JP3244481U - Discharge signal processing device - Google Patents

Abstract

An object of the present invention is to provide a discharge signal processing device that solves the problem of not being able to accurately identify discharge signal components when there is complex interference. A discharge signal processing device includes a signal collection module, a signal amplification device, a polarity inversion module, a bipolar detection module, a phase-locked amplification unit, an alarm module and a multi-level power supply. The signal acquisition module is connected to the signal amplification device, one end of the bipolar detection module is connected to the signal amplification device and the polarity inversion module, the other end is connected to the phase-locked amplification unit, and the phase-locked amplification unit is connected to the alarm module. ing. The signal acquisition module combines the discharge signal generated in the insulation system of the power equipment and converts it into a voltage or current signal, and the alarm module determines the strength of the output signal of the phase-locked amplification unit and detects a set value beyond the threshold count number. Issue an alarm signal when reached. [Selection diagram] Figure 1

Description

The present application relates to the field of circuit safety, and mainly relates to a discharge signal processing device.

Abnormal discharge occurring in power equipment insulation systems is an important factor that threatens the insulation safety of power equipment. Detection of abnormal discharge is an important means to evaluate the insulation health status of power equipment.
Extra high frequency detection method, high frequency current detection method, ultrasonic detection method and optical measurement method are relatively mainstream online monitoring methods. Convert the signal into a voltage or current signal. In practical applications, all of the above methods are subject to complex electromagnetic radiation interference, circuit conducted interference, acoustic interference or optical interference in the field, leading to the discharge pulse being buried in complex interference signals in the frequency band. Among these interference signals, non-periodic broadband interference is a difficult type of interference to handle, so if irregular, non-periodic interference occurs in the field, it can cause false positives and lower reliability of the detection system. There are many.
In order to solve the problem that in the case of complex electromagnetic, acoustic, and optical non-periodic interference, the true discharge signal component having the same frequency and phase as the frequency period cannot be accurately identified, the present application proposed a discharge signal processing device.

In order to solve the problem of not being able to accurately identify the true discharge signal component with the same frequency and phase as the frequency period in the case of complex electromagnetic, acoustic, and optical non-periodic interference, the present application provides a discharge signal processing device,
Signal acquisition module, signal amplification device, polarity inversion module, bipolar detection module, phase-locked amplification unit, alarm module and multilevel power supply, multilevel power supply and signal amplification device, polarity inversion module, bipolar detection module, phase-locked amplification unit and the alarm module are electrically connected, the signal collection module is connected to the signal amplification device,
One end of the bipolar detection module is connected to a signal amplification device and a polarity inversion module, the other end is connected to a phase-locked amplification unit, and the phase-locked amplification unit is connected to an alarm module, where:
The signal acquisition module is
Combines the discharge signals generated in the insulation system of power equipment, converts the discharge signals into processed signals,
transmitting the signal to be processed to a signal amplification device and converting the signal to be processed into a voltage signal or a current signal;
The signal amplification device is
after receiving the processed signal, amplifying the processed signal to obtain the original voltage signal and transmitting the original voltage signal to the bipolar detection module;
The polarity reversal module is
A frequency voltage signal is received, and an operation mode switching command is sent to the bipolar detection module based on the polarity of the frequency voltage signal, and the operation mode switching command includes a positive polarity voltage detection mode switching command and a negative polarity voltage detection mode switching command. include,
The bipolar detection module is
upon receiving the original voltage signal, converting the original voltage signal into a low frequency voltage signal and transmitting the low frequency voltage signal to the phase-locked amplification unit in response to the operation mode switching command;
The phase-locked amplification unit is
receive the low frequency voltage signal, extract the engineering frequency AC fundamental wave signal component from the low frequency voltage signal to obtain the detected voltage, and send the detected voltage to the alarm module;
The alarm module is
It receives the detected voltage and issues an alarm signal based on the value of the detected voltage.
The present application provides a signal acquisition module for combining discharge signals generated in the insulation system of power equipment and converting it into voltage or current signals, and a signal amplification device combines the voltage or current signals output by the combining unit. Used to convert the amplified voltage signal, the polarity inversion module converts the frequency voltage signal output from the signal amplification device into a low frequency voltage signal that retains only the envelope line and does not change the original signal peaks. High frequency voltage control is used to monitor the operating mode of the bipolar detection module, and the phase-locked amplification unit adjusts the positive or negative polarity voltage signal output from the bipolar detection module in time to the operating frequency. The multi-level power supply is used to power all units except the signal acquisition module, the alarm module judges the strength of the output signal of the phase-locked amplification unit, and the threshold count is used to extract the fundamental amplitude value. Used to issue an alarm signal when a set value is reached more than the number of times.
