DE2462252A1 - High voltage measurement capacitor - includes conductor of fully insulated metal enclosed switchgear and an electrode - Google Patents

Abstract

A low voltage capacitor is connected to the encapsulated switchgear to form a capacitive voltage divider, with an amplifier connected to it. An auxiliary capacitor (39) is provided near the high voltage capacitor (2). It is a part of an evaluation device (40) which generates a signal corresponding to capacitor (39) capacitance changes caused by external conditions. This device (40) has a signalling device (56-59) signalling capacitance changes, and/or an amplifier (33) compensating capacitor (2) capacitance changes caused by external conditions. A differential amplifier (49) is connected across the diagonal of a bridge containing four of the capacitors.

Description

Arrangement with a Ho chspannungsmeßkondens ator The invention relates on an arrangement with a high-voltage measuring capacitor, in particular with one of a high-voltage conductor of a fully insulated, metal-enclosed high-voltage switchgear and a high-voltage measuring capacitor formed therewith associated with the planar electrode, as a high-voltage capacitor to form a capacitive voltage divider another capacitor as an undervoltage capacitor with a downstream one Amplifier device is connected.

Comes with a high-voltage measuring capacitor .in an arrangement with an undervoltage capacitor to form a capacitive voltage divider Measurement of the high voltage carried out, then a voltage measurement can be carried out without Only carry out significant errors if the capacitance of the high-voltage measuring capacitor has a constant value with a constant value of the undervoltage capacitor. Since a high-voltage measuring capacitor is usually exposed to at least temperature changes is and its dielectric shows a temperature dependence, result in the Voltage measurement with a high voltage measuring capacitor mostly more or less big mistake.

The invention is based on the object of an accurate voltage measurement to carry out unaffected by changes in the capacitance of the high-voltage measuring capacitor, those caused by external influences on the dielectric and the geometric dimensions, e.g.

caused by changes in temperature, pressure and the like could be.

To solve this problem, in an arrangement, the above described According to the invention, an auxiliary capacitor is adjacent to the high-voltage measuring capacitor zugeordnejund b auxiliary capacitor is part of an evaluation device that a change in capacitance of the auxiliary capacitor caused by external influences corresponding signal generated; to the evaluation device is a reporting device for signaling the change in capacitance and / or the amplification device for Compensation for changes in capacity caused by the same external influences downstream of the high-voltage measuring capacitor.

The arrangement according to the invention has the advantage that either the measurement result by signaling the change in capacitance of the auxiliary capacitor Changes in the capacitance of the high-voltage measuring capacitor which adversely affect the high-voltage measurement can be signaled so that the measurement is interrupted, and / or that the Change in capacitance of the auxiliary capacitor evaluated by means of the evaluation device and an increase or decrease depending on the signal from the evaluation device the gain factor to compensate for the effects of changes in capacitance of the high-voltage measuring capacitor to the output variable of the amplifier device is made. In the latter case, the measurement of the high voltage can be carried out without any significant Errors, for example also in the event of temperature changes, can be continued. the Accuracy of a voltage measurement with the arrangement according to the invention is therefore for example not influenced by temperature changes.

The auxiliary capacitor does not always need to be connected to the dielectric of the high-voltage measuring capacitor have matching dielectric; for example it is possible the different behavior of the dielectric of the auxiliary capacitor as a result of, for example, temperature and pressure changes by a corresponding designed evaluation device to be taken into account, so that even with different Dielectric of the auxiliary capacitor and the high-voltage measuring capacitor in influence of changes in capacitance of the high-voltage measuring capacitor on the measurement result of the High voltage measurement is switched off Since with capacitors with different behavior of the dielectric a relatively large circuit complexity is required in the evaluation device, it is considered advantageous if the dielectric of the high-voltage measuring capacitor with regard to its temperature and / or pressure behavior corresponds to that of the auxiliary condenser. Of simplicity for the sake of this, one will strive to have an auxiliary capacitor with the same dielectric to be used as it is present in the high-voltage measuring capacitor. Also should the auxiliary skondensator advantageously be designed so that its by thermal Expansion caused changes in capacitance proportional to those of the high-voltage measuring capacitor are.

Especially in those cases where there is only one signaling a change in the capacitance of the high voltage measurement that has a disruptive effect High voltage measuring capacitor is desired, it is considered advantageous if the evaluation device contains an oscillator whose frequency-determining element is the auxiliary capacitor; the deviation of the frequency of the oscillator from one Nominal frequency then represents a measure of the change in capacitance.

A design of the evaluation device is particularly advantageous viewed the arrangement according to the invention, in which the evaluation device a Contains bridge circuit, one branch of which is formed by the auxiliary capacitor is, while additional capacitors are arranged in the remaining bridge branches are; an alternating voltage is applied to one bridge diagonal and to the other bridge diagonal a differential amplifier is connected, the output variable of which is the signal of the evaluation device represents. The output of the bridge circuit can be used both for signaling a change in capacitance as well as to compensate for the change in capacitance by also connecting the output variable to the amplifier device is.

An exemplary embodiment is shown in the figure to explain the invention the arrangement according to the invention for compensating for the influence of changes in capacitance of the high-voltage measuring capacitor reproduced on the result of a voltage measurement.

