DE1291414B - Circuit for recording the voltage curve of an object to be measured exposed to surge voltages of different shapes and durations - Google Patents

Description

For examining electrical devices such as transformers and the like, in terms of their surge behavior, generally become a repetitive surge generator and used an oscilloscope. The repetition shock generator gives relatively low voltage with a certain repetition frequency on the device z. B. the standardized full impulse voltage with 1.2 lls forehead and 50 Fs back half-life. The for Measurement used oscilloscope is with its time deflection with a corresponding Repetition frequency triggered, so that on the screen as a result of the repeated shocks, usually at intervals of 20 ms, a stationary image of the impulse voltage to be measured appears.

It is known from the German patent specification 1085 252, the investigation to simplify several measuring points within an electrical device, that the measuring points are scanned by a rotating switch. So long only the behavior towards a single impulse voltage type is to be investigated, this recording technique is time-saving and advantageous. In the case of an electrical device However, often only a few measuring points are of interest, so that the time-consuming connection is often necessary the measuring points on the rotating switch is not required. Come in addition Still, most regulations oppose a dielectric strength of the devices both the full impulse voltage as well as a so-called cut impulse voltage demand, so that this both forms must be considered.

The two types of surge voltage differ in terms of their duration their influence, according to which the time deflection of the oscilloscope is based got to. At a full surge voltage of 1.2 / 50 than one will generally have a recording time of the oscilloscope for about 50 s, if the surge voltage is cut off only one of 10 ills, since the impulse voltage is cut off about 3 s after your Beginning should take place. It should also be remembered that the full surge voltage Another setting of the oscilloscope with regard to beam brightness and beam focusing demands. Likewise, the ones required for the temporal measurement of the oscillograms are required Calibration frequencies are different for both types of surge voltage. With successive Recording is therefore a constant change of oscilloscope and shock generator necessary.

The effort involved in examining electrical devices in terms of their surge voltage behavior is determined by a circuit for recording the voltage curve one with impulse voltages of different shape and duration from one with ignition and cut-off thyratron equipped repetition pulse generator Measurement object simplified by means of a two-beam oscilloscope.

According to the invention, the circuit has different durations time deflections of the two beams corresponding to the surge voltage waves, furthermore - known per se - relay or electronic Control means that the ignition of the cut-off thyratron of the repetition shock generator, and finally a separate trigger for each of the two time deflections of the oscilloscope.

The invention is explained in more detail with reference to FIG.

A repetition pulse generator is 1, a two-beam oscillograph with 2 and relay or electronic control means are denoted by 3. From the A surge voltage to earth 5 is tapped at output 4 of the repetition surge generator 1 and placed on an object 6 to be measured. - With 7 is a tap for that occurring on the test object Called tension. Two measuring systems of the two-beam oscilloscope have 8 and 9 designated.

First, a DC voltage source 12 is applied to the test object A full shock wave is given via an ignition thyratron 11, the cut-off thyratron 10 is blocked and the triggering of the oscilloscope z. B. only on the measuring system 8 takes place.

Immediately thereafter, the cut-off thyratron 10 is controlled by the controller ignited, the measuring system 8 blocked and the measuring system 9 triggered. This will A cut impulse voltage, which appears in the measuring system 9, is applied to the test object.

Due to this chronological sequence, both a full as well as a cut impulse voltage lying directly on top of each other taken on on a picture. The time difference between the two recordings can be at the usual repetition frequency of a repetition pulse generator - reduced to about 20 ms will. This time difference is optically no longer perceived, so that the two processes directly on top of each other on the luminescent screen of the oscilloscope viewed or photographed within a very short time.

In this way, the time required for recording the voltage curve with a full and cut impulse voltage on a test object to half the earlier usual time. In addition, you have the advantage that on a single image both the voltage curve for a full and for a cut off impulse voltage of a certain measuring point appears.

Claims (1)

Claim: Circuit for recording the voltage curve of a with impulse voltages of different shape and duration from one with ignition and cut-off thyratron equipped repetition shock generator acted upon the measurement object by means of a Two-beam oscilloscope, characterized by different, the duration of the Time deflections of the two beams corresponding to surge voltage waves, by relay or electronic control means that control the ignition of the cut-off thyratron of the Trigger repetitive impulse voltage generator, and by a separate trigger each of the two time deviations of the oscilloscope.