SU1140151A1 - Process for measuring non-linear distortions during magnetic recording - Google Patents

Abstract

- METHOD FOR MEASURING NONLINEAR DISTRIBUTIONS FOR MAGNETIC RECORDING by simultaneously recording control and auxiliary signals of different frequencies and amplitudes, reproducing them and measuring the ratio of signal amplitudes, which, in order to improve the measurement accuracy, change the recording phase and amplitude of the control auxiliary signal to improve measurement accuracy to obtain the minimum value of the component, its reproduction signal with a frequency equal to the frequency of the control auxiliary signal, after which the magnitude of the nonlinear distortions are determined by the ratio of the amplitudes of the currents of the recorded control auxiliary and main signals.

Description

about

The invention relates to the field of instrumentation, in particular, to a magnetic recording technique, and can be used in testing magnetic heads and magnetic tapes, as well as the entire recording channel. The known method of measuring the harmonic coefficient at which the reference sine wave is recorded, then the distorted signal is reproduced, using a narrowband notch filter, the reference sine wave is suppressed and the effective value of all its harmonic components is measured. However, in this measurement there is a significant error in the definition of harmonic components, caused by falling into the transparency band of the filter of other signals, due, for example, to different kind of pickups, chirp signal tion due to the detonation of the deck, the undesired amplitude modulation signal tion, schumami tape, etc. The closest in technical essence to this is a method of measuring nonlinear distortions in magnetic recording by simultaneously recording control main and auxiliary signals of different frequencies and amplitudes, reproducing them and measuring the ratio of the amplitudes of the reproduced signals 2. However, in this case, the measurement accuracy decreases sharply if there are noises in the form of background and sound, comparable in level to the measured distortions. Another disadvantage of this method is that the measurement places high demands on the tape mechanism, since the parasitic signal frequency modulation products of the signal due to the detonation of the tape mechanism and the parasitic amplitude modulation products become sources of additional measurement error. The purpose of the invention is to increase the accuracy of measurements. This goal is achieved in that according to the method of measuring nonlinear distortions in magnetic recording by simultaneous recording of the control main and auxiliary signals of different frequencies and amplitudes, reproducing them and measuring the ratio of the amplitudes of the signals change when recording the phase and amplitude of the control auxiliary signal to obtain the minimum component value the playback signal with a frequency equal to the frequency of the control auxiliary signal, after which the amount of nonlinear distortion is determined l dissolved relative amplitudes of currents recorded auxiliary and main control signals. The drawing shows one of the variants of the structural scheme according to which the method is carried out. The method is carried out as follows. The reference magnetic signal of the reference frequency is recorded on the moving magnetic carrier 1 using the recording head 2, for which the reference voltage and the high frequency bias voltage generated by the bias generator 4 are simultaneously applied to the head. sinusoidal oscillations of the reference frequency using a filter 5 from a wide range of oscillations produced by the generator of rectangular pulses 6. The recorded signal reproduces d t reproducing head 7. Due to the nonlinearity of the process of magnetic recording signal contained in the reproduced first and third harmonic of the reference frequency signal. The third harmonic is a product of non-linear distortion. To determine its magnitude and relative phase, a second (auxiliary) control signal is extracted from the signal of the square-wave generator 6 using a filter 8 tuned to the third harmonic frequency and fed through the phase shifter 9, the attenuator 10 and the adder 3 to the recording head 2 with basic reference reference signal. Due to the fact that the control signals are separated from the oscillations of the same spectrum, they are synchronized with each other in phase. The amplitude of the auxiliary pilot signal is then changed using the LO attenuator and its phase using the phase rotator .9 until the minimum reading of the selective microvoltmeter 11 tuned to the third harmonic frequency of the reference frequency control signal and connected to the reproducing head 7 is reached. In this case, the third harmonic of the reference signal of the reference frequency and the second reproduced control signal are equal in amplitude and opposite in phase, therefore compensate each other. As is well known, in the process of magnetic recording, in the absence of saturation of the cores of the magnetic head, there is a direct connection between the current in the recording head and the magnetization of the carrier, and therefore the connection between the current in the recording head and the EMF of the reproducing head. microvoltmeter determine the current value of the main reference signal of the reference frequency and the magnitude of the auxiliary current of the control signal

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with the frequency of the third harmonic, and then the coeff-Iwi is the current value of the control basis of the third harmonic according to the formulated signal with the reference frequency.

K2 -j ™ -100%, This method of measuring distortion by

where 1 tz is the value of the auxiliary current compared to that known to be more

third harmonic frequency; high accuracy.

Claims (1)

· METHOD FOR MEASURING NONLINEAR DISTORTIONS AT A MAGNET NOW RECORDING by simultaneously recording control main and auxiliary signals of different frequencies and amplitudes, reproducing them and measuring the ratio of signal amplitudes, characterized in that, with the goal of increasing the measurement accuracy, the phase and amplitude of the control auxiliary signal are changed when recording to obtain the minimum value of the playback signal component with a frequency equal to the frequency of the control auxiliary signal, after which the magnitude of the nonlinear distortion is determined by the ratio of the amplitudes of the currents aemyh auxiliary and main control signals.