EPSCPE100-ABAA GE RSTi-EP Controller PACSystems PLC
EPSCPE100-ABAA GE RSTi-EP Controller PACSystems PLC
EPSCPE100-ABAA GE RSTi-EP Controller PACSystems PLC
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EPSCPE100-ABAA GE RSTi-EP Controller PACSystems PLC

  • Manufacturer: GE Fanuc

  • Part Number: EPSCPE100-ABAA

  • Condition:New with Original Package

  • Product Type: CPU Processors

  • Country of Origin: USA

  • Payment:T/T, Western Union

  • Shipping port: Xiamen

  • Warranty: 12 months

GE EPSCPE100-ABAA PACSystems RSTi-EP Controller

The GE EPSCPE100-ABAA (EPSCPE100-ABAA Standalone PACSystems RSTi-EP Controller) operates as the primary processing unit for real-time control within distributed I/O systems. This ARM-based PLC executes deterministic logic according to IEC 61131-3 programming standards, interfacing directly with RSTi-EP I/O modules to manage machine-level automation tasks.

Hardware Specifications

Parameter Specification
Model EPSCPE100-ABAA
Brand GE
Origin Industrial Standard Manufacturing
Weight 0.5 kg
Dimensions 125 mm x 75 mm x 50 mm
Operating Temp -40 deg C to +70 deg C
Power Consumption 7 W (Typical)
Supply Voltage 24 VDC
Communication Dual Ethernet (10/100 Mbps)

Profinet / EtherNet/IP Deterministic Networks and I/O Scaling

The EPSCPE100-ABAA utilizes high-speed Ethernet backplane bus communication to ensure deterministic network performance across complex industrial topologies. The controller supports I/O density scaling, allowing for the addition of distributed RSTi-EP slices without degrading the controller’s cycle time. Firmware flash compatibility is managed via the integrated web server, ensuring that the controller’s logic execution remains synchronized with the I/O node revisions. Deterministic timing is maintained through priority-based packet scheduling on PROFINET and EtherNet/IP networks, minimizing jitter in high-speed control loops.

Frequently Asked Questions

Q: Is the integrated web server sufficient for full controller configuration?

A: The web server is primarily for diagnostics, status monitoring, and basic network configuration. Advanced logic development and full project deployment require the PAC Machine Edition software environment.

Q: How does the controller manage retentive data in the event of a power loss?

A: The device utilizes integrated non-volatile storage to save application programs and critical data. A battery-backed real-time clock ensures that time-stamping remains accurate after a power cycle.

Q: Can the dual Ethernet ports be used for network redundancy?

A: The dual Ethernet ports facilitate connectivity to multiple industrial network segments; verify the system configuration in the programming software to enable specific redundancy or ring-topology features supported by the firmware.

Field Installation Guidelines

  1. Mount the controller on a 35 mm DIN rail, ensuring the locking clip is secured to prevent vibration-induced dislodgement.
  2. Connect the 24 VDC supply, verifying polarity; ensure the supply is isolated from inductive motor drive circuits to prevent noise injection.
  3. Terminate Ethernet cables to the RJ-45 ports; use shielded-twisted-pair (STP) cabling to maintain high-speed communication integrity in high-EMI environments.
  4. Verify the IP address configuration via the web interface or programming software before attempting to link the controller to the production network.
  5. Inspect the LED indicators post-power-up; a stable status indicates the controller has initialized its internal logic and is ready for I/O module communication.
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