“FAAC 107725 (750 CBAC 115V) is a high-performance in-ground hydraulic pump motor assembly designed for swing gate automation. With quiet, self-lubricating operation and built-in hydraulic gate locking, it provides a nearly invisible, low-maintenance solution ideal for residential and commercial gates up to 13ft (˜1,700lb per leaf). Built to withstand harsh conditions with IP55 protection and thermal motor winding protection, this pump ensures reliable and long-lasting operation.”
Hydraulic & Electrical Connections: Connect the hydraulic hoses and control unit, ensuring compatibility with FAAC 108757 drive unit and 455D control board for full automation.
Seal and Backfill: Stabilize the unit with suitable grout or concrete and ensure proper drainage around the housing.
Power Setup: Connect to 115?VAC supply (acceptable range +10% / -6%).
Initial Testing: Run a few test cycles to verify quiet operation, hydraulic locking, and smooth gate movement.
Calibration & Adjustments: Fine-tune sensitivity and cycle frequency as needed (unit rated for up to 45 cycles/hour).
Ensure Type B1 photo-eyes or Type B2 sensing edges are installed; the operator won’t operate without them, per UL 325 safety standards.
For gates longer than 8?ft, a magnetic or electric lock is mandatory for safe operation.
Use positive gate stops to prevent over-travel in both open and closed positions.
Follow safe excavation practices and turn off power before installation or maintenance.
Monitor motor temperature during initial operations; thermal protection triggers at ~248?°F (120?°C).
Use FAAC-approved hydraulic oil and maintain proper fluid levels; consider annual checks.
For dual-leaf gates, install two pump units (107725.5) along with twin drive units, hoses, foundation plates, and one shared control panel.
If aesthetic integration is key, use the enclosure model (107725.5) for a cleaner install.
Keep spare seal kits (e.g., FAAC 2170.1) and hoses on hand for streamlined service.
Test for smooth operation seasonally or under extreme temperatures, as ambient conditions affect performance.
