SU777704A1 - Method of measuring effective working gap of magnetic head - Google Patents

Description

one

The invention relates to the field of instrumentation, in particular to the technique of magnetic recording, and can be used to measure and control the effective width of the working gap of magnetic heads.

A known method of measuring and controlling the effective width of the working gap of the magnetic head includes recording a multiwave measuring waveform, reproducing it with a magnetic head, indicating the reproduced signal on the oscilloscope screen and determining the effective width of the working gap from the minimum output at one of the wavelengths equal to the effective width of the measured working gap 1.

There is also known a method for measuring the effective width of the working gap of a magnetic head, which consists in recording a multi-wave measurement waveform with given recording wavelengths, reproducing the signal waveform, comparing the output of the magnetic head at different wavelengths contained in the measurement waveform, and using the comparison results The effective width of the working gap 2.

When recording a measurement waveform, choose the wavelengths below in the range of the expected value of the effective

the width of the working gap of the magnetic head so that the waveform includes recording wavelengths greater, equal and smaller than the expected value of the effective

5 width of working gap. The value of the effective width of the working gap is taken equal to the wavelength of the record, the second return is minimal.

The disadvantage of the known method is that it is impossible to measure small gaps with the required accuracy due to a small signal excess over noise. In addition, the measurement waveform contains a limited number of recording waves with

15 by a certain interval, which narrows the measurement range and generates a measurement error equal to the selected interval. The aim of the invention is to expand the effective width measurement range.

20 working gap magnetic head.

The goal is achieved by first recording a measurement sigilogram on a magnetic tape, reproducing it, and measuring the voltage across the winding.

25 magnetic head. Then, an external calibrated magnetic field is formed that is equal in frequency to the field of the measurement waveform. After that, a calibrated field is applied to

30, the working gap of the magnetic head, the difference of the voltages at its output terminals in the playback mode of the measuring waveform and calibrated is determined, and then the effective width of the working gap is determined.

The drawing shows a device that implements the described method.

The device consists of a signal source 1, a magnetic field generator 2 connected to it, made in the form of a rectangular frame, a measuring resistor 3 connected in series with a signal source and a frame of a voltmeter 4 connected in parallel with resistor 3, magnetic head 5, voltage meter 6, connected to the head 5, the measuring waveform 7 and the tape mechanism 8.

The measuring waveform 7 is transported by a tape-testing mechanism 8 and induces an emf in the magnetic head 5. The electromotive force induced in the head 5 is monitored by a voltage meter 6.

Signal source 1 generates the necessary signals equal to that reproduced from the measurement waveform in frequency, shaper 2 generates a magnetic field directly near the working gap of the magnetic head 5. The current in shaper 2 is monitored using a voltmeter 4 and a resistor 3. The generated magnetic field also induces an emf in magnetic head 5. The EMF induced in the head is monitored by a voltage meter 6.

Depending on the required measurement accuracy, the measuring waveform is recorded or mounted from commercially available measuring tapes. A longer recording wavelength is chosen in the region of the absence of wave loss and edge effect, and a smaller one in the region of the presence of wave loss in the playback mode.

Using the long wavelength part of the waveform, the current of the magnetic field former is calibrated, and the wavelength part is used to determine the wave loss as the voltage difference (expressed in decibels) measured at the output terminals of the magnetic head in the playback mode of the short wavelength part of the measuring waveform and in the EMF mode in the magnetic field. the head of the magnetic field shaper.

Based on measured wave loss using known nomograms or tables

determine the effective width of the working gap of the magnetic head.

The inventive method makes it possible to measure gaps in the entire required range of values of the effective width, including

gaps of small quantities, while maintaining a given accuracy.

Claims (2)

1. USSR author's certificate number 358968, cl. G 11B 5/46, 05.04.73. 2. Patent of Great Britain No. 1365851, cl. G5R, 09/04/74 (prototype). D 7v