SU1043707A1 - Displacement-to-code converter - Google Patents

Description

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00 h1 The invention relates to a measuring technique, more precisely to its area which is associated with the measurement of linear displacements using a magneto-magnetic striction effect. The known transducer is displaced into (1 | mutated interval containing the chimney, recording head, connected to the pulse generator, the read head lj. A disadvantage of the known transducer is the low accuracy due to the statistical time spread between start and stop pulses. The closest to the invention is a displacement transducer into a code containing a sound pipe, at the ends of which dampers are installed, a pulse shaper connected to a write head, a read head connected to an amplifier The output of which is connected to one input of the OR element, the cycle sensor connected to the first trigger input and through the delay element to the other input of the OR element, the output of the trigger, and the OR element are connected to the inputs of the AND element whose output is connected to the pulse shaper 2 1. Its disadvantage is the low accuracy of motion conversion, due to the finite width of the read pulse spectrum and the final signal-to-noise ratio. The purpose of the invention is to improve the accuracy of the motion to code converter. This goal is achieved due to the fact that a pulse shaper connected to a recording head, a reading head connected to an amplifier, a trigger, a pulse generator, the first and the second valve, additional triggers, the average value calculator, the pulse generator is connected to the input of the pulse shaper and the input of the first valve, the outputs of which are connected to the first inputs igger and additional triggers, the output of the amplifier is connected to the input of the second distributor whose output is connected to the second inputs of the trigger and additional triggers, the outputs of which are connected to the inputs of the average value calculation unit. . . The drawing shows a diagram of a magnetostrictive displacement transducer to a code. The device contains a duct 1, at the ends of which dampers 2 are installed, which are used to absorb ultrasonic waves, a recording and reading head 3 located on the duct, the distance between these heads being the measured displacement q. The electronic part of the converter contains a pulse shaper 5, the output of which is connected to the head 3, a generator of 6 bursts of pulses, the output of which is connected to the input of the shaper 5, the amplifier 7 (read pulses) whose input is connected to the head 4, distributors 8 and 9. The outputs of which are connected to trigger inputs, and the average value calculation unit 10, the output of which is the output of the device, trigger 11 and additional triggers 112-11. The converter works as follows. The generator 6 generates a pack of n pulses, with the succession of the packs, the maximum measured displacement; -speed ultrasound; the duration of a pack of pulses and n pulses from the output of the generator b is fed to the input of the generator S and to the input of the distributor 8 The algorithm of functioning of the distributor 8 is such that at its k-th output appears the k-th pulse of the pack (where, 2 ,. ..,AND). Cn outputs of the distributor 8 pulses arrive at the inputs. The corresponding triggers set the latter to state 1. The shaper 5, triggered by the burst pulses, generates 3 recordings in the head and n current pulses, which excite 3 sonic lines in the area of the recording head 3.P ultrasonic pulses. Each of these ultrasonic pulses, propagating through sound conduit 1, induces an emf pulse through time in the read head.

Claims (1)

TRANSFER OF MOVEMENT TO THE CODE containing a sound pipe, at the ends of which are installed Deml-L: phera, pulse shaper, connect-. connected to a recording head; a read head connected to an amplifier; trigger, characterized in that ', in order to increase the accuracy of the displacement transducer into the code, a pulse train generator, first and second distributors, additional triggers, an average value calculation unit, a pulse train generator are connected to the input of the pulse shaper and the input of the first distributor, outputs which are connected to the first inputs of the trigger and additional triggers, the output of the amplifier is connected to the input of the second distributor, the output of which is connected to the second inputs of the trigger and additional g rigger, the outputs of which are connected to .The inputs the average value calculating unit. > 1 1043707 2