SU972586A1 - Device for measuring magnetic medium speed deviations - Google Patents

Description

The invention relates to an instrument (Structure / namely, a magnetic recording technique, and can be used to measure the speed fluctuations of a magnetic carrier in a magnetic recording apparatus.

A device for measuring the speed fluctuations of a magnetic carrier is known, which contains an indication and compensation channel for input signal steps, consisting of an integrating circuit, a voltage comparator, a pulse front generator, a multivibrator waiting, two electronic keys, and an additional multivibrator that is connected to an output indicator. signal.

Such a device makes it possible to control the non-informative pariexpoB of the input measurement signal 1.

However, it does not provide the necessary accuracy in measuring speed fluctuations.

It is also known a device for measuring fluctuations in the speed of a magnetic carrier containing an input signal generator, the first OR whose output is connected to a serially connected demodulator of a frequency-modulated signal, a frequency selector and an indication circuit, a counting pulse generator and a pulse counter whose output connected to the first input of the first OR circuit, as well as in parallel, with a sequentially waiting multivibrator and an indicator of deposition of the input signal 2.

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However, the known device introduces significant errors in the measurement result.

The purpose of the invention is to reduce the error of the measurement result.

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This goal is achieved by the fact that the device is equipped with a series-connected amplitude detector, a comparator and an Ugx 20 indicator less than permissible, connected to the first output of the input signal generator, as well as a delay circuit, a second OR circuit, a first and a second differentiation circuit on the leading edge of the pulse, 25 on the falling edge of the pulse, a pulse count prohibiting circuit, and a memory unit connected to the indicated pulse counter, the delay circuit being connected between

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Claims (2)

the second output of the input signal generator and the second input of the first OR circuit, to which in parallel: are connected the inputs of the first differentiation circuit on the leading edge of the pulse and the differential circuit on the falling edge of the pulse, the outputs of which are connected respectively to the first input of the second OR circuit and the memory block synchronization input , the output of the comparator is connected to the second input of the second OR circuit, and its output with the output counter of the pulse counter, the output of the demodulator of the frequency-modulated signal is connected in parallel to the To the left input of the circuit for the pre pulse counting and to the input of the second differentiation circuit by the leading edge of the pulse, the codes of which are connected respectively to the counting and synchronizing inputs of the pulse counter, and the counting pulse generator is connected to the second input of the pulse counting prohibition circuit. The drawing shows a functional diagram of the device. The device contains an input signal driver 1, connected in series and connected to the first output of the driver, an amplitude detector 2, a comparator 3 of the input signal and an indicator less than the allowed minimum 4, connected to the second output of the driver 1, delay circuit 5, the output of which is connected to the second input of the first OR circuit 6 and in parallel to the inputs of the first differentiation scheme by the leading edge of the pulse and the differentiation scheme 8 by the falling edge of the pulse, the counter of 9 pulses, the counting input of which is connected via cx 10 for a preta account with a generator of 11 counting pulses, and an output with serially connected, a waiting multivibrator 12 and an indicator of 13 fallouts and also, in parallel, with the first output of the first circuit OR 6, the second circuit OR 14, the first input which is connected to the output of the first differentiation circuit 7 by the leading edge of the pulse, the second input is connected to the output of the comparator 3, and the output is to the embedding input of the pulse counter 9. The device also contains an afterbirth. demodulator 15: a frequency-modulated signal, a FREQUENCY selector 16 and a circuit 17 in; d: speed oscillations, as well as a second differentiation circuit 18 on the leading edge of the pulse and memory block 19, with the trigger outputs of the counter 9 pulses connected with the corresponding inputs of the triggers of memory block 19, the inverse outputs of which are bitwise connected to the corresponding inputs of the counter 9 pulses. I When the input signal drops out, the last pulse of the imager 1, preceding the dropout, enters the delay circuit 5, which with the leading edge of its pulse through the differentiation circuit 7 and the OR 14 circuit, whips the counter 9. Then the demodulator 15 returns to the standby mode, thereby allowing the passage of pulses from the generator 11 through the circuit 10 prohibiting the counting to the counting input of the counter 9. Counter 9 counts the number of pulses of the generator 11 for the time before the arrival of the back edge-. ta pulse circuit 5 delay. With the arrival of this front, through the differentiation scheme 8, a command is given to record the number of pulses accumulated in the counter 9 into memory block 19. After that, the falling edge of the delay circuit 5 through the first circuit OR 6 triggers the demodulator 15 and the leading edge of its pulse through the differentiation circuit 18 gives the command to write the inverse code from the memory block 19 to the counter 9. After the end of the pulse at the output of the demodulator 15 the latter goes into standby mode, thereby allowing the counting of the pulses of the generator 11 through the prohibition scheme 10. In this case, the counter starts counting from a certain number K-N (where K is the capacity of the counter, N is the number of pulses of the generator 11, accumulated by counter 9 in the last preceding fallout, period of the input signal). When counter 9 arrives at the input from the generator 11 of the number of pulses N + 1, the counter overflows and a pulse appears at its output, which through the first OR circuit 6 starts the demodulator 15 and at the same time starts the waiting multivibrator 12, which turns on the fallout indicator 13 input signal. The leading edge of the demodulator pulse 15 through the differentiation circuit 18 gives the write command to the counter 9 in the inverse code of the same number of pulses from the memory circuit 19. Further operation of the device repeats in a similar way until the input signal appears or the comparator 3 triggers some delay. The use of the proposed invention makes it possible to measure and memorize the duration of the input signal period preceding the fallout, and in the case of a fallout, repeat it repeatedly, thereby excluding unreliable emissions from the indications of the fluctuations in the velocity of the magnetic carrier. In this case, the measurement error decreases, and also the possibility of operative quality control of the applied waveform appears. The invention The device for measuring fluctuations in the speed of movement of a magnetic body containing an input signal conditioner, the first OR circuit, the output of which is connected to a series-connected demodulator of a frequency modulated signal, a frequency selector and an indication circuit, a counting pulse generator and a counter for them / 1 pulses , the output of which is connected to the first input of the first OR circuit, as well as, in parallel, with the sequentially waiting multivibrator and the input signal drop indicator, which is different By the fact that, in order to reduce the measurement result error, it is equipped with a series-connected amplitude detector, comparator and Ugy indicator, which is less than acceptable, connected to the first output of the input signal generator, as well as the delay circuit, the second OR circuit, the first and second differentiation circuits along the leading edge pulse, a differentiation circuit on the falling edge of the pulse, a pulse count prohibiting circuit, and a memory unit connected to the indicated pulse counter, while the delay circuit is turned on waiting for the output of the input signal generator and the second input of the first OR circuit, to which the inputs of the first differentiation circuit on the leading edge of the pulse and the differentiation circuit on the falling edge of nmnulum are connected, the outputs of which are connected respectively to the first input of the second OR circuit and the memory input of the memory block, the output of the comparator is connected to the second input of the second OR circuit, and its output is swung to the input of the pulse counter; the output of the demodulator of the frequency-modulated signal is connected to the first the input of the pulse inhibit circuit and the input of the second differentiation circuit on the leading edge of the pulse, the outputs of which are connected respectively to the counting and synchronizing inputs of the pulse counter, and the counting generator, pulses are connected to the second input of the pulse count inhibiting circuit. Sources of information taken into account in the examination 1.Laufer M, V. Measurement of the instability of the speed of the recording medium, m., Connection, 1980, p. 86-88. 2. Authors certificate of the USSR 391482, G 11 V 15/46, G 01 P 3/48, 978 (prototype).