CN117970009A - Electric power acquisition terminal and electric energy meter of valley filling circuit - Google Patents

Abstract

The invention relates to the technical field of valley fill circuits, and particularly discloses a power acquisition terminal and an electric energy meter of a valley fill circuit.

Description

Electric power acquisition terminal and electric energy meter of valley filling circuit

Technical Field

The invention relates to the technical field of valley filling circuits, in particular to an electric power acquisition terminal and an electric energy meter of a valley filling circuit.

Background

The valley filling circuit is a technology for power regulation, aims to reduce the valley value in a power system and fill up a power load curve so as to improve the efficiency and quality of power transmission, is generally applied to the fields of intelligent power systems, renewable energy systems, electric vehicle charging equipment and the like, and the working principle of the valley filling circuit is that the valley value is monitored in the power system, then the valley value is regulated by controlling a power regulating device so as to be flatter, thereby reducing energy waste and improving the efficiency of the system.

For example, the patent application with publication number CN115589006A discloses a peak clipping and valley filling regulating system of a power grid based on heat storage, which relates to the technical field of thermoelectricity; the system comprises a power generation system for outputting electric energy to a power distribution network; the heat storage system is connected to the power distribution network and used for converting electric energy in the power distribution network into heat energy and storing the heat energy when electricity is low-peak, and releasing the heat energy when the electricity is high-peak; the secondary power generation system is connected to the heat storage system and is used for generating power by utilizing heat energy stored in the heat storage system and outputting electric energy generated by the secondary power generation system to the power distribution network; the measurement and control system is used for connecting the power distribution network with the heat storage system and disconnecting the heat storage system from the secondary power generation system in the electricity consumption peak period; and in the electricity consumption valley period, the energy storage system is used for breaking the power distribution network and the heat storage system and connecting the heat storage system with the secondary power generation system. The heat storage system absorbs electric energy in the electricity consumption low valley period of the power distribution network, and outputs heat energy to the two-stage power generation system for power generation in the electricity consumption peak period, so that the peak clipping and valley filling effects of the power distribution line are realized.

For example, patent application publication number CN114430175A discloses a peak clipping and valley stopping power distribution method based on a molten salt energy storage system, which comprises the following steps: s1, acquiring an operation mode, and detecting whether peak clipping and valley filling are needed or not; s2, adjusting an operation mode, wherein the operation mode is used for realizing intelligent power distribution; s3, feedback control is used for carrying out feedback control according to the power supply and heat supply effect and the circuit state; the power in the off-peak period can be transferred to the peak period for power supply, and the heat is transferred to the steam pipe network in the plant area so as to meet the steam requirement in the plant area; the power supply mode can be adjusted along with time, the power supply efficiency is optimally adjusted according to the power consumption, various energy supply devices are combined, and the productivity utilization rate is improved; the power supply and heat storage can be detected in real time, the heat storage threshold value is set, heat is supplied and steam is supplied after the heat storage is finished, and the power supply can be regulated to utilize the power grid to supply power for heat storage when the heat storage is insufficient.

Nowadays, the power acquisition terminal and the electric energy meter of the valley filling circuit are used for evaluating the power regulation level of the valley filling circuit, so that the method is particularly characterized in that the operation state information set before the power regulation of the valley filling circuit is not passed, the power regulation limit of the valley filling circuit is evaluated, the power regulation limit is possibly set improperly, the risk of a power system is increased, and the operation of the power system is possibly influenced; the running state information before power regulation is not fully known, the setting of the power regulation limit can be caused to be inflexible and efficient, accurate regulation can not be carried out according to actual conditions, the power level can not be effectively filled with grains, the integration of the running state information before power regulation is lacked, the running state information can not be optimally regulated, the power regulation limit of the grain filling circuit can be better optimized through the analysis of the running state information, and the overall efficiency and stability of a power system are improved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the electric power acquisition terminal and the electric energy meter of the valley filling circuit, which can effectively solve the problems related to the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the first aspect of the invention provides a power acquisition terminal of a valley filling circuit, comprising a pre-regulation state information set acquisition module, a power regulation level evaluation module and a valley filling circuit database, wherein: the pre-regulation state information set acquisition module is used for acquiring a pre-regulation operation state information set of the valley filling circuit power, and analyzing and obtaining a valley filling circuit power regulation limit evaluation value based on the pre-regulation operation state information set of the valley filling circuit power;

The power regulation information set acquisition module is used for acquiring a power regulation information set of the valley filling circuit, and analyzing and obtaining a power regulation evaluation value of the valley filling circuit based on the power regulation information set of the valley filling circuit;

The power regulation level evaluation module is used for evaluating and prompting the power regulation level of the valley filling circuit based on the analyzed evaluation value of the power regulation of the valley filling circuit and the evaluated evaluation value of the power regulation limit of the valley filling circuit;

and the valley filling circuit database is used for storing the valley filling circuit power adjustment target deviation value corresponding to each designated label, and the evaluation prompt scheme corresponding to the difference value between the valley filling circuit power adjustment evaluation value and the valley filling circuit power adjustment limit evaluation value.

As a further scheme, the operation state information set before the power adjustment of the valley filling circuit specifically comprises an input voltage of the power system before the power adjustment of the valley filling circuit, an input current of the power system before the power adjustment of the valley filling circuit and a maximum stable duration of the input power of the power system before the power adjustment of the valley filling circuit.

As a further scheme, based on the information set of the running state of the valley filling circuit before power adjustment, the evaluation value of the boundary of the power adjustment of the valley filling circuit is obtained through analysis, and the specific analysis process is as follows: generating a specified tag by using the input voltage of the power system before the power adjustment of the valley filling circuit, the input current of the power system before the power adjustment of the valley filling circuit and the maximum stable time of the input power of the power system before the power adjustment of the valley filling circuit, and matching the specified tag with a valley filling circuit power adjustment target deviation value corresponding to each specified tag stored in a database of the valley filling circuit to obtain a valley filling circuit power adjustment target deviation value corresponding to the specified tag;

And importing the valley fill circuit power regulation target deviation value corresponding to the designated tag into a valley fill circuit power regulation target evaluation model to obtain a valley fill circuit power regulation limit evaluation value, wherein the valley fill circuit power regulation limit evaluation value is used as an analysis basis for evaluating and prompting the power regulation level of the valley fill circuit.

As a further scheme, the power regulation information set acquisition module comprises a valley filling circuit power regulation condition data acquisition unit and a valley filling circuit power regulation result data acquisition unit;

The valley fill circuit power regulation condition data acquisition unit is used for acquiring the valley fill circuit power regulation condition data;

The valley fill circuit power regulation result data acquisition unit is used for acquiring valley fill circuit power regulation result data.

