CN116592948B - Intelligent protection system of ultra-small high-power supply module - Google Patents
Intelligent protection system of ultra-small high-power supply module Download PDFInfo
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- 238000000034 method Methods 0.000 claims description 38
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D21/00—Measuring or testing not otherwise provided for
- G01D21/02—Measuring two or more variables by means not covered by a single other subclass
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B11/00—Measuring arrangements characterised by the use of optical techniques
- G01B11/02—Measuring arrangements characterised by the use of optical techniques for measuring length, width or thickness
- G01B11/022—Measuring arrangements characterised by the use of optical techniques for measuring length, width or thickness by means of tv-camera scanning
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01L—MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER, MECHANICAL EFFICIENCY, OR FLUID PRESSURE
- G01L5/00—Apparatus for, or methods of, measuring force, work, mechanical power, or torque, specially adapted for specific purposes
- G01L5/0028—Force sensors associated with force applying means
- G01L5/0038—Force sensors associated with force applying means applying a pushing force
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/50—Testing of electric apparatus, lines, cables or components for short-circuits, continuity, leakage current or incorrect line connections
- G01R31/58—Testing of lines, cables or conductors
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Abstract
The invention discloses an intelligent protection system of a microminiature high-power supply module, which comprises an environment information acquisition module, a real-time image acquisition module, a wiring information acquisition module, a module information acquisition module, a data processing module and an information sending module; the environment information acquisition module is used for acquiring environment information of the power supply module, the real-time image acquisition module is used for acquiring real-time image information of the power supply module, the wiring information acquisition module is used for acquiring wiring information of the power supply module, and the module information acquisition module is used for acquiring information of the power supply module; the data processing module is used for processing the environmental information to generate first environmental warning information and second environmental warning information, and processing the real-time image information to generate first displacement warning information and second displacement warning information. The invention can meet different use requirements of users and realize more intelligent protection.
Description
Technical Field
The invention relates to the field of protection systems, in particular to an intelligent protection system of a microminiature high-power supply module.
Background
The power supply module is a power supply system composed of a plurality of modules, and generally comprises a plurality of modules such as input filtering, direct current output, feedback circuits and the like. The power supply is one of the power supply types commonly used for security in modern electronic equipment;
in the actual use process of the power supply module, a protection system is required to be used for protecting the power supply module safely in order to ensure the safety of the power supply module.
The existing protection system is single in protection type, cannot meet the increasing protection requirements, is not intelligent enough, and brings a certain influence to the use of the protection system, so that the intelligent protection system of the ultra-small high-power supply module is provided.
Disclosure of Invention
The technical problems to be solved by the invention are as follows: how to solve the existing protection system, the protection type is single, the ever-increasing protection requirement cannot be met, the intelligent protection system is not intelligent enough, the problem that a certain influence is brought to the use of the protection system is solved, and the intelligent protection system of the ultra-small high-power supply module is provided.
The invention solves the technical problems through the following technical scheme that the invention comprises an environment information acquisition module, a real-time image acquisition module, a wiring information acquisition module, a module information acquisition module, a data processing module and an information sending module;
the environment information acquisition module is used for acquiring environment information of the power supply module, the real-time image acquisition module is used for acquiring real-time image information of the power supply module, the wiring information acquisition module is used for acquiring wiring information of the power supply module, and the module information acquisition module is used for acquiring information of the power supply module;
the data processing module is used for processing the environment information to generate first environment warning information and second environment warning information, processing the real-time image information to generate first displacement warning information and second displacement warning information, processing the wiring information to obtain wiring warning information, and processing the module information to obtain first module warning information and second module warning information;
after the first environment warning information, the second environment warning information, the first displacement warning information, the second displacement warning information, the wiring warning information, the first module warning information and the second module warning information are generated, the master control module controls the information sending module to send the information to the preset receiving terminal.
Further, the specific processing procedure of the first environmental warning information and the second environmental warning information is as follows: extracting collected environment information, wherein the environment information comprises transportation/storage environment information of the ultra-small high-power supply module and use environment information of the ultra-small high-power supply module;
the transportation/storage environment information is processed to obtain first environment warning information, and the use environment information of the ultra-small high-power supply module is processed to obtain second environment warning information.
