SU434885A1 - Method for converting parameters of parallel rx-lx or rx-cx circuits into time intervals - Google Patents

Abstract

'METHOD FOR TRANSFORMATION OF PARAMETERS OF PARALLEL Kh ^ or R ^ C ^ CIRCUITS In the time interval based on comparing the electrical signals snimaem1h output from the measuring circuit, with the reference electrical signals, characterized in that, in order povsheni accuracy conversion at the parallel-connected RX ^ The 'x ** • "** ^ k ^^ elements supply a constant voltage, sum the current flowing through these elements with a linearly varying for Cc ^ x circuit or constant for the RyCx circuit the reference current of the opposite direction, the rate of change of whichRxb ^ circuits or the value for 115 ^ Chains is chosen such that the direction of change for I x l ^ x circuits or the direction for K ^ Sc circuits of the resulting total current coincides with the direction of change for Ryl'X Circuits or the direction for R ^ Cy circuits the reference current, and when the total current is equal for R ≪ L ^ circuits or, the integral of the total current for CdX circuits and the current of a given value form a calibrated time interval, at the end of which the linearly varying reference current in Rx ^ JX circuits ceases to change or disable constant reference m k in RxCx circuits, at the moment the total current for KxBx circuits or the integral of the current flowing through the RX ('J) circuit and the current of a given magnitude is equal, disconnect the DC voltage and sum up the current obtained after disconnecting the DC voltage linearly variable for (^ xUx Circuit or constant reference current for R ^ CX circuit, the direction of change of which for Rj (L ^ circuits or direction for Rj, Cy circuits is opposite to the radius of change for R x ^ x circuits or direction for RX ^ X circuits of the previously supplied reference current, allocate time intervals from the beginning of the formation of a calibrated time interval until the moment of disconnecting the constant voltage and from the moment of disconnecting, the constant voltage until the current equals the current value of the sum of the current for RXL X circuits or the integral of the sum of the current for R ^ Cx circuits obtained after disconnecting the constant national and other linearly varying for RX L x C ^ Pei or constant for '^ x ^ x reference current circuits. (L00 00 SL