As a further scheme, the valley fill circuit power regulation condition data specifically comprises valley fill circuit power regulation equipment condition data and valley fill circuit power regulation environment condition data, wherein the valley fill circuit power regulation equipment condition data comprises the effective starting total time length of the valley fill circuit power regulation equipment, the retention proportion of original factory parts of the valley fill circuit power regulation equipment and the total times of fault shutdown of the valley fill circuit power regulation equipment, and the valley fill circuit power regulation environment condition data comprises the working environment temperature of the valley fill circuit power regulation equipment, the average illumination time length of the working environment of the valley fill circuit power regulation equipment and the average illumination intensity of the working environment of the valley fill circuit power regulation equipment.

As a further scheme, the valley fill circuit power regulation result data specifically comprises valley fill circuit power regulation output result data and valley fill circuit power regulation communication signal influence data, wherein the valley fill circuit power regulation output result data comprises a valley fill circuit power regulated output electric energy value, a valley fill circuit power regulation stable output power maintaining time, a valley fill circuit light energy and electric energy conversion rate, and the valley fill circuit power regulation communication signal influence data comprises a valley fill circuit power regulation communication signal output delay time, a valley fill circuit power regulation communication signal output packet loss rate and a valley fill circuit power regulation communication signal output error rate.

As a further scheme, based on the valley filling circuit power regulation information set, the evaluation value of the valley filling circuit power regulation is obtained through analysis, and the specific analysis process is as follows: acquiring a valley fill circuit power regulation information set based on a valley fill circuit power regulation condition data acquisition unit and a valley fill circuit power regulation result data acquisition unit;

the valley fill circuit power regulation information set comprises valley fill circuit power regulation condition data and valley fill circuit power regulation result data;

And comprehensively analyzing the obtained valley fill circuit power regulation condition data and the valley fill circuit power regulation result data to obtain a valley fill circuit power regulation evaluation value, wherein the valley fill circuit power regulation evaluation value is used as an analysis basis for evaluating and prompting the power regulation level of the valley fill circuit.

As a further scheme, the evaluation value of the electric power regulation of the valley filling circuit comprises the following specific analysis processes:

。

in the method, in the process of the invention, Evaluation value for regulating power of valley filling circuit,/>Condition evaluation value for valley fill circuit power adjustment,/>Evaluation value of power regulation result for valley filling circuit,/>Weight factor of condition evaluation value is adjusted for set valley filling circuit power,/>Weight factor of evaluation value of result is adjusted for set valley filling circuit power,/>Correction factor for regulating evaluation value for set valley filling circuit power,/>Is a natural constant.

As a further scheme, based on the analyzed evaluation value of the electric power regulation of the valley filling circuit and the analyzed evaluation value of the electric power regulation limit of the valley filling circuit, the evaluation prompt is carried out on the electric power regulation level of the valley filling circuit, and the specific analysis process is as follows: comparing the valley fill circuit power adjustment evaluation value with the valley fill circuit power adjustment limit evaluation value;

If the valley fill circuit power adjustment evaluation value of a certain valley fill circuit is higher than or equal to the valley fill circuit power adjustment limit evaluation value, marking the valley fill circuit power adjustment level as a high level;

If the valley fill circuit power adjustment evaluation value of a certain valley fill circuit is lower than the valley fill circuit power adjustment limit evaluation value, marking the valley fill circuit power adjustment level as a low level, acquiring the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit, comparing the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit with each evaluation prompt scheme stored in a valley fill circuit database, acquiring an evaluation prompt scheme corresponding to the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit, and carrying out evaluation prompt on the power adjustment level of the valley fill circuit.

The second aspect of the invention provides a valley fill circuit ammeter comprising the following modules: and the electric energy metering module is used for acquiring electric energy metering data of the valley filling circuit.

And the data processing module is used for carrying out data processing on the acquired metering data of the electric energy of the valley filling circuit.

And the energy-saving optimization module is used for carrying out energy-saving optimization prompt on the valley filling circuit based on the processed valley filling circuit electric energy metering data.

Compared with the prior art, the embodiment of the invention has at least the following advantages or beneficial effects:

(1) According to the invention, the electric power acquisition terminal and the electric energy meter of the valley filling circuit are provided, the electric power regulation limit of the valley filling circuit is evaluated through the operation state information set before the electric power regulation of the valley filling circuit, the electric power regulation limit of the valley filling circuit can be evaluated more accurately as an analysis basis for evaluating and prompting the electric power regulation level of the valley filling circuit, the information such as the power grid load condition, the electricity utilization habit and the like can be known to help to determine the proper regulation limit, so that the evaluation accuracy is improved, the objective and data-based evaluation basis can be provided, the deviation caused by subjective judgment is avoided, the electric power regulation level of the valley filling circuit can be evaluated more accurately, the operation state information set before the electric power regulation of the valley filling circuit provides real-time data, the current operation state and the demand can be reflected, the electric power regulation level of the valley filling circuit can be evaluated more timely through timely analysis of the information, the history comparison and analysis can be performed on the electric power regulation level of the valley filling circuit, and the reference is provided for future regulation.

(2) According to the method, the data set of the power regulation condition of the valley filling circuit is analyzed to serve as an analysis basis for evaluating and prompting the power regulation level of the valley filling circuit, the data set of the power regulation condition of the valley filling circuit contains detailed power regulation related information, the data are analyzed to accurately evaluate the power regulation level of the valley filling circuit, existing problems are found out, improvement measures are provided, practical guidance and suggestion can be provided for regulation in actual operation, and through the analysis of the data set of the power regulation condition of the valley filling circuit, potential problems and trends can be found out, so that possible power regulation challenges can be predicted in advance, measures can be timely taken to avoid the influence of the potential problems on the operation of an electric power system, the optimization suggestion can be provided by analyzing the data set of the power regulation condition of the valley filling circuit, the defects existing in the power regulation process can be found out, the power regulation level of the valley filling circuit can be continuously improved, and the operation efficiency and the stability of a power grid can be improved.

(3) According to the method, the data set of the electric power regulation result of the valley filling circuit is analyzed to serve as an analysis basis for evaluating and prompting the electric power regulation level of the valley filling circuit, the data set of the electric power regulation result of the valley filling circuit reflects the actual electric power regulation effect of the valley filling circuit, the electric power regulation level of the valley filling circuit can be objectively evaluated by analyzing the data, the performance of the valley filling circuit in actual operation is known, the data set of the electric power regulation result of the valley filling circuit can be analyzed to help diagnose possible problems of the valley filling circuit in the electric power regulation process, such as insufficient regulation speed, insufficient regulation precision and the like, the problems can be found in time and measures can be taken to solve the problems, the performance of the valley filling circuit under different conditions can be known by analyzing the data set of the electric power regulation result, the improved direction and key point can be found, the electric power regulation level of the valley filling circuit can be improved in a targeted way, the performance and efficiency can be improved, data support can be provided for decision making based on the analysis of the data set of the electric power regulation result of the valley filling circuit, and the electric power regulation level of the valley filling circuit can be more scientifically made through decision making and measures of the data driving decision.

