DE838785C - Integrating AC-DC comparator - Google Patents

Description

To alternate current meters, especially test meters with the highest accuracy to check and calibrate, one can use an integrating Use an AC-DC comparator. This device contains two in the opposite one Direction of rotation acting on a common axis Vattmetric measuring mechanisms, of which one together with the meter to be tested to an alternating current network, the other is connected to a G leicllstromquelle, which by means of a Wompensationseinrichtun.g can be set to very specific current and voltage values. On the device axis no lticlltl-rifte work. The measurement is correct if on the lXn (le of a measuring period the pointer of the device is in the same position as at the beginning of the same, d. H. the The pointer does not have to be at zero all the time.

Elan always receives, even when the voltage is on the AC side should fluctuate a little and the pointer temporarily migrates, another correct one Alessung, if you can only adjust it accordingly on the alternating current side ensures that the pointer returns to its starting position at the end of the measuring period stands. On the other hand, on the direct current side, current and voltage must always be on the be held at the same value.

I> ies is generally only possible if a direct current source is used constant voltage is available. This requirement is not always sufficient fulfilled and readjustment on the direct current side only allows one limited compensation for this. resulting failure.

The invention overcomes these shortcomings. According to the invention on the DC side an integrating measuring order of high measuring accuracy, z. 1s. one Silher voltmeter arrangement is used.

At the end of the measurement period, the substance conversions are in the voltameter arrangement determined. They give a measure of the integral of the output on the direct current side and only the data of the meter to be tested need to be compared with this integral to become. In this case, fluctuations on the direct current side can affect the measurement accuracy not affect.

I) he invention is explained in more detail with reference to the drawing. An integrating one AC DC comparator has two wattmetric measuring units 2, 3, their moving parts sit on the same cell. Their torques are opposite directed. At the measuring mechanism 3, the alternating current side is in a known manner with the meter to be tested connected. The current coil is on the direct current side 20 via a series resistor 4 and a silver voltameter 5 to a direct current source 6. The voltage coil 2I is connected to a shunt resistor 7, the over a silver voltameter 8 is also connected to the DC voltage source 6. By correct Choice of resistors 7 and 4 can be the desired order of magnitude of the precipitation rate can be reached on voltammeters 5 or 8.

The cathodes of the voltameters 5, 8 are accurate before the start of the measurement weighed, also at the end of the measurement period. The product of the amounts of silver deposited is then according to the gear ratios caused by the resistance circuits exactly proportional to the DC power, and the comparison with the specifications of the to be checked counter results in the counter error without further ado. Through appropriate Aligning the meter and repeating this measurement can make the meter error accurate be brought to zero.

For the current and voltage circuit on the direct current side, separate Power sources are used. You can get by with a voltameter if, for example the current coil 20 puts in series with the resistor 7. The power is then proportional the square of the amount of precipitation.

Such an arrangement can be used for integrating alternating current measuring devices achieve the highest measuring accuracy.

PATENT APPLICATION: I. Integrating AC-DC comparator marked with two coupled, counteracting, no directional force systems. by an integrating measuring arrangement of high measuring accuracy, z. B. silver voltameter arrangement, on the DC side.

Claims (1)

2. AC - DC comparator according to claim I, characterized characterized in that in the current and voltage circuit of the wattmetric measuring unit one voltameter each switched on on the direct current side. is. 3. AC - DC comparator according to claim I, characterized characterized in that the current coil of the wattmetric measuring mechanism (2) is on the direct current side with a shunt resistance of the voltage coil is in series, for the purpose of having only to get by with a voltameter.