CN117110691A - Power equipment data acquisition system - Google Patents

Abstract

The application discloses a data acquisition system of power equipment, which comprises an acquisition unit, an analysis unit and a display unit. According to the application, by arranging the constant voltage power supply and the constant current power supply, the corresponding electric power data is acquired by the acquisition unit, and then the corresponding electric power data is subjected to compensation analysis by the analysis unit, so that a corresponding compensation analysis result is obtained, and the corresponding compensation analysis result is used as a compensation parameter of the corresponding electric power data acquired by the acquisition unit in the target electric power equipment, so that the calibration and accurate acquisition of the electric power equipment data acquisition system are realized; the voltage parameter collected by the constant voltage power supply through the constant voltage collection module and the current parameter collected by the constant current collection module through the constant current power supply are respectively compared with the rated voltage of the constant voltage power supply and the rated current of the constant current power supply, an abnormal judgment value is calculated, and then fault diagnosis is carried out on the power data collection result according to the abnormal judgment value, so that the fault diagnosis accuracy of the power monitoring data is improved.

Description

Power equipment data acquisition system

Technical Field

The application relates to the technical field of information automation, in particular to a data acquisition system of power equipment.

Background

In the operation of the power equipment, voltage and current measurement is the basis of system operation state evaluation, and in the measurement process of utilizing a voltage and current sensor, since the power supply of the power equipment is unstable, impact current can occur, the current value of the impact current is several times of the measurement range of the current sensor, and the current sensor is magnetically biased or damaged. In practical application, when the current sensor is magnetically biased, the measurement error is increased; when the current sensor is damaged, the current sensor is difficult to find in time, and measurement errors are caused.

Therefore, the application provides the power equipment data acquisition system, which realizes the calibration and accurate acquisition of the power equipment data acquisition system and can alarm whether the acquisition system works normally.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a data acquisition system of power equipment, which solves the problems in the background technology.

In order to achieve the above purpose, the application is realized by the following technical scheme: a power equipment data acquisition system comprising:

the acquisition unit comprises a main line acquisition module, a constant voltage acquisition module and a constant current acquisition module, and is used for respectively acquiring respective power data on target power equipment, a constant voltage power supply and a constant current power supply, and then sending the power data to the analysis unit;

the constant voltage power supply and the constant current power supply are respectively used for acquiring corresponding electric power data acquired by the acquisition unit and analyzing the corresponding electric power data through the analysis unit to obtain corresponding compensation analysis results;

the analysis unit is used for acquiring all the power data acquired by the acquisition unit, carrying out compensation analysis on the power data acquired by the target power equipment through the power data on the constant voltage power supply and the constant current power supply, obtaining the display voltage and the display current of the target power equipment according to the compensation analysis result, and then sending the display voltage and the display current to the display unit;

and the display unit is used for displaying the display current and the display voltage.

Preferably, the power data includes a current parameter, a voltage parameter.

Preferably, the compensation analysis is as follows:

SA1, respectively marking the actual current parameter and the actual voltage parameter obtained by the constant voltage acquisition module as I _S1 And U _S1 ；

Then, using ohm's law: i _L1 =U _S1 R, calculating theoretical current I of constant voltage power supply _L1 ；

Then through I _c =|I _S1 -I _L1 I, obtaining the difference I between the actual current parameter and the theoretical current of the constant-voltage power supply _c ；

Wherein R represents a resistor, wherein the resistors at the output ends of the constant voltage power supply and the constant current power supply are the same, and the resistor is a fixed value;

SA2, respectively marking the actual current parameter and the actual voltage parameter obtained by the constant current acquisition module as I _S2 And U _S2 ；

Using ohm's law: u (U) _L2 =I _S2 * R, calculating the theoretical voltage U of the constant-current power supply _L2 ；

Subsequently through U _c =|U _S2 -U _L2 I, obtaining the difference U between the actual voltage parameter and the theoretical voltage of the constant-current power supply _c ；

SA3, acquiring power data generated by a plurality of constant voltage power supplies and constant current power supplies at different time nodes in a designated period, sequentially calculating the difference value between the actual current parameters and the theoretical current of the plurality of constant voltage power supplies and the difference value between the actual voltage parameters and the theoretical voltage of the constant current power supplies, which are obtained by the power data at each time node, according to the modes of the step SA1 and the step SA2, and respectively recording the difference values as U _ci And I _ci ；

