SU721755A1 - Current-to-voltage converter - Google Patents

Description

(54) CONVERTER CURRENT TO VOLTAGE

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The invention relates to circuits for converting alternating current to alternating voltage and can be used in measurement technology and automation.

Known current transformers in pianre, containing., An amplifier and a transformer with two secondary windings, one of which is connected to the input of the amplifier, and the other to the output of the amplifier in series l.

In the known converters of current to voltage, the output voltage depends not only on the input current, but also on the magnitude of the load resistance. This reduces conversion accuracy.

The purpose of the invention is to improve the conversion accuracy of the converter by eliminating the dependence of its output voltage on the load resistance.

The goal is achieved by the fact that the current-to-voltage converter contains a amplifier and a transformer with two secondary circuits, one of which is connected to the input of the amplifier, the other is connected to the output of the amplifier in parallel.

The drawing shows a circuit diagram of a current to voltage converter.

The current-to-voltage converter contains a transformer 1 with a primary winding 2 and secondary windings 3, 4, an amplifier 5 and a resistor 6. The input of the device is the primary winding of the transformer, and the output is the output of the amplifier.

The converted current I is fed to the primary winding 2 of transformer 1. The magnetomotive force (MDS) created by this current in the core of the transformer is balanced by the MDS created by the current in the compensation winding 4 of the transformer. The difference in MDS in the core of the transformer creates a magnetic flux п огла огла. This magnetic flux emf in the winding 3 transformer.

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which included id phoeuse chitsl 5 ,, 11npr $ same1 but melchu oazhmnlmi winding 3, amplified amplification, ssh-zdaot current in the compensation winding 4 and n resistor 6. With a large coefficient (}), the MDS amplifier gain. created by currents in windings 2 and 4, almost equal to 1S1. The current in the compensation winding in a steady state follows the law of variation of the input current. The voltage U and the output of the amplifier 5 is the output voltage of the converter. It is equal to the sum of the voltage drops across the resistance of the winding 4 and the resistance of the resistor 6. With a high gain factor in the steady state, the magnetic flux in the core of the transformer is negligible. If we neglect this magnetic flux and parasitic parameters of winding 4, the output voltage of the converter (and amplifier) is equal to the sum of the voltage drops on the active resistance of the winding 4 and on the resistance of the resistor 6. Therefore, it follows the law of change of current I.

When the value of the load resistance changes, due to the presence of the output impedance of the amplifier, the output voltage of the converter (amplifier) changes. However, a change in this voltage causes a change in the current in the compensation winding 4, which leads to 1 0J5 .1

Mopicity of the flux of the TpaHcijjopMaTopa sortechnik stream and thereby to a change in the input and output voltages of the amplifier. As a result, the change in the output voltage of the amplifier, and thus the converter, is restored. For example, when the load resistance decreases, the output voltage of the amplifier (converter) decreases, which leads to a decrease in the current in the compensation winding 4. As a result, this increases: the magnetic flux mismatch in the core of the transformer 1 and the output voltage of the amplifier. Tax recovers reduction of the output voltage.

Claims (1)

1. Patent of Great Britain N9 141О923, cl. Q 1 V, 1975. 6 -ci0L .. -0