Drawings

The invention will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the invention, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

Fig. 1 is a schematic connection diagram of a power acquisition terminal module according to the present invention.

Fig. 2 is a schematic diagram of the connection of the electric energy meter module according to the present invention.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention are included in the protection scope of the present invention.

Referring to fig. 1, a first aspect of the present invention provides a power acquisition terminal of a valley fill circuit, which includes a pre-adjustment state information set acquisition module, a power adjustment level evaluation module, and a valley fill circuit database.

The pre-adjustment state information set acquisition module is used for acquiring a pre-adjustment operation state information set of the valley filling circuit power, and analyzing and obtaining a valley filling circuit power adjustment limit evaluation value based on the pre-adjustment operation state information set of the valley filling circuit power.

Specifically, the operation state information set before the power adjustment of the valley filling circuit specifically comprises an input voltage of the power system before the power adjustment of the valley filling circuit, an input current of the power system before the power adjustment of the valley filling circuit and a maximum stable time period of the input power of the power system before the power adjustment of the valley filling circuit. The input voltage of the power system before the power adjustment of the valley filling circuit refers to the voltage value input by the power system before the power adjustment of the valley filling circuit; the input current of the power system before the power adjustment of the valley filling circuit refers to the current value input by the power system before the power adjustment of the valley filling circuit; the maximum time period for which the input power of the power system is stable before the power adjustment of the valley filling circuit refers to the maximum time period for which the power of the power system is kept stable before the power adjustment of the valley filling circuit.

Further, based on the information set of the running state before the power adjustment of the valley filling circuit, the evaluation value of the power adjustment limit of the valley filling circuit is obtained through analysis. The specific analysis process is as follows: generating a specified label by stabilizing the maximum time of the input voltage of the power system before the power adjustment of the valley filling circuit, the input current of the power system before the power adjustment of the valley filling circuit and the input power of the power system before the power adjustment of the valley filling circuit, and matching the specified label with a valley filling circuit power adjustment target deviation value corresponding to each specified label stored in a database of the valley filling circuit to obtain a valley filling circuit power adjustment target deviation value corresponding to the specified label.

And importing the valley fill circuit power regulation target deviation value corresponding to the designated tag into a valley fill circuit power regulation target evaluation model to obtain a valley fill circuit power regulation limit evaluation value, wherein the valley fill circuit power regulation limit evaluation value is used as an analysis basis for evaluating and prompting the power regulation level of the valley fill circuit.

In a specific embodiment, the operation state information set before the electricity adjustment of the valley filling circuit is used for evaluating the electricity adjustment limit of the valley filling circuit, and is used as an analysis basis for evaluating and prompting the electricity adjustment level of the valley filling circuit, so that the electricity adjustment limit of the valley filling circuit can be evaluated more accurately, the information such as the power grid load condition, the electricity habit and the like can be known to help to determine the proper adjustment limit, the evaluation accuracy is improved, the objective evaluation basis based on data can be provided, the deviation caused by subjective judgment is avoided, the electricity adjustment level of the valley filling circuit can be evaluated more accurately, the real-time data is provided by the operation state information set before the electricity adjustment of the valley filling circuit, the current operation state and the demand can be reflected, the electricity adjustment level of the valley filling circuit can be evaluated more timely through timely analysis of the information, the corresponding adjustment can be made, the history comparison and analysis can be performed on the electricity adjustment level of the valley filling circuit, and the reference is provided for future adjustment.

The power regulation information set acquisition module is used for acquiring a valley filling circuit power regulation information set, and analyzing and obtaining a valley filling circuit power regulation evaluation value based on the valley filling circuit power regulation information set.

Further, the power regulation information set acquisition module comprises a valley filling circuit power regulation condition data acquisition unit and a valley filling circuit power regulation result data acquisition unit.

The valley fill circuit power regulation condition data acquisition unit is used for acquiring the valley fill circuit power regulation condition data.

The valley fill circuit power regulation result data acquisition unit is used for acquiring valley fill circuit power regulation result data.

Further, the valley fill circuit power conditioning condition data specifically includes valley fill circuit power conditioning equipment condition data and valley fill circuit power conditioning environmental condition data. The condition data of the grain filling circuit power regulating equipment comprises the effective starting total time of the grain filling circuit power regulating equipment, the reserved proportion of parts of the original factory of the grain filling circuit power regulating equipment and the total times of fault shutdown of the grain filling circuit power regulating equipment. The effective starting-up total time of the power regulating equipment of the valley filling circuit refers to the total time of normal operation of the effective starting-up of the power regulating equipment of the valley filling circuit; the original part retention ratio of the power regulating equipment of the valley filling circuit refers to the ratio of the original parts and the total parts of the power regulating equipment of the valley filling circuit; the total times of shutdown of the power regulating equipment of the valley filling circuit refers to the total times of shutdown caused by the failure of the power regulating equipment of the valley filling circuit.

The valley fill circuit power regulation environmental condition data comprises the operating environment temperature of the valley fill circuit power regulation device, the average illumination duration of the operating environment of the valley fill circuit power regulation device and the average illumination intensity of the operating environment of the valley fill circuit power regulation device. The working environment temperature of the power regulating equipment of the valley filling circuit refers to the temperature of the working environment of the power regulating equipment of the valley filling circuit; the average illumination time of the working environment of the power regulating equipment of the valley filling circuit refers to the average illumination time of the working environment of the power regulating equipment of the valley filling circuit, which is obtained by converting light energy of the valley filling circuit into electric energy; the average illumination intensity of the working environment of the valley filling circuit power regulating device refers to the average illumination intensity of the working environment of the regulating device, wherein the light energy of the valley filling circuit power is converted into electric energy.

Specifically, the valley fill circuit power adjustment result data specifically includes valley fill circuit power adjustment output result data and valley fill circuit power adjustment communication signal influence data. The data of the output result of the power regulation of the valley filling circuit comprises an output electric energy value after the power regulation of the valley filling circuit, the maintenance time of stable output power of the power regulation of the valley filling circuit, and the conversion rate of the light energy and the electric energy of the valley filling circuit. The output electric energy value of the valley filling circuit after electric power adjustment refers to the electric energy value of the valley filling circuit after electric power adjustment; the maintenance time of the valley fill circuit for adjusting the power of the stable output power refers to the highest maintenance time of the valley fill circuit for adjusting the power of the stable output power; the conversion of light energy and electrical energy of the fill Gu Dianlu refers to the conversion of light energy to electrical energy of the fill-in circuit.

