SU448831A1 - Method for converting parameters of complicated electric circuits into standard signals - Google Patents

Abstract

A METHOD FOR CONVERSION OF PARAMETERS OF COMPLEX ELECTRIC CIRCUITS INTO UNIFIED SIGNALS using transients in a special measuring circuit, so that, in order to improve the accuracy of conversion, a parallel RL (C) switch is applied to the parallel RL (C) string. or on a series RL (HC) chain, a linearly varying (constant) current and form a calibrated time interval that exceeds the time constant of the RL (RC) chain, compare the current (current integral) flowing through the parallel Ri (YS) - chain ovative H1, (CC) -chain with two reference currents for a parallel RL (RC) -chain or voltage for a series RL (BC) -chain, less or less of which is more constant than the tenth of the current (current integral), flowing through a parallel RL (RC) -chain, or a constant component of the voltage on the serial RI, (RC) -chain, and allocate the time interval between the moments of alternate equality of the specified current (current integral) to two reference currents or two reference currents voltage, at the end of the calibrated time interval The polarity of the applied DC voltage or change the direction of change of the supply linearly varying current (the direction of the DC current) and allocate the time interval from this moment to the moment when the specified current (integral of current) or the specified voltage is zero, and then turn off applied DC voltage from parallel RL (RC) -cap or stop changing linear current (disconnect direct current) for the series RL (RC) circuit and measure the current (current integral) flowing through the parallel RL ( RC) -chain, or n straight zhe: of consistently Rb (RC) -chain (A4 ^ 4 ^ 0000 w.

Description

The invention relates to the field of electrical measuring equipment and can be used to measure the values of elements and the values of constant time or R b x C pe i p. There is a method of converting electrical circuit parameters to unified signals using transients in a special measuring circuit. However, the accuracy of conversion by a known method is low, there is no linear dependence of the resulting unified signals from the values of the elements forming RX x or K) (L chains, and on the values of their time constants. To improve the accuracy of the conversion to parallel (CR) - a chain is supplied with a constant voltage or to a series RL (YS); - a chain is supplied with a linearly varying (constant) current and a calibrated time interval is formed that exceeds the time constant RL (CS) of the circuit; the current flowing Through a parallel RU (RC circuit, or voltage on a series RL (YA) -chain with two reference currents for a parallel K1 (YA) -chain or voltage for a series Y1 (ChS) -chain, the smaller or smaller of which component of the current flowing through the parallel RL (PC) chain, or the constant component of the voltage on the serial P1 (YS) chain, and allocate the time interval between the moments of the alternating equality of the two reference currents or two reference voltage, at the time of completion of the calibrated The time interval changes the polarity of the applied DC voltage or changes the direction of change of the supply linearly varying current (DC direction) and allocates the time interval from this moment to the moment when the specified voltage or the specified voltage is zero. disconnect the applied direct voltage from the parallel I (RC) circuit, or stop changing the linearly varying current (disconnecting the supplying direct current) for the serial Rli (RL) and measure the current flowing through the parallel RL (Yas) -chain or voltage on the serial RL (PC) circuit. . The drawing shows a device that implements the proposed | th method. The device works as follows. The Start signal closes key 1 and opens key 2, while the parallel-connected elements are connected to the output of source 3 of constant voltage -EQ. At the same time, the driver 4 of the calibrated time interval starts forming the calibrated time interval T (.), Block 5 compares the currents linearly varying current flowing through RX Lx Elements, with two constant reference currents OP1 op) arriving at the inputs of the current comparison unit 5 from the source output 6 of the reference currents, and in equal moments signals to the seven time slots, which extracts the last - the interval of time t L y. Since Chtl as block 5 current comparison is complex and does not provide high accuracy of comparison, it is advisable to convert the current flowing through (Ij elements into voltage, supplying this current to a DC input amplifier (DCA) into a parallel negative feedback circuit The Yao resistor is turned on. Instead of the current comparison unit 5 and the source 6 of the reference currents, you can use the voltage comparison unit, which is switched on at the output of the DCF, and the source of the reference voltages Upq and C / rg. In other words, the time interval — ° O 1g - is given when the calibrated time interval ends.TQ signal from the output of the imager 4 of the calibrated time interval closes key 2 and opens key 8. In this case, the RX I-X elements are output from the source 9 constant voltage. constant voltage + EQ. Comparison unit 5, currents, and when using DCF, the voltage comparison block outputs the next signal when the current flowing through the elements is zero (the voltage at the DCF output). Block 7 allocates the time interval i from the end of the calibrated time interval T until the arrival of this signal. The key of the meter 10 is opened by the same signal, and the elements (they are called connected to the common bus, and the current meter 10 measures the current | 5 flowing after switching through the elements. When using DCF, instead of the current meter 10, they include a voltage meter, which measures the output voltage of the UPT II St, - Well - parallel of the parameters parallel to the R GX - chain, the integral of the current flowing through the R, C, -, elements can be obtained as a voltage on 1 of the UPT, into a parallel parallel circuit feedback which is included to capacitor C. When converting the serial parameters of the RyUx - or Ry Ox circuit, it is also advisable to use DCF, in the parallel negative feedback circuit of which one should connect the serial connected RyL x or RH Cx - elements, and the input circuit - inductance or resistor R ( 5. When connecting the inductance Uо or the resistor r, to the outputs of the DC voltage sources, respectively, RxL, - The elements are powered by a linearly varying current, - the elements - by a constant current

Claims (1)

(54X57) METHOD OF CONVERTING PARAMETERS OF COMPLEX ELECTRIC CIRCUITS TO UNIFIED SIGNALS, using transients in a special measuring circuit, characterized in that, in order to increase the conversion accuracy, a constant voltage or a series Rl (R) (R) (R) (R) is applied to the parallel -circuit is linearly changing (constant) current and form a calibrated time interval exceeding the time constant of Rt (RC) -circuit, compare the current (current integral) flowing through the parallel RL (AC) -circuit, or the voltage to the next a real R1 (KS) circuit with two supporting currents for a parallel RL (RC) circuit or voltages for a serial RL (RC) circuit, the smaller or smaller of which is greater than the DC component of the current (current integral) flowing through the parallel RL (RC) ) -nenb, or the constant component of the voltage on the serial RL, (JS) -chain, and allocate the time interval between the moments of alternating equality of the specified current (integral of the current) to two reference currents or voltage to two reference voltages, at the end of the calibrated time interval change the field the frequency of the applied direct voltage or change the direction of change of the supply linearly varying current (direction of direct current) and select the time interval from this moment until the specified current (current integral) or the specified voltage is equal to zero, after which the supplied direct voltage is disconnected from the parallel RL (DC) -chains or stop changing a linearly changing current (turn off the direct current) for the serial RL (RC) -chain and measure the current (integral of current) flowing through the 'parallel RL (RC) -chain, or voltage on a sequential RL (JS) chain. 14