Disclosed is a camshaft toothed wheel, forming a target for a camshaft position sensor, the toothed wheel including a circular body including two opposite main faces, and at least six teeth distributed over the circumference of the circular body, each tooth including two edges, one corresponding to a rising edge and the other to a falling edge, as a function of a direction of rotation of the wheel, the toothed wheel having asymmetry of revolution. The six teeth are shaped so that the toothed wheel includes, considering the same main face and the same direction of rotation of the wheel: four edges of the same first rising or falling type spaced 90? apart, respectively; and six edges of the same second falling or rising type, respectively, spaced 60? apart, respectively.

The invention can be used for determining absolute movements of objects. The problem to be solved consists in increasing the accuracy of the measurement of movements of an object when obstacles are present in the trajectory of motion thereof by eliminating error accumulation in the positioning of signal sources. A transducer is mounted on an object, separate sources of uniquely coded signals are used and/or groups of sources of a uniquely coded signal are formed, the separate sources of uniquely coded signals and/or formed groups of sources of a uniquely coded signal are placed randomly along the trajectory of movement of the object at any distance between any two consecutively mounted separate sources of a uniquely coded signal and/or between any two formed groups of sources of a uniquely coded signal, said distance not exceeding the measurement range of the transducer, a signal is directed at the moving object having the transducer, an output signal from the transducer regarding the position of the separate sources of uniquely coded signals and/or groups of sources of a uniquely coded signal is received, and the position of the object is determined.

A magnetic circuit may include a magnetic sensor. The magnetic sensor may determine an adjustment factor associated with calculating a variable switching threshold. The variable switching threshold may be a configurable switching threshold based on which the magnetic sensor provides outputs associated with a speed signal corresponding to a rotation of a tooth wheel. The magnetic sensor may provide an output, associated with the speed signal, based on the variable switching threshold.

A magnetic circuit may include a magnetic sensor. The magnetic sensor may determine an adjustment factor associated with calculating a variable switching threshold. The variable switching threshold may be a configurable switching threshold based on which the magnetic sensor provides outputs associated with a speed signal corresponding to a rotation of a tooth wheel. The magnetic sensor may provide an output, associated with the speed signal, based on the variable switching threshold.

In some examples, an apparatus receives a first measurement of a plurality of wavelength channels obtained at a first location of an optical medium, and a second measurement of the plurality of wavelength channels obtained at a second location of the optical medium. The apparatus computes a value relating to dispersion in the optical medium by correlating the first measurement and the second measurement.

The invention relates to measurement technology and is used to determine the absolute displacements of objects in metallurgy, automotive industry, warehouse and production logistics, and in the automation of production. The technical result is achieved when the following steps are performed: the displacement transducer is mounted on the object; signal sources are mounted along the trajectory of the object displacement; on each section of the trajectory, an arrangement of the signal sources is provided which is determined by changing the number of signal sources and/or the distance between any two signal sources; a signal is sent to the moving object with transducer; an output signal is received from the transducer regarding the location of the signal sources located within the measurement range; the object location is determined; furthermore, the displacement is measured at a distance exceeding the length of the active zone of the transducer.

The invention relates to measurement technology and is used to determine the absolute displacements of objects in metallurgy, automotive industry, warehouse and production logistics, and in the automation of production. The technical result is achieved when the following steps are performed: the displacement transducer is mounted on the object; signal sources are mounted along the trajectory of the object displacement; on each section of the trajectory, an arrangement of the signal sources is provided which is determined by changing the number of signal sources and/or the distance between any two signal sources; a signal is sent to the moving object with transducer; an output signal is received from the transducer regarding the location of the signal sources located within the measurement range; the object location is determined; furthermore, the displacement is measured at a distance exceeding the length of the active zone of the transducer.

A magnetic field sensor includes a magnetic field sensing element configured to generate a magnetic field signal; a measured threshold module configured to generate a measured threshold signal in accordance with positive peaks and negative peaks of the magnetic field signal; a memory device coupled to receive and configured to store, at each one of a plurality of storage times, a respective value of the measured threshold signal; a threshold module coupled to receive from the memory device, at a calculation time, a stored value of the measured threshold signal and configured to generate a calculated threshold value; and a comparison circuit coupled to receive the calculated threshold value and to receive the magnetic field signal. The comparison circuit is configured to compare the calculated threshold value with the magnetic field signal to generate an output signal. A corresponding method is associated with the magnetic field sensor.

The invention relates to measurement technology and is used to determine the absolute displacements of objects in metallurgy, automotive industry, warehouse and production logistics, and in the automation of production. The technical result is achieved when the following steps are performed: the displacement transducer is mounted on the object; signal sources are mounted along the trajectory of the object displacement; on each section of the trajectory, an arrangement of the signal sources is provided which is determined by changing the number of signal sources and/or the distance between any two signal sources; a signal is sent to the moving object with transducer; an output signal is received from the transducer regarding the location of the signal sources located within the measurement range; the object location is determined; furthermore, the displacement is measured at a distance exceeding the length of the active zone of the transducer.

A system and method for blade angle position feedback. The system comprises an feedback device and a sensor mounted adjacent the feedback device and configured for detecting a passage of position markers on the feedback device during propeller rotation. The position markers are spaced apart from one another around the circumference of the feedback device and are oriented at an angle to one another and to a longitudinal axis. The feedback device and sensor are configured for relative axial displacement. A detection unit is connected to the sensor for receiving the sensor signal therefrom, determining on the basis of the sensor signal a time interval elapsed between the passage of successive position markers, and computing from the time interval blade angle position.