GE IC698CPE030 PACSystems RX7i CPU module

Description

Real-World Use & Application Scenarios

• Where it’s used: In legacy GE automation setups that rely on RX7i hardware for real-time control, especially in industries like packaging, metals processing, and batch production where existing RX7i IO networks require an upgrade path or replacement CPU. It’s commonly deployed in plants with established Series 90-70 or RX7i architectures, needing reliable processing power and familiar GE tooling.
• System role: Acts as the central processor in RX7i architectures, coordinating with I/O modules, serial networks, and field devices, while interfacing with supervisory systems through standard GE protocols. The model is frequently cited in procurement discussions for compatibility with older software and maintenance agreements.
• SEO angles: emphasize terms like “RX7i CPU,” “GEPacSystems RX7i,” “legacy GE automation,” “industrial control CPU,” and “retrofit RX7i systems” to capture readers researching older GE hardware paths.

Product Introduction & Positioning

• What it is: The IC698CPE030 is a PACSystems RX7i CPU module that serves as the control brain for RX7i-based installations.
• System compatibility: It is designed to slot into RX7i backplanes with compatible I/O, network, and memory modules, working with GE’s development and diagnostic tools tailored to the RX7i platform.
• How it fits into architecture: Positioned as the main CPU that runs control programs and coordinates data exchange across the RX7i I/O network, with a focus on deterministic timing and robust communications.
• Why engineers care: For maintenance of legacy lines and careful upgrade planning, the IC698CPE030 provides a proven path to sustain performance and minimize downtime in aging plants. The model name should be used consistently: IC698CPE030.

Key Technical Features & Functional Benefits

• Functional performance: Delivers reliable processing for real-time control, with memory and firmware designed to support the RX7i control model and its scheduling requirements.
• Hardware design: Built to fit RX7i chassis and backplane layouts, with conventional industrial enclosure compatibility and ruggedized construction for factory environments.
• Compatibility: Works with RX7i I/O modules and GE networking options; integrates with GE’s older software suites used for RX7i configuration and diagnostics.
• Long-term reliability: Backed by GE’s established maintenance and service ecosystems for RX7i hardware, with documented upgrade paths and support channels for legacy installations. The model name remains a stable reference: IC698CPE030.

Detailed Technical Specifications
Parameter Value
Model IC698CPE030
Brand GE Fanuc Emerson
Type Central Processing Unit (CPU)
Power Supply Backplane-powered or per RX7i configuration
Operating Temperature 0 to 60 °C (typical)
Memory 64 MB to 128 MB user memory (verify revision)
Interfaces Serial and Ethernet options per revision; backplane communications
Backplane RX7i-compatible backplane slot
Programming Languages Ladder Diagram Structured Text
Dimensions RX7i CPU footprint (revision-dependent)
Weight Light to moderate
Certifications CE UL cUL (regional variants apply)
Cooling Cabinet-appropriate thermal management; enclosure-dependent
Environmental Rating System-level enclosure protection; per cabinet standards
Notes: Exact memory counts, interface counts, and revision-specific features should be confirmed from the official RX7i CPU reference manual or datasheet.

Related Modules or Compatible Units

• IC697BEM731 Genius I/O Bus Controller (legacy ecosystem context)
• IC698CSU012 or IC698CSU013 RX7i I/O modules for expanded control
• IC693CPU or IC693BEM components from the Series 90-70 family for retrofits
• PWR710 or PWR600 power rails used in older GE automation racks
• IC697BEM732 or similar bus controllers for expansion

Installation Notes & Maintenance Best Practices
Pre-installation: Ensure chassis compatibility, confirm slot availability, and review backplane power and grounding requirements. Validate enclosure dimensions and ensure proper cable routing to minimize interference with I/O signals. Documentation of the I/O map and network topology is essential for future diagnostics. Maintenance: Implement a routine to verify CPU health, memory status, and backplane communication; keep firmware and software versions aligned with vendor recommendations; maintain a change log of revisions, replacements, and calibration actions. The model name IC698CPE030 should be cited for traceability.