The device provided by this application can effectively avoid the non-periodic interference of various local discharge signals, and can also provide fault alarm without the need of high-speed acquisition units and complex signal-noise separation algorithms. , is a highly reliable and low-cost abnormal discharge warning device, which can accurately identify the true discharge signal component with the same frequency and phase as the frequency period in the case of complex electromagnetic, acoustic, and optical aperiodic interference. A problem that cannot be done.
Optionally, the polarity inversion module includes a zero-cross comparator and a polarity inversion unit, one end of the polarity inversion unit is connected to the zero-cross comparator, and the other end is connected to a bipolar detection module, and the zero-cross comparator is configured as follows:
A frequency voltage signal is received, a value of the frequency voltage signal is compared with a first threshold voltage, and if the frequency voltage signal is greater than the first threshold voltage, a first high level signal is transmitted to the polarity inverting means.
Optionally, the zero-crossing comparator is configured as follows:
A frequency voltage signal is received, the magnitude of the frequency voltage signal is compared to a first threshold voltage, and if the frequency voltage signal is less than the first threshold voltage, a first low level signal is transmitted to the polarity reversing means.
Optionally, the polarity reversal unit is
transmitting a positive voltage detection mode command to the bipolar detection module in response to the first high level signal;
In response to the first low level signal, a negative polarity voltage detection mode command is sent to the bipolar detection module.
As an option, the bipolar detection module includes positive polarity detection circuit, negative polarity detection circuit, NPN
The bipolar detection module is configured as follows:
receiving an operation mode switching command including a positive polarity voltage detection mode switching command and a negative polarity voltage detection mode switching command;
In response to the positive polarity voltage detection mode switching command, the NPN triode and the PNP triode control the positive polarity detection circuit to convert the original voltage signal into a positive low frequency voltage signal, and convert the original voltage signal into a positive low frequency voltage signal. to the phase-locked amplification unit,
In response to the switching of the negative polarity voltage detection mode command, the NPN triode and the PNP triode control the negative polarity detection circuit to convert the original voltage signal into a negative polarity low frequency voltage signal, and convert the original voltage signal into a negative polarity low frequency voltage signal. to the phase-locked amplification unit.
Optionally, the phase-locked amplification unit includes a first phase-locked amplification unit and a second phase-locked amplification unit, the first phase-locked amplification unit comprising:
After receiving the positive low frequency voltage signal, a fundamental frequency component is extracted from the positive low frequency voltage signal to obtain a first detected voltage, and the first detected voltage is transmitted to the alarm unit.
Optionally, the second phase-locked amplification unit:
After receiving the negative polarity low frequency voltage signal, fundamental frequency component extraction is performed on the negative polarity low frequency voltage signal to obtain a second detection voltage, and the second detection voltage is transmitted to the alarm unit.
Optionally, the alarm module includes an addition operator, a hysteresis comparator, and a timer, one end of the hysteresis comparator is connected to the addition operator, the other end is connected to the timer, and the addition operator is configured as follows: :
After receiving the first detected voltage and the second detected voltage, the first detected voltage and the second detected voltage are added to calculate a total voltage, and the total voltage is sent to a hysteresis comparator.
Optionally, the lazy comparator is configured as follows:
After receiving the added voltage, the value of the added voltage is compared with a second threshold voltage, and if the added voltage is greater than the second threshold voltage, a second high level signal is sent to the timer.
Optionally, the timer is configured as follows:
When the second high level signal is received, the second high level signal within the tracking unit time is accumulated, and if the long accumulation time is greater than the alarm time threshold in the case of the high level signal, an alarm signal is issued. .
The present application provides a discharge signal processing device, including a signal collection module, a signal amplification device, a polarity inversion module, a bipolar detection module, a phase-locked amplification unit, an alarm module and a multi-level power supply. The multi-level power supply is electrically connected to the signal amplification device, the polarity inversion module, the bipolar detection module, the phase-locked amplification unit, and the alarm module, the signal acquisition module is connected to the signal amplification device, and one end of the bipolar detection module is connected to the signal amplification device. It is connected to the amplifier device and the polarity inversion module, the other end is connected to the phase-locked amplification unit, and the phase-locked amplification unit is connected to the alarm module. The signal acquisition module is used to combine the discharge signal generated in the insulation system of the power equipment and convert it into a voltage or current signal, and the alarm module is used to determine the strength of the output signal of the phase-locked amplification unit and detects when the threshold count number of times has been exceeded. used to issue an alarm signal when a set value is reached. Fault alert based on alarm signals from alarm module.