Where i=1, 2, … … n, n denotes the number of time nodes in a given period, i denotes the number, U _ci Indicating what constant voltage power supply is actuallyDifference between current parameter and theoretical current, I _ci The difference value between the actual voltage parameter and the theoretical voltage of the constant-current power supply is represented;

SA4, respectively calculating the difference value between the actual current parameter of the constant-voltage power supply and the theoretical current and the discrete degree between the actual voltage parameter of the constant-voltage power supply and the theoretical voltage by using a discrete degree calculation formula, removing the corresponding difference value which causes the excessive discrete degree according to a preset discrete threshold value, reserving the rest corresponding difference values which are not removed, calculating the average value of the corresponding difference values, and respectively recording the corresponding average value as a voltage compensation value and a current compensation value;

SA5, and then respectively marking the current parameter and the voltage parameter of the target power equipment as I ₀ And U ₀ ；

And respectively adding the current parameter and the voltage parameter of the target power equipment with the corresponding current compensation value and the voltage compensation value to obtain the corresponding display current and the corresponding display voltage, and then sending the display current and the display voltage to the display unit.

Preferably, the display current and the display voltage are calculated according to I _S1 And I _L1 Size and U of (2) _S2 And U _L2 Determining the corresponding current compensation value and the positive and negative values of the corresponding voltage;

if I _S1 ＞I _L1 The corresponding current compensation value is represented as a positive number;

if I _S1 ＜I _L1 The corresponding current compensation value is represented as a negative number;

if U is _S2 ＞U _L2 The corresponding voltage compensation value is represented as a positive number;

if U is _S2 ＜U _L2 The corresponding voltage compensation value is represented as a negative number.

Preferably, the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module all adopt current and voltage detection chips of the same model;

preferably, the analysis unit is further used for performing anomaly analysis on the power data obtained by the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module, obtaining an anomaly signal according to an anomaly analysis result, and sending the anomaly signal to the display unit;

the display unit is also used for displaying the abnormal signals to operators, and the operators overhauls and replaces the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module according to the abnormal signals.

Preferably, the abnormality analysis means of the analysis unit is as follows:

SS1, acquiring voltage parameters acquired by a plurality of constant voltage acquisition modules at a constant voltage power supply at different time nodes in a specified period, and marking each voltage parameter as U _xi The constant current acquisition module acquires current parameters in a constant current power supply, and marks each current parameter as I _xi I=1, 2, … … n, n representing the number of time nodes in a given period;

simultaneously obtaining rated voltage of the constant-voltage power supply and rated current of the constant-current power supply, and marking the rated voltage and the rated current as U respectively _e And I _e ；

SS2, then all U' s _xi +β ₁ And U _e Comparing, I _xi +β ₂ And I _e Comparing, and then according to the comparison result, at all U' s _xi Acquisition U _xi +β ₁ ＞U _e Corresponding U _xi And marks it as u ₁ ；

At the same time at all I _xi Acquisition of I _xi +β ₂ ＞I _e Corresponding I _xi And marks it as u ₂ ；

At the same time at U _xi +β ₁ ＞U _e And I _xi +β ₂ ＞I _e When they are established, the number u of the corresponding time nodes is obtained ₃ ；

SS3, then through the formulaCalculating an abnormality determination value YP in a specified period;

wherein lambda is a preset proportional influence threshold value, alpha ₁ 、α ₂ And alpha ₃ Are all preset proportional coefficient sets, and alpha 1E [0, alpha ₁₁ ]、α2∈[0,α ₂₁ ]And alpha 3E [0, alpha ₃₁ ]；

SS3, then compares the abnormality determination value YP with a preset abnormality threshold Py:

if YP is larger than Py, the acquisition result of the acquisition unit is abnormal, and then an abnormal signal is generated;

preferably, in step SS3, if YP is equal to or less than Py, it indicates that the acquisition result by the acquisition unit is normal, and no abnormal signal is generated.

