A device for determining a first angle between a rotor and a stator, having inputs for reading amplitudes of electrical signals detected via a sensor system and representing a first angle, wherein the device has an angle estimator for estimating a second angle, the device determes amplitudes representing the second, estimated angle, the device has at least one controller with which at least one difference between the first angle and the second, estimated angle can be minimized, and the second, estimated angle can be provided via an output.

A device for determining a first angle between a rotor and a stator, having inputs for reading amplitudes of electrical signals detected via a sensor system and representing a first angle, wherein the device has an angle estimator for estimating a second angle, the device determes amplitudes representing the second, estimated angle, the device has at least one controller with which at least one difference between the first angle and the second, estimated angle can be minimized, and the second, estimated angle can be provided via an output.

A method for inspecting and maintaining a motor vehicle including at least one actuator controlled by at least one electronic computer, and a supervision computer. The inspection and maintenance method including: a) coupling the supervision computer, b) interrogating the electronic computer, if an anomaly is present on at least one actuator, then the method includes: c) identifying the defective actuator, d) launching a test campaign involving: 1) reading predefined values, 2) applying a control signal to the actuator, 3) measuring actuation parameters of the actuator, 4) analyzing the results, e) proposing new parameters, f) applying the control signal with the new parameters, and g) recording the new parameters in the electronic computer.

A method for inspecting and maintaining a motor vehicle including at least one actuator controlled by at least one electronic computer, and a supervision computer. The inspection and maintenance method including: a) coupling the supervision computer, b) interrogating the electronic computer, if an anomaly is present on at least one actuator, then the method includes: c) identifying the defective actuator, d) launching a test campaign involving: 1) reading predefined values, 2) applying a control signal to the actuator, 3) measuring actuation parameters of the actuator, 4) analyzing the results, e) proposing new parameters, f) applying the control signal with the new parameters, and g) recording the new parameters in the electronic computer.

The servo controller is provided with a command reception unit and a servo control computation unit. In a measurement mode, the command reception unit asynchronously receives with every command reception period a counter output by the control device with every command update period. The servo controller is further provided with an event detection unit configured to detect the occurrence of an event which entails variation in reception intervals of the counter in the measurement mode, a deviation calculation unit configured to calculate a deviation amount between respective clocks of the control device and the servo controller, based on an occurrence period of the event and the command reception period, in the measurement mode, and a reception period adjustment unit configured to adjust the command reception period based on the deviation amount in an operation mode.

The servo controller is provided with a command reception unit and a servo control computation unit. In a measurement mode, the command reception unit asynchronously receives with every command reception period a counter output by the control device with every command update period. The servo controller is further provided with an event detection unit configured to detect the occurrence of an event which entails variation in reception intervals of the counter in the measurement mode, a deviation calculation unit configured to calculate a deviation amount between respective clocks of the control device and the servo controller, based on an occurrence period of the event and the command reception period, in the measurement mode, and a reception period adjustment unit configured to adjust the command reception period based on the deviation amount in an operation mode.

A system for reducing jitter in a motion control system which includes at least one drive device programmed or configured to receive data associated with a time base of a controller device in the motion control system, determine the frequency of the time base of the controller device based on the data associated with the time base of the controller device, determine a frequency adjustment to be made to a time base of the at least one drive device based on the frequency of the time base of the controller device, adjust a frequency of the time base of the at least one drive based on the frequency adjustment, and provide data associated with the time base of the at least one drive device.

A measurement system includes a plurality of reflectors of a robot, a measurement apparatus having a laser head which emits a laser beam toward the reflectors and which receives a reflected light from the reflectors, a head driving device which changes orientation of the laser head, and a robot control apparatus which controls the robot based on the calibration operation program and which sequentially places the distal end portion of the robot at a plurality of measurement positions for conducting calibration. The robot control apparatus conducts a head drive control process of receiving controller coordinate data of any one of the plurality of reflectors, which is used at the time of sequentially placing the distal end portion of the robot at plurality of measurement positions, and sending a control signal for changing the orientation of the laser head to the head driving device by using the received controller coordinate data.

A measurement system includes a plurality of reflectors of a robot, a measurement apparatus having a laser head which emits a laser beam toward the reflectors and which receives a reflected light from the reflectors, a head driving device which changes orientation of the laser head, and a robot control apparatus which controls the robot based on the calibration operation program and which sequentially places the distal end portion of the robot at a plurality of measurement positions for conducting calibration. The robot control apparatus conducts a head drive control process of receiving controller coordinate data of any one of the plurality of reflectors, which is used at the time of sequentially placing the distal end portion of the robot at plurality of measurement positions, and sending a control signal for changing the orientation of the laser head to the head driving device by using the received controller coordinate data.

The servo controller is provided with a command reception unit and a servo control computation unit. In a measurement mode, the command reception unit asynchronously receives with every command reception period a counter output by the control device with every command update period. The servo controller is further provided with an event detection unit configured to detect the occurrence of an event which entails variation in reception intervals of the counter in the measurement mode, a deviation calculation unit configured to calculate a deviation amount between respective clocks of the control device and the servo controller, based on an occurrence period of the event and the command reception period, in the measurement mode, and a reception period adjustment unit configured to adjust the command reception period based on the deviation amount in an operation mode.