In order to more clearly explain the technical aspects of the present application, the drawings that need to be used in the embodiments are briefly introduced below. Obviously, for those skilled in the art, without any creative effort,
Other drawings can be derived based on these drawings.
FIG. 2 is a schematic diagram of a discharge signal processing device. FIG. 2 is a schematic diagram of a bipolar detection module. FIG. 2 is a schematic diagram of an alarm module. This is the implementation result of this device alarming the actual discharge signal.

Embodiments will be described in detail below, examples of which are illustrated in the drawings. Where the following description refers to drawings, the same numerals in different drawings represent the same or similar elements, unless stated otherwise. The embodiments described in the following embodiments are not representative of all embodiments consistent with this application. These are merely examples of systems and methods consistent with certain aspects of the present application, as specifically described in the claims.
In order to solve the problem of not being able to accurately identify the true discharge signal component with the same frequency and phase as the frequency period in the case of complex electromagnetic, acoustic, and optical non-periodic interference, the present application provides a discharge signal processing device,
As shown in Figure 1, the signal acquisition module, signal amplification device, polarity inversion module, bipolar detection module, phase-locked amplification unit, alarm module, multi-level power supply, multi-level power supply is the signal amplification device, polarity inversion module, bipolar The detection module, the phase-locked amplification unit, and the alarm module are electrically connected, the signal acquisition module is connected to the signal amplification device, one end of the bipolar detection module is connected to the signal amplification device and the polarity inversion module, and the other end is connected to the phase-locked amplification device and the polarity inversion module. the phase-lock amplification unit is connected to the alarm module, where the phase-lock amplification unit is connected to the alarm module;
The signal acquisition module is
Combines the discharge signals generated in the insulation system of power equipment, converts the discharge signals into processed signals,
transmitting the signal to be processed to a signal amplification device and converting the signal to be processed into a voltage signal or a current signal;
The signal amplification device is
after receiving the processed signal, amplifying the processed signal to obtain the original voltage signal and transmitting the original voltage signal to the bipolar detection module;
The polarity reversal module is
A frequency voltage signal is received, and an operation mode switching command is sent to the bipolar detection module based on the polarity of the frequency voltage signal, and the operation mode switching command includes a positive polarity voltage detection mode switching command and a negative polarity voltage detection mode switching command. include,
The bipolar detection module is
upon receiving the original voltage signal, converting the original voltage signal into a low frequency voltage signal and transmitting the low frequency voltage signal to the phase-locked amplification unit in response to the operation mode switching command;
The phase-locked amplification unit is
receive the low frequency voltage signal, extract the engineering frequency AC fundamental wave signal component from the low frequency voltage signal to obtain the detected voltage, and send the detected voltage to the alarm module;
The alarm module is
It receives the detected voltage and issues an alarm signal based on the value of the detected voltage.
The present application provides a discharge signal processing device, and the signal collection module uses a high-frequency current sensor to insert and combine with the grounding wire of the power equipment insulation system to obtain the discharge signal, convert it into a high-frequency pulse signal, and convert it into a high-frequency pulse signal to insulate the power equipment. The signal amplification device, which combines the discharge signals generated in the system and converts them into voltage or current signals, is used to convert the voltage or current signals output by the combining unit into an amplified voltage signal, with polarity reversal. The module converts the frequency voltage signal output from the signal amplification device into a low frequency voltage signal that only retains the envelope line, and the operation mode of the high frequency voltage control bipolar detection module is to keep the original signal peak unchanged. The phase-locked amplification unit is used to temporally extract the operating frequency fundamental wave amplitude value of the positive or negative polarity voltage signal output from the bipolar detection module, and the multi-level power supply is Used to power all units except the signal acquisition module, the alarm module judges the strength of the output signal of the phase-locked amplification unit and issues an alarm signal when it exceeds the threshold count number and reaches the set value used to.
The device provided by this application can effectively avoid the non-periodic interference of various local discharge signals, and can also provide fault alarm without the need of high-speed acquisition units and complex signal-noise separation algorithms. , is a highly reliable and low-cost abnormal discharge warning device, which can accurately identify the true discharge signal component with the same frequency and phase as the frequency period in the case of complex electromagnetic, acoustic, and optical aperiodic interference. A problem that cannot be done.
