DE1053100B - Electrical compensation circuit - Google Patents

Description

The invention relates to a compensation circuit in which the power meter test to compensating voltage from the sum of the voltage drops at the normal resistor and at the divider resistor of the voltage circuit, hereinafter referred to as the compensation summation circuit. Such Compensation circuits are described in the publication »Step compensator circuit for power meter testing with a single compensator setting «from» Scientific treatises of the Physikalisch-Technische Bundesanstalt "Volume 8, 1956, Part 1, p. 19, became known.

In Fig. 1, such a compensator circuit for power meter testing is illustrated by the publication known features shown.

The circuit consists of the voltage circuit 1, the test circuit 2 and the compensator 3. The voltage circuit 1 consists of the source 4, which feeds the voltage path of the power meter 6 to be tested via a variable resistor 5. A voltmeter 7 and a voltage divider consisting of resistors 8, 9 are connected in parallel to the voltage path of the test object. The test circuit 2 consists of a current source 10 to which the current path of the test object 6 and a normal resistor 12 are connected via a variable resistor 11. Voltage circuit 1 and test circuit 2 are galvanically connected to one another by line 13. The line 13 results in a series connection of the resistor 9 of the voltage circuit with the normal resistor 12. The compensator 3 is shown in greatly simplified form and essentially consists of the auxiliary power source 14, which is supplied via a variable resistor 15 to feed a compensation resistor 16, for example, provided with several taps serves. The prescribed auxiliary current is set by means of the compensation circuit consisting of resistor 17, normal element 18 and galvanometer 20, this being done in position H of switch 19. The test of the instrument 6 takes place in the position P of the switch. The zero galvanometer 20 is then arranged between the connection point of the normal resistor 12 and the current path of the test object and a fixed point of the compensation resistor 16. The variable tap 21 of the compensation resistor 16 is connected to the variable tap 22 of the divider resistor 9.

For setting the pointer deflection of the power meter to be tested to the various scale divisions the current / is changed. The voltage drop across the normal resistor 12 then changes proportionally with the current /, i.e. also proportionally with the pointer deflection of the test object. Accordingly Electrical compensation circuit

Applicant:

LICENTIA Patent-Verwaltungs-GmbH _r Hamburg 36, Hohe Bleichen 22

Gerhard Busse, Berlin-Tempelhof,
has been named as the inventor

is also the partial voltage to be compensated of the voltage on the voltage path of the test object changed proportionally with the deflection of the test object by adjusting the tap 22 on the voltage divider 9. The sum of the voltage drops is compensated.

The invention is now based on the object of the compensation circuit described for the test to make power meters usable for testing ammeters and voltmeters, as this is the only way to obtain a fully-fledged facility. Otherwise you would otherwise have to go to the test the latter instruments use special facilities, which is disadvantageous. According to the In accordance with the invention, the compensation sum circuit for testing power meters is also used for testing of ammeters and voltmeters made applicable that the compensation resistor the auxiliary current flowing through the compensation device is reduced to half the value.

In FIG. 2, an exemplary embodiment according to the invention is shown. The same elements carry the same numbers as in Fig. 1. The compensation resistor 16 of the compensator 3 are two resistors 23, 24 switched on. A changeover switch 25 is also provided. In the extended position of the The power meter test is carried out with the switch and in the dashed position it is indicated by suitable dimensioning the resistors 23, 24 halve the auxiliary current flowing through the compensation resistor 16, so that current and volt meters can be tested in this switch position.

If it is possible to intervene in the compensator or if it is a new production, then for mentioned compensation resistor for the normal

809 7701219

Claims (1)

element a resistor of the same value can be connected in parallel. However, this resistance must be switched off because when testing ammeters and voltmeters, the simple auxiliary current is required again is. The invention thus provides the compensation device known from the publication for The applicability of the testing of power meters has been significantly expanded. Claim: Compensation circuit in which for the power meter test · the voltage to be compensated from the sum of the voltage drops at the normal resistance and at the divider resistance of the voltage circuit consists, characterized in that the current and voltmeter test the Compensation '' Resistance flowing through auxiliary current is reduced to half the value. 1 sheet of drawings © 809 770/219 '3.59