GE IC698CRE030

Description

Detailed Parameter Table

GE IC698CRE030

Product Introduction

The GE IC698CRE030 is a flagship high-scalability CPU module in GE’s RX3i PLC family, designed to serve as the “control core” for large-scale, mission-critical industrial automation systems. Unlike mid-range RX3i CPUs such as the GE IC695CPU310 RX3I, the GE IC698CRE030 delivers triple-core processing power and ultra-large I/O capacity, making it ideal for applications where thousands of devices (e.g., sensors, actuators, drives) need centralized control—without compromising on speed or reliability.

Technical positioning for industries like utility-scale renewable energy, large chemical plants, and automotive component megafactories, the GE IC698CRE030 integrates advanced control functions (logic, PID, motion, safety) into a single module, eliminating the need for separate controllers. It runs on GE’s Proficy Machine Edition software, which unifies programming and monitoring into a user-friendly interface—reducing complexity for engineers managing large systems. In automation architectures, the GE IC698CRE030 acts as a “central command hub,” processing real-time data from distributed I/O racks, executing multi-task control logic, and communicating with enterprise MES/SCADA platforms—ensuring efficient, compliant operation of large-scale processes.

Core Advantages and Technical Highlights

Ultra-Large I/O Scalability: The GE IC698CRE030 supports up to 262,144 discrete and 32,768 analog I/O points—4x more than the GE IC695CPU310 RX3I—enabling centralized control of massive systems. For example, a utility-scale solar farm with 1,000+ inverters can use one GE IC698CRE030 to monitor and optimize all inverters (via remote RX3i I/O modules), avoiding the need for 10+ mid-range CPUs and cutting hardware costs by 50%.

Triple-Core Processing for Multi-Tasking: Equipped with a 1.2 GHz main core (for high-priority control) and two 800 MHz auxiliary cores (for data logging and communication), the GE IC698CRE030 handles concurrent tasks without lag. A large chemical plant, for instance, can use the main core to run 256 PID loops (controlling reactor temperatures/pressures), one auxiliary core to log 10,000+ process variables, and the other to communicate with a SCADA system—all simultaneously, ensuring no task is starved for resources.

Native CIP Motion for High-Axis Control: The GE IC698CRE030 supports up to 128 axes of CIP Motion control, eliminating the need for dedicated motion controllers in automotive manufacturing. A megafactory producing electric vehicle (EV) batteries can use the GE IC698CRE030 to synchronize 50 robotic arms (for cell stacking) and 20 conveyor systems—achieving sub-millisecond precision to reduce battery defect rates by 35%.

Extended Temperature and Redundancy for Harsh Environments: With an operating range of -10°C to 65°C, the GE IC698CRE030 performs reliably in extreme conditions like desert solar farms (high heat) or northern water treatment plants (cold winters). Its hot-standby redundancy (≤3 ms switchover) also ensures zero downtime for critical applications—e.g., a refinery’s crude distillation unit, where a CPU failure could cost $100,000+ per minute.

Typical Application Scenarios

In utility-scale solar farms (100 MW+), the GE IC698CRE030 manages 1,200+ solar inverters and 50+ weather stations. It receives analog data (DC voltage, AC power output) from IC695ALG808-AA modules in remote I/O racks, executes MPPT (Maximum Power Point Tracking) logic to optimize energy production, and transmits real-time performance data to a cloud-based SCADA system via its gigabit EtherNet/IP ports. The GE IC698CRE030’s ultra-large I/O capacity eliminates the need for regional controllers, while its extended temperature range withstands desert daytime heat (up to 65°C).

For large chemical plants with 20+ reactor vessels, the GE IC698CRE030 runs 200+ PID loops to control temperature, pressure, and chemical dosing. It uses one auxiliary core to log process data (e.g., pH levels, flow rates) for regulatory compliance (e.g., EPA, REACH) and the other to communicate with a plant-wide MES system. Its hot-standby redundancy (paired with a second GE IC698CRE030) ensures reactor control remains uninterrupted during maintenance, preventing costly batch failures.

