SU824222A1 - Dividing device - Google Patents

Description

one

 The invention relates to analog computing and can be used in computing.

machines and simulators, as well as in instrumentation

Techniques for determining ratios

Two analog values.

A separating device is known which comprises an analog unit, an amplifier, an element with an adjustable transmission coefficient, the control input of which is connected to the output of the analog memory unit, the first one. switch, the movable contact of which is connected to the sub-element. with an adjustable transfer ratio, and the first and second fixed contacts are connected respectively to the first and second inputs of the dividing device, the comparison unit, the first input of which is connected to the OY7 path of the reference voltage source, and the output to the amplifier input, the second switch The movable contact of which is connected to the output of the element with an adjustable transmission coefficient, and the first and third fixed contacts are connected respectively to the second input of the comparator unit and the output of the divider device.

2

A disadvantage of this device is that its reliability is low due to the complexity of the circuit and the presence of a switch. .

A separating device is known that contains two analog memory blocks, two elements with an adjustable front factor 1, an amplifier, a comparison unit and switches f2.

The disadvantages of this device are the loss of information about the correspondence of input signals at the moment of switching, and the output signal of the device is not connected with anything, the output signal is not sufficiently reliable information about the ratio of input values; since the establishment of a certain value of the transmission coefficient of an element with an adjustable transmission coefficient (depending on the signal size — divider) occurs at one value of the signal — the divider; and, multiplication of the signal — divisible by the specified transfer coefficient occurs after switching, when the value of the signal divider can become

another.

Claims (3)

The most closely resembling to the proposed is a multiplying-dividing device, cojDiepmainee two for engraving, a voltage divider, a voltage converter into a control parameter, a divider metering unit, and a signal converter that is connected to the feedback circuit between paraphasis output 4 converter and input control of voltage dividers f3j. Its disadvantage is the low accuracy due to the non-identical characteristics of controlled voltage suppressors. This device controls the value of the transfer coefficient of only the control voltage divider to which the signal distributor is supplied. The control channel of the controlled divider ratio to which the signal-dividend is supplied remains open, as a result of which the influence of the divider characteristics is not the same or the accuracy of the device operation. The purpose of the invention is to improve the accuracy of the dividing device. For this purpose, a dividing device containing an element d is: adjustable transmission coefficient, a comparator unit and an amplifier whose input is connected to the output of the comparator unit, and an output to the control input of an element with an adjustable coefficient is inserted a modulator, adder, filter frequency, low pass filter and rectifier, the modulator input is connected to the reference voltage bus, the modulator output is connected to the first input of the adder, the second input of which is the signal-del input. device, the adder's output is connected to the information input of the element with an adjustable transmission coefficient, the output of which is connected to the input of the high-pass filter and to the input of the low-pass filter, the output {High frequency head is connected to the input of the rectifier, the output of which is the output of the device, the output of the low frequency is connected to the perBcntty includes a comparison unit, the second input of which is the input of the signal-divisible device. The drawing shows a block-ct. Sh "and dividing device. The separating device contains a modulator 2,, an argument 3, a regular transmission ratio, a filter 4 times the frequency, a block 5 erav, and a catcher b filter 7 of the upper stages and 8 directors. 8 is connected to the busbar, and the output is nepscaiy to the input of the adder 2. The second input of the adder 2 podktiochei to the original & WAY of the remote device, and the input to the input of the element 3 with regupper & transmission coefficient Through the filter 4 low frequencies the output of the element E with regulated lx transmission coefficient It is connected with the first input of block 5 comparison. The second input of the comparator unit 5 is connected to the second input of the dividing device, and the output is connected to the amplifier 6. The amplifier output is connected to the control input of the element 3 with an adjustable transfer coefficient, the output of which is connected in series: the high-pass filter 7 and the rectifier 8 associated with the output of the dividing device. Separating device works as follows. The reference voltage Eg is converted into a high-frequency AC, for example, a sinusoidal voltage U with g using modulator 1 power according to the expression. The received alternating voltage is fed to the first input of the adder 2, to the second input of which the input voltage 3 is supplied, resulting in a voltage at the output of the adder 2 and., Equal to 0 + 0 U, jj-Eg S in "ut . In this case, the output element 3c adjustable transmission coefficient voltage acts, W. equal to (and + j; gSin (s) t), where K is the gain of the element 3 with adjustable transmission coefficient, the resulting voltage C, containing low frequency IC, U ,, and the high frequency component, is fed to the inputs of the filter 4 of the lower frequency and the filter 7 of the upper frequencies. At the output of the lowpass filter 4, the voltage Ur. Is equal to, where Cc is the coefficient: the lowpass filter transmissions 4. From the last expression it can be seen that only the low frequency component is fed to the input of the comparator unit. output voltage u | where it is. compared with input voltage and divider devices. Mismatch signal Ug. amplified by an amplifier: 6, the voltage U of which is supplied to the input element 3 with the effective coupling input with adjustable transmission coefficient. Due to the feedback feedback, the error signal is close to zero, and therefore the following equality is true: "(1) The output of the high-pass filter 7 is higher than the high-frequency component of the output signal VA. element 3 with an adjustable transmission coefficient, in connection with which the output voltage Ug of this filter is equal to where Kg is the transmission coefficient of the high-pass filter 7. The voltage from the output of the filter 7 is fed to the rectifier 8, the output voltage Ug of which is determined by the expression. Uff KiKgK Eo, (2) where К „is the transfer coefficient of the rectifier. From the expression () we get k and, From the expression (2) we find the transfer coefficient K of the e-element Substituting relation (4) into (3) From the last expression it is seen that the output voltage of the device is proportional to the ratio of the input voltages and and U, since all other values are constant. Thus, the presence of a closed-loop system for controlling the transmission coefficient of element 3 and using for definition (| and the magnitude of this coefficient the high-frequency signals and the corresponding additional elements allows increasing the accuracy of the dividing device, since the transmission coefficients of the low-frequency and high-frequency components are controlled in one blo and the ratio between their values, which, even if different, in the process of regulation changes significantly less than the ratio between The coefficients have two different blocks, as is the case in the well-known device. Formula of the invention A separating device containing an element with an adjustable transmission coefficient, a comparator unit and an amplifier whose input is connected to the output of the comparator unit and the output to the control input of the element with an adjustable coefficient, characterized in that, in order to increase accuracy, a modulator, an adder, a high-pass filter, a low-pass filter and a rectifier are inserted into the separating device, the modulator input being connected to the busbars the reference voltage, the modulator output is connected to the first input of the adder, the second input of which is the input of the device divider signal, the output of the adder is connected to the information input of the element with adjustable transmission coefficient, the output of which is connected to the input of the high-pass filter and the input of the low-pass filter , the output of the high-pass filter is connected to the input of the rectifier, the output of which is the output of the device, the output of the low-pass filter is connected to the first input of the comparator unit, the second input of which is input signal divisible device. Sources of information taken into account in the examination 1.Zhilisk.as R.-P.P. Ratio meters and their application in radio measuring equipment. M., Sov. radio, 1975, p. 319. 2. Authors certificate of the USSR 634298, cl. G About G 7/16, 1978. 3. Authors certificate of the USSR 275534, cl. G 06 G 7/16, 1970 prototype).