SU798989A1 - Device for measuring moving tape carrier skewness - Google Patents

Description

(54) DEVICE FOR MEASUREMENT OF A MOVING TAPE MEDIUM SURVE

The invention relates to instrumentation and can be used in the study of tape mechanisms of electrostatic recording. In the process of moving the carrier tape, not only parasitic oscillations perpendicular to the carrier movement, affecting the reliability of reproducible information, but also its deformation, distortion and the size of the carrier’s carrier tie, have metso. A device for measuring dynamic distortions of the movement of a magnetic tape, containing two identical reproduction channels 1, is known. However, the presence of deformation in any of them affects the amount of carrier skew. The closest to the present invention is a device for measuring the motion parameters of a tape carrier, comprising first and second reproducing elements, installed along one of the edges of the moving carrier, each of which is connected through corresponding resistors to the zero bus and through corresponding amplifiers to the inputs of the subtractor, and also a differentiation unit, the output of which is connected to the recorder. However, this device does not allow measuring the skew of the moving belt without error of longitudinal deformation. The purpose of the invention is to improve the measurement accuracy. The goal is achieved in that a device containing the first and second reproducing elements, installed along one of the edges of the moving carrier, each of which is connected through the corresponding resistors to the zero bus and through the corresponding amplifiers to the inputs of the subtractor, as well as the differentiation unit connected with the recorder, the third and fourth reproducing elements are introduced, installed opposite the first and second reproducing elements from the other edge of the carrier, two additional p A resistor, two additional amplifiers, an additional subtraction unit and a discriminator connected between the outputs of the subtractors and the discriminator's input, while the inputs of the additional subtraction unit are connected through appropriate additional amplifiers to the outputs of the corresponding additional reproducing elements and grounded additional resistors

Such a device makes it possible to eliminate the effect of longitudinal deformation of the carrier on the result of skewing with the help of additional reproducing heads.

The drawing shows the block diagram of the device.

The device contains a carrier 1 with applied test waveforms 2 in the form of a periodically linearly increasing charge, set by the working side against the reproducing heads 3 and 4.5 and 6, on the opposite side of the carrier 1, rigidly fixed counter electrodes 7–8 and 9–10, made of conductive material and grounded respectively to earth through resistors 11-12 and 13-14, each of which in turn is connected to one amplifier 15,16 and 17,18. The outputs of amplifiers 15 and 16 are connected to the inputs of the first discriminator 19, and the outputs of amplifiers 18 and 17 are connected to the inputs of the second subtractor 20, the output of which, like the output of the first subtractor 19, is connected to the inputs of the discriminator 21, the output of the latter through differentiation and scaling units 22 23 is connected to the recorder 24 input. Unit 25 is connected to readout heads 3-6 by its output

You can judge the misalignment of the carrier by knowing the instantaneous velocities of the portions of the carrier located at different edges of the tape carrier. However, when measuring the velocity in these areas, the accuracy of the measurement affects the presence of longitudinal strain. For this purpose, auxiliary elements, reproducing elements, are installed at a certain distance along the carrier. The carrier speed at each edge is determined by removing the amplitude values of the signals from resistors 11 and 13 (14 and 12), amplifying the signals in amplifiers 17 and 18 (15 and 16). Then, the velocities are determined by subtracting units 20 and 19, after which the skew oscillations in the discriminator 21 are selected and recorded.

The proposed device eliminates the effect of longitudinal deformation of the carrier on the result of measuring the skew and thus increases the accuracy of its measurement, while having comparative simplicity and a small sales volume.

Claims (2)

1. USSR author's certificate No. 565325, cl. G 11 B 27/10, 13.09.76. 2. USSR author's certificate for application number 2730767 / 18-10, cl. G 11 B 27/10, 26.02.79 (prototype).