SU983759A1 - Ac shunt - Google Patents

Description

The invention relates to electrical measuring equipment and can be used in devices for measuring current, power and electrical energy in AC circuits of the audio frequency range.

An AC shunt is known, provided with potential leads located along the outer surfaces of a bifilar.

In the indicated mount, the influence of residual parasitic inductance / i. the effect of the residual magnetic field is compensated by the mutual inductance between the current conductor 55 and the potential terminals of the shunt 1.

A disadvantage of the known construction is incomplete and ineffective compensation for low impedance shunts with resistance less than 0.1 W. In low impedance shunts, large currents flow through KQTOPHM, the intensity of the magnetic field between the inner plates of the bifillus is so large that located near the external surfaces of the bifilator (i.e., in the zone of a weak magnetic field), it is not possible to compensate for the effect of the residual magnetic field of the shunt.

The closest to the proposed technical entity is the AC shunt, made, in order to reduce the inductance, of thin plates (foil) of a resistive material, folded bifilically, with an insulating gasket between the plates f 2J.

Such a design allows a significant reduction in the inductance of the munts due to partial compensation of the magnetic fields from two masses flowing

15 in the opposite direction along two plates of a bifil. Unreleased shunt magnetic field residues cause the reactive component Rti / r of the impedance Z

20 shunt: Z R ju; T R R (1 JCfZ). where R is the active resistance of the shunt /

W 2Ef is the circular frequency of the alternating current;

25 -if- constant shunt time.

With a decrease in the value of the shunt resistance R, the relative effect of the residual inductance L substantially increases so KaKfb / R30

A disadvantage of the known shunt design is the significant effect of the residual inductance at low shunt resistance values.

The aim of the invention is to expand the frequency range.

The goal is achieved by the L4TO AC shunt containing a resistive element made in the form of two halves of a bifillary folded plate made of a resistive material, current leads and potential pin 1, is provided with an electrical conductor w. electrically isolated from each of them.

The drawing shows an example of the proposed AC shunt.

The shunt is made of one sheet 1 of flat resistive material (for example, a manganin foil) folded twice along the 2 bend line divided by dielectric spacers 3 and 4, between which a thin plate (foil) 5 of conductive material is placed, and contains current leads 6 and potential conclusions 7. When tiyHTOB is switched on in an alternating current circuit, plate 5 produces eddy currents causing a magnetic field directed oppositely to the stimulating magnetic field of the shunt.

Thus, the plate 5, enclosed between the halves of the shunt, reduces the residual magnetic field of the shunt. The demagnetization efficiency depends on the geometrical dimensions and the specific resistance f of the material of the plate 5. In the limiting case, when p O (i.e. using the plate 5 from the superconductor), the eddy currents will fully compensate for the shunt magnetic field.

When using a plate 5 of well-conducting | its non-magnetic material (eg, copper), it is possible to drastically reduce the intensity of the residual magnetic field of the shunt. With an increase in the frequency of the alternating current, the demagnetizing effect of the plate 5

increases, which allows the use of a shunt in a wider range of frequencies.

In addition to the demagnetizing effect, the proposed device makes it possible to reduce the influence of the surface effect on the resistance of the shunt. The loss resistance caused by the action of eddy currents in the demagnetizing plate, corresponds to the resistance connected in parallel to the main shunt resistance. Thus, with increasing frequency, the equivalent loss resistance decreases, which reduces the growth of shunt resistance with increasing frequency. Thus, the proposed shunt simultaneously reduces the residual inductance and compensates for the increase in shunt resistance with frequency, which ensures a reduction in frequency errors at high frequencies.

The present invention will find an application in electrical measuring equipment designed to measure and metrologically provide means for measuring the current, power and energy required by the national economy of a country, and will give a great economic effect.

Claims (2)

1. USSR author's certificate 266901, cl. And 01 From 3/02, 1970. 2. Authors certificate of the USSR 168786, cl. H 01 C 3/02, 1965. / / s /one / l