SU667906A1 - Ac voltage-to-dc voltage mean value measuring converter - Google Patents

Description

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The invention relates to a temetrace tech and can be used in tele metering and information measuring (zstemah.

An ac current transducer in irocfo ' e voltage is known, comprising a transformer, the winding of which is transmitted in census toica to be measured, and the second. o6ivk) tka loading ina yishrishtep, composed. from the valves and the filter from which the SHSHT-Conversion, for example, 5К1вНие 1 .:

Incomplete device of the device OirioculTatib o high input softener Drinker Shtel, 1fluorine assembly1№Tn well, from the point of view of conversion accuracy, transformer mode::; .

The most blinker of the proposed converter, containing a transformer, the primary winding of which is included in the circuit of the measured current, and the secondary connection to the amplifier input, the output connected to the opposite poles of the first and second ventnle, connects one of the valve poles through one resistor to one of the the ends of the feedback winding, the other end of which is connected to a common point of the circuits

 devices. In addition to iorpi, the second pole of one of the black valves is connected to the inlet of the output amplifier 2. The drawback of such a device is dependent1 (; overvoltage voltage from the active feedback winding, the temperature of the instability of the KOTOjpdro leads to a decrease in conversion accuracy. ;:; .-. --- V.

The goal of yobrother is to predict (transformational properties;.

This is achieved1 with the fact that a device containing a traysffmat01p, an input input WINDOW, an output cover and a first feedback winding is amplified by an alternating voltage, the input of which is connected to the output winding of the transfemator, and the output output through the PF19M valve With the end the first winding of the feedback is a voltage voltage regulator, first, the input pole of which is connected to the nepisoMy pole of its output through a feedback resistor, and the second output poles of the amplifier are variable AC, and are used for input and output amplifiers PICs DC voltage dschneny with each other and parallel to the entry usilytel constant voltage of capacitors included. Inverter is introduced. The first pole of the inverter's input is connected to the first output field of the alternating voltage, the second input and output poles are connected to the second output of the AC voltage amplifier, and the first pole of its output is connected to the beginning of the second feedback winding through the second valve, connected with respect to the sweepsformer in the same type as the first valve of the type 1, the first is the beginning. and the end of the second feedback winding is connected to the first pole of the amplifier's input permanent capacitor .:: l. Drawing 1 shows the function of the analog circuit of the measuring transducer of the average value of alternating current constant voltage The on-switch converter contains a transformer 1 having an input winding 2, an output winding 3 and feedback windings 4 and 5, surge voltage switch 6, inverter 7, valves 8 and 9, capacitor 10, DC amplifier 11 and feedback resistor 12. Transformer front winding The oracle is connected to the circuit of the current being measured by NepeiweHKoro, the winding is connected to the air terminal of a variable voltage 6, the output of which is connected to the input of the inverter 7. The second poles of the alternating voltage and inverter are connected to the common point of the device circuits, and the output poles of their outputs are connected via valves 8 and 9 respectively to the end of feedback shell 4 and the start of feedback winding 5, the start of feedback winding 4 and the end of feedback winding 5 connections between (and are connected to the first pole of the input DC voltage and the second Gul whose input is connected to the common point ustroystaa chains. A parallel input to the amplifier is 11 V1sln a capacitor 10. In addition, the first pole is Vko-J and the amplifier 11 is a Phase 12 resistor soy) but it is not the first pole of its input .; .:,: The device works as follows. The convertible current flowing through the input winding 2 of transformer 1, and the currents flowing through the feedback windings 4 and 5 of transformer ra, create in its core an oppositely directed flow through THH1e. The difference magnet flux is in the output winding 3 of the EMF transformer, which is fed to the input of the variable amplifier 1 | 6 of voltage 6. Phases; The output voltage of amplifier 6 is changed by 180 ° using an inverter 7. One of the half-waves of the output voltage of the amplifier 6 creates a half-current flowing through the gate 8 and feedback winding 4, and the other half-wave voltage passes through the inverter 7, creates a half-wave of current. flowing through the valve 9 and the feedback winding 5. The currents of both half-waves after the feedback windings are connected through the parallel-connected capacitor 10 and the input resistance of the DC amplifier 11 to the common point of the device circuits. The average total current of the feedback windings, proportional to the average current in the primary winding 2 of transformer 1, creates a drop of hectares at the input resistance of amplifier 11, which is amplified by amplifier 11 covered by resistor 12 feedback loops. A constant voltage proportional to the average value of the current in the input winding of transformer 1 is removed from the output of the amplifier. Lii At a sufficiently large value of the gain of the alternating voltage amplifier 6 in the core of the transformer, almost full compensation of magnetic flux occurs. At the same time, the average value of the total current of the feedback windings is proportional to the average value of the current converted by the itepieMeHHoro and does not depend on the resistance of the feedback windings, which provides an increase in the measurement accuracy. Formula of the Invention A medium-to-constant-voltage measuring transducer containing a transformer, an input, a winding, a high winding and a first feedback winding, an AC voltage amplifier whose input is connected to the output MOTKe of the transformer, and the first output pole through the first valve connected to the end of the first winding of the connection, a DC amplifier, the upper pole of the input of which is connected to the first pole of its output through a feedback resistor, the second poles of which yes, the ac voltage amplifier, and the input and output of the dc amplifier are interconnected, and a capacitor is connected in parallel with the dc voltage amplifier, which has an inverter for the npBbiiueiHmfl conversion accuracy, the first input pole which is connected to the nepSbiM pole of the output of the variable voltage amplifier, the second poles of the input and the code are connected to the second pole of the output of the variable voltage amplifier, and the first pole of the amplifier. Its output is connected to the beginning of the second feedback winding introduced additionally through the second valve connected to the transformer in the same direction as the first direction gate, with the start of the first and the second second feedback loop connected to the first pole of the input of the DC amplifier.

Sources of information taken into account in the examination.

1.Electric measuring tubes. Ed. R. R. Kharchenko. M, L., Energie, 1967, p. 171, fig. 6.3.

2. Authors' certificate of the USSR K 468171, cl. G 01 R 19/22, 22. 06. 73,

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