Skip to content

What are you looking for?


You may also like

GE Fanuc | RX3i IC695CPU320 Controller Module CPUGE Fanuc | RX3i IC695CPU320 Controller Module CPUGE Fanuc | RX3i IC695CPU320 Controller Module CPU
GE Fanuc | RX3i IC695CPU320 Controller Module CPU
GE Fanuc | RX3i IC695CPU320 Controller Module CPU
GE Fanuc | RX3i IC695CPU320 Controller Module CPU

GE Fanuc | RX3i IC695CPU320 Controller Module CPU


Only 10 left - Selling fast

PRODUCT SKU : IC695CPU320

PRODUCT TYPE : Controller Module CPU

PRODUCT VENDOR : General Electric


  • 100% Genuine Parts – Risk-Free 30-Day Returns
  • 1-Year Warranty & Expert Support for Every Order

Product Details

Overview

The GE Fanuc IC695CPU320 is a high-performance controller CPU designed for PACSystems RX3i. It delivers fast Boolean execution, flexible memory management, and dual-port serial communication, providing robust performance for industrial automation systems.

Technical Specifications

  • Model: IC695CPU320

  • Manufacturer: GE Fanuc

  • Product Type: RX3i Controller Module CPU

  • CPU Type: Intel Celeron M

  • Clock Speed: 1.0 GHz

  • RAM: 64 MB battery-backed memory

  • Flash Memory: 64 MB non-volatile user memory

  • Maximum Program Blocks: 512

  • Maximum Block Size: 128 KB

  • Boolean Execution Speed: 0.047 ms per 1,000 instructions

  • Clock Accuracy: ±2 seconds per day

  • Serial Ports: 2 independent RS-232 / RS-485

  • Communication Standards: RS-232, RS-485

  • Backplane Bus Support: RX3i PCI and 90-30-style serial PCI

  • Power Requirements: 3.3 VDC @ 1.0 A nominal, 5 VDC @ 1.2 A nominal

  • Battery Options: Primary IC695ACC302 Lithium Smart Battery; Auxiliary IC693AC302

  • Operating Temperature: 0–60°C (32–140°F)

  • Slot Requirement: Occupies 2 backplane slots

  • Weight: 1.54 lbs (0.7 kg approx.)

Application Scenarios

The IC695CPU320 is ideal for:

  • High-speed control and logic processing in PACSystems RX3i environments

  • Dual-port serial communication with field devices

  • Systems requiring fast Boolean execution and flexible memory allocation

Comparison with Similar Models

  • IC695CPU320: 1.0 GHz, 64 MB RAM, dual RS-232/RS-485 ports, 512 program blocks

  • IC695CPU310: Lower clock speed, smaller RAM, fewer program blocks

  • IC695CPU330: Higher clock speed, more memory, extended I/O capabilities

FAQs

Q: Can IC695CPU320 handle large program blocks?
A: Yes, it supports up to 512 program blocks with a maximum size of 128 KB each.

Q: Are both battery-backed and auxiliary battery options available?
A: Yes, it supports the primary IC695ACC302 Lithium Smart Battery and IC693AC302 auxiliary module.

Q: How many slots does the module occupy?
A: It occupies 2 slots on the RX3i backplane.

Additional Information

  • 100% Genuine Parts: All products are original and authentic, ensuring reliable industrial performance.
  • 30-Day Refund Guarantee: Return any in-stock item within 30 days in original, unopened packaging for a full refund (excluding shipping and fees).
  • 12-Month Warranty: Covers defects in materials or workmanship; excludes misuse, normal wear, or unauthorized modifications.
  • Worldwide Shipping: We ship via USPS, UPS, FedEx, and DHL. Delivery times vary by country and may be subject to customs or import fees.
  • Support & Contact: Technical and warranty assistance is available anytime. Contact us here: Contact.
  • Purchase Guidance: Check product specifications and compatibility carefully before ordering to ensure proper application.




Recently Viewed Products

Tech & Buying Guide

Technical Insights, Installation Guides, and Buying Tips
Demystifying PLC Memory: A Technical Guide to Architecture, Retention, and Performance

Demystifying PLC Memory: A Technical Guide to Architecture, Retention, and Performance

Modern industrial automation relies heavily on the reliability of programmable logic controllers (PLCs). At the heart of every PLC lies its memory system. This subsystem directly dictates scan times, program capacity, and data survival during power outages. For field engineers, understanding how a control system allocates, retains, and secures this memory is essential for writing efficient code and preventing costly downtime.

Read more
Executing a PLC System Site Acceptance Test (SAT): The Definitive Engineering Guide

Executing a PLC System Site Acceptance Test (SAT): The Definitive Engineering Guide

The transition of a Programmable Logic Controller (PLC) cabinet from a controlled factory floor to a volatile plant environment represents a critical milestone in factory automation. While a Factory Acceptance Test (FAT) validates standalone hardware compliance under ideal conditions, it cannot replicate real-world process dynamics. Therefore, deploying an industrial automation system requires a rigorous Site Acceptance Test (SAT) to verify total loop integrity, field wiring wiring metrics, and process control parameters before final customer handover.

Read more
Advanced Integration: Master Protocol for VFD Commissioning and Testing

Advanced Integration: Master Protocol for VFD Commissioning and Testing

Deploying variable frequency drives (VFDs) requires precise execution during the initial commissioning phase. Junior automation engineers often find the first power-up sequence intimidating. However, following a rigorous engineering framework ensures equipment safety and system reliability. Proper startup procedures protect both the drive electronics and the connected motor.

Read more