PL82359B1 - - Google Patents

Description

Authorized by the patent: Mark Lipovich Ljudmirsky, Georgy Mironovich Forshtator, Yakov Solomonovich Shkurovich, Kiev (Union of Soviet Socialist Republics) Measuring signal carrier for control and regulation, according to the indicator of the device indicating the frequency characteristics of the magnetic recording path of the magnetic recording apparatus, the object of the invention is and adjustment of the parameters of the apparatus for recording signals, and in particular the measuring signal carrier for the control and adjustment, according to the indicator of the indicating device, of the frequency characteristics of the reading path in the magnetic recording apparatus. There are known measuring signal carriers for control and adjustment according to the indicator of the instrument indicating the frequency characteristics of the reading path in magnetic recording apparatus, containing magnetic traces corresponding to signals of different frequencies within the operating range of the indicated apparatus, constituting the measurement graph of the signal, at The duration of the recording of at least ten signals is at least two minutes. The disadvantage of known measuring signal carriers for control and regulation - according to the indicator of the indicating device - the frequency characteristics of the reading path in the magnetic recording apparatus is that the control time of the indicated frequency characteristics according to the production conditions the mass is long. A second disadvantage of said measuring signal carriers is the necessity to determine a series of values obtained on the pointer of the indicating device when reading the measuring signal carrier, which leads to additional time losses. The third disadvantage of known measuring signal carriers is the impossibility - when adjusting the frequency characteristics of the read path - of its simultaneous control over the entire operating frequency range of the magnetic recording apparatus, which leads to multiple repeated readings and scrolling of measuring signal carriers and shortens the service life of these carriers. is to develop a measuring signal carrier for control and regulation, according to the indicator of the indicating device - the frequency characteristics of the reading path of the magnetic recording apparatus with such a distribution of magnetic traces, the properties of which would shorten the measurement time of the frequency contact characteristics and its control in the regulation process simultaneously in the entire range working frequencies. According to the invention, this object is achieved in such a way that the measuring signal carrier for checking and adjusting according to the indicator of the indicating device-frequency characteristics of the reading path of the magnetic recording apparatus contains magnetic traces corresponding to signals with different frequencies within the limits of the working range of the indicated apparatus, constituting a signal measuring plot, and according to the invention, the measuring signal plot has periodically repeating segments with records of signals of different frequencies, within the operating range of the apparatus, the number, frequency and sequence of which are the same in each of said segments, with the duration of the recording of each segment corresponds to the conditions of obtaining a non-flickering image on the screen of the oscillograph used as an indicating device, and the duration of the recording of each signal is at least twice as long as the duration of the segment. oli and regulation - according to the indicator of the indicating device - the frequency characteristics of the reading path of the magnetic recording apparatus gives the possibility to shorten the measurement time of the frequency characteristics of the reading path to single seconds. Another advantage of the presented measuring signal carrier is the possibility to control the frequency characteristics of the reading path simultaneously in the entire range of the operating frequencies of the apparatus, as long as the quantities determining the frequency characteristics of the reading path are observed on the oscillograph screen simultaneously for all controlled frequency points. The advantage of the presented measuring signal carrier is the possibility to obtain complete information about the frequency characteristics of the reading path when reading any measuring section of the signal carrier, which excludes its repeated multiple scrolling. The subject of the invention is shown in the example of the embodiment in the drawing, in which Fig. 1 shows the measuring section of the signal carrier with the distribution of magnetic traces corresponding to the signal measurement diagram, according to the invention, Fig. 2 - characteristics of the magnetic head reading path, controlled by the measuring signal carrier, Fig. 3 - images on the oscillograph screen when checking: a) linear frequency characteristics of the tape recorder reading path according to the invention, b) the frequency characteristic with the increase of the higher frequencies according to the invention, c) the frequency characteristic with the increase of the lower frequencies according to the invention, Fig. 4 - an image on the screen of the oscillograph "pr Another parameter of the magnetic head is measured according to the invention. A magnetic tape 1 is used as a signal carrier. Magnetic traces 2 to 6 are arranged on the magnetic tape 1, corresponding to the signals of the controlled frequency points within the operating frequency range of the magnetic recording apparatus. The frequency of the recording of the signal corresponding to the magnetic trace 2 is lower than the recording frequency of the signal corresponding to the magnetic trace 3, and the frequency of the signal corresponding to the magnetic trace 6 is the highest. These signals form a signal measurement diagram, recorded