The specific process of processing the transportation/storage environment information to obtain the first environment warning information is as follows: extracting transportation/storage environment information, wherein the transportation/storage environment information comprises environment humidity information and environment temperature information, and when any one of the environment humidity information and the environment temperature information is larger than a preset value, first environment warning information is generated;
the specific process of processing the service environment information of the ultra-small high-power supply module to acquire the second environment warning information is as follows: extracting collected using environment information, wherein the using environment information comprises using environment temperature information, using environment humidity information, using environment dust concentration and using gas concentration information;
generating second environment warning information when the environment temperature information is larger than a preset value a1, generating second environment warning information when the environment humidity information is larger than a preset value b1, generating second environment warning information when the using environment dust concentration is larger than a preset value c1, and generating second environment warning information when the using gas concentration information is larger than a preset value d 1;
generating second environment warning information when the environmental temperature information is larger than a preset value a2 for a period exceeding the preset value, generating second environment warning information when the environmental humidity information is larger than a preset value b2 for a period exceeding the preset value, generating second environment warning information when the dust concentration of the use environment is larger than a preset value c2 for a period exceeding the preset value, and generating second environment warning information when the concentration of the use gas is larger than a preset value d2 for a period exceeding the preset value;
a1>a2,b1>b2,c1>c2,d1>d2。
further, the specific processing procedure of the first displacement warning information and the second displacement warning information is as follows: extracting the acquired real-time image information, wherein the real-time image information comprises application real-time image information and transportation/storage real-time image information;
the transportation/storage real-time image information is processed to obtain first displacement warning information, and the application real-time image information is processed to obtain second displacement warning information.
Further, the specific process of obtaining the first displacement warning information by processing the transportation/storage real-time image information is as follows: the method comprises the steps of extracting and collecting transportation/storage real-time image information, wherein the transportation/storage real-time image information is real-time image information transported/stored after a microminiature high-power supply module is placed in a preset protection device, preset identification patterns are arranged on the preset protection device, the image information of the microminiature high-power supply module is immediately collected after the microminiature high-power supply module is placed in the preset protection device, namely transportation/storage standard image information is obtained, the transportation/storage standard image information is compared with the transportation/storage standard image information after the transportation/storage real-time image information is collected, position comparison information influenced by the preset identification patterns in the transportation/storage standard image information is obtained, and when the difference between the position comparison information is larger than a preset value, first displacement warning information is generated.
Further, the specific processing procedure of the position comparison information is as follows: extracting a preset identification pattern image in the transportation/storage standard image information, carrying out picture processing on the preset identification pattern image to obtain preset identification pattern picture information, and then extracting distance information between the geometric center of the preset identification pattern and four corners of the preset identification pattern picture information, namely, comparing parameters L1, L2, L3 and L4;
carrying out the same processing on the transportation/storage real-time image information as the transportation/storage standard image information to obtain contrast parameters P1, P2, P3 and P4;
p1, P2, P3 and P4 are in one-to-one correspondence with L1, L2, L3 and L4, and then a difference Pl1 between P1 and L1, a difference Pl2 between P2 and L2, a difference Pl3 between P3 and L3 and a difference Pl4 between P4 and L4 are calculated;
when any one of Pl1, pl2, pl3 and Pl4 is larger than a preset value, first displacement warning information is generated.
The specific process of obtaining the second displacement warning information by processing the application real-time image information is as follows: collecting installation completion image information of the ultra-small high-power supply module as standard application image information after the ultra-small high-power supply module is installed, processing the standard application image information, selecting at least two target positions in the standard application image information as preset mark positions, then selecting the geometric center of the ultra-small high-power supply module in the standard application image information, measuring the distance between the geometric center and the preset mark positions, and obtaining standard evaluation distance information;
after the application real-time image information is obtained, the application real-time image information is processed as the standard application image information, and real-time evaluation distance information is obtained;
and carrying out one-to-one corresponding difference calculation on the real-time evaluation distance information and the standard evaluation distance information, and generating second displacement warning information when two or more differences are larger than a preset value.