In some embodiments, the polarity reversal module includes a zero cross comparator and a polarity reversal unit, one end of the polarity reversal unit is connected to the zero cross comparator and the other end is connected to a bipolar detection module, and the zero cross comparator is connected as follows. Consists of:
A frequency voltage signal is received, a value of the frequency voltage signal is compared with a first threshold voltage, and if the frequency voltage signal is greater than the first threshold voltage, a first high level signal is transmitted to the polarity inverting means.
In some embodiments, the zero-crossing comparator also
A frequency voltage signal is received, the magnitude of the frequency voltage signal is compared to a first threshold voltage, and if the frequency voltage signal is less than the first threshold voltage, a first low level signal is transmitted to the polarity reversing means.
The zero-crossing comparator is created using a hysteresis comparator, and the threshold voltage is set to a non-zero value based on the actual situation of frequency-voltage smoothness. A hysteretic zero-crossing comparator is used to monitor the zero-crossing point of the frequency voltage signal, and in some embodiments,
The hysteretic threshold voltage is selected as ±50 mV, and when the signal is higher than the threshold voltage 50 mV, the first high level signal is output to the polarity inversion unit, and when the signal is lower than the threshold voltage -50 mV, the first low level signal is output. Outputs the signal to the polarity reversal unit.
In some embodiments, the polarity reversal unit is
transmitting a positive voltage detection mode command to the bipolar detection module in response to the first high level signal;
In response to the first low level signal, a negative polarity voltage detection mode command is sent to the bipolar detection module.
In some embodiments, the bipolar detection module includes a positive polarity detection circuit, a negative polarity detection circuit,
It includes an NPN triode, a PNP triode, the NPN triode and the PNP triode are connected to a positive polarity detection circuit and a negative polarity detection circuit, and the bipolar detection module is
receiving an operation mode switching command including a positive polarity voltage detection mode switching command and a negative polarity voltage detection mode switching command;
In response to the positive polarity voltage detection mode switching command, the NPN triode and the PNP triode control the positive polarity detection circuit to convert the original voltage signal into a positive low frequency voltage signal, and convert the original voltage signal into a positive low frequency voltage signal. to the phase-locked amplification unit,
In response to the switching of the negative polarity voltage detection mode command, the NPN triode and the PNP triode control the negative polarity detection circuit to convert the original voltage signal into a negative polarity low frequency voltage signal, and convert the original voltage signal into a negative polarity low frequency voltage signal. to the phase-locked amplification unit.
As shown in FIG. 2, the bipolar detection means is composed of a positive polarity detection circuit and a negative polarity detection circuit,
The switching of the two detection circuits is controlled by the polarity reversing means, and low frequency detection signals of discharge pulses within positive and negative half cycles of the commercial AC voltage are obtained. The bipolar detection unit is configured by connecting a first phase-locked amplification unit and a second phase-locked amplification unit to an NPN triode and a PNP triode in series, respectively, and the base signals of the two triodes are connected at zero cross. Supplied by comparator output.
The bipolar detection module converts the frequency voltage signal output by the signal amplification device into a positive polarity low frequency voltage signal and a negative polarity low frequency voltage signal, and maintains the original signal peak.
A zero-cross comparator and a bipolar detection method are used to achieve positive and negative half-cycle signal tracking acquisition synchronized with the voltage phase, and the signal gain is increased by detection amplification.
In some embodiments, the phase-locked amplification unit includes a first phase-locked amplification unit and a second phase-locked amplification unit, the first phase-locked amplification unit:
After receiving the positive low frequency voltage signal, a fundamental frequency component is extracted from the positive low frequency voltage signal to obtain a first detected voltage, and the first detected voltage is transmitted to the alarm unit.
In some embodiments, the second phase-locked amplification unit includes:
After receiving the negative polarity low frequency voltage signal, fundamental frequency component extraction is performed on the negative polarity low frequency voltage signal to obtain a second detection voltage, and the second detection voltage is transmitted to the alarm unit.
In some embodiments, as shown in FIG. 3, the alarm module includes a summing operator, a hysteresis comparator, and a timer, one end of the hysteresis comparator is connected to the summing operator;
The other end is connected to a timer, and the addition operator is
After receiving the first detected voltage and the second detected voltage, the first detected voltage and the second detected voltage are added to calculate a total voltage, and the total voltage is sent to a hysteresis comparator.