over the entire length of the magnetic tape 1, and consisting of periodically repeating segments 7. Each of the segments 7 is provided with five magnetic traces, where their number, sequence and frequency of the corresponding signals are the same on each of sections 7. The duration of the recording of section 7 is selected from the condition of obtaining a non-flickering image on the indicator for which the oscillograph screen is used, which is the indicating device. The duration of the recording of each of the signals corresponding to the magnetic traces 2–6 amounts to 5-20 milliseconds, depending on the recorded frequency, that is, for small frequencies the duration of the recording is greater, and for larger ones - smaller. The number of magnetic traces on each of the sections 7 may not be less than two and is determined by the inspection requirements. The amplitude of the signals of all frequencies corresponds to the given frequency characteristics of the residual magnetic flux. In the second variant of the magnetic measuring signal carrier, the frequency of signals constituting magnetic traces 2–6, is selected in the area of the first minimum 8 characteristic read path of the magnetic head. In this case, the magnetic measuring tape 1 is intended to measure the effective working gap width of the magnetic head. The work of the measuring signal carrier during the control and adjustment of the frequency characteristics of the tape recorder reading path looks as follows. The magnetic measuring tape 1 is read on a controlled tape recorder, the output of which is connected to the input of the oscillograph. The oscillograph's time base period is set equal to the duration of the recording of periodically repeating segments 7 with magnetic traces 2–6. With the number of frequency points under control, the number of magnetic traces on segment 7 equal to ten, the duration of the recording of segment 7 is sixty milliseconds, which corresponds to the repetition frequency of segments 7, equal to sixteen hertz. Thus, when reading the magnetic tape 1, an image appears on the screen of the oscillograph sixteen times per second and practically simultaneously with the activation of the controlled tape recorder, the signal amplitudes of which correspond to the frequency characteristics of the reading path of the controlled tape recorder. The sixteen hertz repetition frequency determines the practically non-flickering image when observed by the operator. Fig. 3a, b, c show on the oscillograph screen all possible variants of the frequency characteristic images of the reading path of the controlled tape recorder. 82 359 3 The measurement of the effective working gap of the magnetic head is performed in an analogous way, with the only difference that the measured magnetic head is it is connected to the oscillograph input through a suitable amplifier, and according to the image on the oscillograph screen, a signal with a minimum amplitude is determined, which corresponds to the reading of a signal whose wavelength is equal to the effective working gap of the magnetic head. According to the frequency of this signal, the effective width of the magnetic head working gap is calculated using the following formula: V s = - f where S - effective working gap width of the magnetic head in microns; - the frequency of the first minimum 8 (FIG. 2) of the frequency characteristic 9 of the reading path of the controlled magnetic head, in kHz; V - speed of magnetic tape 1 (Fig. 1) in mm / s. Fig. 4 shows the image on the oscillograph screen when measuring the effective width of the working gap of the magnetic head. The presented measuring signal carrier for control and adjustment - according to the indicator of the indicating device - The frequency characteristics of the reading path of magnetic recording apparatus are used in the production of tape recorders and magnetic heads, as well as for the control and various tests of other apparatus. The use of the presented measuring signal carrier reduces the time of checking the frequency characteristics of the reading path of the magnetic recording apparatus by 60 times. It improves the quality and reduces the time of adjusting the frequency characteristics of the reading path of the said apparatus at the expense of the possibility of controlling the frequency characteristics simultaneously in the entire operating frequency range in the control process. We obtain an increase in the measuring potential of the signal carrier at the expense of avoiding repeated scrolling and reading, and it also gives the possibility of measuring the effective width of the working gap of the magnetic head with an accuracy of 0.1 microns and thus allows to accurately determine its read frequency characteristics in the operating frequency range of the tape recorder. PL PL

Claims (1)

1. Patent claim Measurement signal carrier for control and adjustment according to the indicator of the device indicating the frequency characteristics of the reading path of the magnetic recording apparatus, containing magnetic traces corresponding to signals of different frequencies within the operating range of the said apparatus, constituting a measurement graph of a signal, characterized by the the signal diagram contains periodically repeating segments (7) with records of signals of different frequencies within the operating range of the apparatus, the number, frequency and sequence of which are the same on each of the segments (7), with the recording duration of each segment (7) corresponds to the conditions of obtaining a non-flickering image on the screen of an oscillograph used as an indicating device, and the duration of the recording of each signal is at least twice as long as the duration of the segment (7). 82 359 2 J -4 5 6 TTTT 7 f / Z7 / /7Z7.2 a) f) i / 7 / TJ f / £ 4 READING ROOM of the Poiewt Office ewego lolskisj ta; ^; ... 8 | bisowa Proc. Poligraf. UP PRL circulation 120 + 18 Price PLN 10 PL PL