SU1114999A1 - Device for testing current transformer - Google Patents

Abstract

A CURRENT TRANSFORMER TEST DEVICE, containing a comparison, whose inputs are connected to the secondary winding of a reference current transformer and terminals for connecting the secondary winding of a test current transformer, a voltage regulator, a main load transformer, the output of which is connected to terminals for connecting the primary winding the current transformer under test and potential output of a high voltage source, characterized in that, in order to expand the field of application, additional Heat the dressing Yelnia transformer, the secondary winding is connected to the primary winding of the reference current transformer, a high voltage divider. the transformer, the secondary winding of which is connected to the primary winding of the main load transformer, and the secondary winding - to the output of the voltage regulator I and the booster unit, whose input is connected to the input of the voltage regulator, and the output through the primary winding of the additional load transformer is connected to the output voltage regulator.

Description

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The invention relates to a measuring technique and can be used in metrological certification and calibration of current transformers (CT). A device for testing current transformers is known, comprising exemplary and adjustable current transformers, the primary windings of which are connected in series with the current source and the secondary ones connected to the comparison device U. The device is designed to operate at low voltage on the primary winding of the reference CT. In this case, the conditions for TT verification do not correspond to the conditions of their operation in terms of operating voltages, which leads to an unaccounted systematic error. Such measurement practices are explained by the absence and difficulty of creating sample TTs for high voltages. Improvement of the device for testing CTs is carried out mainly along the path of increasing the accuracy of measurements of the error of the measured CTs at low voltages. The closest to the invention to the technical essence is a device containing a comparison device, the inputs of which are connected to the secondary winding of the reference CT and terminals for connecting the secondary winding of the test TT, voltage regulator, main load transformer, the output of which is connected to the terminals for connecting the primary The windings of the tested CT and the potential source of a high voltage source, while the reference and load transformers of the design are combined 2. The device is practically not used, since it can be used early only if there is a certified high-voltage model current transformer. To calibrate high-voltage CTs with a device, you need either a large range of high-voltage CTs with a relatively limited range of nominal current values and voltages, or a small group of many. range universal high-voltage reference CTs, which are able to satisfy the requirements, for example, GOST 23624-79 and GOST 1983-77, per hour 992 of the rated values of currents (primary) and voltages. In addition, there are fundamental difficulties associated with the need to certify the high-voltage reference CTs themselves, for which work tools will later be tested. Thus, the disadvantages of the device are the impossibility of its use and the need for a whole family of exemplary high-voltage CTs. The purpose of the invention is the expansion of the field of application. The goal is achieved by the fact that the ft device is for. testing a current transformer containing a comparison instrument, the inputs of which are connected to the secondary winding of the reference current transformer and terminals for connecting the secondary winding of the tested current transformer, voltage regulator, main load transformer. | the output of which is connected to the terminals for connecting the primary winding of the current transformer under test and the potential output of the high voltage source; the main load transformer, and secondary - with the output of the voltage regulator, and booster unit, the input of which is connected with the output of the voltage regulator, and the output through the primary winding of the additional load transformer is connected to the output of the voltage regulator. The drawing shows a block diagram of the device. The device contains - voltage regulator t, high-voltage isolating transformer 2, main load transformer 3, source 4 - high voltage, terminals 5 for connecting the primary winding of the tested transformer, current reference transformer 6, additional Load transformer 7, booster unit 8, 1; Lemmas 9 for connecting the secondary winding of the current transformer under test, the device 10 comparison. In this case, the voltage regulator 1 is connected through series-connected high-voltage isolating transformer 2 and the main load transformer 3 to terminals 5 for connecting the primary winding of the current transformer under test. The input of the booster unit 8 is connected to the input of the voltage regulator 1, and the output through a series connected primary winding of the additional load transformer 1 by the output of the voltage regulator 1. The secondary winding of the additional load transformer 7 is connected to the primary winding of terminal 5 of the reference transformer 6, the secondary winding of which, like the terminal 9 for connecting the secondary winding of the test. transformer connected to the device 10 comparison. The potential output of the high voltage source 4 is connected to one of the terminals of the main load transformer 3. The error in the CT transformation ratio due to the operating voltage is determined as follows. I Test and reference current transformers are connected respectively to the codes of the main and additional load transformers 3 and with the same nominal transformation ratios. Then the input of the main load transformer 3 is connected to the separation transformer 2, which provides with high precision a transformation ratio of one in the range of voltages from zero to the workers. The cutout of the power supply cable of the additional load transformer 7 includes the output of the booster unit 8. The outputs of the test and reference transformer are connected to the device 10 of the comparison. As a result, at zero potential at the output of the high source 4, voltage, zero position of the reference resistance of the reference instrument 10 and the required test current and reference TT, the null indicator of the comparison instrument 10 is balanced by the booster unit. When a high voltage is applied from source 4, corresponding to the operating voltage of the test CT, the null indicator of the comparator device 10 is rebalanced, but with the help of its resistors, after which it counts the components of the required error. Thus, the introduction of an additional load transformer of a high-voltage isolating transformer and a booster block permits measuring the TT errors due to the operating voltage, and thereby determining the total operational error of the CT. certify exemplary and working high-voltage CTs without using other model TTs as a support with higher metrological characteristics than test testers, expand the field of application of the device, make it more accessible in metrological practice and eliminate the need to develop and set up extremely complex and expensive high-voltage applications model TTs.

Claims (1)

DEVICE FOR TESTING A CURRENT TRANSFORMER, containing • a comparison device ^, the inputs of which are connected to the secondary winding of the reference current transformer and terminals for connecting the secondary winding of the tested current transformer, a voltage regulator, the main load transformer, the output of which is connected to the terminals for connecting the primary winding of the tested current transformer and potential output of a high voltage source, characterized in that, in order to expand the scope of application, additional the first load transformer, the secondary winding of which is connected to the primary winding of the reference current transformer, a high-voltage isolation transformer, the secondary winding of which is connected to the primary winding of the main load transformer, and the secondary to the output of the voltage regulator and the boost block, the input of which is connected to the input of the voltage regulator, and the output through the primary winding of an additional load transformer is connected to the output of the voltage regulator. 1 11