In EV battery megafactories, the GE IC698CRE030 synchronizes 80 robotic arms for battery cell stacking and 30 automated guided vehicles (AGVs) for material transport. It uses CIP Motion to achieve 0.05 mm precision in arm movements—critical for ensuring battery cell alignment—and its dual EtherNet/IP ports separate the motion control network from the SCADA network, avoiding congestion. The GE IC698CRE030’s triple-core processor ensures robotic control, AGV coordination, and data logging all run smoothly, even during peak production.

GE IC698CRE030

Related Model Recommendations

GE IC695CPU310 RX3I: Entry-level RX3i CPU (800 MHz, 65k I/O) — cost-effective alternative to GE IC698CRE030 for small-to-medium systems (e.g., local water treatment).

IC695CHS016: 16-slot RX3i chassis — required to mount GE IC698CRE030 and associated I/O/communication modules in large systems.

IC695PWR120: 120V AC to 5V DC power supply — provides chassis power for GE IC698CRE030 (pair two for N+1 redundancy).

GE IC698ETM001: Compact Ethernet module — expands GE IC698CRE030’s network ports for connecting remote I/O racks or HMIs.

IC695ALG808-AA: 8-channel analog input module — sends sensor data (e.g., inverter voltage, reactor temperature) to GE IC698CRE030.

IC695RCM001: Redundancy control module — enables hot-standby setup for two GE IC698CRE030 units in critical applications.

IC695DIA320-AA: 32-channel digital input module — collects discrete data (e.g., AGV position, valve status) for GE IC698CRE030 logic execution.

IC695ALO404-AA: 4-channel analog output module — receives control signals from GE IC698CRE030 to drive actuators (e.g., dosing pumps, variable-speed fans).

IC695BEM010: Gigabit Ethernet module — high-bandwidth option for GE IC698CRE030 to connect to machine vision systems or high-speed SCADA.

Installation, Commissioning and Maintenance Instructions

Installation preparation: Before installing GE IC698CRE030, power off the RX3i chassis and verify the control cabinet meets environmental specs (-10°C to 65°C, 5%-95% non-condensing humidity). Required tools include an anti-static wristband (prevent ESD damage), torque screwdriver (0.5-0.8 N·m for chassis screws), and Proficy Machine Edition (v10.0+ for configuration). Align the GE IC698CRE030 with the chassis’s CPU slot (labeled “CPU”), push until it latches, and secure with front-panel screws—never hot-swap the CPU, as this may corrupt program memory. For redundancy setup, install a second GE IC698CRE030 and IC695RCM001 in adjacent slots.

Maintenance suggestions: Daily maintenance for GE IC698CRE030 involves checking the “RUN/STOP” LED (steady green = normal, flashing red = fault) and “REDUNDANT” LED (steady green = redundancy active). Every 6 months, use compressed air (≤40 psi) to clean dust from the CPU’s vents—accumulated dust can reduce heat dissipation. If a fault occurs, use Proficy Machine Edition to access error logs (e.g., memory errors, I/O communication failures); if the CPU is unresponsive, reset via a chassis power cycle. When updating firmware for GE IC698CRE030, update both redundant CPUs sequentially (primary first, then secondary) to avoid downtime.

Service and Guarantee Commitment

The GE IC698CRE030 comes with a 2-year manufacturer’s warranty—extended beyond standard RX3i modules—covering defects in materials and workmanship under industrial use. GE provides 24/7 technical support via phone, email, and online portals, with certified engineers specializing in large-scale RX3i systems available to assist with GE IC698CRE030 configuration, redundancy setup, and troubleshooting.

Beyond warranty, GE offers on-site commissioning services for GE IC698CRE030, including program validation, I/O scalability testing, and redundancy failover verification. Global service centers stock genuine spare parts, ensuring expedited replacement (typically 1-3 business days for urgent orders) to minimize downtime in large-scale operations. GE’s quality commitment includes 100% factory testing of each GE IC698CRE030—validating processor performance, I/O capacity, and motion control precision—to meet the strict reliability standards of utility, chemical, and automotive industries.