Further, the specific processing procedure of the wiring warning information is as follows: extracting the collected interface pressure information of the access cable and the real-time stress information of the cable, and generating wiring warning information when the interface pressure information of the access cable exceeds a preset range;
and extracting real-time stress information of the cable, and generating wiring warning information when the real-time stress information of the cable is larger than a preset value and exceeds a preset duration.
Further, the specific processing procedure of the first module warning information and the second module warning information is as follows: extracting collected power supply module information, wherein the power supply module information comprises module application stress information and module transportation/storage stress information;
when the module transportation/storage stress information is larger than a preset value and exceeds a preset number of times, generating first module warning information;
when the module application stress information exceeds a preset warning value, generating second module warning information.
Compared with the prior art, the invention has the following advantages: the intelligent protection system of the ultra-small high-power supply module monitors different types under different states of the ultra-small high-power supply module, so as to timely send out an alarm when monitoring data are abnormal, thereby realizing intelligent protection, ensuring the power supply safety of the ultra-small high-power supply module, reduces the accident caused by the abnormality of the ultra-small high-power supply module, detects the environment where the ultra-small high-power supply module is positioned, timely warns when the environment abnormality is found, can avoid the accident caused by the fault of the ultra-small high-power supply module caused by the stable environment, through handling the real-time image information of ultra-small high-power supply module, can know whether it takes place unusual displacement, its unusual displacement that takes place probably can lead to wiring trouble and other equipment damage etc. can know whether the power supply cable that ultra-small high-power supply module inserted has the abnormality through handling the butt joint information, still monitor ultra-small high-power supply module's stress simultaneously, discovery ultra-small high-power supply module that can be timely has received the situation of striking, has satisfied the different user demands of unnecessary to realize more comprehensive protection, let this system be worth more popularization and use.
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Fig. 1 is a system block diagram of the present invention.
Description of the embodiments
The following describes in detail the examples of the present invention, which are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of protection of the present invention is not limited to the following examples.
As shown in fig. 1, this embodiment provides a technical solution: an intelligent protection system of a microminiature high-power supply module comprises an environment information acquisition module, a real-time image acquisition module, a wiring information acquisition module, a module information acquisition module, a data processing module and an information sending module;
the environment information acquisition module is used for acquiring environment information of the power supply module, the real-time image acquisition module is used for acquiring real-time image information of the power supply module, the wiring information acquisition module is used for acquiring wiring information of the power supply module, and the module information acquisition module is used for acquiring information of the power supply module;
the data processing module is used for processing the environment information to generate first environment warning information and second environment warning information, processing the real-time image information to generate first displacement warning information and second displacement warning information, processing the wiring information to obtain wiring warning information, and processing the module information to obtain first module warning information and second module warning information;
after the first environment warning information, the second environment warning information, the first displacement warning information, the second displacement warning information, the wiring warning information, the first module warning information and the second module warning information are generated, the master control module controls the information sending module to send the information to the preset receiving terminal;
through having carried out the monitoring of different grade type under the different states of ultra-small high-power supply module to and when monitoring data is unusual, timely sending out the warning, thereby realized intelligent protection, guaranteed the power supply safety of ultra-small high-power supply module, reduce the occurence of failure that ultra-small high-power supply module is unusual, through detecting the environment that ultra-small high-power supply module was located, when finding that the environment is unusual, timely warning, can avoid the accident that ultra-small high-power supply module trouble that the environment is stable leads to, through handling the real-time image information of ultra-small high-power supply module, can know whether it takes place unusual displacement, it takes place unusual displacement and perhaps lead to wiring trouble and other equipment damage etc. through handling the power supply cable that can know ultra-small high-power supply module inserts, simultaneously still monitored the stress state of ultra-small high-power supply module, can be timely discover whether ultra-small high-power supply module receives the situation of striking, thereby satisfied different user demands, and comprehensive protection is realized.