The application provides a data acquisition system of power equipment. Compared with the prior art, the method has the following beneficial effects:

according to the application, after the voltage parameter acquired by the constant voltage acquisition module at the constant voltage power supply and the current parameter acquired by the constant current acquisition module at the constant current power supply are respectively compared with the rated voltage of the constant voltage power supply and the rated current of the constant current power supply, an abnormal judgment value is calculated according to the quantity ratio of the voltage parameter and the constant current power supply, and then the power data acquisition result is subjected to fault diagnosis according to the abnormal judgment value, so that the fault diagnosis accuracy of the power monitoring data is improved.

According to the application, the constant voltage power supply and the constant current power supply are arranged, the corresponding power data is acquired by the acquisition unit, and then the corresponding power data is subjected to compensation analysis by the analysis unit, so that a corresponding compensation analysis result is obtained, and the compensation parameter of the corresponding power data is acquired by the acquisition unit in the target power equipment, so that the calibration and accurate acquisition of the power equipment data acquisition system are realized.

Drawings

FIG. 1 is a system block diagram of the present application;

fig. 2 is a system block diagram of the acquisition unit of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As an embodiment of the application

Referring to fig. 1-2, the present application provides a technical solution: a power equipment data acquisition system comprising:

the constant voltage power supply and the constant current power supply are respectively used for analyzing the corresponding electric power data acquired by the acquisition unit to obtain a corresponding compensation analysis result;

the acquisition unit comprises a main line acquisition module, a constant voltage acquisition module and a constant current acquisition module, and is used for respectively acquiring respective power data on target power equipment, a constant voltage power supply and a constant current power supply; the power data includes current parameters and voltage parameters;

the resistances of the constant voltage power supply and the constant current power supply output end are the same, and the resistances are regarded as approximately fixed;

the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module all adopt current and voltage detection chips of the same model;

the analysis unit is used for acquiring all the electric power data acquired by the acquisition unit and carrying out compensation analysis on the electric power data;

the compensation analysis mode is as follows:

SA1, respectively marking the actual current parameter and the actual voltage parameter obtained by the constant voltage acquisition module as I _S1 And U _S1 ；

Then, using ohm's law: i _L1 =U _S1 R, calculating theoretical current I of constant voltage power supply _L1 ；

Then through I _c =|I _S1 -I _L1 I, obtaining the difference I between the actual current parameter and the theoretical current of the constant-voltage power supply _c ；

Wherein R represents resistance;

SA2, respectively marking the actual current parameter and the actual voltage parameter obtained by the constant current acquisition module as I _S2 And U _S2 ；

Using ohm's law: u (U) _L2 =I _S2 * R, calculating the theoretical voltage U of the constant-current power supply _L2 ；

Subsequently through U _c =|U _S2 -U _L2 I, obtaining the difference U between the actual voltage parameter and the theoretical voltage of the constant-current power supply _c ；

SA3, acquiring power data generated by a plurality of constant voltage power supplies and constant current power supplies at different time nodes in a designated period, sequentially calculating the difference value between the actual current parameters and the theoretical current of the plurality of constant voltage power supplies and the difference value between the actual voltage parameters and the theoretical voltage of the constant current power supplies, which are obtained by the power data at each time node, according to the modes of the step SA1 and the step SA2, and respectively recording the difference values as U _ci And I _ci ；

Where i=1, 2, … … n, n denotes the number of time nodes in a given period, i denotes the number, U _ci Indicating the difference value between the actual current parameter and the theoretical current of the constant voltage power supply, I _ci The difference value between the actual voltage parameter and the theoretical voltage of the constant-current power supply is represented;

SA4, respectively calculating the difference value between the actual current parameter and the theoretical current of the constant-voltage power supply and the discrete degree between the actual voltage parameter and the theoretical voltage of the constant-voltage power supply by using a discrete degree calculation formula, removing the corresponding difference value which causes the excessive discrete degree according to a preset discrete threshold value, reserving the rest corresponding difference values which are not removed, calculating the average value of the corresponding difference values, and respectively recording the corresponding average value of the corresponding difference values as a voltage compensation value and a current compensation value, wherein the discrete degree is a common technology of a person in the field;

in this embodiment, the specific way to calculate the voltage compensation value according to the degree of dispersion is:

by the formula:obtaining discrete values L of all the compensated air flow;

then the calculated discrete values L and L ₀ Comparing, if L > L ₀ The set of discrete values L is considered too large, in terms of |U _ci -U _cp The corresponding U is sequentially removed from the sequence of the big to the small of the | _ci The value is correspondingly calculated to the residual discrete value L until L is less than or equal to L ₀ ；

