SU1129554A1 - Reactive resistance-based converter data measuring device - Google Patents

Abstract

A DEVICE FOR MEASURING INFORMATION OF CONVERTERS ON THE BASIS OF REACTIVE RESISTANCE, containing a communication line between the receiving and the transmitting side, on the transfer side - the power supply unit, transformer, capacitor, reset element, switch, three pairs of input terminals for connecting primary converters R, L | Cj to reset primary converters, L, C | receiving side power supply, comparison unit, resistor divider and recording unit, the common wire on the transmitting side connected to the first input terminals for RiC converters, the first terminal of the toric winding of the transformer and the power supply, the output of which through the reset element is connected to the input of the initial installation of the switch, the outputs of which are connected to the second input-, four terminals for connecting the converters R, L ,, C, the clock input of the switch is connected to the second output of the second transformer windings, the primary winding of which is connected by one capacitor to the switch input and the other pin to the input of the power supply unit, on the receiving side the power supply is connected to the first resistor terminal The solider and the first input of the comparison unit, the third input of which is connected to the common point of the resistor divider, the second output of which is connected to the common bus of the device, the output of the comparison unit is connected to the registration unit, the first pro (L water line connects the first input of the comparison unit and the common point of the primary winding of the transformer and the power supply unit, the second wire of the communication line connects the second input of the comparison unit and the common point of the capacitor and the switch input, characterized in that, in order to extend the functionality, has been entered on the transmitting side and two key generator, the output .generatora connected with the control input keys, a first input transducer for -zazhim c4 through the first switch device connected to a common bus through which the second switch is connected to the second input terminal with the transducer.

