DE641381C - Multimeter with blocking rectifier cells - Google Patents

Description

One is being used to an increasing extent for alternating current measurements DC instruments with blocking rectifiers. The individual voltage measuring ranges are determined in a known manner by shunt and series resistors on the alternating current side of the. Rectifier formed. Here the internal resistance is the blocking rectifier depends on the load and consequently influences the scale division in such a way that the The smaller the available division, the more compact it appears at the beginning total standing voltage. Attempts have already been made to remedy this deficiency by shunting the rectifier. However, this known arrangement does not allow for the various Measuring ranges to use the same scale. Because it has been shown that the usual bypass the different scales come so close to each other that with low demands on the measurement accuracy . can use a common scale, but that has higher demands the measurement accuracy of this arrangement is not sufficient.

It is now possible with very simple means to have the same scale for all measuring ranges to use and the measurement accuracy possible by the measuring instrument itself to adhere to all measuring ranges or to approach it in any desired degree, if in multimeters with blocking rectifiers, series resistors and one in parallel for series connection of rectifier and measuring mechanism lying shunt resistor the series resistors for the different voltage ranges and at those points of the shunt resistance then that the part of the shunt resistance acting as a shunt is reversed becomes smaller, the lower the measuring range is.

One can, as can generally be shown, according to the various stress ranges choose the ratio of the shunts used in each case so that the scales also theoretically match exactly. In doing so, however, one comes to. a proportionate large power consumption for the 'measuring ranges with low measuring voltage. In In many cases, however, one sets a very low one, especially in the case of high measuring ranges Electricity consumption with regard to the lowest possible power consumption from the Voltage source special value and can therefore consume more electricity accept the low measuring ranges. In such cases, the theoretically perfect compensation will be applied.

*) The patent seeker stated as the inventor:

Dipl.-Ing. Hans Pfannenmüller in Berlin-Siemensstadt.

In other cases, where the current consumption is also limited for lower measuring ranges you can make a compromise by creating the compensation according to the invention only imperfectly. and minor deviations which are not yet disturbing and impairing the measurement accuracy with .. · accepts.

An embodiment of the invention is

ίο shown in the drawing, on a device that is only intended for measuring AC voltages. Of course, the invention can also be used in devices with which, in addition to alternating voltage measurements, alternatively direct voltage measurements or also current measurements can be carried out. On a housing ι four terminals 2 to ζ are housed. Terminal 2 is the common connection terminal for all measuring ranges, while terminals 3, 4 and 5 z. B. are intended for the measuring ranges 1, 10, 100 volts. A shunt resistor 8 is arranged in parallel with the series connection of a rectifier-Graetz circuit 6 and a direct current measuring device 7. One connection point between the shunt resistor and the rectifier circuit is connected directly to the common terminal 2, while the edge connection point is connected to terminal 5 for the measuring range via a series resistor9. Terminals 3 and 4 are connected to suitably selected intermediate points of shunt resistor 8 via series resistors 10 and 11.

Claims (1)

Claim: Multimeter with blocking rectifier cells, series resistors and one in parallel shunt resistor for series connection of rectifier and measuring mechanism, characterized in that the series resistors for the various voltage measuring ranges are selected and are connected to such points of the shunt resistance that the part of the shunt resistance acting as a shunt the smaller the lower the measuring range, the smaller it becomes. 1 sheet of drawings