SU448832A1 - Method for converting values of element of resonant lc circuits into time interval - Google Patents

Abstract

A METHOD FOR CONVERSION OF THE VALUE ELEMENTS OF RESONANT LC CHAINS TO UNIFIED SIGNALS using transient processes in a measuring circuit, characterized in that, in order to improve the accuracy, linearly connected voltage is applied to the connected LC elements (connected to one another by connecting to one another, connected to one another, connected to one another, connected to each other, connected to one another, connected to each other, connected to each other, are connected to one another by connecting to one another, linearly connected to one another connect to one another. ) and form a calibrated time interval T ^ (TQ? -LH ^ is), at the moment of the end of which the previously applied linearly varying voltage or current is disconnected and supplied to the parallel-connected 'is-elements linear The linearly changing current of opposite polarity to the previously given voltage is connected to the LC elements connected in series and then the line voltage is switched off at the moment when the current flowing through the parallel connected CS-cells or the voltage across the HCB elements connected to zero is disconnected. (current) and measure the resulting current flowing through parallel-connected LC elements, or the voltage on the series-connected UC-elements, and then applied to the parallel-connected CS-elements constant at and, for series-connected direct current, compare the current flowing through parallel-connected LC-elements, or the voltage on the series-connected HC-elements with two reference currents for parallel-connected CS-elements or voltages for series-connected The LC elements and are isolated. the time interval between the moments of alternating equality of the current flowing through parallel-connected LC-elements, or the voltage on the HC-elements of the two mentioned reference currents (voltages) .pts (L4 ^ 4 ^ 000000to

Description

The invention relates to the field of electrical measuring and control techniques and can be used both for measuring the values of the elements of oscillatory circuits and for element-by-element control of the latter.

There is a method of converting the values of the elements of the circuits into unified signals using transients in the measuring circuit.

The proposed method differs from the known one in order to increase the accuracy of conversion to parallel-connected LC elements, they apply a linear voltage (on series-connected linearly varying current) and form a calibrated time interval T (, at the end of which time the previously applied linear value of or current and a linear voltage is applied to a parallel connected LC elements, and a linearly changing current of the opposite field is applied to series connected LC elements previously supplied, then at the moment of equality, the current flowing through parallel connected LC elements, or the voltage on series-connected LC elements, disconnect the linearly applied voltage (current) and measure the current received after disconnection flowing through parallel connected LC- cells, or the voltage on series-connected LC elements, then a DC voltage is applied to the parallel-connected Uc-cells, (., and the DC current flowing to the series-connected DC current is compared cutting parallel-connected UC-elements, or voltage on series-connected LC-elements with two reference currents for parallel-connected LC-elements or voltages for series-connected L-C-elements and separate the time interval between the moments of alternating equality of current flowing through parallel connected LC elements, or voltages on the LC elements to the two mentioned reference currents (voltages).

The drawing shows a diagram of the device that implements the proposed method. .. -

The device works as follows.

On the Start signal, the source 1 of the linear voltage is started, and the voltage is kt (k is the steepness of the linear voltage) through the key 2 that opens on the Start signal and goes to the parallel0 Dynennye ti X Su-elements. At the same time, the shaper 3 of the calibrated time interval Tr () is triggered by the signal from the output of which at the moment of the end of the calibrated interval

5-time TQ closes key 2, and linear voltage source 4 is started. At the same time, the + L parallel to the C x -elements through the switch 5 and the key 6, which opens on the Start signal, receives the voltage + k (t-ro). At the moment when the current flowing through the L-cell is equal to zero, the current-comparison unit 7 causes the signal through which the switch 5 is switched, and the LX-cell elements are connected to. common busbar, and the current meter 8 measures the flow through parallel connected

0 1) (Cx elements after switching. Since the current comparison unit 7 is complex and does not provide high comparison accuracy, it is advisable to convert the current flowing through the LxC elements into a voltage, by applying this current to the input of the DC amplifier, ), in the parallel negative feedback circuit of which a resistor Rg is included, instead of current comparison unit 7, a voltage comparison unit can be used that is connected to the output of the DC control, and instead of a current meter 8, a voltage meter, which at the time of equal output voltage The DCF according to the signal from the voltage comparison unit measures the output voltage of the DCF: Ugj ,,. After the time required to measure the current flowing through the ESC elements (voltage at the DCF output), the signal from the output of the delay line 9, on the key 6 is closed and the constant voltage sensor 10 is started. Voltage + Е с

 the output of the constant voltage sensor 10 is supplied to a pair of connected LxC) cells, the current through which begins to vary linearly. 3 At the moments of equality of this current to two reference currents entering the j6noKa 7 inputs of the comparison of currents from the source 11 of the reference currents and differing from each other on and T, block 7 compares the currents, and signals you :(; one unit of block 12 time interval assignment time interval i ü1-1h ((p. When using DCF, the signals from the output of the voltage comparison unit, to which the reference voltages are different from each other at bU, mark the beginning and end of the time interval i uUUv / RoEc 2 When converting the values of the elements of the latter 1, C цеп circuit, it is also advisable to use a DCF, in the parallel negative feedback circuit of which one should connect the series-connected uC elements, and in the input circuit, the resistor RQ .. At the same time, when R (j to the outputs of the sources RQ and 4 linear voltages and, when applying a constant voltage to the resistor K,, the LC elements, respectively, are fed with linear-current and constant currents.

Claims (1)

METHOD FOR TRANSFORMING THE SIZES OF ELEMENTS OF RESONANT LC-CHAINS UNIFIED SIGNALS, using transients in the measuring circuit, characterized in that, in order to increase accuracy, a linearly varying voltage is applied to the parallel-connected LC elements (linearly varying current is connected to the series) and a calibrated time interval Т _о (Тд? Ч 2L is formed. c), at the time of the end of which the previously applied linearly varying voltage or current is turned off and a linearly varying voltage is applied to the parallel connected LC elements, and an inevitably changing current of opposite polarity previously supplied, then at the moment when the current flowing through the parallel-connected LC elements or the voltage on the LC-elements connected in series is turned off, the linearly varying voltage (current) is switched off and the received current flowing through the parallel-connected LC elements is measured, or voltage on the series-connected LC-elements, after which a constant voltage is applied to the parallel-connected LC-elements, and on a series-connected constant current, comparing by the current flowing through the parallel-connected LC-elements or voltage <d in series connected LC-cell with two reference currents for the CA-parallel connected cells or voltages of series-connected LC-elements and isolated. the time interval between the moments of alternating equality of the current flowing through the parallel-connected LC elements, or the voltage across the LC elements to the two mentioned reference currents (voltages). □ oo o