PL160127B1 - Circuit for checking an alternating current transformer - Google Patents

Abstract

1. The invention concerns a system for testing alternating current transformer, comprising three current transformers, three balance indicators, a Wagner branch and a admittance current divider with an inductive divider, characterised in that the terminals marked (ZP1, ZP2, ZP3) of primary windings (UP1, UP2, UP3) of transformers (P1, P2, P3) are interconnected in point (P) and the terminal marked (ZW1) of the secondary winding (UW1) of the transformer (P1) is connected in point (W2) via the resistor (R3) to the unmarked terminal of secondary winding (UW2) of the transformer (P2), marked terminals (ZW2 and ZW3) of secondary windings (UW2, UW3) of transformers (P2 and P3) are interconnected in point (W1), whereas unmarked terminals of secondary windings (UW1 and UW3) of transformers (P1 and P3) are connected via resistors (R2 and R1) to the circuit ground (M1), and between the common connection point (W2) and circuit earth (M1), the balance indicator (WZ3) is connected, also between the common point (W1) and the circuit ground, components of the admittance current divider (ADP), capacitor (C), and resistor of (G) conductance are connected, whereas they are also connected to an inductive divider (DI), whereas the central terminal of the inductive divider is connected with the circuit ground (M1).<IMAGE>

Description

The subject of the invention is a system for checking an alternating current transformer, intended for use in the electrical measurement technique.

A system for checking an AC current transformer is known from common use, which includes three transformers, indicators of the equilibrium state, a Wagner branch and an admittance current divider with an inductive divider.

From the article: Dunfee BL titled "The design and performance of multirange current transformer standards for audio frequencies", published in IEEE Transaction Instruments and Measurement vol. IM-14, December, 1965, there are known systems for checking transformers, especially for 1, n and η + 1, where n is a natural number. The known circuit includes three transformers, three equilibrium indicators, a Wagner branch and an admittance current divider.

The disadvantage of the known systems is the inability to directly check transformers with ratios smaller than one.

The invention relates to an AC transformer checking system, characterized in that the marked terminals of the primary windings of the transformers are connected at a common point. At this point, the clamp of the third equilibrium indicator is connected. The unmarked terminals of the primary windings of the second and third transformers are connected by a resistor. The slider of this resistor is connected to the ground of the system and to the second terminal of the third equilibrium state indicator and to the terminal of the setting capacitor, the second terminal of which is connected at the point of connection of the resistor with the unmarked terminal of the primary winding of the second transformer. The marked terminals of the secondary windings of the second and third transformers are connected at a common point with the terminals of the second zero indicator, and the capacitor and admittance resistor of the current divider. The unmarked terminal of the secondary winding of the third transformer is connected via a resistor to the ground of the system. The marked terminal of the secondary winding of the first transformer and the unmarked terminal of the secondary winding of the second transformer are connected through a resistor at a common point. At this point, the clamp of the first equilibrium indicator is connected. The unmarked terminal of the secondary winding of the first transformer is connected to the system ground through a resistor. To the mass of the system are attached

160 127 also the other two terminals of the first and second balance indicators. Input terminals of the inductive divider are connected to the ground of the system and to the point of connection of the resistor with the unmarked terminal of the secondary winding of the third transformer. The output terminals of the inductive divider are connected to the admittance current divider setting elements: a capacitor and a resistor.

The advantageous effect of using the system according to the invention is the possibility of direct checking of transformers with ratios greater than one without the need for additional measurements.

The subject of the invention is explained on the example of an embodiment in the drawing, which shows a schematic diagram of a system for checking an AC transformer with a ratio greater than one.

The P3 current transformer checking system consists of two reference transformers Pl and P2 with ratios greater than unity, the terminals of which marked ZP1, ZP2 and ZP3 of the primary windings UP1, UP2 and UP3 of PI, P2, P3 transformers are connected at point P, to which the terminal of the third status indicator WZ3 is also connected. A resistor RW is connected to the unmarked terminals of the primary windings UP2, UP3 of transformers P2, P3, the slider of which is connected to the ground of the circuit M2 and to the second terminal of the third equilibrium state indicator WZ3 and to the terminal of the setting capacitor CW. The second terminal of the setting capacitor CW is connected to the connection point of the resistor RW with the unmarked terminal of the primary winding UP2 of the transformer P2. Marked terminals ZW2, ZW3 of the secondary windings UW2, UW3 of transformers P3, P3 are connected at the common point Wl. At this point, the terminals of the WZ1 equilibrium state indicator and setting elements of the admittance current divider ADP of the capacitor C and the resistor of conductance G are also connected. The marked terminal ZW1 of the secondary winding UW1 of the PI transformer and the unmarked terminal of the secondary winding UW2, transformer P2 through the resistor R2 are connected in a common point W2. This point is connected to the WZ2 zero indicator terminal. The unmarked terminal of the UW 1 winding of the PI transformer through the resistor R1 is connected to the ground of the circuit M1. The remaining terminals of the zero indicators WZ1 and WZ2 are connected to the ground of the system M1. The unmarked terminal of the secondary winding UW3 of the transformer P3 is connected through the resistor R3 with the ground of the circuit M1. The input terminals of the DI inductive divider, the output terminals of which are connected with the terminals of the ADP admittance current divider: capacitor C and resistor G are connected to the ground of the circuit M1 and the connection point of the resistor R3 with the unmarked terminal of the UW 1 secondary winding of the transformer P3.

Unmarked terminals of the primary windings UP1, UP2, UP3 of PI, P2, P3 transformers are connected with the sources of supply currents.

The principle of operation according to the invention consists in comparing the secondary currents IW1, IW2 and IW2, IW3 of the transformers PI, P2, P3 at the common points W1 and W2.

ADP

Department of Publishing of the UP RP. Circulation of 90 copies. Price: PLN 10,000

Claims (2)

Patent claims 1. The system for checking the AC current transformer, containing three transformers, three indicators of the equilibrium state, Wagner branch and admittance current divider with an inductive divider, characterized in that the terminals marked (ZP1, ZP2, ZP3) of the primary windings (UP1, UP2, UP3 ) of transformers (Pl, P2, P3) are connected at point (P) and the terminal marked (ZW1) of the secondary winding (UW1) of the transformer (PI) is connected at point (W2) through a resistor (R3) with the unmarked terminal of the secondary winding (UW2 ) of the transformer (P2), the marked terminals (ZW2 and ZW3) of the secondary windings (UW2, UW3) of the transformers (P2 and PI) are connected at a common point (Wl), while the unmarked terminals of the secondary windings (UW1 and UW3) of the transformers (PI and P3 ) are connected through resistors (R2 and R1) to the system power (Ml), and between the common connection point (W2) and the system ground (M1) the equilibrium indicator (WZ2) is connected, and between the point (Wl) and the system ground ( Ml) equilibrium index (WZ3), also between the common point ( Wl) and the ground of the system includes elements of the admittance current divider (ADP), a capacitor (C), a resistor with a conductance (G), which are connected to the inductive divider (DI), and the middle terminal of the inductive divider is connected to the ground of the system (M1). 2. The system according to claim The process of claim 1, characterized in that the terminals of the capacitor (C) and the resistor with a conductance (G) of the admittance current divider (ADP) are connected to the ground (M1) through an inductive divider (DI).