The specific processing process of the first environment warning information and the second environment warning information is as follows: extracting collected environment information, wherein the environment information comprises transportation/storage environment information of the ultra-small high-power supply module and use environment information of the ultra-small high-power supply module;
processing transportation/storage environment information to obtain first environment warning information, and processing the use environment information of the ultra-small high-power supply module to obtain second environment warning information;
the specific process of processing the transportation/storage environment information to obtain the first environment warning information is as follows: extracting transportation/storage environment information, wherein the transportation/storage environment information comprises environment humidity information and environment temperature information, and when any one of the environment humidity information and the environment temperature information is larger than a preset value, first environment warning information is generated;
the specific process of processing the service environment information of the ultra-small high-power supply module to acquire the second environment warning information is as follows: extracting collected using environment information, wherein the using environment information comprises using environment temperature information, using environment humidity information, using environment dust concentration and using gas concentration information;
generating second environment warning information when the environment temperature information is larger than a preset value a1, generating second environment warning information when the environment humidity information is larger than a preset value b1, generating second environment warning information when the using environment dust concentration is larger than a preset value c1, and generating second environment warning information when the using gas concentration information is larger than a preset value d 1;
generating second environment warning information when the environmental temperature information is larger than a preset value a2 for a period exceeding the preset value, generating second environment warning information when the environmental humidity information is larger than a preset value b2 for a period exceeding the preset value, generating second environment warning information when the dust concentration of the use environment is larger than a preset value c2 for a period exceeding the preset value, and generating second environment warning information when the concentration of the use gas is larger than a preset value d2 for a period exceeding the preset value;
a1>a2,b1>b2,c1>c2,d1>d2;
through the process, safety monitoring under the transportation/storage environment and the use environment is realized, and warning information is timely generated, so that the condition that the use is influenced due to the damage of the ultra-small high-power supply module caused by environment abnormality is avoided.
The specific processing process of the first displacement warning information and the second displacement warning information is as follows: extracting the acquired real-time image information, wherein the real-time image information comprises application real-time image information and transportation/storage real-time image information;
processing the transportation/storage real-time image information to obtain first displacement warning information, and processing the application real-time image information to obtain second displacement warning information;
the specific process of processing the transportation/storage real-time image information to obtain the first displacement warning information is as follows: the method comprises the steps of extracting and collecting transportation/storage real-time image information, wherein the transportation/storage real-time image information is real-time image information which is transported/stored after a microminiature high-power supply module is placed in a preset protection device, preset identification patterns are arranged on the preset protection device, the image information of the microminiature high-power supply module is immediately collected after the microminiature high-power supply module is placed in the preset protection device, namely transportation/storage standard image information is obtained, the transportation/storage standard image information is compared with the transportation/storage standard image information after the transportation/storage real-time image information is collected, position comparison information influenced by the preset identification patterns in the transportation/storage standard image information is obtained, and when the difference between the position comparison information is larger than a preset value, first displacement warning information is generated;
through the process, whether the ultra-small high-power supply module generates abnormal displacement or not can be known by analyzing the transportation/storage real-time image information, and the ultra-small high-power supply module generates abnormal displacement which possibly causes damage, so that the ultra-small high-power supply module needs to be monitored to ensure the safety of the ultra-small high-power supply module.
The specific processing procedure of the position comparison information is as follows: extracting a preset identification pattern image in the transportation/storage standard image information, carrying out picture processing on the preset identification pattern image to obtain preset identification pattern picture information, and then extracting distance information between the geometric center of the preset identification pattern and four corners of the preset identification pattern picture information, namely, comparing parameters L1, L2, L3 and L4;
carrying out the same processing on the transportation/storage real-time image information as the transportation/storage standard image information to obtain contrast parameters P1, P2, P3 and P4;
p1, P2, P3 and P4 are in one-to-one correspondence with L1, L2, L3 and L4, and then a difference Pl1 between P1 and L1, a difference Pl2 between P2 and L2, a difference Pl3 between P3 and L3 and a difference Pl4 between P4 and L4 are calculated;
when any one of Pl1, pl2, pl3 and Pl4 is larger than a preset value, generating first displacement warning information;
through the process, more accurate comparison parameters can be obtained, so that the generation accuracy of the first displacement warning information is ensured, and abnormal alarming caused by parameter errors is avoided.
