Operating Parameters

Power Requirements: HONEYWELL 10001/R/1 uses 5 VDC and an input of 275 mA, which is basically in the low power range and can be used in various power supply conditions commonly found in industrial control systems to ensure stable operation without consuming too much power.

Operating Temperature Range: The wide operating temperature range, from -40°C to +80°C, can be used in harsh industrial environments where temperature overshoot is common, such as outdoor installations or industrial facilities with severely insufficient temperature control conditions, without any damage due to extreme temperature effects.

Number of Channels: This module provides single-channel communication via a vertical bus. The simple single-channel design flattens the entire system structure and supports many applications where there is only one communication line from the central processor to the connected module.

Product Features

Reliable Data Transfer: The 10001/R/1 allows single-channel communication via a vertical bus, enabling reliable and stable data transmission between the CPU and the connected modules. Thus, the module avoids potential data loss and errors during transmission, ensuring accurate, real-time data is provided to the control system, which is essential for the normal operation of industrial processes.

High-speed communication: Supports high-speed data transmission rates to provide efficient communication within the system. High-speed data transmission increases system response time, enabling faster response to changes in process variables and control commands. Therefore, this helps improve the overall performance and efficiency of industrial automation systems.

Configurable software: The product offers customizable software that users can set up according to the specific needs of the system. Several configurable parameters include communication protocols, data formats, and operating modes; this makes different control strategies and application scopes adaptable, allowing great flexibility when integrating in the system.

Last state operation maintenance: The module provides the ability to maintain the last state operation function if the power is interrupted due to a momentary power outage. Therefore, after the power is restored, the system can continue to operate in the previous state, ensuring the continuity of the controlled process and preventing data loss or momentary interference due to power failure; thereby enhancing the reliability and stability of the entire system.

Application areas

Process control: Widely used in digital applications such as chemical manufacturing, refining, and power generation. In the control system, it can be integrated to monitor and control process parameters such as temperature, pressure, flow rate and liquid level to maintain the stability and safety of the production process. For example, it can send real-time data of chemical reaction parameters to the control center to accurately control and optimize the reaction process within a chemical plant.

Machine control: One of the best ways to synchronize the operation of complex machinery such as robots, conveyor belts and assembly lines. A reliable communication link with the control unit allows all machine components to synchronize and coordinate to achieve stable communication between control units and efficient operation of the machine, thereby improving production efficiency and product quality. In an automobile assembly line, it can ensure that other elements (such as various robotic arms and conveyor systems) run their activities in a precisely synchronized manner.

Factory automation: It plays a vital role in integrating and managing automation system components in a typical factory. It is an important communication link in the factory automation system, connecting different control elements, sensors and actuators into a unified fully automated network, thereby forming a centralized control and management system for the production process, making production more flexible, reducing labor costs and maximizing production efficiency.