In the figure, in a schematically indicated gas space 1, there is a high-voltage measuring capacitor .22 housed, which in the illustrated embodiment consists of a high voltage leading conductor 3 and this high voltage conductor 3 surrounding cylindrical Electrode 4 is made. The cylindrical electrode 4 can, for example, on a Cast resin body 5 be applied, which insulates at its rounded end faces of the cylindrical electrode 4 each has a guard ring electrode 6 or 7; both the cylindrical electrode 4 and the guard ring electrodes 6 and 7 can be formed by conductive coatings on the insulating body 5. In its outer circumference the insulating body 5 can carry a further conductive coating, which is via a line 9 is grounded. The insulating body 5 with said conductive coatings can in one Pipe section of a fully insulated metal-enclosed high-voltage switchgear be, in which case the gas space 1 is formed by the interior of the high-voltage switchgear is.

The cylindrical electrode 4 is connected via a line 10 to an undervoltage capacitor 32 connected to that of the high voltage conductor 3 and the cylindrical electrode 4 formed high voltage measuring capacitor 2 forms a capacitive voltage divider.

An operational amplifier is connected to the undervoltage capacitor 32 33 formed preamplifier connected to which one of a further operational amplifier formed power amplifier 34 is downstream. To the output of the power amplifier 34, a primary winding 35 of an output transducer 36 is connected to the Secondary winding 37 has a load 38.

In the gas space 1, the high-voltage measuring capacitor 2 is adjacent Auxiliary capacitor 39 with a structure of the high-voltage measuring capacitor 2 similar Structure arranged. The auxiliary capacitor 39 is located in a bridge circuit Evaluation device 40 in series with a further capacitor 41 in one Bridge half; in the other half of the bridge there are more capacitors 42 and 43. To one Diagonal 44, 45 of the bridge circuit is the output voltage via a connecting line 46 of the power amplifier 34 is connected. To the other bridge diagonal 47, 48 The bridge circuit is an operational amplifier connected as a differential amplifier 49 connected. The differential amplifier 49 has an output variable at its output 50 given, which in terms of their value is a measure of the amount of change in capacity represents in the auxiliary capacitor 39 and with regard to their phase position a clue about the type of change in the capacitance in the auxiliary capacitor 39 in positive or negative Direction from an assumed initial value. The output of the differential amplifier 49 is fed to an input 52 of the power amplifier 34 via a resistor 51, to which the output of the preamplifier 33 is also connected. The other entrance 53 of the power amplifier 34 is connected to ground. At the output 54 of the power amplifier 34 accordingly results in an output variable in which the change in capacitance of the auxiliary capacitor 39 is taken into account.

Since the change in capacitance in the auxiliary capacitor 39 is the change in capacitance in the high-voltage measuring capacitor 2 in the event of temperature, pressure and / or gas mixture changes is proportional, if the arrangement shown is appropriately designed, it is on Output 54 of the power amplifier 34 obtained a measured variable that is independent of Changes in the capacitance of the high-voltage measuring capacitor 2: the voltage on the high-voltage measuring capacitor is proportional. In any case, a voltage can be taken from the load 38, which is linked to the high voltage via a constant transmission ratio.

In the illustrated embodiment, if necessary (indicated by a dashed line 55) a relay 56 to the output 50 of the differential amplifier 49, with its contact 57 a signal lamp 58 can be connected to a battery 59. An illumination of the signal lamp 58 signals then a change in the capacitance of the high-voltage measuring capacitor.

The invention provides an arrangement with a high-voltage measuring capacitor proposed with which an exact measurement of the high voltage also for example changes in the capacitance of the high-voltage measuring capacitor caused by changes in temperature is possible.

1 Figure 5 claims

Claims (5)

Claims 1. Arrangement with a high-voltage measuring capacitor, in particular with a fully insulated, metal-encapsulated one from a high-voltage conductor High-voltage switchgear and a flat electrode assigned to it formed high-voltage measuring capacitor, to-den as a high-voltage capacitor for Formation of a capacitive voltage divider another capacitor as an undervoltage capacitor is connected to a downstream amplifier device, d a d u r- ch g e k e n n -z e i ch n e t that the high-voltage measuring capacitor (2) is adjacent an auxiliary capacitor (39) is assigned that the auxiliary capacitor (39) is a component an evaluation device (40) which is a one caused by external influences Change in capacitance of the auxiliary capacitor (39) generates a corresponding signal, and that to the evaluation device (40) a signaling device (56, 57, 58, 59) for signaling the change in capacitance and / or -die .Verstärkungseinrichtung (33) for compensation changes in the capacitance of the high-voltage measuring condensate caused by the same external influences ators (2) is subordinate. 2. Arrangement according to claim 1, d a d u r ch g e k e n n z e i chn e t that the dielectric of the high-voltage measuring capacitor (2 ') with regard to its temperature and / or pressure behavior corresponds to that of the auxiliary condenser (39) c 3. Arrangement according to claim 1 or 2, d u r ch g e k e n n -z e i ch n e t that the auxiliary capacitor designed in this way with regard to the design of the high-voltage measuring capacitor is that its capacitance changes caused by thermal expansions those of the high voltage measuring capacitor are proportional. 4. Arrangement according to one of the preceding claims, d a d u r ch it is shown that the evaluation device contains an oscillator, whose frequency-determining element is the auxiliary capacitor, so that the deviation the frequency of the oscillator from a nominal frequency is a measure of the change in the Represents capacity. 5. Arrangement according to one of claims 1 or 3, d a d u r ch g e k it is indicated that the evaluation device contains a bridge circuit, one branch of which is formed by the auxiliary capacitor (39), while in the remaining bridge branches additional capacitors (41, 42, 43) are arranged, and that to the one bridge diagonal (44, 48) an alternating voltage and to the other Bridge diagonal (47, 48) a differential amplifier (49) is connected, the Output variable represents the signal of the evaluation device.