Description

The invention relates to the field of electron-measuring technology and can be used to measure we, and the elements of the elements of K x B chains. There is a known method of converting the parameters of parallel circuits into time intervals, based on the comparison of electrical signals taken from the output of the measuring circuit with the reference electrical signals. However, the accuracy of the conversion by a known method is not high, in addition, the transformation of parameters parallel to RX is impossible, there is no linear dependence resulting from the conversion of time intervals on the values of the elements forming the parallel Rjc C (circuit, relatively low speed, due to the need to set the operating mode measuring circuit and re-excitation of the transient process in it. The proposed method differs from the known one in that in order to increase the accuracy Potentially applied to parallel connected (RyCx) elements, they supply a constant voltage, summing the current flowing through R LxCRtC) elements with a linearly (constant) reference current of the opposite direction, the rate of change (value) of which is chosen such that the direction of change (direction) of the obtained total current coincided with the direction of change (direction) of the reference current, and at the moment of equality of the total current (integral of the total current) and the current of a given value form a calibrated time interval the terminations of which stop changing the linearly varying reference current (disconnecting the constant reference current), then, at the time of equality of the total current (the integral of the current flowing through the RyC elements) and the current of a given value, disconnect the constant voltage and sum up voltages with another linearly varying (constant) reference current, the direction of change (direction) of which is opposite to the direction of change (direction) of the previously supplied reference current, separate time intervals from the beginning of the formation of a calibrated time interval up to the moment of disconnecting the constant voltage and from the moment of disconnecting the constant voltage until the current equals the specified value of the sum (integral of the current) obtained after disconnecting the constant voltage and another LIN; dynamic (constant a) reference current. The drawing shows a device that implements the proposed method. The device works as follows. According to the Start signal, the switch 1 is switched, and the negative constant voltage -EQ is applied to the parallel-connected R L j elements through the switch 1 from the output of the sensor 2 at a constant voltage. The same signal triggers a source 3 of a linearly varying reference current, which can be used as an exemplary inductance LQ (L (the current in which, when DC voltage + EQ is applied to its input, changes linearly). Figure 4 compares the currents generated on one its input is the sum of the current flowing through the Ry element and the linearly varying reference current with a current of a given magnitude (which in the particular case can be equal to zero) supplied to another input of the current comparison circuit from a source of current of a given magnitude. As the current comparison circuits are complex and do not have high accuracy, it is advisable to convert the resulting sum of currents into voltage, supplying it to the input of a direct current amplifier (DCA), into the parallel negative feedback circuit of which the resistor RQ is turned on. Current comparison circuit 4, it is possible to use voltage comparison circuit included at the output of the DCF, and compare the output voltage of the DCF 4 ... -AU with a zero voltage level. At the time of the operation of the current comparison circuit (voltage comparison circuit), the signal from the first output of the distributor 6 is triggered by the driver 7 of the calibrated time interval T, but the signal from the second after the time interval 1 ends, and the linear current from the reference current increases to The result of connecting a model inductance Lg to an RPV (bus itself. The voltage at the output yilj varies in time according to the following law; where t is the VRMS measured from the end of the calibrated time interval T.V the moment of the repeated operation of the current comparison circuit 4 (voltage comparison circuit) on the signal from its output and on the corresponding signal from the second output of the pulse distributor 6. A switch is switched and the parallel connected R x 1 h elements are connected to the common bus. linearly varying current, which can be used as a model inductance l, g, a constant voltage -Un is applied to the input of the latter. In this case, the voltage at the output of the DCF is changed according to the law, ,, UftbU - O-q. t. . where -t is the time counted from the moment BTopoio of the operation of the current comparison circuit 4 (voltage comparison circuit). At the moment of the third operation of the 4 Current Comparison (Voltage Comparison Scheme) circuit, the signal from the third output of the distributor 6 enters the time extraction block 9, which allocates the time interval (| t; Between the first and second moments;; operation of the current comparison circuit 4 ( voltage comparison circuits) and the p-l-oL time interval between the moments of the second and third operation 1 and current comparison circuit 4 (voltage comparison circuits). When converting parameters parallel to R c) circuit, it is necessary to replace linearly varying sources from the reference currents to the sources of the constant reference currents, and the integral of the total current can be obtained as a voltage at the output of the dc amplifier, whose parallel negative feedback circuit includes a GO capacitor.

Claims (1)

METHOD FOR CONVERTING PARALLEL PARAMETERS R _X L _X OR R _X C _X CHAINS IN TIME INTERVALS, based on the comparison of electrical signals taken from the output of the measuring circuit with reference electrical signals, characterized in that, in order to increase the conversion accuracy, to R connected in parallel _x L _x or R _x C _x elements supplied DC voltage is summed current flowing through these elements with linearly varying for R _x t _x or chain constant for R _x Cx circuit a reference current of opposite direction, which changes speed d For R _x b _x circuits, either the value for R _X C _X circuits is chosen such that the direction of change for R _x L _x circuits or the direction for R _X C _X circuits of the obtained total current coincides with the direction of change for Rχ U χ circuits or the direction for R _X C _X of the current reference circuits, and at the moment of the equality of the total current for R _x circuits or the integral of the total current for R _X C _X circuits and a current of a given magnitude, a calibrated time interval is formed, at the end of which the linearly changing reference current ceases to change in R _X L _X circuits or disconnect the constant support CURRENT IN RjCj chains, then at the moment of equality of the sum current dlyaYa _x L _x circuits, or the integral of the current flowing through Rχ C * chain and a predetermined amount of current is switched off the DC voltage and sum obtained after disconnection DC current to another linearly varying for R _x t _x circuit or a constant current for R _X C _X circuits, the direction of change of which of the day R _X L _X circuits or the direction for R _X C _X circuits is opposite to the direction of change for R _x L _x circuits or the direction for I _X C _X circuits of the previously supplied reference current, emit interval time from the beginning of the formation of the calibrated time interval to the moment of disconnection of the constant voltage and from the moment of disconnection, constant voltage to the moment of equal current set value of the sum of current for R x L x circuits or the integral of the sum of current for R _X C _X circuits obtained after disconnecting the constant voltage and another linearly varying for I x L x circuits or constant for R _X C _X reference current circuits.