DE952538C - Voltage divider for compensators for setting and measuring integer and non-integer voltages by means of three resistors operated via a crank switch - Google Patents

Description

Voltage divider for compensators for setting and measuring integer and non-integer voltages by means of three crank switches actuated resistors For setting and measuring voltages that are greater As the maximum voltage of compensators are (I to 2 V), it is known to use precision voltage dividers to use.

One known type of voltage divider circuit has a fixed undervoltage tap, and the divider ratio is determined by decade resistors, whose cranks are labeled in volts. It follows that for each dividing ratio the undervoltage, which against the same undervoltage at a special compensation resistor is switched in the compensator, is constant. This voltage divider, which is often called a voltage compensator, is used especially when calibrating and testing power meters for setting and monitoring the voltage used on the voltage path. In general, these are voltage dividers built only for setting integer voltages in the range from I to IOOO V.

For measuring unknown voltages and for setting any voltages it is known, voltage dividers with three fixed division ratios I: IO, I: IOO and I: IOOO to use, so that that is, integer and non-integer voltages can be measured or adjusted. There are two ways to solve this circuit Possibilities: I. The input resistance of the Voltage divider constant hold and the respective divider ratio produced by appropriate taps on the resistor.

This circuit results in a different one depending on the setting Divider resistance for the undervoltage, which is in the closing circuit of the galvanometer is received, so that the circuit sensitivity differs depending on the division ratio and especially at a ratio of 1:10 it can become too low. Advantageous in this The circuit is the relatively high input resistance for the small divider ratios, so that the load on the test object is very small and possibly neglected can be.

2. The undervoltage tap becomes constant for each division ratio held and the respective divider ratio through various input resistances manufactured. In this circuit, the circuit sensitivity is for all division ratios and is the same as the maximum circuit sensitivity as described under I. Circuit type.

Lead circuits have their justification, and depending on the circumstances one or the other will be preferable.

A voltage divider for compensators has already become known, the three crank-operated resistors used and the manufacture the three types of circuit described above. This well-known voltage divider but has the disadvantage that when setting the dividing ratio, both with constant as well as changeable input resistance circuit. depending on required division ratio, another crank switch must be operated. In order to there is a complication of the operation of such a voltage divider, which, especially if untrained workers work with such devices, disadvantageous is.

By the invention, a voltage divider for compensators for setting and measuring integer and non-integer voltages using concerns three crank-operated resistors, this disadvantage becomes avoided. According to the invention, the crank switches have switching contacts through which when two crank switches are operated, either a constant or a changeable one Input resistance is adjustable, while the divider ratio for both types of circuit can only be set using the third switch. The voltage divider is useful designed so that the crank switch for setting the division ratio is arranged between the switches producing the circuit type.

Such a design of the voltage divider is once by means of the same two crank switches to produce the type of circuit required in each case achieved, while the divider ratio is also always at one and the same crank switch is set regardless of whether this should be I: I0, 1: 100 or I: I000.

A schematically illustrated embodiment example is shown on the basis of the drawing explained in more detail according to the invention.

The voltage divider consists of a series connection of taps provided resistors I6, I7, I8 and, for example, two fixed resistors. the The voltage to be measured is connected to terminals II, 12, and that of the compensator The voltage to be supplied is taken from terminals I3, 14 or I5, 14. In the Circuit as a voltage divider for setting integer voltages (so-called voltage compensator) the voltage divider ratio is set by adjusting the cranks I6, I7, I8 the contacts marked with the numbers o to g or IO are established. The undervoltage is tapped at terminals 15, I4.

In the circuit as a voltage divider for measuring unknown voltages at constant input resistance of the voltage divider are the outer cranks 16, I8 by turning the contacts g or IO onto the ». . . « To make contacts. The division ratios are selected with the middle crank I7, the undervoltage is tapped at terminals 13, Iq.

In the circuit as a voltage divider for measuring unknown voltages if the input resistance of the voltage divider is variable, the outer cranks are 16, 18 by turning over the contacts 0 and I to those marked with "-" Set contacts, and the choice of the dividing ratio is made again with the middle crank I7 by turning it beyond contact o. The undervoltage will tapped at terminals I3, I4.

The lack of the position I: 10000 in the second to last described circuit is not a disadvantage, as the resistance ratios correspond to this divider ratio the latter type of circuit would be.

Claims (2)

PATENT CLAIMS: I. Voltage dividers for compensators for adjustment and measurement of integer and fractional integer voltages using three over Crank switch operated resistors, characterized in that the crank switches Have switching contacts through which either one when two switches are operated constant or variable input resistance is adjustable, while the divider ratio can only be set for both types of circuit using the third switch. 2. Voltage divider according to claim I, characterized in that the Crank switch for setting the division ratio between the type of circuit producing switches is arranged.