DE1938212A1 - Peak value measuring device - Google Patents

Description

Peak Measuring Device The invention relates to a peak measuring device for measuring high values using a high-voltage transformer and a high-voltage rectifier generated DC voltages consisting of a measuring rectifier and a capacitor, the earth side to a measuring tap of the secondary winding of the high-voltage transformer are connected.

It is known that the peak value of a high DC voltage, the using a high voltage transformer and a high voltage nailer is generated, similar to the threshold value of a high AC voltage by means of a so-called ßcheit.lwertmeßeinrichtung to measure. The peak measuring device consists in principle of one at an earth-side measuring tap Secondary winding directly or rectifier connected via a voltage divider and a capacitor connected between rectifier and earth and one in parallel Measuring instrument connected to the capacitor By appropriate calibration of the measuring instrument is it possible to measure the peak value of the DC output voltage, disadvantage with this arrangement, the output voltage is always smaller by an amount than the value displayed on the measuring instrument. This deviation is due to because of the voltage drop caused by the load current across the high voltage rectifier is not detected by the peak value measuring device.

An arrangement has already been proposed to remedy this disadvantage which causes a compensation of the measurement error, the display of the peak value measuring device is corrected with a word proportional to the load current. The load current proportional. Value is obtained via a non-linear resistance that is generated by the load current or part of the load current flows through.

The non-linear resistance is due to the present error characteristic customized.

However, this adjustment appears to be time-consuming.

The invention aims to provide a switching value measuring device for measuring high DC voltages, which are generated by means of a high-voltage transformer generated and rectified by means of a high voltage rectifier, whose measurement accuracy is independent of the load current.

3, the object of the invention is a circuit for a peak value measuring device to find which one is affected by the load current, due to the voltage drop across the High voltage rectifier of the high voltage system, caused errors on especially simple type compensated.

The object is achieved according to the invention in that the measuring rectifier the peak value measuring device is switched on so that the entire or a part des at the time of measurement flowing through the high voltage rectifier Current flows through the measuring rectifier. For more precise compensation of the measurement error it is advisable that the high-voltage rectifier and the measuring rectifier off consists of several identical rectifier elements connected in series and the number the rectifier elements of the high voltage rectifier to the number of rectifier elements of the measuring rectifier, like the total number of turns, results in a number of measuring turns, i.e. a partial winding wire from the earth-side end to a measuring tap the secondary winding of the high-voltage transformer is sufficient, behaves.

The measuring rectifier is earthed and in series with the secondary winding switched.

A threshold value designed according to the invention.

measuring device is simple, both in structure and in operation and their measurement accuracy is independent of the load current.

The invention is to be described in more detail below using an exemplary embodiment explained.

The accompanying drawing shows the basic circuit diagram of a DC voltage test system with test item and peak value measuring device.

At a secondary winding 1 of a high-voltage transformer 2 is a high voltage rectifier 3 is applied. The terminal 4 in the transformer 2 generated and tapped in the high voltage rectifier 3 and directed voltage from there applied to a grounded test object 5. Between a tap 6 of the Secondary winding 1 and earth is a capacitor 7 and parallel to it one in EV DC output voltage calibrated measuring instrument 8 connected. Also between Earth and the earth-side end of the secondary winding 1 is also a measuring rectifier 9 connected.

The high-voltage rectifier 3 and the measuring rectifier 9 exist from rectifier elements with the same internal resistance and the same characteristic. The measuring rectifier 9 consists of a rectifier element, whereas the number the rectifier elements of the high-voltage rectifier 3 equal to that Quotient the total number of turns of the secondary winding 1 divided by the number of turns of the Measuring winding 10, i.e. the number of turns of the secondary winding 1 from the earth-side End to measuring tap 6.

Based on the existing circuit and dimensioning of the switching elements If the peak value measuring device 11 shows a peak value that corresponds to that at the Kl mm 4 occurring peak value is analogous. That is achieved because of the voltage drop too over the entire turns of the secondary winding 1 and the high voltage rectifier 3 to the voltage drop across the measuring rectifier 9 and the measuring winding lo in the same Relate to each other and that all switching elements are considered to be connected in series can be and can be flowed through by the same stream. The rectifier 9 can also be used between the part of the secondary winding 1 that is used as the measuring winding 10 will be switched and the remaining part of the secondary winding 1. It turns out Dimensioning reasons necessary that as a result of a parallel connection of resistors only part of the load current flows to the measuring rectifier 9 via the measuring rectifier, a display by appropriate calibration of the measuring instrument 8 is possible.

Claims (3)

P a t e n t a n s p r ü c h e 1. Schleitelwertmeßeinrichtung, especially for measuring high means a high voltage transformer and a high voltage rectifier DC voltages, consisting of a measuring rectifier and a capacitor, the on the earth side at a measuring tap of the secondary winding of the high-voltage transformer are connected, characterized in that the measuring rectifier is switched on is that all or part of the at the time of measurement by the high voltage rectifier flowing current flows through the measuring rectifier. 2. peak value measuring device according to claim 1, characterized in that that the high-voltage rectifier and the measuring rectifier consist of several of the same, connected in series Rectifier elements exist and the The number of rectifier elements of the high voltage rectifier increases to the number of the rectifier elements of the measuring rectifier such as the total number of turns to the Behave the number of turns of the transformer's high-voltage winding. 3. peak value measuring device according to claims 1 and 2, characterized characterized in that the measuring rectifier is earthed and in series with the secondary winding of the high-voltage transformer is switched.