SU901918A1 - Ac shunt - Google Patents

Description

I

The invention relates to electrical measuring technology, namely, current-to-voltage converters, and can be used to measure current, power, energy, and phase angle in alternating current circuits in the audio frequency range.

An alternating current shunt is known, containing bifillary folded tape of resistive material, current clamps, bifilar current leads, and potential terminals l.

A disadvantage of the known shunt is a significant frequency error associated with the presence of the residual inductance of the shunt resistive element and its parasitic capacitance.

The closest in technical essence to the present invention is an AC shunt containing a bifilically folded tape of resistive material, current clamps, soldered to the ends of resistive flax | Ty, bifilar current leads connected to current clamps, bi-filar potential leads located along the outer surface of the shunt, and the set screw to change the "" and the distance between the potential leads near the bend of the loop of the shunt 2.

The disadvantage of the shunt is a significant frequency error due to incomplete compensation of the shunt inductance, and the presence of a parasitic capacitance, which reduces the accuracy of shunt conversion in the audio frequency range.

The purpose of the invention is to improve the accuracy of AC shunt conversion.

The goal is achieved by the fact that in an AC shunt, containing a bifillary folded tape from

Claims (2)

20 resistive material, current clamps attached to the ends of the tape, a bifilary current lead connected to the current clamps, and bifilar potential leads, an additional compensation winding, the coils of which cover one of the shunt current leads, is sequentially connected to one of the potential shunt leads. In the drawing. Schematically depicted device shunt. The AC shunt contains a bi-fold folded tape 1 of resistive material, current clips 2 and 3, made in the form of copper plates, for example, attached to the ends of the tape 1, a bifilary current lead and 5 connected to the current clips 2 and 3, biphilar potential terminals 6 and 7p of the compensation winding 8, made of a material with high conductivity, the turns of which cover one of the current leads, and the terminals of the winding are connected in series to the circuit of one of the potential conclusions 6 of the shunt. Potential pin 6 is attached to the upper (according to the drawing) half of bifillary tape 1 and potential lead 7 is passed through hole 9 in the upper half of tape 1 and is attached to its lower half. The shunt works as follows. The shunt is connected to the circuit of the measured alternating current using bifilar current leads and 5. When an alternating current flows through the shuit circuit, its potential terminals 6 and 7 produce a voltage equal to the voltage drop on the complex resistance of bifillary tape 1 shunt Simultaneously, under the action of a flowing alternating current in the compensation winding 8, the turns of which cover the current lead k, a voltage is induced that is proportional to the measured current and its frequency and is shifted relative to it in phase at an angle close to 90. Due to the serial connection of the compensation winding 8 with the potential output 6 of the shunt, the voltage drop on the complex resistance of the bi-filar tape 1 of the shunt with the voltage induced in the compensation winding 8, at which the reactive component of the voltage drop on the bi-filar tape 1 shunt is compensated for by the voltage induced in the winding 8. The necessary precision of compensation is obtained by changing the number of turns of the compensation winding 8 and the distance between its turns. The proposed AC shunt due to the additional compensation winding, inductively connected to the current lead and connected in series to its potential output circuit, has an increased conversion accuracy over a wider audio frequency range, since the compensation accuracy of the reactive component of the voltage across the shunt tape in the specified range is maintained regardless of the frequency of the measured ac current. The use of the proposed shunt can significantly improve the measurement accuracy in AC circuits operating in the audio frequency range. Claims of an AC Current Shunt comprising a bifipedly folded tape of resistive material, current clamps attached to the ends of the tape, a bifilary current lead connected to the current clamps, and bifilar potential leads distinguished by the fact that, in order to improve the accuracy of conversion , in the circuit of the current outputs of the shunt, an additional compensation winding is connected in series, the turns of which cover one of the current inputs of the unta. Sources of information, rintye taken into account in the examination 1. The author's certificate of the USSR 266901, cl. G 01 R 1/20, 01.0.70. 2. Authors certificate of the USSR 168786, cl. G 01 R 1/20, 01.20.6.