Techniques to facilitate device configuration for a mobile application associated with an industrial automation environment are disclosed herein. In at least one implementation, device configuration data for the mobile application is received from an application platform device registry server. The device configuration data is processed to determine at least a data retrieval configuration and a data visualization configuration. Data is retrieved from an industrial device using the data retrieval configuration, and a visualization of the data retrieved from the industrial device is presented using the data visualization configuration.

A method of unloading mobile farm implements is presented. Unloading the mobile farm implement is accomplished by transmitting commands to unfold an auger arm and to open a container door and by monitoring weight measurements from the implement.

A method of unloading mobile farm implements is presented. Unloading the mobile farm implement is accomplished by transmitting commands to unfold an auger arm and to open a container door and by monitoring weight measurements from the implement.

A portable field maintenance tool system for performing a plurality of different functional tasks on one or more equipment assets in a plant includes a handheld base and a plurality of functional modules for attachment to the handheld base. Each functional module, when operatively attached to the handheld base, interacts with computer circuits on the handheld base to perform a pre-defined one or more of the functional tasks. A portable handheld field maintenance tool for performing one or more pre-selected ones of the functional tasks on an equipment asset in a plant is formed by operatively mounting any one of the functional modules to the handheld base.

Systems, methods, and software to facilitate management of industrial operations are disclosed herein. In at least one implementation, a portable HMI device is connected to a display system via a video interface, wherein the video interface provides interchangeability between a plurality of different display systems. A plurality of applications is stored in the portable HMI device. A remote navigation interface of the portable HMI device receives a selection transmitted from a remote navigation device, wherein the selection is associated with an industrial operation application of the applications displayed on the display system. The portable HMI device processes the selection of the industrial operation application and responsively executes the industrial operation application to communicate with an application server. A communication interface of the portable HMI device receives industrial operation data associated with the industrial operation application transmitted from the application server over a communication network for display on the display system.

A method for operating a machine control system and a corresponding machine control system uses a portable hand-held terminal for functionally influencing at least one machine controller. The terminal includes at least one emergency stop actuation element for terminating potentially dangerous machine operations. The controller and/or the terminal is adapted for indicating a representation of the control system on the terminal display. The controller and/or the hand-held terminal is adapted for indicating the operational range(s) of the at least one emergency stop actuation element by the terminal display. The controller and/or the hand-held terminal are further adapted for simultaneously representing the operational range(s) of the at least one emergency stop actuation element by selective, fail-safe controlling of at least one lighting device at the hand-held terminal and/or at least one discrete lighting device in or at the at least one emergency stop actuation element at the hand-held terminal.

A system for unloading of a mobile farm implement is provided. The system includes a mobile farm implement including a container and an auger with an auger spout. The system includes a door controller configured to at least one of open and close a door of the container of the mobile farm implement so as to thereby operate said door. The system includes a power takeoff sensor configured to measure a rotational speed of a power takeoff. The system includes a control device including a processor and a memory coupled to the processor. The control device is connected to the power takeoff sensor and to the door controller. The control device is configured to make a determination as to whether the measured rotational speed of the power takeoff is above a first power takeoff rotational speed threshold, and to operate said door based on said determination.

An object of the present invention is to provide a tool system allowing a tool to be controlled on a work object basis before the work is started. A tool system includes a portable tool and an identification unit. The tool includes a driving unit to operate with power supplied from a battery pack. The identification unit identifies, by a contactless method, a current work object, to which the tool is set in place, out of a plurality of work objects.

A failure testing device implemented on an electronic device includes a detecting device and a processor. The detecting device detects environmental parameters of the electronic device. The processor controls the detecting device to detect the environmental parameters of the electronic device, obtains the environmental parameters detected by the detecting device, determines whether the obtained environmental parameters exceed a preset range, tests components and running conditions of the electronic device, and compares the test data and the environmental parameters to data from a database to determine a reason for failure of the electronic device. The database stores values of the environmental parameters which would cause the electronic device to fail, test data when the electronic device has failed, and causes of failure.

A method for identifying an electronic component includes receiving an activity signal output by the electronic component when a light intensity incident on the electronic component exceeds a predeterminable threshold. The activity signal is assignable to the electronic component. The method further includes outputting the identification of the electronic component based on the received activity signal.