Engineered for precision and reliability, the Honeywell 51304477-100 PLC Module is an essential component for industrial automation systems, offering advanced control capabilities and seamless integration with various industry standards.
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Engineered for precision and reliability, the Honeywell 51304477-100 PLC Module is an essential component for industrial automation systems, offering advanced control capabilities and seamless integration with various industry standards.
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Product Type:High Performance Modular Control System
Power Supply:24VDC
Weight:0.14kg
Number of Channels:32
Operating Temperature Range:-25°C to 70°C
Communication Protocol:MODBUS RTU
Memory Capacity:64K Words
Engineered with precision and durability, the Honeywell 51304477-100 PLC Module boasts a robust design capable of withstanding harsh industrial environments. This microprocessor-based controller seamlessly integrates with existing systems, offering unparalleled reliability and efficiency.
With its support for up to 32 digital input/output channels, the module provides ample connectivity options for a wide range of sensors and actuators. This feature enables precise control over industrial processes, enhancing productivity and minimizing downtime.
Featuring RS-485 Modbus RTU communication protocol, the module ensures seamless data exchange with other devices within the network, facilitating easy setup and maintenance. Its compatibility with various protocols makes it a versatile choice for diverse industrial applications.
Operated within a temperature range of -20°C to +70°C, this PLC module is designed for reliability in extreme conditions. Whether in cold storage facilities or hot manufacturing plants, it maintains stable performance, ensuring consistent output quality.
Equipped with 16KB program memory, the module allows for extensive programming and customization, enabling users to develop sophisticated control strategies tailored to their specific needs. Its compact size and lightweight design make it ideal for space-constrained environments, without compromising on functionality.