Description

 The invention relates to electrical measurements and telemetry and can be used in various industries, in particular in automated production technology control systems and in geophysical surveys of wells. It is known to use a bridge circuit to determine parameters such as resistance, capacitance, and inductance. Then, with an unknown parameter is included in one of the PL bridge, the bridge is balanced and an unknown value is determined through the known parameters of the three remaining arms of the bridge jlj. However, this device is difficult to implement in some applications, for example in telemetry, due to the influence of the distribution of communication link parameters. . The closest to the proposed technical essence is a device containing a communication line between the receiving and transmitting sides, on the transmitting side — a power supply unit, a transformer, a capacitor, a reset element, a switch, three pairs of input terminals for connecting converters. R, L, C, on the receiving side, a power supply, a comparison unit, a resistor divider and a recording unit, the common wire on the transmitting side being connected to the first input terminals R, C, the first output of the secondary winding and a power supply unit whose output is through the reset element connected to the input of the initial installation of the switch. The OUTS of which are connected to the second input terminals for connecting converters R, L, C; the clock input of the switch is connected to the second output of the transformer secondary winding, the primary winding of the cat One terminal through a capacitor is connected to the input of the switch, and another is connected to the input of the power supply unit on the receiving side of the power supply connected to the first output of the resistor divider and the first input of the comparison unit, the third input of which is connected to the common point of the resistor divider, the second output of which connected to the registration unit, the first wire of the communication line connects the first input of the comparison unit and the common point of the primary winding of the transformer and the power supply unit, the second wire of the communication line connects the second input of the unit compared to and the capacitor and a common point and input switch 2} disadvantage of this device is that using a transform of the parameter in the time interval during transient processes in the RC - or RL. - chains, one of the elements of the chain is taken as exemplary and the other measured, in the device it is impossible to apply a single exemplary element of the chain with which it would be possible to measure all three K, 1, of the Parameter. For example, using an exemplary C-parameter, the R-parameter is measured, but L or C-parameters cannot be measured. The purpose of the invention is to expand the functionality of measuring RLC parameters, which consists in being able to measure all three parameters through any of the LC parameters, taken as exemplary. The goal is achieved by the fact that in a device for measuring information of converters on the basis of reactive resistances, containing a communication line between the receiving and transmitting side, to the transmitting-; power supply unit, a transformer, a capacitor, a reset element, a switch, three pairs of input terminals for connecting primary transducers R, L, C, on the receiving side - a power source, a comparison unit, a resistor divider and a recording unit, and on the transmitting side the wire is connected to the first input terminals for converters R, C., the first output of the transformer secondary winding and the power supply, the output of which through the reset element is connected to the input of the initial installation of the switch, the outputs of which are connected to the second input terminals for connecting converters R, L, C, the clock input of the switch is connected to the second output of the secondary winding of the transformer, the primary winding of which is connected through one capacitor through the capacitor to the input of the switch, and the other side of the power supply is connected to the first output of the resistor divider and the first input of the comparison unit, the third input of which is connected to the common point of the resistor divider, the second output of which is connected to the common bus of the device, the output of the block Comparison is connected to the registration unit, the first wire of the communication line connects the first input of the comparison unit and the common point of the primary winding of the transformer and the power supply unit, the second wire of the communication line connects the second input of the comparator unit and the common point of the capacitor and the input of the switch, the generator and two keys, the generator output is connected to the control inputs of the keys, the first input terminal for the converter L is connected via the first key to the common bus device (which, via the second key, is connected to orlm converter input terminal S. The drawing shows a block diagram of the device. The device contains on the transmission side a power supply unit 1, a transformer 2, a capacitor 3, a reset element 4, a switch 5, (resistive) R 6, (inductive) L 7 and (capacitive) C 8 primary converters, (switching) switches 9 and 10, generator 11, first 12 and second. 13 wires of the communication line. On the receiving side, the device contains a power source 14, a comparison unit 15, a resistor divider 16, a registration unit 17. The input of power supply unit 1 is connected to the first wire 12 of the communication line and through the primary winding of the transformer 2 and the capacitor 3 connected in series with the second wire of the communication line 13 and the input of the switch 5, and the output through the reset element 4 is connected to the input of the initial installation of the switch 5 The outputs of the latter are connected to resistive primary converters 6, with series-connected inductive primary converters of information 7 and switching keys 9 and with parallel-connected capacitive primary converters information readers 8 and switching keys 10. Generator 11 is connected to control inputs of keys 9 and 10. Power supply 14 is connected to the first wire 12 of the communication line and the first input of the comparison unit 15, the second input is connected to the 13-wire. and the third input is with the output of the resistor divider 16 connected to the power source 14. The output of block 15 of the comparison is connected to the input of block 17 of registration. The device works as follows. in a way. After the supply voltage is applied, the switch 5 is brought back to its initial state by the impulse produced by the conformer element 4, in which a resistive primary converter b is connected to the wire 13 of the communication line. Through the connected resistor, converter 6 begins to charge the distributed capacitance between the wires 12 and 13 of the communication line. In this case, the role of the exemplary capacitance is played by the distributed capacitive communication line. Before applying the power supply voltage, this distributed capacitance was discharged, therefore the potential of the connection point of the wire 13 of the communication line and. the input of the comparison unit 15 is close to the voltage of the power source 14 to, followed by Tejjbno, is higher relative to the potential of the other input of the block; 15 of the comparison connected to the output of the resistor divider 16. As the distributed capacitance of the communication line is charged, the potential difference across these two blocks tends to zero, upon reaching which the comparator unit 15 is triggered, the output pulse of the distributed link capacitance reaches 17 registration. At the same time, the distributed capacity of the communication line is discharged through comparison unit 15, through the inputs connected to wires 12 and 13 of the communication line. At the same time, through the inputs of the comparison unit 15, connected to the wire 12 of the communication line and to the output of the resistor divider 16, the upper resistor of the latter is shunted, as a result, the output voltage of the matching unit 15 is formed at the output of the resistor divider 16. The discharge of the distributed capacitance of the communication line occurs until the potential of the input of the comparison unit 15, connected to the wire 13 of the communication line, reaches a new potential value at the output of the resistor divider 16. Thereafter, the comparison unit 15 receives a signal that the discharge is distributed capacity in block 17 of registration. The time interval counted from the beginning of the charge of the distributed capacitance to the beginning of the discharge is proportional to the value of the resistive converter 6. Simultaneously with the charge of the distributed capacitance, charge and discharge of the capacitor 3 connected in series with the primary winding of the transformer 2 between the wires 12 and 13 of the line occurs communication and having a capacity of several tens of times less than the capacity of the communication line. The control pulse generated during the discharge from the secondary winding of the transformer 2 arrives at the clock input of the switch 5, which connects, for example, an inductive information converter 7. The charge of the distributed capacity occurs again, but not continuously, but in steps, since the key is 9; the generator 11 commutes the charge current of the circuit, thus the reactance of the inductive converter 7 will be оL, where generator OiCxinSt frequency 11, and L the inductance of the converter 7 is unknown. The charge current of the distributed capacitance is also determined by the reactance of the converter 7, therefore the charge time distributed capacitance

Claims (2)

DEVICE FOR MEASUREMENT INFORMATION OF CONVERTERS BASED ON REACTIVE RESISTANCE, containing a communication line between the receiving and transmitting sides, on the transmitting side - a power supply unit, a transformer, a capacitor, a reset element, a switch, three pairs of input terminals for connecting the primary converters, C _? on the receiving side, a power source, a comparison unit, a resistor divider and a registration unit, and on the transmitting side, the common wire is connected to the first input terminals for RyC converters, the first output of the secondary winding of the transformer and the power supply, the output of which is connected to the input via a reset element the initial installation of the switch, the outputs of which are connected to the second input by _Q terminals for connecting the converters R, L ,, C, the clock input of the switch is connected to the second output of the second transformer winding, the primary winding of which, through one capacitor, is connected to the input of the switch and the other to the input of the power supply, on the receiving side, the power source is connected to the first * output of the resistor divider and the first input of the comparison unit, the third input of which is connected to a common point of the resistor divider, the second the output of which is connected to the device common bus, the output of the comparison unit is connected <to the registration unit, the first wire of the communication line connects the first input of the comparison unit and the common point of the transformer primary winding and power supply unit, the second wire of the communication line connects the second input of the comparison unit и and the common point of the capacitor and the input of the switch, characterized in that, in order to expand the functionality, a generator and two keys are introduced on the transmitting side, and the output of the generator is connected to control inputs of the keys, the 'first input' clamp for the converter m through the first key is connected to the common bus of the device, which through the second key is connected to the second input terminal of the converter C. GO with © SP SP> 2 '