The valley fill circuit power regulation communication signal influence data comprise a valley fill circuit power regulation communication signal output delay time length, a valley fill circuit power regulation communication signal output packet loss rate and a valley fill circuit power regulation communication signal output error rate, wherein the valley fill circuit power regulation communication signal output delay time length refers to a time length when a valley fill circuit power regulation communication signal is delayed in output; the data packet loss rate of the data packet output of the communication signal after transmission is regulated by the power of the valley filling circuit; the error rate of the power adjustment communication signal output of the valley fill circuit refers to the proportion of error codes existing in the power adjustment communication signal output of the valley fill circuit.

Specifically, based on the valley filling circuit power regulation information set, the evaluation value of the valley filling circuit power regulation is obtained through analysis, and the specific analysis process is as follows: and acquiring a valley fill circuit power regulation information set based on the valley fill circuit power regulation condition data acquisition unit and the valley fill circuit power regulation result data acquisition unit.

The valley fill circuit power adjustment information set includes valley fill circuit power adjustment condition data and valley fill circuit power adjustment result data.

And comprehensively analyzing the obtained valley fill circuit power regulation condition data and the valley fill circuit power regulation result data to obtain a valley fill circuit power regulation evaluation value, wherein the valley fill circuit power regulation evaluation value is used as an analysis basis for evaluating and prompting the power regulation level of the valley fill circuit.

It should be explained that, the above-mentioned analysis of the data set of the power adjustment condition of the valley fill circuit is used as an analysis basis for evaluating and prompting the power adjustment level of the valley fill circuit, the data set of the power adjustment condition of the valley fill circuit includes detailed power adjustment related information, the power adjustment level of the valley fill circuit can be evaluated more accurately by analyzing the data sets, the existing problems can be found out and improved measures are provided, practical guidance and suggestion can be provided for actual adjustment in operation, and through the analysis of the data set of the power adjustment condition of the valley fill circuit, some potential problems and trends can be found out, so that the possible power adjustment problems can be predicted in advance, measures can be taken in time, the influence of the potential problems on the operation of the power system can be avoided, the defects existing in the power adjustment process can be found out by analyzing the data set of the power adjustment condition of the valley fill circuit, the optimization suggestion can be provided, the power adjustment level of the valley fill circuit can be improved continuously, and the operation efficiency and stability of the power grid can be improved.

It should be explained that, the above analysis of the valley fill circuit power adjustment result data set is used as an analysis basis for evaluating and prompting the power adjustment level of the valley fill circuit, the valley fill circuit power adjustment result data set reflects the actual power adjustment effect of the valley fill circuit, through analysis of these data, the power adjustment level of the valley fill circuit can be objectively evaluated, the performance of the valley fill circuit in actual operation is known, the analysis of the valley fill circuit power adjustment result data set can help diagnose the possible problems of the valley fill circuit in the power adjustment process, such as insufficient adjustment speed, insufficient adjustment precision, etc., so that the problems can be found in time and measures can be taken to solve, the performance of the valley fill circuit in different situations can be known, the direction and the emphasis of improvement can be found, so that the power adjustment level of the valley fill circuit can be improved with pertinence, the performance and efficiency can be improved, based on the analysis of the valley fill circuit power adjustment result data set, the decision can be provided for decision making and the power adjustment strategy and measures can be more scientifically made by data driving, and the power adjustment level of the valley fill circuit can be improved.

Further, the valley fill circuit power adjustment evaluation value is used for evaluating the valley fill circuit power adjustment capability, the valley fill circuit power adjustment evaluation value can be further obtained through further analysis of a machine learning integration model, and the prediction results of a plurality of basic models are combined by using an integration method such as a K-means clustering model, a support vector machine model or CatBoost so as to obtain a more accurate valley fill circuit power adjustment evaluation value, and the valley fill circuit power adjustment evaluation value can be obtained through calculation through the following steps:

。

in the method, in the process of the invention, Evaluation value for regulating power of valley filling circuit,/>Condition evaluation value for valley fill circuit power adjustment,/>Evaluation value of power regulation result for valley filling circuit,/>Weight factor of condition evaluation value is adjusted for set valley filling circuit power,/>Weight factor of evaluation value of result is adjusted for set valley filling circuit power,/>Correction factor for regulating evaluation value for set valley filling circuit power,/>Is a natural constant.

It should be noted that, the above-mentioned evaluation value of the electric power regulation of the valley fill circuit carries out comprehensive analysis on the electric power regulation condition data of the valley fill circuit and the electric power regulation result data of the valley fill circuit through analyzing the electric power regulation information set of the valley fill circuit, comprehensive evaluation on the electric power regulation level of the valley fill circuit can be realized, from the combined analysis of the electric power regulation condition to the actual result, the performance of the valley fill circuit can be more comprehensively understood, the possible problems and bottlenecks in the electric power regulation process of the valley fill circuit can be more accurately diagnosed through comprehensive analysis on the electric power regulation condition data and the result data, the comparison analysis of the condition data and the result data is facilitated, the fundamental cause of the performance difference can be found, the comprehensive analysis can help to determine and optimize the electric power regulation strategy and measures of the valley fill circuit, the improved direction and the emphasis can be found through the comprehensive analysis on the condition data and the result data, the comprehensive analysis of the electric power regulation information set of the valley fill circuit can provide data support for decision, the comprehensive analysis result based on the data can more scientifically formulate the electric power regulation strategy and the measure, and support the decision-making of the data driving.

It should be explained that, the evaluation value of the power adjustment condition of the valley fill circuit is used for evaluating the power adjustment condition of the valley fill circuit, the evaluation value of the power adjustment condition of the valley fill circuit can be further obtained through further analysis of a machine learning integrated model, and the prediction results of a plurality of basic models are combined by using an integrated method such as GradientBoostingMachine or random forests to obtain a more accurate evaluation value of the power adjustment condition of the valley fill circuit, and the evaluation value of the power adjustment condition of the valley fill circuit can be obtained through calculation by the following method:。

in the method, in the process of the invention, Condition evaluation value for valley fill circuit power adjustment,/>Evaluation value of equipment condition for power regulation of valley filling circuit,/>Adjusting environmental condition assessment values for valley fill circuit power,/>For the set weight factor of the evaluation value of the condition of the valley filling circuit power adjusting equipment,/>Adjusting the weight factor of the environmental condition evaluation value for the set valley filling circuit power,/>Is a natural constant.

