CN104655941B - Detection method of electromagnetic radiation, device and electronic equipment - Google Patents
Detection method of electromagnetic radiation, device and electronic equipment Download PDFInfo
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- CN104655941B CN104655941B CN201510130173.XA CN201510130173A CN104655941B CN 104655941 B CN104655941 B CN 104655941B CN 201510130173 A CN201510130173 A CN 201510130173A CN 104655941 B CN104655941 B CN 104655941B
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Abstract
The embodiment of the invention discloses a kind of detection method of electromagnetic radiation, device and electronic equipments, and the electromagnetic wave signal of the electronic equipment present position is acquired by the electromagnetic wave signal harvester of electronic equipment, obtains several sampled datas;Several described sampled datas are handled based on electromagnetic wave signal intensity, obtain handling result, the handling result is for characterizing radiation magnetic induction total amount;It is compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message.That is, in the embodiment of the present invention, electromagnetic radiation situation is weighed based on radiation magnetic induction total amount, and, it is to be handled to obtain to sampled data based on electromagnetic wave signal intensity (such as voltage value) to radiate magnetic induction total amount, therefore, it can more accurately reflect electromagnetic radiation situation by radiating magnetic induction total amount and being weighed to electromagnetic radiation.
Description
Technical field
The present invention relates to electronic technology fields, more specifically to a kind of detection method of electromagnetic radiation, device and electronics
Equipment.
Background technology
Universal with industrial development and electronic equipment, electromagnetic radiation pollution is increasingly severe, it is desirable to and
The electromagnetic radiation pollution situation of Shi get Zhi environment, to avoid the serious environment of electromagnetic radiation pollution.Existing electromagnetic radiation dosage
Detection device is directly by electromagnetic wave signal voltage value or voltage peak-to-peak value or will general radiation corresponding with voltage peak-to-peak value
Magnetic induction intensity is as the physical quantity for weighing electromagnetic radiation.However, inventor has found in the implementation of the present invention, current
Detection method of electromagnetic radiation is too simple, cannot accurately reflect the electromagnetic radiation situation of user position.
Invention content
The object of the present invention is to provide a kind of detection method of electromagnetic radiation, device and electronic equipments, more accurately to detect
Electromagnetic radiation situation.
To achieve the above object, the present invention provides following technical solutions:
A kind of detection method of electromagnetic radiation, the method includes:
The electromagnetic wave of the electronic equipment present position is acquired by the electromagnetic wave signal harvester of electronic equipment
Signal obtains several sampled datas;
Several described sampled datas are handled based on electromagnetic wave signal intensity, obtain handling result, the processing
As a result it is used to characterize radiation magnetic induction total amount;
It is compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message.
The above method, it is preferred that described be compared with predetermined threshold based on the radiation magnetic induction total amount is determined whether
Generating prompt message includes:
The radiation magnetic induction total amount is compared with predetermined threshold, obtains comparison result, the comparison result is used for
Characterize hazards of electromagnetic radiation grade;
Determine whether to generate prompt message based on the hazards of electromagnetic radiation grade.
The above method, it is preferred that further include:
Show several sampled datas and/or the radiation magnetic induction total amount.
The above method, it is preferred that further include:
Radiation magnetic induction intensity is obtained based on several sampled datas;
Show the radiation magnetic induction intensity.
The above method, it is preferred that the electromagnetic wave signal harvester by electronic equipment acquires the electronic equipment
The electromagnetic wave signal of present position, obtaining several sampled datas includes:
Whether the intensity for monitoring the electromagnetic wave signal received exceeds predetermined strength value;
When the intensity for detecting the electromagnetic wave signal received exceeds predetermined strength value, pass through the electromagnetic wave of electronic equipment
Signal pickup assembly acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
The above method, it is preferred that described that processing packet is carried out to several described sampled datas based on electromagnetic wave signal intensity
It includes:
Integral operation is carried out to several acquired sampled datas based on electromagnetic wave signal intensity.
A kind of electromagnetic radiation detection device, described device include:
Acquisition module, the electromagnetic wave signal for acquiring the electronic equipment present position, obtains several samplings
Data;
Processing module handles several described sampled datas for being based on electromagnetic wave signal intensity, is handled
As a result, the handling result is for characterizing radiation magnetic induction total amount;
Determining module is compared for being based on the radiation magnetic induction total amount with predetermined threshold and determines whether to generate prompt
Information.
Above-mentioned apparatus, it is preferred that the determining module includes:
Comparing unit, for the radiation magnetic induction total amount to be compared with predetermined threshold, acquisition comparison result is described
Comparison result is for characterizing hazards of electromagnetic radiation grade;
Determination unit determines whether to generate prompt message for being based on the hazards of electromagnetic radiation grade.
Above-mentioned apparatus, it is preferred that further include:
First display module, for showing several sampled datas and/or the radiation magnetic induction total amount.