Then obtain all U's not rejected _ci The value is kept, the difference value between the actual voltage parameter and the theoretical voltage of the constant-current power supply which is not removed is kept, and then the actual voltage of the constant-current power supply which is not removed is calculatedThe average value of the difference value between the parameter and the theoretical voltage is the voltage compensation value;

wherein U is _cp Representing the average value of the difference value between the actual voltage parameter and the theoretical voltage of all constant-current power supplies participating in calculation, L ₀ Is a preset discrete threshold value;

SA5, and then respectively marking the current parameter and the voltage parameter of the target power equipment as I ₀ And U ₀ ；

The current parameter and the voltage parameter of the target power equipment are respectively added with a corresponding current compensation value and a corresponding voltage compensation value to obtain a corresponding display current and a corresponding display voltage, and then the display current and the display voltage are sent to a display unit;

wherein the display current is calculated according to I _S1 And I _L1 Determining the positive and negative values of the corresponding current compensation value;

if I _S1 ＞I _L1 The corresponding current compensation value is represented as a positive number;

if I _S1 ＜I _L1 The corresponding current compensation value is represented as a negative number;

meanwhile, the display voltage is calculated according to U _S2 And U _L2 Determining the positive and negative values of the corresponding voltage compensation value;

if U is _S2 ＞U _L2 The corresponding voltage compensation value is represented as a positive number;

if U is _S2 ＜U _L2 The corresponding voltage compensation value is represented as a negative number;

the display unit is used for displaying the display current and the display voltage to a tester;

according to the embodiment, the constant voltage power supply and the constant current power supply are arranged, the corresponding power data is obtained by the collecting unit, the corresponding power data is subjected to compensation analysis by the analyzing unit, so that a corresponding compensation analysis result is obtained, the corresponding compensation analysis result is used as the compensation parameter of the corresponding power data obtained by the collecting unit in the target power equipment, and the calibration and accurate collection of the power equipment data collecting system are further realized.

As embodiment II of the present application

The first embodiment is based on the first embodiment, the analysis unit is further configured to perform anomaly analysis on the power data obtained by the main line acquisition module, the constant voltage acquisition module, and the constant current acquisition module, obtain an anomaly signal according to an anomaly analysis result, and send the anomaly signal to the display unit;

the anomaly analysis method is as follows:

SS1, acquiring voltage parameters acquired by a plurality of constant voltage acquisition modules at a constant voltage power supply at different time nodes in a specified period, and marking each voltage parameter as U _xi The constant current acquisition module acquires current parameters in a constant current power supply, and marks each current parameter as I _xi I=1, 2, … … n, n representing the number of time nodes in a given period, i representing the number of times;

in this embodiment, the designated period of the present embodiment and the designated period of the first embodiment are the same period, and each time node thereof and the time node of the first embodiment are the same time node;

SS2, then obtaining the rated voltage of the constant voltage power supply and the rated current of the constant current power supply, and marking the rated voltage and the rated current as U respectively _e And I _e ；

SS3, then all U' s _xi +β ₁ And U _e Comparing, I _xi +β ₂ And I _e Comparing;

if U is _xi +β ₁ ＞U _e Acquiring the voltage parameter;

if U is _xi +β ₁ ≤U _e The voltage parameter is not acquired;

if I _xi +β ₂ ＞I _e Acquiring the current parameter;

if I _xi +β ₂ ≤I _e The current parameter is not obtained;

wherein beta is ₁ And beta ₂ Corresponding preset compensation parameters are adopted;

SS4, then at all U _xi Acquisition U _xi +β ₁ ＞U _e Corresponding U _xi And marks it as u ₁ ；

At the same time at all I _xi Acquisition of I _xi +β ₂ ＞I _e Corresponding I _xi And marks it as u ₂ ；

At the same time at U _xi +β ₁ ＞U _e And I _xi +β ₂ ＞I _e When they are established, the number u of the corresponding time nodes is obtained ₃ ；

