Overview
Manuals
Principle
Core Application Roles
Features:
- CPU CONTROLLER MODULE
- HIMA HIMatrix Safety-Related Controller
- Designed specifically for distributed, time-critical industrial applications
Its primary function is to perform fault-safe monitoring of critical processes, ensuring the safety of personnel, equipment, and the environment. The system supports both digital and analog I/O modules, enabling precise connectivity with sensors, actuators, and field devices in complex industrial environments such as chemical plants, power plants, and oil and gas operations. By combining real-time monitoring with configurable safety logic, HIMatrix allows operators to effectively implement safety procedures while maintaining process efficiency.
Its modular design allows for the integration of multiple I/O and communication modules, providing redundancy, scalability, and easy adaptation to evolving process requirements. The system also integrates advanced diagnostics, self-tests, and continuous health monitoring of I/O channels, simplifying maintenance, supporting predictive fault detection, and reducing unplanned downtime. HIMatrix communicates seamlessly with higher-level control systems and SCADA systems, providing operators with detailed insights into safety and process performance.
The F60CPU01 HIMA CPU module may still be available for purchase and support from Moore Automated Company beyond End-Of-Life (EOL) by the manufacturer (OEM).
HIMA F60CPU01 CPU MODULE INFO(Datasheets), Link
Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description. All prices are shown in USD.
The system employs a distributed safety logic architecture, with each module continuously performing self-diagnostics while communicating with a redundant controller network. Safety inputs from sensors are continuously evaluated according to preset safety logic. When a hazardous situation is detected, the corresponding output is activated in a fail-safe manner to control the actuator or shut down the process. Redundant communication channels and cross-checking of module signals ensure that the system remains operational even in the event of a hardware failure, thereby guaranteeing operation in compliance with Safety Integrity Level (SIL) and providing reliable protection for critical industrial processes.
Central Safety Logic Execution: It can simultaneously store and run up to 32 user programs and make real-time safety decisions based on field input.
System Diagnostics and Monitoring: The CPU continuously monitors its own operating voltage and temperature, as well as the operating status of all connected I/O modules, ensuring safe system failure in the event of a malfunction.
Communication Center: It manages all communication between the controller and external systems (such as PADT (programming and debugging tools), other safety controllers, or the plant-wide SCADA/DCS system).
Redundancy Management: In high-availability settings, CPU01 supports redundant configurations to prevent critical operations from being halted due to a single point of failure.