The specific process of processing the application real-time image information to obtain the second displacement warning information is as follows: collecting installation completion image information of the ultra-small high-power supply module as standard application image information after the ultra-small high-power supply module is installed, processing the standard application image information, selecting at least two target positions in the standard application image information as preset mark positions, then selecting the geometric center of the ultra-small high-power supply module in the standard application image information, measuring the distance between the geometric center and the preset mark positions, and obtaining standard evaluation distance information;
after the application real-time image information is obtained, the application real-time image information is processed as the standard application image information, and real-time evaluation distance information is obtained;
performing one-to-one corresponding difference calculation on the real-time estimated distance information and the standard estimated distance information, and generating second displacement warning information when two or more differences are larger than a preset value;
through the process, the application real-time image information is analyzed to know whether the installed ultra-small high-power supply module is abnormally displaced when being reused, so that warning is timely carried out, and the occurrence of safety accidents caused by damage of the ultra-small high-power supply module due to displacement of the ultra-small high-power supply module is avoided.
The specific processing process of the wiring warning information is as follows: extracting the collected interface pressure information of the access cable and the real-time stress information of the cable, and generating wiring warning information when the interface pressure information of the access cable exceeds a preset range;
extracting real-time stress information of the cable, and generating wiring warning information when the real-time stress information of the cable is larger than a preset value and exceeds a preset duration;
through the process, the abnormal wiring state of the ultra-small high-power supply module can be timely found, and timely warning is carried out, so that accidents caused by wiring problems are avoided.
The specific processing process of the first module warning information and the second module warning information is as follows: extracting collected power supply module information, wherein the power supply module information comprises module application stress information and module transportation/storage stress information;
when the module transportation/storage stress information is larger than a preset value and exceeds a preset number of times, generating first module warning information;
when the module application stress information exceeds a preset warning value, generating second module warning information;
through the process, timely warning can be achieved when the ultra-small high-power supply module receives the overlarge impact force or overlarge pressure.
Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.
In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.
While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.
Claims (5)
1. The intelligent protection system of the ultra-small high-power supply module is characterized by comprising an environment information acquisition module, a real-time image acquisition module, a wiring information acquisition module, a module information acquisition module, a data processing module and an information sending module;
the environment information acquisition module is used for acquiring environment information of the power supply module, the real-time image acquisition module is used for acquiring real-time image information of the power supply module, the wiring information acquisition module is used for acquiring wiring information of the power supply module, and the module information acquisition module is used for acquiring stress information of the power supply module;
the data processing module is used for processing the environment information to generate first environment warning information and second environment warning information, processing the real-time image information to generate first displacement warning information and second displacement warning information, processing the wiring information to obtain wiring warning information, and processing the module information to obtain first module warning information and second module warning information;
after the first environment warning information, the second environment warning information, the first displacement warning information, the second displacement warning information, the wiring warning information, the first module warning information and the second module warning information are generated, the master control module controls the information sending module to send the information to the preset receiving terminal;
the specific processing process of the first displacement warning information and the second displacement warning information is as follows: extracting the acquired real-time image information, wherein the real-time image information comprises application real-time image information and transportation/storage real-time image information;
processing the transportation/storage real-time image information to obtain first displacement warning information, and processing the application real-time image information to obtain second displacement warning information;
the specific process of processing the transportation/storage real-time image information to obtain the first displacement warning information is as follows: the method comprises the steps of extracting and collecting transportation/storage real-time image information, wherein the transportation/storage real-time image information is real-time image information transported/stored after a microminiature high-power supply module is placed in a preset protection device, preset identification patterns are arranged on the preset protection device, the image information of the microminiature high-power supply module is immediately collected after the microminiature high-power supply module is placed in the preset protection device, namely transportation/storage standard image information is obtained, the transportation/storage standard image information is compared with the transportation/storage standard image information after the transportation/storage real-time image information is collected, position comparison information of preset identification pattern images in the transportation/storage standard image information and preset identification pattern images in the transportation/storage real-time image information is obtained, and when the difference between the position comparison information is larger than a preset value, first displacement warning information is generated;