SS5, then through the formulaCalculating an abnormality determination value YP in a specified period;

wherein lambda is a preset proportional influence threshold value, alpha ₁ 、α ₂ And alpha ₃ Are all preset proportional coefficient sets, and alpha 1E [0, alpha ₁₁ ]、α2∈[0,α ₂₁ ]And alpha 3E [0, alpha ₃₁ ]；

SS6, then compares the abnormality determination value YP with a preset abnormality threshold Py:

if YP is larger than Py, the acquisition result of the acquisition unit is abnormal, then an abnormal signal is generated, and compensation analysis is not carried out on the electric power data acquired by the target electric power equipment through the analysis unit;

if YP is less than or equal to Py, the collecting result of the collecting unit is normal, and then the compensating analysis can be continuously carried out on the electric power data collected by the target electric power equipment through the analyzing unit;

the display unit is also used for displaying the abnormal signal to an operator, and the operator overhauls and replaces the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module according to the abnormal signal.

According to the embodiment, after the voltage parameter collected by the constant voltage collecting module at the constant voltage power supply and the current parameter collected by the constant current collecting module at the constant current power supply are respectively compared with the rated voltage of the constant voltage power supply and the rated current of the constant current power supply, an abnormal judgment value is calculated according to the number ratio of the constant voltage power supply and the rated current of the constant current power supply, and then fault diagnosis is carried out on the power data collecting result according to the abnormal judgment value, so that the fault diagnosis accuracy of the power monitoring data is improved.

And all that is not described in detail in this specification is well known to those skilled in the art.

The foregoing describes one embodiment of the present application in detail, but the disclosure is only a preferred embodiment of the present application and should not be construed as limiting the scope of the application. All equivalent changes and modifications within the scope of the present application are intended to be covered by the present application.

Claims (8)

1. A power equipment data acquisition system, comprising:

the acquisition unit comprises a main line acquisition module, a constant voltage acquisition module and a constant current acquisition module, and is used for respectively acquiring respective power data on target power equipment, a constant voltage power supply and a constant current power supply, and then sending the power data to the analysis unit;

the constant voltage power supply and the constant current power supply are respectively used for acquiring corresponding electric power data acquired by the acquisition unit and analyzing the corresponding electric power data through the analysis unit to obtain corresponding compensation analysis results;

the analysis unit is used for acquiring all the power data acquired by the acquisition unit, carrying out compensation analysis on the power data acquired by the target power equipment through the power data on the constant voltage power supply and the constant current power supply, obtaining the display voltage and the display current of the target power equipment according to the compensation analysis result, and then sending the display voltage and the display current to the display unit;

and the display unit is used for displaying the display current and the display voltage.

2. A power equipment data acquisition system according to claim 1, wherein: the power data includes current parameters and voltage parameters.

3. A power equipment data acquisition system according to claim 2, wherein: the compensation analysis mode is as follows:

SA1, respectively marking the actual current parameter and the actual voltage parameter obtained by the constant voltage acquisition module as I _S1 And U _S1 ；

Then, using ohm's law: i _L1 =U _S1 R, calculating theoretical current I of constant voltage power supply _L1 ；

Then through I _c =|I _S1 -I _L1 I, obtaining the difference I between the actual current parameter and the theoretical current of the constant-voltage power supply _c ；

Wherein R represents a resistor, wherein the resistors at the output ends of the constant voltage power supply and the constant current power supply are the same, and the resistor is a fixed value;

SA2, respectively marking the actual current parameter and the actual voltage parameter obtained by the constant current acquisition module as I _S2 And U _S2 ；

Using ohm's law: u (U) _L2 =I _S2 * R, calculating the theoretical voltage U of the constant-current power supply _L2 ；

Subsequently through U _c =|U _S2 -U _L2 I, obtaining the difference U between the actual voltage parameter and the theoretical voltage of the constant-current power supply _c ；

SA3, acquiring power data generated by a plurality of constant voltage power supplies and constant current power supplies at different time nodes in a designated period, sequentially calculating the difference value between the actual current parameters and the theoretical current of the plurality of constant voltage power supplies and the difference value between the actual voltage parameters and the theoretical voltage of the constant current power supplies, which are obtained by the power data at each time node, according to the modes of the step SA1 and the step SA2, and respectively recording the difference values as U _ci And I _ci ；