The evaluation value of the electricity regulation condition of the valley filling circuit is used for comprehensively analyzing the electricity regulation condition data of the valley filling circuit, comprehensively analyzing the condition data of the electricity regulation equipment of the valley filling circuit and the electricity regulation environment condition data of the valley filling circuit, identifying potential equipment problems or improving space, being beneficial to optimizing the performance of the electricity regulation equipment of the valley filling circuit, improving the reliability and efficiency of the electricity regulation equipment, comprehensively analyzing the electricity regulation environment condition data can help the valley filling circuit adapt to different working environments, knowing the influence of the environment conditions, adopting corresponding measures to adjust the operation parameters of the valley filling circuit so as to improve the adaptability and the stability of the valley filling circuit, adopting preventive measures to timely adjust the equipment parameters or the environment conditions, reducing the fault risk, prolonging the service life of the equipment, improving the reliability of the valley filling circuit, comprehensively analyzing the equipment and the environment condition data, being beneficial to optimizing the resource utilization, reasonably configuring the equipment and adjusting the environment conditions, furthest improving the performance of the valley filling circuit and reducing the resource waste.

In a specific embodiment, the evaluation value of the condition of the power conditioning equipment of the valley fill circuit is used for evaluating the capability and the equipment performance of the power equipment of the valley fill circuit, the evaluation value of the condition of the power conditioning equipment of the valley fill circuit can be obtained by further analyzing an integrated model through machine learning, and the prediction results of a plurality of basic models are combined by using an integrated method such as GradientBoostingMachine or random forest to obtain a more accurate evaluation value of the condition of the power conditioning equipment of the valley fill circuit, and the evaluation value of the condition of the power conditioning equipment of the valley fill circuit can be obtained by calculating by the following calculation formula:。

in the method, in the process of the invention, Evaluation value of equipment condition for power regulation of valley filling circuit,/>Effective starting-up total time length of power regulating equipment for valley filling circuit,/>Reserving proportion for original parts of valley filling circuit power regulating equipmentFor the total times of fault shutdown of the power regulating equipment of the valley filling circuit,/>Defining time length for effectively starting up power conditioning equipment of valley filling circuit,/>Defining times for fault shutdown of power conditioning equipment of valley filling circuit,/>Compensation factor for effective starting total time length of set valley filling circuit power regulating equipment,/>, andCompensation factor of reserved proportion for original factory parts of set valley-fill circuit power regulating equipment,/>And (5) adjusting a compensation factor of the total number of equipment fault stops for the set valley filling circuit power.

It should be explained that the evaluation value of the condition of the valley fill circuit power regulating device is obtained by calculating the effective starting total time length of the valley fill circuit power regulating device, the original part retention ratio of the valley fill circuit power regulating device and the total failure shutdown time of the valley fill circuit power regulating device, comprehensively considering the factors such as the effective starting total time length of the valley fill circuit power regulating device, the original part retention ratio of the valley fill circuit power regulating device and the total failure shutdown time of the valley fill circuit power regulating device, the performance and reliability of the device can be comprehensively evaluated, the comprehensive comparison between the devices can be performed by comprehensively considering a plurality of factors, the overall performance of the device can be better known by comparing the evaluation values of different devices, the selection of the most suitable valley fill circuit power regulating device is facilitated, and the problem of the device can be more accurately positioned by comprehensively considering the plurality of factors. For example, if the number of times of failure and shutdown of a certain device is high, the retention ratio of parts in the original factory is lower, which may indicate that there is a problem in maintenance of the device, the improvement is purposefully performed, multiple factors are comprehensively considered to provide a more comprehensive basis for optimizing decision, according to the evaluation value of the device condition, a targeted improvement measure can be formulated, the performance and reliability of the device are improved, the running cost is reduced, the performance of the device is regulated by calculating the evaluation value of the device condition regularly and comprehensively considering multiple factors, which can help to continuously improve the performance of the device for the valley filling circuit, discover the problem in time and take measures, and help to continuously optimize and improve the device.

In a specific embodiment, the evaluation value of the environmental condition of the power regulation of the valley fill circuit is used for evaluating the working environmental condition of the power valley fill of the power equipment of the valley fill circuit, the evaluation value of the environmental condition of the power regulation of the valley fill circuit can be obtained by further analyzing a machine learning integrated model, the prediction results of a plurality of basic models are combined by using an integrated method AdaBoost or a random forest to obtain a more accurate evaluation value of the environmental condition of the power regulation of the valley fill circuit, and the evaluation value of the environmental condition of the power regulation of the valley fill circuit can be obtained by calculating the following calculation formula:。

in the method, in the process of the invention, Adjusting environmental condition assessment values for valley fill circuit power,/>For fill-in valley circuit electric power regulation equipment operational environment temperature,/>For regulating the working environment average illumination time of equipment for valley filling circuit power, the average illumination time is/Regulating the average illumination intensity of the working environment of equipment for the valley filling circuit powerFor the working environment reference temperature of the power regulating equipment of the valley filling circuit,/>Defining illumination time for working environment of valley-fill circuit power conditioning equipment,/>Defining illumination intensity for working environment of valley-fill circuit power conditioning equipment,/>Compensation factor for regulating equipment working environment temperature for set valley filling circuit powerCompensation factor of average illumination duration of working environment of equipment is adjusted for set valley filling circuit powerAnd (5) adjusting a compensation factor of the average illumination intensity of the working environment of the equipment for the set valley filling circuit power.

It should be explained that the evaluation value of the environmental condition of the electricity regulation of the valley fill circuit is obtained by calculating the working environment temperature of the electricity regulation device of the valley fill circuit, the average illumination time length of the working environment of the electricity regulation device of the valley fill circuit, the average illumination intensity of the working environment of the electricity regulation device of the valley fill circuit, and the like, comprehensively considering the working environment temperature of the electricity regulation device of the valley fill circuit, the average illumination time length of the working environment of the electricity regulation device of the valley fill circuit, the average illumination intensity of the working environment of the electricity regulation device of the valley fill circuit, and the like, so that the working environment condition of the electricity regulation device of the valley fill circuit can be better understood, measures are taken to protect the device from adverse environmental influence, the comprehensive consideration of the evaluation value of the working environment condition can help to optimize the performance of the electricity regulation device of the valley fill circuit, for example, the evaluation value of the factors such as the illumination time length and the illumination intensity can help to save energy and reduce emission according to improve efficiency and stability, the change of the working environment condition can adjust the running parameters of the device according to environmental condition, the aim of saving energy and reducing emission is fulfilled, and by comprehensively considering a plurality of environmental factors, the working environment factors can be prevented from causing faults or performance degradation due to environmental problems, the environment condition can be better, the adjustment is helpful to the service life of the electricity regulation device can be prolonged, the service life of the electricity condition can be prolonged, the electricity condition can be continued, the service condition can be improved, and the service condition can be continued and can be improved by the service condition can be improved.

