SU1273986A1 - Device for measuring absolute value of electrical impedance of magnetic heads - Google Patents

Description

The invention relates to instrument engineering, in particular, to devices for measuring the parameters of magnetic heads used in magnetic recording devices. . The purpose of the invention is to improve the measurement accuracy. The drawing shows a structural diagram of the proposed device. The device contains a generator of sinusoidal signals 1, an amplifier 2, a transformer 3 with primary and secondary windings, a test magnetic head 4, an active resistance 5, a low-noise amplifier 6, a detector 7, an integrator 8, a mixer 9 current generator 10, a thermostable division unit 11, consisting of two structurally connected parametric elements 12 and 13 and thermal compensators of the amplifier 14, the indicator device 15, the first and second inputs of the device 16. The device works as follows. A sinusoidal signal from generator 1, amplified to the required value by amplifier 2, through transformer 3 is fed to series-connected test head 4 and active resistance 5. Transformer 3 is designed so that the output resistance R j of its secondary winding to source The signal E would be significantly less than the load resistance consisting of series-connected active resistance 5 with the value of R and impedance z of the magnetic head 4, i.e. GG This condition ensures the stability of the output voltage E when connecting magnetic heads with different impedance values z. The magnitude R of active resistance 5 is chosen to be significantly less than the impedance of the tested magnetic head, i.e. . Thus, the voltage E applied to the winding of the magnetic head 4 always has a constant value, and the current flowing through it 5 also is inversely proportional to the impedance z of the magnetic head. .From the foregoing, the voltage drop U at active resistance 5 can be found from the formula This voltage is amplified by a low-noise thermostable amplifier 6 to the value required for further transformations. Since the signal acting at the input of amplifier 6 reaches only a few microvolts, in order to ensure undistorted transmission of measurement information when the temperature of the circuit elements and the environment fluctuates, the intrinsic noise of amplifier 6 must be low, while the temperature stability of its parameters must be ensured. The signal amplified by amplifier 6 is eliminated in detector 7 and integrated in integrator 8 to eliminate pulsations. From the output of integrator 8, a signal in the form of a constant voltage, the value of which is inversely proportional to the impedance Z of the magnetic head 4, is fed to the first input of the mixer 9. To the second input This mixer receives the alternating voltage En applied to the winding of the test head 4. The mixer 10 mixes two signals: a variable with a constant amplitude En and a constant value th is inversely proportional to the magnetic impedance z, of the head. The mixed signal from the output of the mixer 9 is fed to the input of the current generator 10, which from the input voltage forms a proportional current that does not depend on the load. The output impedance of the current generator is infinitely large. The output of the current generator 10 is a mixed signal consisting of alternating current 1 with a constant amplitude and a direct current 1 where K is the proportionality factor determined by the transfer coefficient of the pre-existing blocks, is fed to the first parametric element 12 of the thermostable division unit 11, which performs the mathematical the operation of dividing the amplitude of the variable component 1 of the input signal by the value of the constant component 1. The resistance of the parametric element 2 of the variable component of the input current back in proportion to the constant component of p - Cg - i; where K is the proportionality coefficient. The amplitude of the voltage drop U on the parametric element 12 given by the variable component of the input current, taking into account expressions (4) and (5), is determined by the formula, etc. KZ and t. To :. As follows from expression (5), a signal & l enters the input of amplifier 14, the amplitude of which is directly proportional to the impedance Z of the magnetic head 4. In order to compensate for the temperature instability of the parametric element 12, the amplifier 14 is covered by negative feedback, which includes a parametric element 13, similar to element 12. In addition, parametric elements 12 and 13 are structurally combined, for example, in the form of an integrated transistor assembly and are in the same temperature conditions, which ensures identical e and synchronously change their parameters by tempera ture, and consequently a high thermal stability (e.g., in the range from -40 ° C to +65 C) dividing the first sun block. To the exit amplify2739864

Claims (1)

l 14 is connected indicator device 15, calibrated in terms of impedance. Apparatus of the Invention A device for measuring the magnetic impedance modulus of magnetic heads, comprising a transformer whose primary winding is connected via a first amplifier to a sinusoidal signal generator, and the first output of the secondary winding is the first input of the device, the second input of which is connected via active resistance to the second output of the secondary winding a transformer, as well as a first amplifier, detector and indicator device, characterized in that, in order to improve measurement accuracy, it o additionally equipped with an integrator, a mixer, a current generator, a dividing unit consisting of two parametric dividing elements and a second amplifier, while the resistance through the first amplifier connected in series, the detector and the integrator is connected to the first input of the mixer, the second input of which is connected to the first input device, and the mixer output through the current generator and the first parametric division element is connected to the first input of the second amplifier, whose output is connected respectively to the input of the dikatorny device, and through the second parametric element of the division - with its second input.