Where i=1, 2, … … n, n denotes the number of time nodes in a given period, i denotes the number, U _ci Indicating the difference value between the actual current parameter and the theoretical current of the constant voltage power supply, I _ci The difference value between the actual voltage parameter and the theoretical voltage of the constant-current power supply is represented;

SA4, respectively calculating the difference value between the actual current parameter of the constant-voltage power supply and the theoretical current and the discrete degree between the actual voltage parameter of the constant-voltage power supply and the theoretical voltage by using a discrete degree calculation formula, removing the corresponding difference value which causes the excessive discrete degree according to a preset discrete threshold value, reserving the rest corresponding difference values which are not removed, calculating the average value of the corresponding difference values, and respectively recording the corresponding average value as a voltage compensation value and a current compensation value;

SA5, and then respectively marking the current parameter and the voltage parameter of the target power equipment as I ₀ And U ₀ ；

And respectively adding the current parameter and the voltage parameter of the target power equipment with the corresponding current compensation value and the voltage compensation value to obtain the corresponding display current and the corresponding display voltage, and then sending the display current and the display voltage to the display unit.

4. A power equipment data acquisition system according to claim 3, wherein: display current and display voltage are calculated according to I _S1 And I _L1 Size and U of (2) _S2 And U _L2 Determining the corresponding current compensation value and the positive and negative values of the corresponding voltage;

if I _S1 ＞I _L1 The corresponding current compensation value is represented as a positive number;

if I _S1 ＜I _L1 The corresponding current compensation value is represented as a negative number;

if U is _S2 ＞U _L2 The corresponding voltage compensation value is represented as a positive number;

if U is _S2 ＜U _L2 The corresponding voltage compensation value is represented as a negative number.

5. A power equipment data acquisition system according to claim 1, wherein: the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module all adopt current and voltage detection chips of the same model.

6. A power equipment data acquisition system according to claim 1, wherein: the analysis unit is also used for carrying out anomaly analysis on the electric power data obtained by the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module, obtaining an anomaly signal according to an anomaly analysis result and sending the anomaly signal to the display unit;

the display unit is also used for displaying the abnormal signals to operators, and the operators overhauls and replaces the main line acquisition module, the constant voltage acquisition module and the constant current acquisition module according to the abnormal signals.

7. The electrical equipment data acquisition system of claim 6, wherein: the abnormality analysis mode of the analysis unit is as follows:

SS1, acquiring voltage parameters acquired by a plurality of constant voltage acquisition modules at a constant voltage power supply at different time nodes in a specified period, and marking each voltage parameter as U _xi The constant current acquisition module acquires current parameters in a constant current power supply, and marks each current parameter as I _xi I=1, 2, … … n, n representing the number of time nodes in a given period;

simultaneously obtaining rated voltage of the constant-voltage power supply and rated current of the constant-current power supply, and marking the rated voltage and the rated current as U respectively _e And I _e ；

SS2, then all U' s _xi +β ₁ And U _e Comparing, I _xi +β ₂ And I _e Comparing, and then according to the comparison result, at all U' s _xi Acquisition U _xi +β ₁ ＞U _e Corresponding U _xi And marks it as u ₁ ；

At the same time at all I _xi Acquisition of I _xi +β ₂ ＞I _e Corresponding I _xi And marks it as u ₂ ；

At the same time at U _xi +β ₁ ＞U _e And I _xi +β ₂ ＞I _e When they are established, the number u of the corresponding time nodes is obtained ₃ ；

SS3, then through the formulaCalculating an abnormality determination value YP in a specified period;

wherein lambda is a preset proportional influence threshold value, alpha ₁ 、α ₂ And alpha ₃ Are all preset proportional coefficient sets, and alpha 1E [0, alpha ₁₁ ]、α2∈[0,α ₂₁ ]And alpha 3E [0, alpha ₃₁ ]；

SS3, then compares the abnormality determination value YP with a preset abnormality threshold Py:

if YP > Py, the result of the acquisition by the acquisition unit is abnormal, and then an abnormal signal is generated.

8. The electrical equipment data acquisition system of claim 7, wherein: in step SS3, if YP is equal to or less than Py, it indicates that the acquisition result by the acquisition unit is normal, and no abnormal signal is generated.