Abstract: A hybrid network of kinematic sensors of an AOCS, made up of a star sensor including an optical camera head, and a processing unit provided as the central master processing unit, and additional kinematic sensors, each made up of a sensor element and a processing unit connected to the central processing unit via a first bus. An additional processing unit is equivalent to the processing unit and is a redundant central processing unit. The central processing units and—are connected via an additional bus of a spacecraft provided with the hybrid network with the aid of a central computer. The particular active central processing units-provide all kinematic sensors with a uniform time pulse via a synchronization line, and supply the central computer with hybridized kinematic measuring data formed according to a method for hybridization based on the synchronous kinematic measuring data of the star sensor and the measuring data of the other sensors.

Abstract: A hybrid network of kinematic sensors of an AOCS, made up of a star sensor including an optical camera head, and a processing unit provided as the central master processing unit, and additional kinematic sensors, each made up of a sensor element and a processing unit connected to the central processing unit via a first bus. An additional processing unit is equivalent to the processing unit and is a redundant central processing unit. The central processing units and—are connected via an additional bus of a spacecraft provided with the hybrid network with the aid of a central computer. The particular active central processing units-provide all kinematic sensors with a uniform time pulse via a synchronization line, and supply the central computer with hybridized kinematic measuring data formed according to a method for hybridization based on the synchronous kinematic measuring data of the star sensor and the measuring data of the other sensors.

Abstract: A process and device for determining absolute position by means of two coupled individual sensors which in the measuring range generate saw tooth-shaped output signals with a number of periods (k1 and k2) varying by “1,” and use of a third sensor, which in the measuring range also generates a saw tooth-shaped output signal with a third number of periods (k3) in which k3 differs from k1 and k2 by the absolute value ½. If the first or second sensor fails, a differential signal is generated between the output signal of the remaining functional sensor and the third sensor.

Abstract: A position sensor to determine the absolute position of an object features a rotary position sensor with a tooth gear, which is resiliently and elastically tensioned against a toothing on the moving object.

Abstract: A method and apparatus for determining the absolute position of displacement and angle transmitters. Two individual sensors are mechanically coupled to one another in such a way that they generate sawtooth output signals with a number of periods that differ by one within a predetermined measuring range. In a first step, a difference signal is formed from the output signals of both sensors and, if negative, is corrected by a constant value. A period number signal is obtained from the corrected difference signal by deriving an integer. This period number signal and the output signal of one sensor are added to form a highly accurate, absolute output signal. Since the absolute output signal still contains errors, an auxiliary signal is formed from the absolute output signal and the modified, corrected difference signal. A window discriminator determines whether the auxiliary signal lies within a predetermined limiting range. If not, the absolute output signal is corrected by a predetermined amount.

Abstract: Position sensor having two pairs of flux-concentrating pieces, arranged in succession along a shifting direction of a permanent magnet. The pieces form a primary air gap in which the magnet may be linearly shifted and form a working air gap in which a Hall probe is arranged. To eliminate the influence of foreign magnetic fields in the axial direction, the Hall probe is arranged in the working air gap so that its direction of measuring sensitivity is perpendicular to the shifting direction of the magnet.