SU1402950A1 - Direct current measuring device - Google Patents

Abstract

The invention can be used for contactless direct current measurement and improves the reliability and safety of operation of the device. The device contains an auto-oscillator 1 with transformer feedback, a differential amplifier 21, capacitors 19 and 20, and resistors 17 and 18. The introduction of diodes II and 12, single-wave rectifiers 22 and 23, limiters 13 and 14, resistors 15-18 allows by separating the power circuit transformer and the rest of the circuit with a transformer, to provide galvanic isolation between the output and the power source. I il.

Description

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The invention relates to electrical measuring, engineering, and can be used for contactless measurement of direct current.

The aim of the invention is to increase the reliability and safety of operation due to the galvanic isolation of the device output from the power source. .

The drawing shows a circuit diagram of the device.

A device for measuring direct current contains an auto-generator with transformer feedback, including transformer 2 with operating 3 and 4, output 5, compensating 6 and measuring 7 windings, transistors 8.9 and voltage divider 10; diodes 1 and 12, limiters; 13 and 14, resistors 15-18, capacitors 19 and 20, differential current amplifier 21, one-half-wave drives 22 and 23, resistor 24, clem- we supply 25, input 26 and output i27 terminals.

The first output of the output winding 5 of the transformer 2 through the connected

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transformer feedback is connected to power terminals 25.

A device for measuring direct current operates as follows.

The alternating voltage of the auto-oscillator 1 is induced on the compensation winding 6, is rectified by the first and second half-wave rectifiers 22.23, and is used to power the amplifier 2 currents. In the absence of current in the measuring winding 7, the currents consumed by the current amplifier 21 are equal to each other in both power inputs. At this, due to the symmetry of the circuit of the autogenerator 1, an alternating voltage with equal half periods is formed on the output winding 5. In one of the half-periods, the first diode 11 is opened, in the other half-period - the second diode 12, through which the pulse voltage enters the inputs of the first and second limiters 13 and 14, respectively. The pulse-limited voltage from the outputs of the limiters 13 and 14 through the resistors 15 16 enters the capacitors 19 and 20. Due to the identity of the levels of restriction limiters 13,14 and is equal to

; successively diode 11, the limiter of 30 half-periods of alternating

13 and the resistor 15 is connected to the first terminals of the capacitor 19 and the resistor 18, the second terminal of the output winding 5 is connected to the common bus and the common terminals of the limiters 13 and 14, the third; the output of the output winding 5 through the diode 12 ,, connected in series; limb 14 and resistor 16 are connected to the first terminals of the capacitor 20 and resistor 17; the second terminals of resistors 17 and 18 are connected respectively to the first and second inputs of the differential current amplifier 21, and the second terminals of the capacitors 19 and 20 are connected to the common bus, the first terminal of the compensation winding 6 and the common terminals of the half-wave rectifiers 22 and 23, and the second terminal of the compensation winding 6 is connected to the corresponding half-wave rectifiers 22 and 23 conductive power inputs of differential amplifier 21, the current output of which is connected to the first output terminal 27 and through resistor 24 - to obi1ey bus and the second output terminal 27, terminals of the measuring coil 7 are connected to soot- vetstvu1atsi 1 input terminals 26 and power inputs with oscillator 1

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The constant voltages of capacitors 19 and 20 are equal to each other, therefore, the discharge current difference between capacitors 19 and 20 at the inputs of amplifier 21 is zero and its output voltage is also zero.

When current flows through the measuring winding 7 in the magnetic core of transformer 2, a constant magnetic flux is created that violates the symmetry of the half-periods of the voltage of the oscillator 1, and therefore the constant components of the voltages on the capacitors 19 and 20 change to become uneven in magnitude . A differential signal appears at the inputs of the current amplifier 21, the magnitude and polarity of the voltage being determined by the magnitude and direction of the current in the measuring winding 7. At the same time, the currents consumed by the current amplifier 21 through the various power inputs are violated. The input signal of a positive polarity leads to an increase in the current consumed from the first half-wave top microphone 22, and when the input signal polarity changes, the consumption increases.

 from the second half-wave rectifier 23. When using single-wave rectifiers 22 and 23, the currents flowing in different half-periods of alternating voltage turn out to be unequal to each other.

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The constant current component in the winding 6 compensates for the magnetic flux in the magnetic core of the transformer 2, due to the flow of current through the measuring winding 7. In this case, the output voltage of the current amplifier 21 uniquely determines the value of 10

The first and second power inputs of the autogenerator with transformer feedback are connected to the corresponding power terminals, characterized in that, in order to improve reliability and safety of operation, two diodes and two half-wavelength cells are inserted into it. , two limiters and three additional resistors, and a trick flowing through the measuring ob-15 onto the winding, the first output of which is 7 th.

Claims (1)

Invention Formula A device for measuring direct current, which contains a differential current amplifier, two resistors, two capacitors and an oscillator with transformer feedback, the transformer of which contains working windings, measuring and compensation windings, the measuring winding terminals are connected to the first and second input terminals, the first output the compensation winding is connected to the common bus, the first input of the differential current amplifier through the first resistor is connected to the first output of the first capacitor, Ora a differential input current amplifier via a second resistor connected to the first terminal of the second capacitor, the second terminals of lane The first and second power inputs of the autogenerator with transformer feedback are connected to the corresponding power terminals, characterized in that, in order to improve reliability and safety of operation, two diodes and two half-wavelength cells are inserted into it. , two limiters and three additional resistors, and output 0 is entered into the trans-formatting generator of the oscillator with transformer feedback 25 35 thirty the first diode, the first limiter and the third resistor connected in series to the first output of the first capacitor, the second output output winding connected to the common bus and common leads, the first and second limiters, the third output output winding through the second diode connected in series, the second limiter and the fourth resistor connected to the first output of the second capacitor, the second output of the compensation winding through the first and second single-period rectifiers connected to the corresponding inputs Itani differential current amplifier, the common terminals of the first and second half-wave vshr Mi- teley connected to the common bus, and output differential current amplifier connected to the first output terminal and through a fifth resistor - to the second output terminal and the common bus.