A process device with diagnostics for use in an industrial process includes a process variable sensor or controller element which is configured to sense or control a process variable of a process fluid of the industrial process. Circuitry is coupled to the process variable sensor or control element and configured to measure or control a process variable of the industrial process. A wireless communication adapter includes wireless communication circuitry configured to communicate in the industrial process. The wireless communication circuitry is further configured to receive a process signal from another process device. Diagnostic circuitry is configured to diagnose operation of the industrial process as a function of the sensed process variable and the received process signal.

Provided is an electric machine health monitoring system that includes an electric machine, a data acquisition component, a local transmitter, a communications network, and a remote diagnostic unit that is configured to receive the time sequenced operational information, asset performance, and health status indicators from a local transmitter. The remote computational unit comprises software that is configured to perform diagnostic analysis of time sequenced operational information to determine the asset performance and health status of the electric machines.

A method of operation of a machine control indicator located on a first machine includes the step of monitoring operational parameters of a second machine operationally associated with a first machine. Each of the operational parameters is associated with a common clock of the machine control indicator. The operational parameters are stored in a memory of the machine control indicator with a date and time stamp based on the common clock. The operational parameters are transmitted along with the date and time stamp to a user device separate from the first machine and the second machine. In one embodiment, the operational parameters comprise one or more of a weight value, a rotation value, a revolutions per minute value, a peak weight value, a gearbox temperature value, and a hydraulic pressure value.

A method includes the step of receiving a first weight value from a sensor associated with a feed mixer. A first rotation speed associated with the first weight value is monitored. A second weight value is received from the sensor associated with the feed mixer and a second rotation speed associated with the second weight value is monitored. A mixing profile is generated based on the first weight value, the second weight value, the first rotation speed, and the second rotation speed. In one embodiment, a first feed ingredient is associated with the first weight value and a second feed ingredient is associated with the second weight value.

A method includes the step of receiving a first weight value from a sensor associated with a feed mixer. A first rotation speed associated with the first weight value is monitored. A second weight value is received from the sensor associated with the feed mixer and a second rotation speed associated with the second weight value is monitored. A mixing profile is generated based on the first weight value, the second weight value, the first rotation speed, and the second rotation speed. In one embodiment, a first feed ingredient is associated with the first weight value and a second feed ingredient is associated with the second weight value.

A manufacturing device monitoring system includes a plurality of manufacturing devices and a remote monitoring device. The manufacturing device includes a work unit, an equipment notifier, an error detector, and an error notifier. The error notifier determines whether or not an error detected by the error detector may be corrected by an operation from the remote monitoring device, notifies the remote monitoring device of the occurrence of the error in a case where the error can be corrected, and operates the equipment notifier to notify a first notification pattern in a case where the error cannot be corrected.

Provided is a mechanical device management system in which a cause and measure of a malfunction can be considered even when timing to be a point of the cause and measure of the malfunction does not coincide with the timing at which a signal is issued to notify that the malfunction has occurred. A machine device management system 100 comprising: a machine device 200 having an operation screen display device 220 for displaying an operation screen 600 to be operated by a user; a storage device 320 for storing machine operation data including continuous image data generated by constantly acquiring the operation screen 600; a management device 400 disposed at a position different from the machine device 200) and including a display device 420 capable of displaying an image based on continuous image data 902 stored in the storage device 320; and a control device 310 for sending, to the display device 420, the image from an arbitrary time based on the continuous image data 902.

Provided is an electric machine health monitoring system that includes an electric machine, a data acquisition component, a local transmitter, a communications network, and a remote diagnostic unit that is configured to receive the time sequenced operational information, asset performance, and health status indicators from a local transmitter. The remote computational unit comprises software that is configured to perform diagnostic analysis of time sequenced operational information to determine the asset performance and health status of the electric machines.

Provided is a mechanical device management system in which a cause and measure of a malfunction can be considered even when timing to be a point of the cause and measure of the malfunction does not coincide with the timing at which a signal is issued to notify that the malfunction has occurred. A machine device management system 100 comprising: a machine device 200 having an operation screen display device 220 for displaying an operation screen 600 to be operated by a user; a storage device 320 for storing machine operation data including continuous image data generated by constantly acquiring the operation screen 600; a management device 400 disposed at a position different from the machine device 200) and including a display device 420 capable of displaying an image based on continuous image data 902 stored in the storage device 320; and a control device 310 for sending, to the display device 420, the image from an arbitrary time based on the continuous image data 902.

An apparatus, system, and methods for measuring environmental parameters are disclosed. The apparatus, system and methods can be used for a variety of applications, including HVAC air balancing and building commissioning. The system includes a variety of wireless sensing modules and wearable modules for control. display, and storage. Parameters measured include air and water temperature, pressure. velocity, and flow. Also included are sensors for light intensity, CO concentrations, and CO2 concentrations.