SU983590A1 - Capacitor chacking device - Google Patents

Description

This invention relates to a performance monitoring technique for capacitors.

The closest in technical essence to the invention is a device for automatic control of circuits with high-capacity capacitors — containing a constant voltage source, a resistor, a sensing element, a relay group. A polarized relay is used as a sensing element, the first winding terminal of which is connected to a constant voltage source, and the second terminal is connected through the contacts of the relay. with the control object C1J.

The known device allows to monitor for open and short circuit the large capacitors, capacitors and does not allow monitoring of the leads to the flickering contact.

The purpose of the invention is to expand the functionality and increase the reliability of the control.

The goal is achieved by the fact that a device containing a constant voltage source, a resistor and a sensitive element, the input of which is connected to the first output bus of the control, and the output to the output bus,

An alternating voltage generator and a second sensing element are introduced, the source of DC voltage being connected through a resistor to an alternator voltage output and a second control bus terminal, the first terminal of which is connected to the second sensor input, the output of which is connected to the second output bus, in this case, the sensing element contains a source of reference voltage and a comparator, the input and output of which are connected respectively to the input

15 and the output of the sensing element, and the second input - with the terminal of the voltage source; in addition, the second sensing element contains the second comparator, the second source of the reference voltage and the notch filter, whose input is connected to the input of the second sensing element, and the output is the input of the second comparator, the second input and output of which are connected respectively to the terminal of the second source of reference voltage and the output of the second sensitive element.

The drawing is structural

30 diagram of the device.

The device contains a constant voltage source 1, a sensitive element 2, a second sensitive element 3, an alternating voltage generator 4, a resistor 5, a comparator b, an output bus 7, a first output 8 of the LOHHH control, a terminal 9 of a voltage source, a rechsector filter 10 the second comparator 11, the second output bus 12, the terminal 13 of the second reference source, the second terminal 14 of the control bus, a controlled capacitor 15.

Source 1 supplies a constant voltage, the value of which must be less than the operating voltage of the controlled capacitor 15,

Resistor 5 is designed to limit the current and isolate the outputs of the generator 4 and source 1,

The generator 4 generates harmonic oscillations with a frequency fg. The frequency f is selected depending on the range of capacitances of the monitored capacitors 15. The amplitude of the output signal is chosen under the condition that the total voltage on the monitored capacitor 15 must not exceed its operating voltage.

The sensing element 2 is designed to monitor capacitors for breakdown and breakage and is a comparator. The second input of the comparator 6 is connected to the terminal 9 of the source of the reference voltage, the magnitude of which is less than the amplitude of the output signal of the generator 4, and the polarity is opposite to the polarity of the output voltage of the source 1. From the output of the sensitive element 2, the output result of the control signal goes to the output bus 7.

The second sensing element 3 is designed to monitor the capacitors on the short circuit 1e and the flashing contact of the terminals, the result of which control comes in is not the second output bus 12.

The notch filter 10 is designed to suppress the output voltage of the generator 4 at the input of the comparator 11 and is tuned to the frequency of the signal from this generator. The second input of the comparator 11 is connected to the terminal of the second source of the reference voltage, the magnitude of which must be greater than the amplitude of the output signal with a frequency fg, notch filter 10.

The device works as follows.

The monitored capacitor 35 from the second output 14 of the control bus receives a constant voltage from the output of source 1 through a resistor 5 and a alternating voltage from the output of generator 4. If controlled

Since the capacitor 15 is operable, then the first output 8 of the control bus will only contain a variable component that will be input to the sensitive elements 2 and 3, since the magnitude of the reference voltage supplied to the second input of the comparator b is less than the amplitude of the variable At the input of this comparator 6, then from the output of the first sensing element 2 to the output bus 7 will receive pulses with a frequency equal to the frequency c of the generator 4. Rejection filter 10 carries out a significant attenuation of the input sy drove the second sensing element 3 at the frequency fо and feeds it to the input of comparator 11. Since the amplitude of this signal is much less than the magnitude of the reference voltage at the second input of the comparator 11, then from the output of the second sensing element 3 a second level signal goes to the second output bus 12 , for example, positive, corresponding to a working capacitor. With such a set of output signals on the output buses 7 and 12, the monitored capacitor 15 is considered operable.

If the controlled capacitor 15 has an open circuit, then the signal from the second output 14 of the control bus to the inputs of the first and second sensing elements 2 and 3 will not be received, i.e. it will be zero on the first pin 8 of the control bus. In this case, the comparator b will not work and a constant level signal, for example a negative signal, will be output to the output bus 7 from the output of the sensing element 2. On the second output bus 12 there is the same signal as in the case of a working capacitor, i.e. positive level. Such a set of output signals on the output buses 7 and 12 indicates that the controlled capacitor 15 has an open circuit.

. If the monitored capacitor 15 has a short circuit, then from the second output 14 of the control bus, both the constant voltage and the alternating voltage will go to the inputs of the first and second sensing elements 2 and 3. As a result, a constant positive signal will be output from the output of the sensing element 2 to the output bus 7. Since the input of the notch filter 10 has a constant level signal, i.e. Signal with a frequency other than fo, it is not attenuated and enters the input of the comparator 11. As a result, the output of the second sensing element 3 to the second output bus 12 enters

Claims (3)

Claim 1. A device for monitoring capacitors, containing a constant voltage source, a resistor and a sensing element, the input of which is connected to the first output of the control bus, and the output is connected to the output bus, characterized in that, in order to expand the functionality and increase the reliability of the control, an alternating voltage generator and a second sensitive element are introduced into the device, the constant voltage source being connected through a resistor to the output of the alternating voltage generator and the second output of the KOHTDO bus, per the output terminal of which is connected to the input of the second sensitive element, the output of which is connected to the second output bus. 2. The device according to claim 1, wherein the sensing element contains a source 20 of the reference voltage and a comparator, the input and output of which are connected respectively to the input and output of the sensing element, and the second input to the terminal of the reference voltage source. 3. The device, by π. 1, characterized in that the second sensitive element contains a second comparator, a second reference voltage source 30 and a notch filter, the input of which is connected to the input of the second sensitive element, and the output is connected to the input of the second comparator, the second input and output of which are connected respectively to the terminal of the second the reference voltage source and the output of the second sensing element.