SU800609A1 - Method of measuring carrier skewness in magnetic recoring apparatus - Google Patents

Description

The invention relates to measuring technique, and in particular to methods of measuring the skew of a moving magnetic tape.

There is a method of measuring skew by reproducing a measurement signal recorded on two tracks of the medium [1].

The disadvantage of this method is the low accuracy of the measurement due to errors associated with the instability of the time scale of reproduced signals.

The closest in technical essence and the achieved effect to the proposed one is a method for measuring media skew by recording, under normal conditions, periodic signals along two media tracks, subsequent playback of recorded signals and measuring skew from signals of temporary mismatch of reproduced signals [2],

The second of these methods has the same drawback as the first. ·

The purpose of the invention is to improve the accuracy of measuring the skew of the media,

To this end, when measuring according to the 1 proposed method, during reproduction, the magnetic recording apparatus is placed in test conditions, 5 in which the time misalignment signal is delayed by a multiple of the period of the fundamental frequency instability of the time scale of the reproduced signal, and then

The time-mismatch signal is recorded on the medium, after which the magnetic recording apparatus is again placed in normal conditions under which the time-mismatch signal is reproduced for measuring skew.

The drawing shows a block diagram of a device for implementing the proposed method.

The method is as follows

Under normal conditions, 25 test tracks are simultaneously recorded on magnetic media along two tracks. Then, the magnetic recording apparatus G is placed under test conditions, for example, on a test bench, and the test signals are reproduced by a unit 2 of magnetic heads 30. After amplification in block 3, the reproduced signals through switch 4 are fed to a time difference meter 5, from the output of which the signal is delayed in block 6 and recorded through the amplifier 7 and head block 8 to the carrier. Then, the magnetic recording apparatus 1 is again placed under normal conditions, the recorded temporary mismatch signal is reproduced and statistically processed in block 9, where the amount of skew of the medium is determined.

The proposed method allows to increase the accuracy of the bias measurement due to the elimination of errors associated with the instability of the time scale 1 of the reproduced signals.

Claims (1)

The invention relates to a measurement technique, in particular, to methods for measuring the skew of a moving magnetic tape. There is a known method for measuring skew by reproducing a measurement waveform recorded on two tracks of carrier 1. A disadvantage of the known method is poor measurement accuracy due to errors associated with the instability of the time scale of the reproduced signals. The closest to the technical essence and the achieved effect to the proposed method is a method of measuring media skew by recording periodic signals on two tracks of a carrier under normal conditions, then playing back the recorded signals and measuring skew on the signals of the time resolution of the reproduced signals 2, The second of these The methods have the same disadvantage as the first. . The purpose of the invention is to increase the measurement of carrier skew. For this purpose, when measuring by the proposed method, during reproduction, the magnetic recording apparatus is placed in test conditions in which the time error signal is delayed by a time multiple of the fundamental frequency period of the instability of the time scale of the reproduced signal, and then the time error signal is recorded onto the carrier, after which the magnetic recording apparatus is again placed under normal conditions under which the producing a time error signal. The drawing shows a block diagram of an apparatus for carrying out the proposed method. The method is carried out as follows. Under normal conditions, the test signals are simultaneously recorded on a magnetic carrier along two tracks. Then, the magnetic recording apparatus is placed under test conditions, for example, on a test bench, and the test signals are reproduced by a block of 2 magnetic heads. After amplification in block 3, the reproduced signals through switch 4 are fed to a meter 5 time errors, from the output of which the signal is delayed in block b and Via amplifier 7 and block 8 of heads are recorded on the carrier. Then the magnetic recorder 1 is again placed under normal conditions to reproduce the recorded time error signal and statistically process it in block 9 where the amount of carrier skew is determined. The proposed method makes it possible to increase the accuracy of the skew measurement by eliminating errors associated with the instability of the time-dependent maaagab of reproducible signals. Formula for measuring the skew-wear in a magnetic recording apparatus by recording periodic signals ijp in normal conditions. two paths Carrier. nocj ejGfS inero of reproducing the recorded signals and measuring the skew of the time error signals of the reproduced signals, characterized in that, in order to increase the accuracy of the skew measurement, during playback, the magnetic recording apparatus is placed under test conditions in which the time error signal is delayed by a time multiple of period the fundamental frequency of the time scale instability of the reproduced signal, and then the time error signal is recorded on the carrier, after which the device ma The rotary recording is again placed under normal conditions under which a time error signal is reproduced to measure the skew. Sources of information taken into account in examination 1, USSR Author's Certificate No. 505875, cl. G 01 B 7/00, 1974. 2, USSR Copyright Certificate. 565325, cl. G 11 B 27/10, 1976 (prototype),