SU1476393A1 - Electric power inductive meter rotating element - Google Patents

Abstract

The invention relates to the field of electrical measurements, in particular, to means of measuring electrical energy of alternating current. The purpose of the invention is to improve the accuracy of induction meters of electrical energy. Negative feedback is introduced into the series circuit of the rotating element of the induction counter. It allows stabilizing the parameters of the working magnetic flux of this circuit and eliminating the influence of various factors on the magnitude of the torque. Negative feedback consists of windings 5 and 6 of bias and feedback, integrator 8, voltage amplifier 9, voltage converter 10 - current. In addition, the rotating element contains magnetic cores 1 and 3 of parallel and serial circuits with excitation windings 2 and 4 and current-voltage converter 7. 1 il.

Description

The invention relates to electrical engineering, in particular to a means of measuring electrical energy of alternating current.

The purpose of the invention is improving the accuracy of induction meters of electrical energy.

The drawing shows a structural diagram of a rotating element of an induction electric energy meter.

The rotating element contains a magnetic circuit 1 of a parallel circuit with a field winding 2, a magnetic circuit 3 of a serial circuit with coils

4.5 and 6 of excitation, magnetization and feedback, a current-voltage converter 7, an integrator 8, a voltage amplifier 9 and a voltage-current converter 10, wherein the feedback winding 6 is connected to an integrator 8 input, the output of which is in series and opposite to the converter output 7 current - voltage is connected through a voltage amplifier 9 and a voltage converter 10 - current to the magnetization winding 5, the field winding 2 is connected to the voltage of the controlled circuit, and the field winding 4 is included in the load current circuit It is necessary with the input of the converter 7 current - voltage,

The rotating element of the induction meter of electrical energy works as follows.

If there is a current in the excitation winding 4 in the magnetic circuit 3, a magnetic flux is created, consisting of scattering fluxes Ф ₅ and a working magnetic flux Ф, the latter induces an EMF in the feedback winding 6 proportional to the differential of this flux. Then the voltage at the output of the integrator 8 is proportional to the working magnetic flux of the subsequent circuit% and coincides with it in phase.

The parameters of the converter 7 current voltage, integrator 8 and the number of turns of the feedback winding 6 are selected based on a predetermined ratio between the current of the monitored load and the working magnetic flux module of the serial circuit, provided that the phase of the flux φ ^ coincides with the load current. In this case, ¹ signal at the input of the voltage amplifier 9 is zero and there is no current in the magnetization winding 5. Due to the presence of losses in the path of the working magnetic flux, the flux lags behind the load current in phase and its module is less than the specified value. In this regard, the output voltages of the integrator 10 and converter 7 current - voltage, proportional respectively to the flux Ψ, and the load current, are not equal in modulus and differ in phase. A signal appears at the input of voltage amplifier 9 15, which, being proportionally converted to current, will create an additional magnetic flux taco20 in the magnetic circuit 3 using magnetization winding ¹ so that the values and phases at which the working magnetic flux Ф will have a given module and coincide in phase controlled circuit drain.

Since the ratio between the load current 25 and the flux Ф, in the proposed closed system is determined only by its design parameters (the number of turns of the feedback winding 6 and the parameters of the converter 7 current - voltage and integrator 8), with a sufficiently high gain of the voltage amplifier 9 the load current will cause a proportional change 35 of the flux modulus Ф, with its phase unchanged, regardless of the presence of dispersion fluxes, changes in the frequency and parameters of the material of the magnetic circuit.

Claims (1)

40 claims A rotating element of an induction electric energy meter containing magnetic circuits of serial and parallel magnetic circuits with field windings, and the field winding of the parallel circuit is connected to a voltage of a controlled circuit, distinguishing ₅₀ s in that, in order to increase accuracy, magnetization and reverse windings are introduced a serial circuit, a current-voltage converter, an integrator, a voltage amplifier ₅ 5 and a voltage-current converter, the feedback winding being connected to the integrator, the output of which is sequentially and counterclockwise with the output of the current-voltage converter 1476393 connected through the voltage amplifier and the voltage-current converter to the magnetization winding, the excitation winding of the serial circuit is included in. load current circuit in series with the input of the voltage converter.