SU932542A1 - Magnetic head parameters testing device - Google Patents

Description

(5) DEVICE FOR MONITORING THE PARAMETERS OF MAGNETIC HEADS

The invention relates to instrumentation, namely, to a device with which it is possible to control the parameters of magnetic heads installed in magnetic recording devices for household and service purposes.

It is known a device with which the control of the parameters of magnetic heads is carried out, made with a drum having a high-precision annular groove, in which a magnetic tape with a measuring waveform is also placed with high accuracy. The monitored magnetic head is carefully installed using micrometric screws in relation to the waveform, the drum is driven to rotate and the signal taken from the head is fed to the electronic circuit 1.

This device has such a high accuracy of the output parameters that it makes control

magnetic heads intended only for expensive magnetic recording equipment, since the process itself, the control of the roads and for the small-scale, not to mention large-scale, production is unsuitable.

In small-scale production, you can use a device that contains a path for recording and reproducing information, a measuring amplifier,

10 switch, recording unit, multiplier and spectrum analyzer 23.

The device has a rather high cost ratio of controlling a single magnetic head with respect to labor costs, energy consumption and equipment use time, which makes its use in a production environment not always advisable.

20

Claims (3)

The closest to the present invention is a device for monitoring parameters of magnetic heads, comprising a tape drive mechanism, magnetic media, a magnetic recording head connected to generators of recording and biasing currents, a channel of a reference magnetic head including first reproduction amplifier, low-frequency and high-frequency detectors, and the channel is controlled by a magnetic head, including a second reproduction amplifier, low-frequency and high-frequency detectors 3. This device, although more and more One is to operate in conditions of mass production of magnetic heads, but it does not have a sufficiently high accuracy of the measurements. The purpose of the invention is to improve the accuracy of measurements. The goal is achieved by the fact that the device for monitoring parameters of magnetic heads, containing a tape mechanism, magnetic media, magnetic recording head, connected to the generators of recording and biasing currents, a channel of the standard magnetic head, including the first playback amplifier, low-frequency and high-frequency detectors, and also a channel of a controlled magnetic head, including a second reproduction amplifier, low-frequency and high-frequency detectors, a block of reference voltages was introduced , a control unit and serially connected information output unit, a first matching unit, a microprocessor, a second matching unit, an analog-to-digital converter and a switch connected to all device detectors, control blocks and reference voltages and an analog-to-digital converter In addition, To reduce the error of setting the working gap of the controlled magnetic head, a high-frequency channel detector of the controlled magnetic head is connected to the switch through the input therefore connected ekstremator and memory unit. The drawing shows a block diagram of the proposed device. The tape mechanism 1 moves the magnetic carrier 2 past the magnetic recording heads 3, the reference and controlled 5. The recording head is connected to the recording current generators 6 and 7 and to the biasing generator 8. The reference head A is connected to the playback amplifier 9, and the head 5 is controlled by the playback amplifier 10. Two low-frequency detectors 11 and 12 and two high-frequency detectors 13 and 14 are used in the device. The signals are distributed using a switch 15 connected to the unit 1b of the reference voltages, to the control unit 17 and through serially connected analog-to-digital converter 18, unit 19 matching, microprocessor 20 and matching unit 21 with an information output unit 22. An in-series extremator 23 and a memory unit 2 are connected between detector k and switch 15. When measuring the EMF and the frequency response of the monitored magnetic head, the signals on the magnetic carrier are generated by means of generators 6 and 7 of two frequencies, one of which is the reference frequency and the other is the upper frequency of the operating range. The bias generator creates an optimal signal recording mode, based on the properties of the carrier. The recorded information is reproduced almost simultaneously by heads 4 and 5 and this information, amplified and detected, goes to switch 15 (in the case of measuring EMF and frequency response, the extremator and memory block are not used, and detector 1 is connected directly to the switch). The switch also receives voltages from a block of 16 reference voltages, the magnitude of which corresponds to the true values of the parameters of the reference head 4 at the reference and upper frequencies of the range. In accordance with the operation of the control unit, the signals received at the switch are fed to converter 18 and further along the chain to matching unit 19, microprocessor 20, matching unit 21 and to information output unit 22. The purpose of all these units is clear from their name, what concerns microprocessor and the control unit, the first of them performs an almost instantaneous calculation and, moreover, multiple parameters of the monitored magnetic head according to the measurement information received at different points in time and produces 59 also statistical processing of the obtained results, which significantly reduces the random component of the errors of the measurements, and the second provides control over the operation of the device as a whole. In order to reduce the likelihood of errors in the measurements made due to insufficiently accurate setting of the working gap of the controlled magnetic head relative to the magnetic carrier, the successively connected extremator 23 and the 2k unit of memory are introduced into the device. The introduction of these inexpensive elements allows almost no attention to setting the working gap of the controlled head after it has passed the position corresponding to the appearance of the maximum EMF at the output of this head: when the head is tilted relative to the magnetic plane, the maximum emf then when the working gap of the head is parallel to the stroke of the waveform. The extremmer 23 will fix this maximum, and the memory block will remember it and, at the required time, will feed the switch. Therefore, the signal at the memory output will no longer depend on the position of the controlled magnetic head — it was enough to get the maximum emf. It is quite clear that on the current device it is quite easy to measure the magnetic head in many respects and does not require the involvement of highly skilled operators. Using the proposed device, it is possible to generally automate the process of measuring the parameters of the head using an appropriate transport device and a device for automatically fixing the head in the landing slot. The above can dramatically reduce the cost of the control process without reducing its quality. 2 Claim 1. A device for monitoring the parameters of magnetic heads containing a tape mechanism, magnetic media, a magnetic recording head connected to current generators, recording and biasing, a channel of a standard magnetic head including the first reproduction amplifier, low-frequency and high-frequency detectors, as well as the channel of the controlled magnetic head, including the second reproduction amplifier, low-frequency and high frequency children, characterized in that, in order to improve the accuracy of the measurements, a reference voltage block, a control block and a serially connected information output block, a first matching block, a microprocessor, a second matching block, an analog-to-digital converter and a switch, Included with all device detectors, with control and reference voltages and with an analog-to-digital converter. 2. A device according to PL, characterized in that, in order to reduce the error in setting the working gap of the monitored magnetic head, a high-frequency detector of the channel of the monitored magnetic head is connected to the switch via a series-connected extremator and memory unit introduced into the device. Sources of information taken into account in the examination 1. US patent number, class. 32k-3k, 1972. 2. USSR author's certificate number itllSie, cl. G 11 B 27/36, 1971. 3. USSR author's certificate number 323797, cl. G 11 B, 1966 (prototype;