It should be explained that, the evaluation value of the adjustment result of the electricity of the valley filling circuit is used for evaluating the adjustment result of the electricity equipment of the valley filling circuit based on the evaluation value of the output result of the electricity adjustment of the valley filling circuit and the evaluation value of the influence of the communication signal of the electricity adjustment of the valley filling circuit, the evaluation value of the adjustment result of the electricity of the valley filling circuit can be further obtained through analysis of a machine learning integration model, the prediction results of a plurality of basic models are combined by using the integration method AdaBoost or random forest, so as to obtain a more accurate evaluation value of the adjustment result of the electricity of the valley filling circuit, and the evaluation value of the adjustment result of the electricity of the valley filling circuit can be obtained through calculation in the following manner:。

in the method, in the process of the invention, Evaluation value of power regulation result for valley filling circuit,/>Output result evaluation value for valley fill circuit power adjustment,/>Adjusting communication signal impact assessment values for valley fill circuit power,/>Adjusting the weight factor of the output result evaluation value for the set valley filling circuit powerAdjusting a weight factor of a communication signal influence evaluation value for the set valley filling circuit powerIs a natural constant.

It should be noted that, above-mentioned fill-out circuit electric power regulation result evaluation value carries out comprehensive analysis to fill-out circuit electric power regulation output result data and fill-out circuit electric power regulation communication signal influence data through analyzing fill-out circuit electric power regulation result data, can evaluate the performance of equipment, obtain key index from output result data and communication signal influence data, help know the performance of equipment under different operating conditions, comprehensive analysis fill-out circuit electric power regulation result data helps diagnosis problem and finds out latent fault cause, through the comprehensive analysis to output result data and communication signal influence data, can quick location problem and take corresponding measure to solve, through comprehensive analysis data, can find the defect that exists in the equipment operation, and put forward improvement scheme, according to the analysis result, optimize fill-out circuit electric power regulation equipment's mode of operation and parameter setting, so as to promote performance and efficiency, based on the result of comprehensive analysis, can provide decision support for the manager, according to the conclusion of data analysis, make reasonable operation strategy and maintenance plan, so as to ensure the normal operation of fill-out circuit electric power regulation equipment, through to output result data and communication signal influence comprehensive analysis, can reduce the reliability of predictive equipment, and maintenance time need be improved in time.

In a specific embodiment, the evaluation value of the power adjustment output result of the valley fill circuit is used to evaluate the power output adjustment result of the power valley fill of the power equipment of the valley fill circuit, the evaluation value of the power adjustment output result of the valley fill circuit can be obtained by further analyzing the machine learning integration model, the prediction results of the plurality of basic models are combined by using the integration method LightGBM to obtain a more accurate evaluation value of the power adjustment output result of the valley fill circuit, and the evaluation value of the power adjustment output result of the valley fill circuit can be obtained by calculating the following calculation formula:

。

in the method, in the process of the invention, Output result evaluation value for valley fill circuit power adjustment,/>For outputting electric energy value after the electric power adjustment of the valley filling circuit,/>Regulating the maintenance time of stable output power for valley-fill circuit power,/>For the conversion rate of light energy and electric energy of a valley filling circuit,/>For outputting reference target electric energy value after the electric power of the valley filling circuit is regulated,/>Reference time for regulating stable output power for valley fill circuit power,/>For the definition conversion rate of optical energy and electric energy of valley-fill circuit,/>The compensation factor of the electric energy value is output after the set valley filling circuit is adjustedCompensation factor for regulating maintenance time of stable output power for set valley-fill circuit power,/>, and method for controlling the sameAnd the compensation factor of the conversion rate of the light energy and the electric energy of the set valley filling circuit is set.

It should be explained that the evaluation value of the output result of the power regulation of the valley filling circuit is obtained by calculating the output power value of the valley filling circuit after power regulation, the maintenance time of the stable output power of the power regulation of the valley filling circuit, the conversion rate of the light energy and the electric energy of the valley filling circuit, and the like, comprehensively considering the factors of the output power value of the valley filling circuit after power regulation, the maintenance time of the stable output power of the power regulation of the valley filling circuit, the conversion rate of the light energy and the electric energy, and the like, the performance of the power regulation equipment of the valley filling circuit can be more comprehensively evaluated, the output power value reflects the actual power output condition, the maintenance time of the stable output power reflects the stability of the equipment, the conversion rate of the light energy and the electric energy indicates the energy efficiency performance of the equipment, and the regulation strategy of the power regulation equipment of the valley filling circuit can be optimized by comprehensively considering the factors, according to the conditions of the output electric energy value, the maintenance time of stable output power and the energy conversion rate, the equipment parameters and the working mode are adjusted to achieve higher efficiency and performance, the factors are comprehensively considered to be helpful for energy conservation and emission reduction, the energy waste can be reduced by improving the conversion rate of light energy and electric energy, the energy consumption in the running process of the equipment is reduced, and therefore the purpose of energy conservation and emission reduction is achieved, the stability and the continuous running capacity of the equipment are directly related to the maintenance time of the stable output power, the reliability of the equipment is greatly affected, the performance optimization of the valley filling circuit electric power adjusting equipment can be achieved, the equipment working parameters can be adjusted according to the comprehensive consideration of factors such as the output electric energy value, the maintenance time of the stable output power and the energy conversion rate, and the equipment performance and efficiency are improved.

In a specific embodiment, the evaluation value of the influence of the communication signal of the power regulation of the valley filling circuit is used for evaluating the transmission capability of the communication signal of the valley filling circuit, the evaluation value of the influence of the communication signal of the power regulation of the valley filling circuit can be obtained by further analyzing a machine learning integrated model, a random forest is used for combining the prediction results of a plurality of basic models to obtain a more accurate evaluation value of the influence of the communication signal of the power regulation of the valley filling circuit, and the evaluation value of the influence of the communication signal of the power regulation of the valley filling circuit can be obtained by calculating the following formula:

。/>

in the method, in the process of the invention, Adjusting communication signal impact assessment values for valley fill circuit power,/>Adjusting communication signal output delay time length for valley filling circuit powerPower regulation of communication signal output packet loss rate for valley fill circuit,/>Adjusting communication signal output error rate for valley filling circuit powerA defined length of time is provided for the valley fill circuit to power adjust the communication signal output delay,Compensation factor for adjusting communication signal output delay time length for set valley filling circuit powerCompensation factor for regulating communication signal output packet loss rate for set valley filling circuit powerAnd adjusting the compensation factor of the communication signal output error rate for the set valley filling circuit power.

