SU993330A1 - Device for monitoring parameters of magnetic recording apparatus - Google Patents

Description

The invention relates to an accumulation of information, namely, devices for monitoring parameters of a magstatic recording apparatus. A device dp for controlling parameters of magnetic recording devices is known, which contains an input bus connected to the input of a measuring transducer with a capacitance of 1 J signal. This device has a relatively simple structure, but it does not provide for a sufficiently simple process of monitoring parameters of magnetic recording. It is also known that a device for controlling magnetic field recorder devices contains an input bus connected to the input of the measured signal converter, the first of which outputs are connected to the input of an approximating function signal generator, the loop of which is connected through the calculator to the output of the differentiating equipment, and the output - to the first of the inputs of the subtraction unit of voltages connected by the output to the INPUT 4 quadrant, and the unit of reference. This device allows you to ensure the ease of the process of monitoring the parameters of the recording devices | 2}. A disadvantage of the known device consists in the considerable duration of the process of monitoring the parameters of magnetic recording apparatus. Pel isobregeni - speeding up the process of controlling the parulet of MaiNnite recording apparatus This goal is achieved by the fact that the first sum of a stress strainer, the first power element, the first additional voltage subtraction unit, and the voltage divider connected between the output of the driver of the signal approximating

the function and the input of the reference block connected in series the first voltage multiplier, the second voltage adder, the root extraction element, the second voltage multiplier and the second additional voltage subtraction unit connected between the second output of the measured signal converter and the second input of the voltage subtraction unit, the third a voltage adder, connected between the output of the quad and the input of the differentiating element, the second unit of the exponentiation, the third voltage multiplier, the formers optimizing with ignals and (single unit signalizer, whereby the unitary signal shaper is connected to the input of the second voltage adder, the first optimizing signal shaper is connected to the inputs of the second additional voltage subtractor and the first voltage adder, the second voltage multiplier input is connected to the input of the first voltage multiplier and with the first input of the third voltage multiplier connected to the input of the voltage divider, and the third driver of the optimizing signal - with the input of the second voltage multiplier eny and to the input of the second element exponentiation connected to the input of a first additional block y chitshsh zhesh1y voltage and to the third input of multiplier vtorozugu stresses.

One of the possible variants of the proposed device for monitoring parameters of magnetic recording devices is shown on the lines.

The device contains an input bus 1 connected to the input of the converter 2 of the measured signal, the first of the outputs of which is connected to the input of the driver 3 of the signal of the approximating function. The other input of the imaging unit 3 of the signal of the approximating function is connected via block 4 to the output of the differentiating element 5, and the output to the first of the inputs of block 6 of voltage subtraction connected by the output to the inputs of quadra 7i

The device also contains a series-connected first voltage adder 8 voltages, the first element 9 of a return degree, the first additional voltage subtraction unit 10, and a divider 11 voltage five. connected between the output of the imager 3 of the signal of the approximating function and the input of the block 12 of reference, connected in series

the first voltage multiplier 13, the second cyMtyiaTop 14 voltage, the root extraction element 15, the second voltage multiplier 16 and the second additional voltage output unit 17 connected between the second output of the measured signal converter 2 and the second input of the voltage subtraction unit 6, and the driver 18 single signal. In this case, the shaper 18 of a single signal is connected to the input of the second adder 14 directly.

The device also contains a third voltage adder 19 connected between the output of the quad 7 and the input of the differentiating element 5, and the first, second and third drivers 20 and 22 of optimizing signals. The first optimizing signal generator 20 is connected to the inputs of the second additional voltage subtractor 17 and the first cyMiviaTopa 8 voltage. The second shaper 21 of the optimizing signal is connected to the input of the first multiplier 13 of voltages and to the first input of the third multiplier 23 of voltages connected to the input of the divide; bodies 11 voltages. The third optimizing signal generator 22 is connected to the input of the second voltage multiplier 16 and to the input of the second power element 24 connected to the input of the first additional voltage subtraction unit 10 and to the second input of the third voltage multiplier 23.

The device works as follows.

Claims (2)

In the device, the second output of the converter 2 of the measured signal and the second driver 21 of the optimizing signal are fed to the first multi-strand of the 13 voltages. The voltage of the first multiplier is 13 voltages. is added in the second adder 14 voltages with the voltage of the single side shaper 18. The result of the addition through the root-extraction element 15 is supplied with the voltage of the third shaper 22 of the optimizing signal to the second strainer 16. The result of the multiplication is supplied with the voltage of the first shaper 20 of the optimizing signal to the second additional voltage subtracting unit 17. The voltage of the second additional block 17 of the voltage is applied to the second input of the block 6 and the test, the scientific research institute, the first input of which receives the voltage of the driver 3 of the signal of the approximating function. The result of the output from the block of voltage subtraction is through the quad 7, the third summator of the voltage 19 and the differential element 5 enters the block 4 of the calculations. The latter solves the system of equations, from which it determines the unknown coefficient, and gives the correcting effects on the shaper 3 of the approximate signal. This process is repeated with the adjusted values of the coefficients until the voltage at the output of block 6 of the stresses becomes minimum 1M. In the device, the voltage shaper 3 of the signal approximating the function FCC is supplied to the first voltage adder 8, to which the current of the first shaper of the optimizing signal 2O is applied. The result of the addition is supplied through the first element 9 of the exponentiation to the first additional voltage extraction unit 1O, to which the voltage of the third optimizer 22 is applied to the power through the second element 24 of the exponentiation. The result of the subtraction is applied to the voltage divider 11, together with the voltage of the third voltage multiplier 23, to which the voltage of the second optimizer 21 provides the voltage of the third optimizer 22 through the second power element 24. The voltage of the divider 11 voltage is passed to the reference block 12. The use of the invention significantly speeds up the process of controlling the parameters of magnetic recording devices. The device for monitoring parameters of magnetic recording devices, containing an input bus connected to the input of the measured signal converter, the first TI3 outputs of which are connected to the input of the approximating signal generator (function, another input of which is connected through the unit calculating w to the output of the differential element, and the output - JC to the first of the inputs of the voltage subtraction unit, connected via the code to the quad input, and the reference unit, characterized in that, in order to accelerate the process of controlling the parameters, successively the first voltage adder, the first element raising to the power, the first additional voltage subtracting unit and the voltage divider connected between the output of the approximating function signal conditioner and the input of the reference unit, connected in series the first voltage multiplier, the second voltage adder , the root recovery element, the second voltage multiplier and the second additional voltage subtraction block, included between the second output of the converter of the measured sy aala and the second input and voltage subtractor, the third voltage adder connected between the quad output and the input of the differentiating element, the second power raising unit, the third voltage multiplier, the optimizing signal drivers and the single signal driver, and the single signal driver connected to the input the second adder of the directions, the first driver of the optimizing signal - with the inputs of the second additional voltage subtraction unit and the first adder of the voltages, the second form The optimizer signal is with the input of the first voltage multiplier and with the first input of the third voltage multiplier, connected to the input of the voltage divider, and the third optimizer of the optimizing signal with the input of the second voltage multiplier and with the input of the second element of the exponentiation connected to the input of the first additional voltage subtraction unit; and the second input of the third multiplier of voltages. Sources of information taken into account in the examination 1. US patent number 3864736, cl. 360-53, 04.02.75. 2. Japanese Patent M 48-37369, cl. 102 E O9, 10.11.73 (prototype).