A portable field maintenance tool may perform one or more tasks, such as communicating with a field device, powering a field device, diagnosing a field device, or diagnosing a communication link in a plant environment to which a field device is connected. The portable field maintenance tool may interact with field devices configured according to a number of different communication protocols, such as the HART protocol and the Fieldbus protocol. The portable field maintenance tool may be energy limited and fault tolerant, and may operate in compliance with Intrinsic Safety standards, enabling use of the portable field maintenance tool in hazardous areas.

An intrinsically-safe handheld field maintenance tool is provided. The tool includes a process communication module configured to communicate with a field device in accordance with a process industry communication protocol. A controller is coupled to the process communication module and is configured to provide at least one function related to maintenance of the field device. Program instructions embodied on a computer readable medium coupled to the controller, the program instructions causing the controller, when executed by the controller, to provide operator rounds functionality, CMMS/EAM functionality and/or ERP functionality.

A process calibrator is formed with a user interface, which guides to choose the right connection arrangements of the process calibrator according to the function of the process calibrator. The user interface shows in the display of the process calibrator the connection arrangements of the process calibrator and indicates the place of the connection arrangement assigned to the selected function visually compared to other connection arrangements. The connection arrangements shown by the user interface in the display are placed similarly to the physical connection arrangements of the process calibrator. As the user interface indicates the connection arrangement that is assigned to the selected function of the process calibrator, it is easy for the user to make the right connection.

A method is provided for joining structures, where at least one of the components to be joined is individually plastically deformed in a radial press. A control unit for the radial press has a PLC machine controller and a BTLE communication module and a mobile terminal is associated. Mobile terminals are designed to communicate with a central server via a mobile data network, which central server is equipped with a pressing program memory. Configuration programs used to set up associated radial presses are stored on the mobile terminals. Each radial press is set up by means of the associated mobile terminal, specifically by configuration of the PLC machine controller by means of a specific pressing program in accordance with program-specific data retrieved from the central server for a particular lot. Within the lot, each individual radial deformation process is triggered by triggering means arranged on the radial press itself.

A handheld field maintenance tool with improved diagnostic functions is provided. The tool includes a process communication module configured to interact with a field device. A controller is coupled to the process communication module. The controller is configured to execute a number of improved diagnostic functions relative to the field device. The controller may obtain contextual information relative to a current field maintenance operation and preload at least one resource relative to a next field operation step. The controller may obtain process alarm information through a wireless communication module, and field device alert information through the process communication module and provide an indication on a display relative to both process alarm information and field device alert information. The controller may execute a sequence of field device maintenance operations on the field device in response to a signal from a user input device. The controller may obtain snapshot information in response to a signal from a user input device.

A handheld field maintenance tool is provided. The handheld field maintenance tool includes a process communication module configured to communicate with a field device. The handheld field maintenance tool also includes a display and a user input device. A controller is coupled to the process communication module, the user input device and the display and is configured to generate a listing of task-based field maintenance operations on the display and receive a user input selecting a task-based field maintenance operation. The controller is configured to automatically traverse a menu of the field device using a fast-key sequence relative to the selected task. A method of creating a task-based field maintenance operation is provided. A method of interacting with a field device menu is also provided.

A handheld field maintenance tool with improved functionality is provided. The handheld field maintenance tool includes a keypad, a display, a short-range wireless transceiver and a processor. The processor is coupled to the keypad, the display and the short-range wireless transceiver. The processor is also coupled to memory having a plurality of instructions stored therein, which instructions, when executed by the processor, cause the processor to perform at least one of remote wireless display; remote wireless keypress injection; and wireless printing.

An intrinsically-safe handheld field maintenance tool includes a controller, a process communication module, and a display. The process communication module is configured to communicate with a field device using a process communication protocol. The display is coupled to the controller. A user interface module is also coupled to the controller and is configured to receive user input. The controller is configured to detect a user input help request and provide a video output on the display in response to the user input help request.

A mobile device is provided with a communication unit which performs communication via wireless communication, a display unit, and a display control unit which controls the display unit to display a setting input screen for allowing the user to input setting of a household electrical device. The communication unit transmits a request signal for checking whether there is a person in the vicinity of the household electrical device before the setting input screen is displayed by the display control unit. The display control unit controls the display unit to display a setting input disable screen indicating that setting of the household electrical device is not received without causing the display unit to display the setting input screen when there is a person in the vicinity of the household electrical device.

Methods and systems to commission building environmental sensors are disclosed. The system includes a device that will move about the environment of a building (inside and/or outside) and detect building environmental sensor devices that are installed in the environment. For each of the sensor devices, in response to detecting the sensor device, the system will retrieve an identifier for the sensor device, and it will determine whether the sensor device is registered with a control system. If the sensor device is registered with the control system, the system will not automatically implement a commissioning process with the sensor device. If the sensor device is not registered with the control system, the system will automatically implement the commissioning process with the sensor device.