SU1216797A1 - Device for measuring frequency relationship between loss resistance and inductivity of magnetic head - Google Patents

Abstract

The invention relates to devices for measuring paras of magnetic heads used in magnetic recording apparatus, and allows for the automation of measurements and improved accuracy. To do this, the output of the first measuring amplifier 7 is the vector sum of the voltage drops on the test magnetic head (MG) and measuring resistor (MI) 11 from the first and second measuring current (IT) flowing through them. This voltage through amplifier 7, phase corrector 8 is fed to the input of phase detector 4 and through integrator 9 controls the operation of generator 10. In inductance measurement mode, the IT values are inversely proportional to the measurement frequency, and in the loss resistance measurement mode, the IT values do not depend on the frequency measurement, therefore, the voltage drop on the MI 11 from the second IT is directly proportional to 9 (L o O 1)

Description

but the magnitude of the loss resistance of the test MG and is measured by the meter, i 4 AC voltage. Switch 13 on command

The invention relates to instrumentation engineering, in particular to devices designed to measure the parameters of magnetic heads used in magnetic recording apparatus.

The purpose of the invention is automatic measurement of accuracy and accuracy.

The drawing shows a block diagram (The proposed device.

A device for measuring the frequency dependence of the loss and inductance of magnetic heads contains a generator I, a measuring voltage driver 2, a phase inverter 3, a phase detector 4, the first measuring current generator 5 whose output is from the first device 6, the first meter is an amplifier 7, phase corrector 8, integrator 9, second measuring current generator 10, measuring resistor 11, second measuring amplifier 12, first switching 13, alternating voltage meter 14, second switching 1 5, two negative feedback circuits 16 and 17, a control unit 18 and a second output of the device 19. A magnetic head (not shown) must be connected to the outputs of the devices 6 and 19,

The device works as follows.

The signal from generator 1 processed by shaper 2 of measuring voltage, the transmission coefficient of which is inversely proportional to frequency when the first circuit 16 of the negative feedback is switched on using the second coffer 15 of the first feedback circuit 16 (does not depend on the inductance of the magnetic head) 17 negative feedback (resistance measurement mode

from the I8 control unit connects to the I4 meter signals from the output of amplifier 7 or amplifier 12, 1, or

losses of the magnetic head), from the output of the imager 2 of the measuring folder, enters the input of the phase inverter 3, the first output of which

connected to the first input of the phase detector 4 and the first measuring current generator 5, which linearly converts the input voltage to the first measuring current I flowing to the resistor 11, the signal from the second output of the phase inverter 3 is out of phase with respect to the signal from the first output to 180, enters

the second generator measuring current 1 flowing through the resistor 11 and creating a voltage drop of the opposite phase with respect to the active component of

voltage from the first measuring current 1,

Thus, at the input of the first measuring amplifier 7, the vector sum of the voltage drops on the test magnetic head and the resistor 11 from the first measuring current 1 flowing through them and the voltage across the resistor 11 from the second flowing through it

and measuring current 12 ,. This voltage, amplified by the first measuring amplifier 7, through the phase corrector 10 is fed to the second input of the phase detector 4. The output voltage of the latter, depending on the phase shift of the input signals, through the integrator 9 controls the operation of the second generator 10 of the measuring current in such a way that the fall

the voltage from this current on the resistor 11 is equal to the sum of the active component of the voltage drop on the test magnetic head and the resistor 1 from flowing through

They are the first measuring current, than both. The separation at the input of the first measuring edge is ensured.

body 7 of the imaginary component of the voltage drop at the tested magnetic head of the first measuring current I ;, due to the reactive component of the magnetic head. Since, in the inductance measurement mode, the measuring current values are inversely proportional to the measurement frequency, the imaginary component of the voltage drop from the first measuring current 1 on the magnetic head is directly proportional to the magnetic head inductance and measured by the ac current meter 14, the loss resistance measurement time; measuring currents do not depend on the measurement frequency, therefore the voltage drop across the resistor 11 from the second measuring current is directly proportional to the magnitude of the resistance test magnetic golov- ki and measured by meter 14 as alternating voltage. The operation of the switches 13 and 15 is controlled by the control unit 18. The switch 13, in response to a command received from the control unit 18 in accordance with a predetermined program, alternately connects to the alternating voltage meter 14 signals from the output of the measuring amplifier 7 or from the output of the measuring amplifier 12.

Thus, the device provides automatic measurement of inductance and loss resistance.

heads without any trimming operations at any frequency of the working range.

Claims (1)

Invention Formula A device for measuring the frequency dependence of the loss resistance and inductance of magnetic heads, comprising a generator, a first and second measuring amplifiers, a resistor and an alternating voltage meter, different 20 All that, for the purpose of automation and increase of accuracy, the control unit, the first and second switches, 5 measuring voltage, fa in orthor, phase detector, phase corrector, integrator, first second measuring generator and two negative-voltage circuits iO HOI communication, with the first input of the measuring device connected to the output of the gene and its output to the input of the phase inputs whose first output is connected to the input of the first generator and personal current and the first input of the detector, the nepBtiLM output of the device and the first one The measuring amplifier is connected directly to the first input of the first tator, and the digital equalizer to the second input of the phase detector; the output through the integrator is connected to the left input of the second measuring current generator, the signal input connected to the second output of the phase inverter, the generator output of the measuring current is connected to the second output of the device with one of the terminals of the measuring resistor and to the input of the second measuring amplifier, the second output of the measuring resistor is connected to the common wire of the amplifier and the second one of the first switch, the control of which is connected to the second side of the control unit, and you are connected to an overvoltage meter, the first and the second negative feedback on 45 dinenese in parallel form the measuring voltage black switch, the control in which is connected to the first in 25 thirty 35 40 control unit. Compiled by A. Eroshkevich Editor 0. Head of Tekhred O. Nece Corrector G. Reshetnik Order 1002/59 Circulation 544 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab, 4/5 Branch IPP Patent, Uzhgorod, st. Project, 4 All that, for the purpose of automation and increase of accuracy, the control unit, the first and second switches, the driver phase voltage, phase signal, phase detector, phase corrector, integrator, first measurement current generator and the second negative current feedback circuit, the first input of the measurement voltage generator and its output to the phase inverter input, The first output of which is connected to the input of the first generator of the measuring current and the first input of the phase detector, the output of the first generator of the measuring current, is the nepBtiLM output of the device and through the first measuring force The spruce is connected to the first input of the first switch directly, and through a phase equalizer to the second input of the phase detector, the output of which is connected via the integrator to the control input of the second measuring current generator, the signal input of which is connected to the second inverter output is the second output of the device and is connected to one of the terminals of the measuring resistor and to the input of the second measuring amplifier; the second terminal of the measuring resistor is connected to The device’s main wire, the outputs of the first and second measuring amplifiers are connected respectively to the first and second inputs of the first switch, the control input of which is connected to the second output of the control unit, and the output connected to the AC voltage meter, the first and second negative feedback circuits are connected in parallel the measuring voltage driver via the second switch, the control input of which is connected to the first input