avoid electrical interference.
Figure 2
Figure 1
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