In some embodiments, the hysteresis comparator is
After receiving the added voltage, the value of the added voltage is compared with a second threshold voltage, and if the added voltage is greater than the second threshold voltage, a second high level signal is sent to the timer.
In some embodiments, the timer is
When the second high level signal is received, the second high level signal within the tracking unit time is accumulated, and if the long accumulation time is greater than the alarm time threshold in the case of the high level signal, an alarm signal is issued. .
In some embodiments, a first phase-locked amplification unit at 50 Hz and a second phase-locked amplification unit at 50 Hz.
A phase-locked amplification unit is used to extract the 50 Hz fundamental frequency signal components in the positive and negative half-frequency low frequency voltage signals, respectively, to obtain Vb 1 and Vb 2. The addition operation unit receives the signal Vb
1 and Vb 2 are added, Vb is obtained and input to the hysteresis comparator, and if Vb is higher than the threshold voltage, a second high level signal is output to the timer, and the timer receives the second high level signal output by the hysteresis comparator. The signal time length is calculated to obtain Ts, and if Ts is greater than the alarm time threshold Talert within the tracking unit time Tp, an alarm signal is issued.
As shown in FIGS. 3 and 4, the positive polarity threshold voltage is set to 0.5 V, and when Vb is greater than 0.5 V, a second high level signal is output to the alarm module. Calculate the time length of the second high level signal output by the hysteresis comparator using the timer in the alarm module to obtain Ts, set it within the tracking unit time Tp, and if Ts is greater than the alarm time threshold Talert, an alarm is activated. When issuing a signal, the alarm time threshold Talert can take 100 ms. Finally, through the above test implementation process, the alarm signal state during 1 s time of the actual discharge signal was obtained.
The combination of the summing unit, hysteresis comparator and timer realizes bipolar signal acquisition with a wide dynamic range, converts signal strength into accumulation time, and can acquire discharge alarm information without the need for high-speed sampling. Reduced performance requirements for
The present application provides a discharge signal processing device, including a signal collection module, a signal amplification device, a polarity inversion module, a bipolar detection module, a phase-locked amplification unit, an alarm module and a multi-level power supply. The multi-level power supply is electrically connected to the signal amplification device, the polarity inversion module, the bipolar detection module, the phase-locked amplification unit, and the alarm module, the signal acquisition module is connected to the signal amplification device, and one end of the bipolar detection module is connected to the signal amplification device. It is connected to the amplifier device and the polarity inversion module, the other end is connected to the phase-locked amplification unit, and the phase-locked amplification unit is connected to the alarm module. The signal acquisition module is used to combine the discharge signal generated in the insulation system of the power equipment and convert it into a voltage or current signal, and the alarm module is used to determine the strength of the output signal of the phase-locked amplification unit and detects when the threshold count number of times has been exceeded. used to issue an alarm signal when a set value is reached. Fault alert based on alarm signals from alarm module.
Similar parts between the embodiments provided by the present application may be referred to each other, and the specific embodiments provided above are only some examples under the overall concept of the present application, and the scope of protection of the present application is limited. It does not constitute. For those skilled in the art, other embodiments expanded on the basis of the proposed application will fall within the protection scope of the present application without any creative effort.

