A master device is configured to perform a method that includes receiving highway addressable remote transducer (HART) device data of a HART slave device connected to PROFIBUS RIO Slave. The method also includes identifying a device description (DD) file associated with the HART slave device using the HART device data that is collected automatically based on the PROFIBUS slave Profile index before even configuring the HART device in the system. The method further includes performing one or more device communication functions with the HART slave device to collect the data automatically.

An industrial system includes a plurality of machines that define respective hardware and automation functions associated with the hardware. The industrial system further includes an engineering module hosted within the industrial system, and an application programming interface (API) communicatively coupled to the engineering module. The industrial system can further include a web application communicatively coupled to the engineering module via the API. A computing device can be configured to access the engineering module via the web application and the API, and the engineering module can be configured to configure the plurality of machines based on instructions received by the web application.

A method and a system for preparing a plurality of installed field devices for operation in a process control network. In some embodiments, a computing device provides a visual summary of the installed field devices to a user via a user interface. A configuration database stores predefined device preparation scopes, each scope being indicative of one or more of the installed field devices. Based on a user selection of one or more predefined device preparation scopes in the user interface, the computing device implements each of the predefined device preparation scopes by, among other things, retrieving configuration information from the configuration database for each installed field device indicated by each predefined device preparation scope and transmitting the information to each respective installed field device for updating the device configuration.

Various embodiments of the present disclosure are directed to a tool and a tool setting management system and method. The tool setting management system of the present disclosure is configured to pair with the tool of the present disclosure to change how the tool can function.

A method and system that incorporates spaying logic onto the sensor(s) adapted to detect and apply various liquids onto the feet of an animal. The sensor(s) actuate(s) specific valve(s) for application of the medicinal fluid. The operational components for initiating the spray treatment are located away from the treatment zone to protect the components from failures due to environmental conditions in that location. The application of the medicinal fluids can be enhanced by administering them to specific animals by tagging the animals that require more frequent or stronger treatments.

An automation device includes a master module, and a slave unit having a slave modules, where an interface module (IM) of the slave modules of the slave unit is connected to the master module via a bus, where each of the modules is parameterizable using a message transmitted to the IM by the master module, the message includes a data area for each of the slave modules for parameterization of each of the slave modules, and the message includes a data area for each slave module for its parameterization, wherein at least one default parameter data record is stored in at least one of the slave modules, and wherein a data record index, which is stored in that data area of the message which is provided for the at least one slave module is provided for accessing the at least one default parameter data record.

A master device is configured to perform a method that includes receiving highway addressable remote transducer (HART) device data of a HART slave device connected to PROFIBUS RIO Slave. The method also includes identifying a device description (DD) file associated with the HART slave device using the HART device data that is collected automatically based on the PROFIBUS slave Profile index before even configuring the HART device in the system. The method further includes performing one or more device communication functions with the HART slave device to collect the data automatically.

In aspects, the present invention discloses a method of configuring a plurality of devices of a control system using a configuration server connected to a plurality of data repositories using an engineering data gateway. The method comprises retrieving a first data set from a first data repository from the plurality of data repositories, retrieving a second data set associated with the first data set from a second data repositories from the plurality of data repositories, identifying at least one functional dependencies among the first data set and the second data set, generating a plurality of engineering artifacts including a configuration file, and transmitting the configuration file to a corresponding device from the plurality of devices.

A field device (1) and interface (2), a method for operating a field device (1) as well as a cloud service that achieve simplified data communication is obtained in that the interface is a cloud interface (2) via which data communication takes place between the field device (1) and a cloud (3).

A system for controlling, monitoring and regulating a process in an industrial plant includes a closed feedback loop which includes an automatically configurable central data acquisition for acquiring an operating parameter generated by the industrial plant on a customer side in a field, and a central data evaluation unit. The central data evaluation unit includes a centralized data collecting unit, a generating module configured to generate a result for plant optimization, process extension, optimization of necessary maintenance works, or any combination thereof, and a creation module configured to create a new target parameter via automated adaptation of the operating parameter. A first communication connection transmits data from the field to the central data evaluation unit, and a second communication connection transmits data in response to the target parameter from the central data evaluation unit back to the field and adjusts the industrial plant as a function of the target parameter.