the specific processing procedure of the position comparison information is as follows: extracting a preset identification pattern image in the transportation/storage standard image information, carrying out picture processing on the preset identification pattern image to obtain preset identification pattern picture information, and then extracting distance information between the geometric center of the preset identification pattern and four corners of the preset identification pattern picture information, namely, comparing parameters L1, L2, L3 and L4;
carrying out the same processing on the transportation/storage real-time image information as the transportation/storage standard image information to obtain contrast parameters P1, P2, P3 and P4;
p1, P2, P3 and P4 are in one-to-one correspondence with L1, L2, L3 and L4, and then a difference Pl1 between P1 and L1, a difference Pl2 between P2 and L2, a difference Pl3 between P3 and L3 and a difference Pl4 between P4 and L4 are calculated;
when any one of Pl1, pl2, pl3 and Pl4 is larger than a preset value, generating first displacement warning information;
the specific process of processing the application real-time image information to obtain the second displacement warning information is as follows: collecting installation completion image information of the ultra-small high-power supply module as standard application image information after the ultra-small high-power supply module is installed, processing the standard application image information, selecting at least two target positions in the standard application image information as preset mark positions, then selecting the geometric center of the ultra-small high-power supply module in the standard application image information, measuring the distance between the geometric center and the preset mark positions, and obtaining standard evaluation distance information;
after the application real-time image information is obtained, the application real-time image information is processed as the standard application image information, and real-time evaluation distance information is obtained;
and carrying out one-to-one corresponding difference calculation on the real-time evaluation distance information and the standard evaluation distance information, and generating second displacement warning information when two or more differences are larger than a preset value.
2. The intelligent protection system of a miniature high-power supply module according to claim 1, wherein: the specific processing process of the first environment warning information and the second environment warning information is as follows: extracting collected environment information, wherein the environment information comprises transportation/storage environment information of the ultra-small high-power supply module and use environment information of the ultra-small high-power supply module;
the transportation/storage environment information is processed to obtain first environment warning information, and the use environment information of the ultra-small high-power supply module is processed to obtain second environment warning information.
3. The intelligent protection system of a miniature high-power supply module according to claim 2, wherein: the specific process of processing the transportation/storage environment information to obtain the first environment warning information is as follows: extracting transportation/storage environment information, wherein the transportation/storage environment information comprises environment humidity information and environment temperature information, and when any one of the environment humidity information and the environment temperature information is larger than a preset value, first environment warning information is generated;
the specific process of processing the service environment information of the ultra-small high-power supply module to acquire the second environment warning information is as follows: extracting collected using environment information, wherein the using environment information comprises using environment temperature information, using environment humidity information, using environment dust concentration and using gas concentration information;
generating second environment warning information when the environment temperature information is larger than a preset value a1, generating second environment warning information when the environment humidity information is larger than a preset value b1, generating second environment warning information when the using environment dust concentration is larger than a preset value c1, and generating second environment warning information when the using gas concentration information is larger than a preset value d 1;
generating second environment warning information when the environmental temperature information is larger than a preset value a2 for a period exceeding the preset value, generating second environment warning information when the environmental humidity information is larger than a preset value b2 for a period exceeding the preset value, generating second environment warning information when the dust concentration of the use environment is larger than a preset value c2 for a period exceeding the preset value, and generating second environment warning information when the concentration of the use gas is larger than a preset value d2 for a period exceeding the preset value;
a1>a2,b1>b2,c1>c2,d1>d2。
4. the intelligent protection system of a miniature high-power supply module according to claim 1, wherein: the specific processing process of the wiring warning information is as follows: extracting the collected interface pressure information of the access cable and the real-time stress information of the cable, and generating wiring warning information when the interface pressure information of the access cable exceeds a preset range;
and extracting real-time stress information of the cable, and generating wiring warning information when the real-time stress information of the cable is larger than a preset value and exceeds a preset duration.
5. The intelligent protection system of a miniature high-power supply module according to claim 1, wherein: the specific processing process of the first module warning information and the second module warning information is as follows: extracting the acquired stress information of the power supply module, wherein the stress information of the power supply module comprises module application stress information and module transportation/storage stress information;
when the module transportation/storage stress information is larger than a preset value and exceeds a preset number of times, generating first module warning information;
when the module application stress information exceeds a preset warning value, generating second module warning information.
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