SU1246015A1 - Permanent-magnet electronic current-to-voltage converter - Google Patents

Abstract

The invention relates to electrical measurements and can be used in devices for measuring stalk current with galvanic isolation. The purpose of the invention is to increase the accuracy and expansion of the frequency range by compensating for the frequency dependence of the device. For this purpose, a device containing a transformer 1 with primary winding 2 and secondary windings 3 and 4., operational amplifier 6, resistor 5, capacitor 9, resistor 8, operational amplifier 7 are inserted. i.e. The transformer has an increasing frequency response. However, the integrator, formed by elements 7,8 and 9, evaluates the frequency dependence of the secondary voltage of the secondary winding, since its frequency response is decreasing. The provision of frequency dependence compensation allows an increase in conversion accuracy in the extended frequency range of the current to be converted. An additional advantage of the converter is an increase in the stability margin due to the phase shift introduced by the integrator. 1 il. with S (L

Description

I: 12460 The invention relates to electrical measurements and can be used in instruments for measuring alternating current with cable and cable isolation.

The purpose of the invention is to increase the accuracy and expansion of the frequency range by compensating for the frequency dependence of the device.

The drawing shows an electrical schematic diagram of a transform. Jq pad

The current-voltage magneto-electronic converter contains a transformer 1 with the first winding 2 and with the first 3 and second 4 secondary windings. The first secondary winding 3 is connected by one output through the first resistor 5 to the output of the first

operational amplifier 6 and to the output bus, and another output to the inverting input of the first operational amplifier 6 and the output of the second operational amplifier 7. The first output of the second secondary winding 4 is connected via a second resistor 8 with the inverting input of the second operational amplifier 7. Soi dinene with its inverting input through the capacitor 9.; The second output of the second secondary winding 4, as well as the non-power input of the operational amplifiers 6 and 7 are connected to the common bus.

The magneto-electron-current converter - the voltage works as follows.

When the convertible current 1 flows through the primary winding 2 of the transformer 1 in the winding 4, an EMF is induced, which through a resistor 8 is fed to the inverting input of the operational amplifier 7, which together with the resistor 8 and the capacitor 9 forms an integrator. A voltage proportional to the integral of the EMF of the winding 4 is amplified by the operational HbiM amplifier 6 and converted by a resistor 5 into a current flowing through the winding 3. This current creates a magnetic flux in the core of the transformer that compensates the magnetic flux created by the converted current ij. Due to the compensation of the magnetic fluxes of the windings 2 and 3, the emf of the winding 4 is a function of their difference. the difference of the currents of the windings 2 and 3, taking into account the ratio of their number of windings.

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. Since the magnitude of the current of the winding 3 is directly related to the magnitude of the EMF of the winding 4, and the smaller the difference of the magnetic fluxes of the windings 2 and -3, the smaller the emf of the winding 4, negative feedback acts in the converter to balance the converted current i . ,,

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current winding 3, taking into account the ratio of turns of these windings. The current of the winding 3 is formed from the output voltage and., Resulting in an accurate conversion of the current i. during voltage U. ,,,. With

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by increasing the frequency and constant amplitude, the current i of the EMF of the winding 4 increases, since the transformer has an increasing frequency response. However, the integrator compensates for the frequency dependence of the EMF of the secondary winding, since its frequency response is decreasing.

Thus, the differences of the magneto-electronic current-voltage converter provide compensation for its frequency dependence and thereby increase the accuracy of the conversion.

, in the extended.m frequency range of the converted current. In addition, the advantage of the converter is an increase in the stability margin due to the phase shift, which is clearly the integrator.

Claims (1)

Invention Formula Current-voltage magneto-electronic converter containing a transformer with a primary and two secondary windings, a first operational amplifier, a first resistor connected between the first output of the first secondary winding and an output bus connected to the output of the first operational amplifier, and a capacitor whose first output is connected with the inverting input of the first operational amplifier and the second output of the first secondary winding, while the first output of the second secondary winding is connected to the common bus, h for the purpose povsh1eni accuracy and extended frequency range, it is further introduced a second resistor and a second operational amplifier whose output is connected to the inverting input of the first operational amplifier, the inverting .312460.15 .4 the input is with the second output of the condensate, and the non-inverting input is of the S.ner and, via the second resistor, with the W-inverting input of the first operative output of the second secondary winding amplifier and with a common bus.