Claims (10)

A discharge signal processing device,
including a signal acquisition module, a signal amplification device, a polarity inversion module, a bipolar detection module, a phase lock amplification unit, an alarm module, and a multilevel power supply;
The multi-level power supply is electrically connected with the signal amplification device, polarity inversion module, bipolar detection module, phase lock amplification unit, alarm module,
the signal acquisition module is connected to the signal amplification device;
One end of the bipolar detection module is connected to a signal amplification device and a polarity inversion module, and the other end is connected to a phase-locked amplification unit;
The phase-locked amplification unit is connected to the alarm module,
The signal acquisition module is
Coupling the discharge signal generated in the insulation system of power equipment,
Convert the discharge signal to a processed signal,
transmitting the processed signal to a signal amplification device;
The signal to be processed is a voltage signal or a current signal,
The signal amplification device is
receive the signal to be processed;
Amplify the processed signal to the original voltage signal,
Send the original voltage signal to the bipolar detection module,
The polarity reversal module is
receive a frequency voltage signal,
Depending on the polarity of the frequency voltage signal,
Sends an operation mode switching command to the bipolar detection module,
The operation mode switching command includes a command to switch the positive polarity voltage detection mode and a command to switch the negative polarity voltage detection mode,
The bipolar detection module is
receive the original voltage signal,
In response to the operation mode switching command,
Convert the original voltage signal to a low frequency voltage signal,
Send a low frequency voltage signal to a phase-locked amplification unit,
The phase-locked amplification unit is
receive low frequency voltage signals,
The voltage is detected by extracting the signal component of the frequency AC fundamental wave from the low frequency voltage signal,
Send the detected voltage to the alarm module,
The alarm module is
Receive the detected voltage value,
Based on the detected voltage value,
issue an alarm signal,
Discharge signal processing device. The discharge signal processing device according to claim 1,
The polarity reversal module includes a zero cross comparator and a polarity reversal unit,
A zero comparator is connected to one end of the polarity inversion unit, a bipolar detection module is connected to the other end,
The zero cross comparator is
receive a frequency voltage signal,
Comparing the numerical value of the frequency voltage signal with a first threshold voltage,
If the operating frequency voltage signal is greater than the first threshold voltage,
transmitting a first high level signal to the polarity inversion module;
Discharge signal processing device. The discharge signal processing device according to claim 2,
The zero cross comparator is
receive a frequency voltage signal,
comparing the numerical value of the frequency voltage signal with a first threshold voltage;
If the operating frequency voltage signal is less than the first threshold voltage,
transmitting a first low level signal to the polarity reversal module;
Discharge signal processing device. The discharge signal processing device according to claim 3,
The polarity reversal unit is
in response to the first high level signal;
Sends a positive voltage detection mode command to the bipolar detection module,
responsive to the first low level signal;
Sends a negative polarity voltage detection mode command to the bipolar detection module,
Discharge signal processing device. The discharge signal processing device according to claim 4,
The bipolar detection module includes a positive polarity detection circuit, a negative polarity detection circuit, an NPN triode, a PNP triode,
The NPN triode and PNP triode are connected to a positive polarity detection circuit and a negative polarity detection circuit,
The bipolar detection module is
Receives the original voltage signal and operation mode switching command,
The operation mode switching command includes a command to switch the positive polarity voltage detection mode and a command to switch the negative polarity voltage detection mode,
In response to a command to switch the positive voltage detection mode,
The NPN triode and PNP triode convert the control source voltage signal into a positive low frequency voltage signal using a positive polarity detection circuit.
Send the positive polarity low frequency voltage signal to the phase-locked amplification unit,
In response to a command to switch negative polarity voltage detection mode,
The NPN triode and PNP triode convert the control source voltage signal into a negative low frequency voltage signal using a negative polarity detection circuit.
transmitting a negative polarity low frequency voltage signal to a phase-locked amplification unit;
Discharge signal processing device. The discharge signal processing device according to claim 5,
The phase-locked amplification unit includes a first phase-locked amplification unit and a second phase-locked amplification unit,
The first phase-locked amplification unit is
receive a positive polarity low frequency voltage signal,
Extracts the fundamental frequency component from the positive low frequency voltage signal,
Obtaining the first detection voltage,
transmitting the first detected voltage to the alarm unit;
Discharge signal processing device. The discharge signal processing device according to claim 6,
The second phase-locked amplification unit is
Receives a negative polarity low frequency voltage signal,
Extracts the fundamental frequency component from the negative polarity low frequency voltage signal,
Obtaining a second detection voltage,
transmitting the second detection voltage to the alarm unit;
Discharge signal processing device. The discharge signal processing device according to claim 7,
The alarm module includes an adder, a hysteresis comparator, a timer,
One end of the hysteresis comparator is connected to the adder, the other end is connected to the timer,
The addition operator is
receiving a first detection voltage and a second detection voltage;
Adding the first detection voltage and the second detection voltage to obtain a total voltage,
Send the total voltage to a hysteresis comparator,
Discharge signal processing device. The discharge signal processing device according to claim 8,
The hysteresis comparator is
Receive the value of the additional voltage,
Comparing the value of the added voltage with the second threshold voltage,
If the added voltage is greater than the second threshold voltage,
transmitting a second high level signal to the timer;
Discharge signal processing device. The discharge signal processing device according to claim 9,
The timer is
receiving a second high level signal;
Integrate the time length of the second high level signal within the set trace unit time,
If the cumulative time length of the second high level signal is greater than the alarm time threshold,
issue an alarm signal,
Discharge signal processing device.