An I/O interface configuration device for configuring I/O interfaces comprises an input interface, an output interface, a storage unit, a detecting pin, a converting unit and a computing unit. The input interface electrically connects to a controlling port of a controlling circuit to receive a data type. The output interface electrically connects to a controlled port of a controlled device to output another data type. The storage unit stores a plurality of configuration files, one of the configuration files corresponds to a circuit type of the controlling circuit. The detecting pin is adapted to retrieve the circuit type. The converting unit converts the data type to said another data type and selectively outputs said another data type from the output interface. The computing unit loads the configuration file corresponding to the circuit type and control the converting unit to configure the I/O interface according to the configuration file.

Embodiments of this present disclosure may include a system with a first power converter and a control system. The first power converter may supply a first current to a first backplane while a second power converter is concurrently supplying a second current to a second backplane. The first backplane and the second backplane may electrically couple to one or more load components and the control system. The control system may cause the first power converter to adjust the first current such that the first current and the second current are imbalanced with respect to each other in response to receiving a request to verify that the second power converter is capable of supplying the one or more load components with a target current value while the first current and the second current are imbalanced.

A method for configuring a target field device in an industrial plant by way of at least one mobile device including receiving configuration data characterizing the behavior of a source field device in the industrial plant from the source field device through the mobile device by way of a radio interface of the mobile device, which is also supported by the source field device, receiving at least one identification feature characterizing a target field device and/or function of the target field device in the industrial plant by a mobile device by way of a radio interface of the mobile device, which is also supported by the target field device checking by way of the mobile device, using the identification feature, whether the configuration data are suitable and/or intended for the configuration of the target field device, and in response to the configuration data being suitable and/or provided for the configuration of the target field device, transmitting at least a subset of the configuration data from the mobile device to the target field device by way of a radio interface of the mobile device which is also supported by the target field device.

The present invention relates to an apparatus and a method for setting up a board ID of a board used for a controller in a HVDC system that is capable of shortening inspection time of a board by easily identifying a location and a type of the board for inspection mounted. The apparatus for setting up a board ID of a board used for a controller in a HVDC system in the present invention comprises: IO boards for controlling submodules; a main board for managing the at least one IO board, and a backplane for connecting the main board with the at least one IO board.

An industrial control I/O module for interfacing with industrial control equipment, such as sensors and actuators, can be configured to dynamically provide differing resistances in each channel as may be required for reliably achieving particular modes of operation in the channel. Providing differing resistances in such channels flexibly allows different modes in the channel to provide universal I/O capability. Modes of operation could include, for example, digital output, digital input, analog output, analog input and the like, in the same channel, but at different times. In one aspect, a processor or voltage divider can be used to control an amplifier, with feedback, driving a transistor in a channel to dynamically adjust resistance in the channel by selectively biasing the transistor to achieve a resistance in the channel suitable for the selected mode.

The present invention relates to an apparatus (100) for iterative and interactive scheduling of an I/O station for an automation control system, the apparatus (100) comprising: selection device (110) adapted to specify a selection of signals for the I/O station in the form of (i) signal data and (ii) planning data for the I/O station based on user input; database device (120) adapted to provide property data for a plurality of I/O devices and I/O systems; configuration device (130) adapted to determine, based on the signal data, the planning data, and the property data, a system configuration for the I/O station that includes at least one I/O device among the plurality of I/O devices, wherein the configuration device (130) is further adapted to perform a technical check of the specific construction rules of the respective I/O system of the system configuration and to change the system configuration in case of failure of the technical check; and display device (140) adapted to display the system configuration for the I/O station.

Embodiments of this present disclosure may include a system with a first power converter and a control system. The first power converter may supply a first current to a first backplane while a second power converter is concurrently supplying a second current to a second backplane. The first backplane and the second backplane may electrically couple to one or more load components and the control system. The control system may cause the first power converter to adjust the first current such that the first current and the second current are imbalanced with respect to each other in response to receiving a request to verify that the second power converter is capable of supplying the one or more load components with a target current value while the first current and the second current are imbalanced.

A method for configuring a target field device in an industrial plant by way of at least one mobile device including receiving configuration data characterizing the behavior of a source field device in the industrial plant from the source field device through the mobile device by way of a radio interface of the mobile device, which is also supported by the source field device, receiving at least one identification feature characterizing a target field device and/or function of the target field device in the industrial plant by a mobile device by way of a radio interface of the mobile device, which is also supported by the target field device checking by way of the mobile device, using the identification feature, whether the configuration data are suitable and/or intended for the configuration of the target field device, and in response to the configuration data being suitable and/or provided for the configuration of the target field device, transmitting at least a subset of the configuration data from the mobile device to the target field device by way of a radio interface of the mobile device which is also supported by the target field device.

Embodiments of this present disclosure may include a system with a first power converter and a control system. The first power converter may supply a first current to a first backplane while a second power converter is concurrently supplying a second current to a second backplane. The first backplane and the second backplane may electrically couple to one or more load components and the control system. The control system may cause the first power converter to adjust the first current such that the first current and the second current are imbalanced with respect to each other in response to receiving a request to verify that the second power converter is capable of supplying the one or more load components with a target current value while the first current and the second current are imbalanced.

An industrial control I/O module for interfacing with industrial control equipment, such as sensors and actuators, can be configured to dynamically provide differing resistances in each channel as may be required for reliably achieving particular modes of operation in the channel. Providing differing resistances in such channels flexibly allows different modes in the channel to provide universal I/O capability. Modes of operation could include, for example, digital output, digital input, analog output, analog input and the like, in the same channel, but at different times. In one aspect, a processor or voltage divider can be used to control an amplifier, with feedback, driving a transistor in a channel to dynamically adjust resistance in the channel by selectively biasing the transistor to achieve a resistance in the channel suitable for the selected mode.