IC695PNS001CA GE Fanuc PROFINET Scanner Module | New & Original Stock

GE Fanuc IC695PNS001CA RX3i PacSystem PROFINET Scanner Module

The GE Fanuc IC695PNS001CA-ABAH, also cataloged as the IC695PNS001 PROFINET Scanner Module, operates as a dedicated hardware component for remote I/O data collection within RX3i PacSystem networks. The hardware links distributed I/O modules directly to a central PROFINET IO-Controller, executing deterministic cyclic data transfer across the backplane to manage field instrumentation signals.

Hardware Specifications

Industrial Control & PLC Platform Properties

The GE Fanuc IC695PNS001CA-ABAH incorporates specific backplane interface tracking to sustain maximum backplane bus communication velocity during high-density operations. The module establishes direct local data synchronization with adjacent remote modules, optimizing I/O density scaling boundaries across the chassis without generating network overhead for the central processor. Firmware flash compatibility logic embedded within the internal ASIC ensures seamless alignment with the active hardware profiles assigned by the primary IO-Controller. By embedding four hardware switching ports, the module executes Profinet / EtherNet/IP deterministic networks directly over line, star, or ring topologies, reducing overall network conversion latencies down to sub-millisecond execution windows.

Frequently Asked Questions

Q: How does the internal power distribution handle the dual backplane voltage requirements of 3.3 VDC and 5 VDC?

A: The module draws power directly from the RX3i universal backplane rails, consuming 1.2 A from the 3.3 VDC rail to drive the internal microprocessors and memory blocks, while drawing 1.1 A from the 5 VDC rail to power the four Gigabit network physical layer transceivers.

Q: Does the IC695PNS001CA-ABAH support online hot-swapping under powered conditions?

A: Insertion and extraction rules depend on the specific RX3i chassis deployed. When mounted in a universal backplane slot supporting live extraction, the scanner module can be removed or replaced while power is applied to the rack, provided the user follows correct ESD procedures and takes the remote network segment offline.

Q: How do the four network ports behave when integrated into an active network segment?

A: The four ports function via an integrated Gigabit Ethernet switch layer. This design permits daisy-chained line configurations or insertion into Media Redundancy Protocol (MRP) rings, passing cyclic IO data through the ports with minimized routing lag.

Field Installation Guidelines

• Chassis Alignment and Insertion Mechanics: Position the scanner module vertically within the designated slot of the universal RX3i backplane. Slide the module rearward along the plastic chassis guides until the integrated connectors mate flush with the backplane bus, then secure the top and bottom mechanical retention locks.
• Network Media and Shielding Layout: Utilize Cat6 shielded twisted-pair (STP) cables for all Gigabit connections. Terminate the overall cable shields at the metallic grounding plate of the enclosure panel to suppress ambient electromagnetic interference from disrupting the deterministic network synchronization.
• Conformal Coating Precautions: The CA variant features a factory-applied conformal coating layer. Ensure that field wiring and termination pins remain clean during installation; do not scratch or puncture the protective layer on the internal board edges to prevent atmospheric trace components from inducing corrosion pathways.