It should be explained that the evaluation value of the influence of the power adjustment communication signal of the valley fill circuit is obtained by calculating the output delay time of the power adjustment communication signal of the valley fill circuit, the output packet loss rate of the power adjustment communication signal of the valley fill circuit and the output error rate of the power adjustment communication signal of the valley fill circuit, and comprehensively considering the factors such as the output delay time of the power adjustment communication signal of the valley fill circuit, the output packet loss rate of the power adjustment communication signal of the valley fill circuit and the output error rate of the power adjustment communication signal of the valley fill circuit; by comprehensively considering the factors, the quality of the communication signal regulated by the power of the valley filling circuit can be more comprehensively evaluated, and the delay time, the packet loss rate and the error rate of the communication signal are important indexes for measuring the communication quality; by comprehensively considering the factors, the stability and the reliability of the communication signals can be more accurately evaluated, the performance of the valley filling circuit for adjusting the communication signals by power can be optimized, and the communication parameters and network settings are adjusted according to the conditions of delay time length, packet loss rate and error rate, so that the transmission efficiency and the reliability of the communication signals are improved; comprehensively considering the factors to help ensure the safety of data transmission, and the error rate and the packet loss rate of the communication signals are directly related to the accuracy and the integrity of the data transmission; communication problems can be found in time and measures are taken to ensure the safety of data transmission by comprehensively considering the factors; the factors are comprehensively considered to be helpful for improving the stability of communication, the delay time of a communication signal is directly related to the real-time performance of the communication, and the packet loss rate and the error rate can influence the stability of the communication; the stability of the communication system can be improved by comprehensively considering the factors, communication fault investigation can be facilitated more easily, and when a communication signal is in a problem, the factors such as delay time, packet loss rate and error rate are comprehensively considered, so that the root cause of the problem can be rapidly located, and the fault investigation and repair process can be accelerated.

And the power adjustment level evaluation module is used for evaluating and prompting the power adjustment level of the valley filling circuit based on the analyzed evaluation value of the power adjustment of the valley filling circuit and the evaluated evaluation value of the power adjustment limit of the valley filling circuit.

Further, based on the analyzed evaluation value of the electric power regulation of the valley filling circuit and the evaluated evaluation value of the electric power regulation limit of the valley filling circuit, the evaluation prompt is carried out on the electric power regulation level of the valley filling circuit, and the specific analysis process is as follows: the valley fill circuit power adjustment assessment value is compared with the valley fill circuit power adjustment limit assessment value.

And if the valley fill circuit power adjustment evaluation value of a certain valley fill circuit is higher than or equal to the valley fill circuit power adjustment limit evaluation value, marking the valley fill circuit power adjustment level as a high level.

If the valley fill circuit power adjustment evaluation value of a certain valley fill circuit is lower than the valley fill circuit power adjustment limit evaluation value, marking the valley fill circuit power adjustment level as a low level, acquiring the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit, comparing the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit with each evaluation prompt scheme stored in a valley fill circuit database, acquiring an evaluation prompt scheme corresponding to the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit, and carrying out evaluation prompt on the power adjustment level of the valley fill circuit.

It should be explained that, the evaluation prompt scheme corresponding to the difference between the evaluation value of the electric power regulation of the valley filling circuit and the evaluation value of the electric power regulation limit of the valley filling circuit is used for evaluating and prompting the electric power regulation level of the valley filling circuit, the difference reflects the difference between the actual performance and the expected performance of the electric power regulation of the valley filling circuit, the electric power regulation level of the valley filling circuit can be evaluated more accurately through the analysis of the difference, the deviation between the actual performance and the expected performance can be found, the difference can help to diagnose the possible problems and bottlenecks of the valley filling circuit in the electric power regulation process, the specific cause of the performance difference can be found through the analysis of the difference, so that the improvement measure is formulated in a targeted manner, the difference provides the improvement direction of the electric power regulation performance of the valley filling circuit, the aspect and the key point which need to be improved can be determined through the analysis of the difference, the electric power regulation level of the valley filling circuit can be guided to be improved, the difference between the evaluation value of the electric power regulation of the valley filling circuit and the evaluation value of the valley filling circuit can be monitored continuously, the real-time monitoring of the electric power regulation level of the valley filling circuit can be realized, the performance of the valley filling circuit can be found or the situation of the performance of the valley filling circuit is lowered or the situation of the corresponding performance exceeds the limit.

The valley fill circuit database is used for storing a valley fill circuit power adjustment target deviation value corresponding to each designated label, an evaluation prompt scheme corresponding to the difference value between each valley fill circuit power adjustment evaluation value and a valley fill circuit power adjustment limit evaluation value, an effective startup defining duration of the valley fill circuit power adjustment device, fault shutdown defining times of the valley fill circuit power adjustment device, a valley fill circuit power adjustment device working environment reference temperature, a valley fill circuit power adjustment device working environment defining illumination duration, a valley fill circuit power adjustment device working environment defining illumination intensity, a valley fill circuit power adjusted output reference target electric energy value, a valley fill circuit power adjustment stable output power reference time, a valley fill circuit light energy and electric energy defining conversion rate, and a valley fill circuit power adjustment communication signal output delay defining duration.

Referring to fig. 2, a second aspect of the present invention provides a valley fill circuit power meter, comprising: and the electric energy metering module is used for acquiring electric energy metering data of the valley filling circuit.

And the data processing module is used for carrying out data processing on the acquired metering data of the electric energy of the valley filling circuit.

And the energy-saving optimization module is used for carrying out energy-saving optimization prompt on the valley filling circuit based on the processed valley filling circuit electric energy metering data.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The electric power acquisition terminal of valley filling circuit, its characterized in that, including state information set acquisition module before adjusting, electric power regulation information set acquisition module, electric power regulation level evaluation module and valley filling circuit database, wherein:

The pre-regulation state information set acquisition module is used for acquiring a pre-regulation operation state information set of the valley filling circuit power, and analyzing and obtaining a valley filling circuit power regulation limit evaluation value based on the pre-regulation operation state information set of the valley filling circuit power;

The power regulation information set acquisition module is used for acquiring a power regulation information set of the valley filling circuit, and analyzing and obtaining a power regulation evaluation value of the valley filling circuit based on the power regulation information set of the valley filling circuit;

The power regulation level evaluation module is used for evaluating and prompting the power regulation level of the valley filling circuit based on the analyzed evaluation value of the power regulation of the valley filling circuit and the evaluated evaluation value of the power regulation limit of the valley filling circuit;

and the valley filling circuit database is used for storing the valley filling circuit power adjustment target deviation value corresponding to each designated label, and the evaluation prompt scheme corresponding to the difference value between the valley filling circuit power adjustment evaluation value and the valley filling circuit power adjustment limit evaluation value.

