Softing Linking Device –

Manual for Configuration, Installation and Maintenance

Linking Device FG-110 FF - Internal Web Server

4.5.5.2 <Configuration><Modbus><Mapping>

Fig 4.5-17 Change settings of the Modbus Mapping

The functions of the Modbus mapping in the Linking Device are flexible enough to accommodate most traditional control systems. The Modbus mapping table allows a user to associate the output or input value of an AI or an AO Function Block with any traditional or extended Modbus register. To add new entries click the button <New Entry>. Next type the required Modbus register and assign the relevant process value (the out or in value of the function block). When you have entered your entire data click the button <Change Mapping> to apply the configuration. After a reload of the page you will see the new mapping entry.

On the FF H1 side 1 bit data length doesn’t exist. Therefore on the Modbus side the Gateway doesn’t support Discrete Inputs and Coils.

4.5.5.3 <Configuration><Modbus><Import/Export>

To save the properties you have specified in Modbus Mapping use the function <Export>, if you want to utilize an existing set of Modbus Mapping data use the function <Import>.

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Emerson FG-110 manual ConfigurationModbusImport/Export

FG-110 specifications

The Emerson FG-110 is a versatile and advanced fire and gas detection system designed for industrial applications. With increasing safety and regulatory standards in industries such as oil and gas, chemical processing, and manufacturing, the FG-110 provides a reliable solution for detecting early signs of fire and gas leaks, ensuring the protection of personnel, assets, and the environment.

One of the key features of the Emerson FG-110 is its robust detection capabilities. It is equipped with a variety of sensors for detecting different types of gases, including combustible gases, toxic gases, and oxygen levels. This multi-sensitivity approach allows for enhanced safety in environments where various hazardous substances may be present. The sensors are designed for high accuracy and fast response times, ensuring that any potential issues are detected swiftly before they escalate into more serious incidents.

The Emerson FG-110 utilizes advanced signal processing technologies. This includes sophisticated algorithms that filter out false alarms, providing operators and safety personnel with reliable notifications. The system's ability to distinguish between genuine threats and harmless environmental changes is crucial in high-stakes environments where false alarms can lead to unnecessary disruptions and safety concerns.

One of the standout characteristics of the FG-110 is its modular design, allowing for flexible configurations tailored to specific site requirements. Users can easily integrate additional sensors or modules as their needs evolve or as they expand their facility. This scalability makes it an ideal choice for both new installations and retrofitting existing systems.

In terms of communications, the Emerson FG-110 supports various protocols, enabling seamless integration with existing safety management systems and centralized control rooms. This connectivity enhances real-time monitoring and data analysis, helping safety teams make informed decisions efficiently.

Built with durability in mind, the Emerson FG-110 meets rigorous industrial standards. Its rugged casing and resistance to harsh environmental conditions ensure long-lasting performance, which is essential for operations in environments exposed to extreme temperatures, vibrations, or corrosive substances.

In summary, the Emerson FG-110 fire and gas detection system combines advanced sensor technologies, reliable performance, and modular design to deliver a comprehensive safety solution for industrial applications. With its focus on accuracy, flexibility, and integration, the FG-110 stands out as a robust tool in maintaining safety and preventing hazards in complex industrial environments.