SU885936A1 - Synthetic network for testing switches for switching-off capability - Google Patents

Description

(5) SYNTHETIC CIRCUIT FOR TESTS OF SWITCHES FOR SWITCHING The invention relates to electrical measuring technique and can be used to measure the regenerative voltage in circuits that use a precharged capacitor battery as a source of electrical energy. A known synthetic circuit for testing high-voltage breakers for breaking capacity, containing a capacitor bank as a source of full power, discharged through a reactor to a test switch. P T A disadvantage of the known circuit is the difficulty of registering a restoring voltage that is distorted by a switch. The closest to the technical essence of the present invention is a synthetic circuit for testing breakers for breaking capacity, comprising a circuit from a main capacitor bank and a reactor with a connection of CAPACITY connected wires to a switch, in parallel with which a restoring voltage circuit is connected. To control the restoring voltage, a restoring voltage indicator consisting of a generator of unipolar current pulses and an oscilloscope is connected in parallel with the disconnected test switch. The disadvantage of the circuit is the presence of distortions in the curve of the restoring voltage and, consequently, the reliability is low. The purpose of the invention is to increase the reliability when registering a restoring voltage. The goal is achieved in that a synthetic circuit for testing breakers for breaking capacity, containing a series-connected main capacitor battery, a reactor and a test switch, a shaping device, an indicator consisting of an oscilloscope and a generator of unipolar pulses connected in parallel to the test switch, the first the outputs of the forming device and the oscilloscope are connected to the first output of the tested switch, the first and second auxiliary switches are introduced The auxiliary switch and the additional capacitor, the first auxiliary switch are connected in parallel to the main capacitor battery, and the second auxiliary switch and the auxiliary capacitor are connected in parallel with one end to the second terminals of the forming unit and the indicator oscilloscope, and the other end to the second end of the switch being tested.

The drawing shows the proposed synthetic scheme.

The circuit contains the main capacitor battery 1, the reactor 2 with connecting wires 3 test switch k, forming device 5 indicator 6, consisting of generator 7 unipolar pulses and oscilloscope 8, first and second auxiliary switches 9 and 10 and additional capacitor P.

The scheme works as follows.

Initially, a check is made that the restoring voltage curve meets the required test conditions. For this purpose include the first. auxiliary switch 9. The test switch 4 and the second auxiliary switch 10 are disabled. The generator 7 of unipolar current pulses sends periodic sinusoidal current pulses to reactor 2 with connecting wires 3 and the first auxiliary switch 9. After each transition of a sinusoidal current pulse through zero, an oscilloscope 8 records a transient on the restoring voltage shaping device 5. Moreover, the generator 7 of unipolar current pulses is connected in parallel to the tested switch 4, and the oscilloscope 8 is parallel to the forming device 5 of the restoring voltage, due to the additional capacitor 11 the restoring voltage is divided between the specified additional capacitor 11 and the restoring voltage 5, which forms the device 5, and recovered voltage is applied, and the additional capacitor 11 is restored, and the restoring voltage is restored by the forming device 5, and the restoring voltage is applied, and the additional capacitor 11 is formed by the forming device 5, and the restoring voltage is divided, and the restoring voltage is applied. the shape of the restoring voltage on the oscilloscope 8 corresponds to those when the known circuit is turned off by an ideal switch.

After the compliance voltage curve has been established to the required conditions (if there is a discrepancy, then eliminate it.

the selection of elements 1, 5 and 11), a switch is checked to ensure that the switch is in shutdown mode. To do this, the first auxiliary switch 9 is turned off AND the tested switch 4 and the second auxiliary switch 10 are turned on. The restoring voltage indicator 6 is disconnected from the circuit. The main capacitor battery 1 is charged from an external energy source (not shown) and connected via an auxiliary switching device (not shown) to the test switch. Observe the behavior of the test switch t,

5 determines its ability to disable this short circuit mode.

The proposed synthetic scheme can be part of more complex synthetic schemes (with sequential

Q or parallel overcurrent overcurrent). In this case, the measurement of the restoring voltage by the proposed circuit is also provided.

; invention formula

Synthetic circuit for testing the breaking capacity of switches, containing soy series; The main capacitor battery, the reactor and the test switch, the forming device, the indicator consisting of an oscilloscope and the generator of unipolar pulses connected in parallel to the test switch, the first terminals of the forming device and the oscilloscope connected to the first output of the tested Switch, which differs from that, in order to increase the reliability when registering the restoring voltage, the first and second auxiliary switches and an additional capacitor are inserted into it, with than the first auxiliary by-switch is connected in parallel to the main capacitor battery, and the second auxiliary switch and the auxiliary capacitor are connected in parallel with each other and connected by one output to the second terminals of the forming unit and the oscilloscope of the indicator, and the other output to the second output of the test switch. 59366 Sources of information taken into account during the examination 1. USSR author's certificate ff 69759, cl. G 01 R 31/32, 19A5. 5 2 USSR author's certificate Vf 79653, cl. G 01 R 31/32, (prototype).

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Claims (1)

³⁵ claims Synthetic circuit for testing circuit breakers for breaking capacity, containing in series 40 connected to the main capacitor bank, reactor and test switch, forming device, indicator consisting of an oscilloscope and a unipolar pulse generator, ⁴⁵ connected in parallel to the tested switch, the first conclusions of the forming device and the oscilloscope connected to the first output of the tested switch, I distinguish ⁵⁰ I mean that, in order to increase the reliability when registering the recovering voltage, the first and second auxiliary switches and an additional ^55th condense are introduced into it sator, and the first auxiliary switch is connected in parallel with the main capacitor bank, and the second auxiliary 5, the switch and the additional capacitor are interconnected in parallel and connected by one output to the second terminals of the forming device and the oscilloscope of the indicator, and the other terminal to the second terminal of the tested switch.