2. The power harvesting terminal of the valley fill circuit of claim 1, wherein: the operation state information set before the power adjustment of the valley filling circuit specifically comprises an input voltage of the power system before the power adjustment of the valley filling circuit, an input current of the power system before the power adjustment of the valley filling circuit and a maximum stable duration of the input power of the power system before the power adjustment of the valley filling circuit.

3. The power harvesting terminal of the valley fill circuit of claim 2, wherein: based on the information set of the running state of the valley filling circuit before power adjustment, analyzing to obtain an evaluation value of the boundary of the power adjustment of the valley filling circuit, wherein the specific analysis process is as follows:

Generating a specified tag by using the input voltage of the power system before the power adjustment of the valley filling circuit, the input current of the power system before the power adjustment of the valley filling circuit and the maximum stable time of the input power of the power system before the power adjustment of the valley filling circuit, and matching the specified tag with a valley filling circuit power adjustment target deviation value corresponding to each specified tag stored in a database of the valley filling circuit to obtain a valley filling circuit power adjustment target deviation value corresponding to the specified tag;

And importing the valley fill circuit power regulation target deviation value corresponding to the designated tag into a valley fill circuit power regulation target evaluation model to obtain a valley fill circuit power regulation limit evaluation value, wherein the valley fill circuit power regulation limit evaluation value is used as an analysis basis for evaluating and prompting the power regulation level of the valley fill circuit.

4. The power harvesting terminal of the valley fill circuit of claim 3, wherein: the power regulation information set acquisition module comprises a valley filling circuit power regulation condition data acquisition unit and a valley filling circuit power regulation result data acquisition unit;

The valley fill circuit power regulation condition data acquisition unit is used for acquiring the valley fill circuit power regulation condition data;

The valley fill circuit power regulation result data acquisition unit is used for acquiring valley fill circuit power regulation result data.

5. The power harvesting terminal of the valley fill circuit of claim 4, wherein: the valley fill circuit power regulation condition data specifically comprises valley fill circuit power regulation equipment condition data and valley fill circuit power regulation environmental condition data, wherein the valley fill circuit power regulation equipment condition data comprises the effective starting total time length of the valley fill circuit power regulation equipment, the original factory part retention proportion of the valley fill circuit power regulation equipment and the total times of fault shutdown of the valley fill circuit power regulation equipment, and the valley fill circuit power regulation environmental condition data comprises the working environment temperature of the valley fill circuit power regulation equipment, the average illumination time length of the working environment of the valley fill circuit power regulation equipment and the average illumination intensity of the working environment of the valley fill circuit power regulation equipment.

6. The power harvesting terminal of the valley fill circuit of claim 4, wherein: the valley fill circuit power regulation result data specifically comprises valley fill circuit power regulation output result data and valley fill circuit power regulation communication signal influence data, wherein the valley fill circuit power regulation output result data comprises a valley fill circuit power regulated output electric energy value, a valley fill circuit power regulation stable output power maintaining time, a valley fill circuit light energy and electric energy conversion rate, and the valley fill circuit power regulation communication signal influence data comprises a valley fill circuit power regulation communication signal output delay time, a valley fill circuit power regulation communication signal output packet loss rate and a valley fill circuit power regulation communication signal output error rate.

7. The power harvesting terminal of the valley fill circuit of claim 4, wherein: based on the valley filling circuit power regulation information set, analyzing to obtain a valley filling circuit power regulation evaluation value, wherein the concrete analysis process is as follows:

acquiring a valley fill circuit power regulation information set based on a valley fill circuit power regulation condition data acquisition unit and a valley fill circuit power regulation result data acquisition unit;

the valley fill circuit power regulation information set comprises valley fill circuit power regulation condition data and valley fill circuit power regulation result data;

And comprehensively analyzing the obtained valley fill circuit power regulation condition data and the valley fill circuit power regulation result data to obtain a valley fill circuit power regulation evaluation value, wherein the valley fill circuit power regulation evaluation value is used as an analysis basis for evaluating and prompting the power regulation level of the valley fill circuit.

8. The power harvesting terminal of the valley fill circuit of claim 7, wherein: the electric power adjustment evaluation value of the valley filling circuit comprises the following specific analysis processes:

；

in the method, in the process of the invention, Evaluation value for regulating power of valley filling circuit,/>Condition evaluation value for valley fill circuit power adjustment,/>Evaluation value of power regulation result for valley filling circuit,/>Weight factor of condition evaluation value is adjusted for set valley filling circuit power,/>Weight factor of evaluation value of result is adjusted for set valley filling circuit power,/>Correction factor for regulating evaluation value for set valley filling circuit power,/>Is a natural constant.

9. The power harvesting terminal of the valley fill circuit of claim 8, wherein: based on the analyzed evaluation value of the electric power regulation of the valley filling circuit and the evaluated evaluation value of the electric power regulation limit of the valley filling circuit, the evaluation prompt is carried out on the electric power regulation level of the valley filling circuit, and the specific analysis process is as follows:

Comparing the valley fill circuit power adjustment evaluation value with the valley fill circuit power adjustment limit evaluation value;

If the valley fill circuit power adjustment evaluation value of a certain valley fill circuit is higher than or equal to the valley fill circuit power adjustment limit evaluation value, marking the valley fill circuit power adjustment level as a high level;

If the valley fill circuit power adjustment evaluation value of a certain valley fill circuit is lower than the valley fill circuit power adjustment limit evaluation value, marking the valley fill circuit power adjustment level as a low level, acquiring the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit, comparing the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit with each evaluation prompt scheme stored in a valley fill circuit database, acquiring an evaluation prompt scheme corresponding to the difference value of the valley fill circuit power adjustment evaluation value and the valley fill circuit power adjustment limit evaluation value of the valley fill circuit, and carrying out evaluation prompt on the power adjustment level of the valley fill circuit.

10. A valley fill circuit electric energy meter, an electric power acquisition terminal employing the valley fill circuit as claimed in any one of claims 1-9, characterized in that: the method comprises the following modules:

The electric energy metering module is used for acquiring electric energy metering data of the valley filling circuit;

the data processing module is used for carrying out data processing on the acquired metering data of the electric energy of the valley filling circuit;

And the energy-saving optimization module is used for carrying out energy-saving optimization prompt on the valley filling circuit based on the processed valley filling circuit electric energy metering data.