Systems and methods are disclosed for calibrating a pressure sensor associated with a mobile device. The reference pressure information may be obtained from an associated device and then be used to calibrate the pressure sensor.

Disclosed is an infusion pump which may include a native pumping mechanism to drive fluids through a functionally associated conduit, at least one native sensor to sense a physical characteristic of the fluid within the conduit and computing circuitry having a decalibration test mode to determine whether the infusion pump is decalibrated. The computing circuitry may be adapted to receive output from at least one native sensor during the decalibration test mode.

A sensor arrangement and a method of operating a sensor arrangement are disclosed. In an embodiment, a sensor arrangement includes a pressure sensor realized as a capacitive pressure sensor, a capacitance-to-digital converter, a test circuit and a switching circuit coupling the capacitance-to-digital converter and the test circuit to the pressure sensor.

A load cell input unit capable of determining whether load cell connection cables have a broken line is provided. When the load cell input unit (30) is in a broken line detection mode, a voltage applying element (311) applies a voltage to distribution lines of an amplifying element (31), and a broken line deteiiiiination element (33) determines whether the load cell connection cables (40) have a broken line based on a voltage measured by a load measuring element (32).

In one aspect, the disclosure provides a pressure sensor that wirelessly provides force/pressure data to a wireless receiver. The pressure sensor includes a first fluid-responsive membrane configured to be exposed to a region, such as a body fluid, whose pressure is being monitored. A force transducer for measuring this pressure is movable toward and away from the flexible membrane and may be oscillated, either out-of-contact with the first fluid-responsive membrane or in-contact therewith, for static/dynamic pressure sensor calibration. An actuator for displacing/oscillating the force transducer is located within the internal housing. Specific pressure transducers, fluid drainage systems, implantable devices and (at least partially) external sensing devices are disclosed. Calibration techniques, including recalibration to adjust for device drift and to clear biofouling are disclosed.

A method and system of calibrating uncalibrated sensors among sensors distributed along a pipeline network include designating a set of the sensors as upstream sensors based on their geopositions, and designating remaining ones of the sensors other than the set of the sensors as downstream sensors. The method also includes determining a temporal delay associated with each of the sensors. Calibrating the uncalibrated sensors is based on the corresponding temporal delay and on calibrated sensors among the sensors.

A method and a device for measuring the torque in the drivetrain (1) of a wind power plant is described, having at least two incremental encoders (7, 8) which are positioned at two different positions on at least one shaft (3) of the drivetrain (1) and which each supply periodic rotational signals, wherein the phases of the rotational signals are evaluated in order to detect a phase shift, and a torque of the shaft (1) is determined from the phase shift. The detected phase shift is corrected as a function of a zero load phase shift (A.sub.Zero), using a rigidity factor K, wherein, in order to determine the zero load phase shift (A.sub.Zero) and the rigidity factor K, in-situ calibration is carried out before and/or between the torque-determining processes. The in-situ calibration is performed at zero load of the wind power plant, i.e. below a rated rotational speed and with a generator torque equal to zero, and at the rated load of the wind power plant, i.e. at the rated rotational speed and with a generator torque greater than zero.

A method and system for providing a self-test configuration in a device is disclosed. The method and system comprise providing a self-test mechanism in a kernel space of a memory and enabling a hook in a user space of the memory, wherein the hook is in communication with the self-test mechanism. The method and system also include running the self-test driver and utilizing the results.

The present invention relates to a method for cancelling effects of changes in interconnection capacitances on capacitive sensor readings, and an apparatus configure to perform such method. The sensor readings are provided by a capacitive sensor connected with an interface circuitry. The interface circuitry has at least two interconnections comprising a sensor interconnection and a compensating interconnection. The method comprises obtaining a total sensor capacitance value from the capacitive sensor, and obtaining a total compensating interconnection capacitance value from the compensating interconnection, calculating a compensated sensor capacitance value by reducing the obtained total compensating interconnection capacitance value multiplied with a weight coefficient from the obtained total sensor capacitance value and providing at an output of the interface circuitry an electrical signal corresponding to the compensated sensor capacitance value. The weight coefficient is independent of changes of relative permittivity in the immediate environment of the capacitive sensor and its interconnections.

A pressure sensor device and a method for testing the pressure sensor device is provided. The pressure sensor device includes a first pressure sensor cell having a first capacitance value, and a second pressure sensor cell having a second capacitance value, the second capacitance value being different from the first capacitance value. In one embodiment, the method includes determining a temperature coefficient offset to test for faults in the pressure sensor device. In another embodiment, the method includes determining a differential mode calculation and a common mode calculation. A fault exists if the differential and common mode calculations do not agree.