The disclosure relates to a method for configuring a control device of an automation system, comprising: detecting a local access token via an interface of the control device; and modifying at least one parameter of the control device, which is designed to configure a data connection of the control device in response to the detection of the local access token.

Systems and methods for controlling stoppage of a drilling rig, of which the method includes pairing a stop indicator with a type of stoppage, a rig system to shutdown, or both, receiving a request to change the type of stoppage, rig system, or both paired with the stop indicator, and in response to receiving the request, changing the type of stoppage, the rig system to shutdown, or both associated with the stop indicator, without changing a wiring of the drilling rig.

The disclosure relates to a method for configuring a control device of an automation system, comprising: detecting a local access token via an interface of the control device; and modifying at least one parameter of the control device, which is designed to configure a data connection of the control device in response to the detection of the local access token.

Equipment monitoring employing time-triggered Ethernet communications is provided. Two or more sensor assemblies can be configured to transmit sensor signals representative of one or more operating parameters of a machine to a monitoring system over a token ring Ethernet network. The monitoring system can synchronize timing between the sensor assemblies and schedule timing of respective sensor signal transmissions to bound latency of the scheduled transmissions. Alternatively, or additionally, the monitoring system can include an Ethernet backplane configured to allow Ethernet communication between two or more processing cards coupled thereto. A switch in communication with the Ethernet backplane can schedule transmissions between the processing cards coupled to the Ethernet backplane to guarantee latency of the scheduled transmissions.

Equipment monitoring employing time-triggered Ethernet communications is provided. Two or more sensor assemblies can be configured to transmit sensor signals representative of one or more operating parameters of a machine to a monitoring system over a token ring Ethernet network. The monitoring system can synchronize timing between the sensor assemblies and schedule timing of respective sensor signal transmissions to bound latency of the scheduled transmissions. Alternatively, or additionally, the monitoring system can include an Ethernet backplane configured to allow Ethernet communication between two or more processing cards coupled thereto. A switch in communication with the Ethernet backplane can schedule transmissions between the processing cards coupled to the Ethernet backplane to guarantee latency of the scheduled transmissions.

To achieve an automatic adjustment of a monitoring time in an automation system with a first automation device and a second automation device, at least one of the two automation devices operates a measuring program. A desired ring interruption is carried out by the measuring program by blocking a ring port in order thus to provoke a ring reconfiguration that utilizes a reconfiguration time. The blockage of the ring port is canceled again after the reconfiguration time has elapsed. The ring port is blocked again if the ring port has been opened by the ring reconfiguration, and all routing tables are deleted. As a result of this, at least the peripheral units are triggered to learn new network routes. Runtimes of test telegrams are measured, and a maximum value of the measured runtimes is stored. The measured maximum value is used for a dynamic adjustment of the monitoring time.

Equipment monitoring employing time-triggered Ethernet communications is provided. Two or more sensor assemblies can be configured to transmit sensor signals representative of one or more operating parameters of a machine to a monitoring system over a token ring Ethernet network. The monitoring system can synchronize timing between the sensor assemblies and schedule timing of respective sensor signal transmissions to bound latency of the scheduled transmissions. Alternatively, or additionally, the monitoring system can include an Ethernet backplane configured to allow Ethernet communication between two or more processing cards coupled thereto. A switch in communication with the Ethernet backplane can schedule transmissions between the processing cards coupled to the Ethernet backplane to guarantee latency of the scheduled transmissions.

To achieve an automatic adjustment of a monitoring time in an automation system with a first automation device and a second automation device, at least one of the two automation devices operates a measuring program. A desired ring interruption is carried out by the measuring program by blocking a ring port in order thus to provoke a ring reconfiguration that utilizes a reconfiguration time. The blockage of the ring port is canceled again after the reconfiguration time has elapsed. The ring port is blocked again if the ring port has been opened by the ring reconfiguration, and all routing tables are deleted. As a result of this, at least the peripheral units are triggered to learn new network routes. Runtimes of test telegrams are measured, and a maximum value of the measured runtimes is stored. The measured maximum value is used for a dynamic adjustment of the monitoring time.

Equipment monitoring employing time-triggered Ethernet communications is provided. Two or more sensor assemblies can be configured to transmit sensor signals representative of one or more operating parameters of a machine to a monitoring system over a token ring Ethernet network. The monitoring system can synchronize timing between the sensor assemblies and schedule timing of respective sensor signal transmissions to bound latency of the scheduled transmissions. Alternatively, or additionally, the monitoring system can include an Ethernet backplane configured to allow Ethernet communication between two or more processing cards coupled thereto. A switch in communication with the Ethernet backplane can schedule transmissions between the processing cards coupled to the Ethernet backplane to guarantee latency of the scheduled transmissions.