Above-mentioned apparatus, it is preferred that further include:
Acquisition module, for obtaining radiation magnetic induction intensity based on several sampled datas;
Second display module, for showing the radiation magnetic induction intensity.
Above-mentioned apparatus, it is preferred that the acquisition module includes:
Whether monitoring unit, the intensity for monitoring the electromagnetic wave signal received exceed predetermined strength value;
Collecting unit, the intensity for detecting the electromagnetic wave signal received when the monitoring unit exceed predetermined strength
When value, harvester acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
Above-mentioned apparatus, it is preferred that the processing module includes:
Processing unit, for carrying out integral operation to several acquired sampled datas based on electromagnetic wave signal intensity.
A kind of electronic equipment, including the electromagnetic radiation detection device described in any one as above.
By above scheme it is found that a kind of detection method of electromagnetic radiation, device and electronic equipment provided by the present application, pass through
The electromagnetic wave signal harvester of electronic equipment acquires the electromagnetic wave signal of the electronic equipment present position, obtains several
A sampled data;Several described sampled datas are handled based on electromagnetic wave signal intensity, obtain handling result, the place
Result is managed for characterizing radiation magnetic induction total amount;It is compared and is determined whether with predetermined threshold based on the radiation magnetic induction total amount
Generate prompt message.That is, in the embodiment of the present invention, electromagnetic radiation situation is weighed based on radiation magnetic induction total amount, moreover,
It is to be handled to obtain to sampled data based on electromagnetic wave signal intensity (such as voltage value) to radiate magnetic induction total amount, therefore, is passed through
Radiation magnetic induction total amount, which weighs electromagnetic radiation, can more accurately reflect electromagnetic radiation situation.
Description of the drawings
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
Obtain other attached drawings according to these attached drawings.
Fig. 1 is the schematic diagram of traditional detection method of electromagnetic radiation;
Fig. 2 is one kind of the actually detected electromagnetic radiation arrived when being detected in actual environment using electromagnet radiation detection instrument
Waveform;
Fig. 3 is when being detected in actual environment using electromagnet radiation detection instrument, the actually detected electromagnetic radiation arrived it is another
Kind waveform;
Fig. 4 is a kind of implementation flow chart of detection method of electromagnetic radiation provided by the embodiments of the present application;
Fig. 5 is a kind of structural schematic diagram of electromagnetic radiation detection device provided by the embodiments of the present application;
Fig. 6 is a kind of structural schematic diagram of determining module provided by the embodiments of the present application;
Fig. 7 is another structural schematic diagram of electromagnetic radiation detection device provided by the embodiments of the present application;
Fig. 8 is another structural schematic diagram of electromagnetic radiation detection device provided by the embodiments of the present application;
Fig. 9 is a kind of structural schematic diagram of acquisition module provided by the embodiments of the present application.
Term " first ", " second ", " third " " the 4th " in specification and claims and above-mentioned attached drawing etc. (if
In the presence of) it is for distinguishing similar part, without being used to describe specific sequence or precedence.It should be appreciated that using in this way
Data can be interchanged in the appropriate case, so that embodiments herein described herein can be in addition to illustrating herein
Sequence in addition is implemented.
Specific implementation mode
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
In order to better illustrate the embodiment of the present invention, traditional detection method of electromagnetic radiation is illustrated first.At present
The electromagnetic radiation safety standard that country promulgates is an intensity threshold.As shown in FIG. 1, FIG. 1 is traditional detection method of electromagnetic radiation
Schematic diagram.V0For bias voltage, when pulses of radiation voltage signal is more than voltage threshold VthWhen, it will alarm to prompt electromagnetism spoke
It penetrates exceeded.It should be noted that the correspondence between radiation voltage and electromagnetic radiation intensity can be obtained by calibration, in general,
Radiation voltage is bigger, and electromagnetic radiation intensity is stronger.Therefore, when detect pulses of radiation voltage exceed voltage threshold, it is meant that
Corresponding electromagnetic radiation intensity is more than electromagnetic radiation intensity threshold value EMth, wherein electromagnetic radiation intensity threshold value EMthFor by demarcating
With voltage threshold VthCorresponding electromagnetic radiation intensity threshold value.
Inventor has found in the implementation of the present invention, traditional using radiation intensity as evaluation electromagnetic radiation intensity
Detection method of electromagnetic radiation is too simple, cannot accurately reflect the electromagnetic radiation situation of user position.Specifically,
Inventor had found when being detected in actual environment using electromagnet radiation detection instrument, the actually detected electromagnetic radiation as waves arrived
Shape mainly has two kinds of waveforms of Fig. 2 and Fig. 3.
In unit interval Δ t only there are two pulse it is more than threshold value in Fig. 2, and amplitude is larger about radiation intensity;Fig. 3
In there are multiple pulses to be more than threshold value in unit interval Δ t, but amplitude is smaller.
Inventor is the study found that the of short duration existing possible very little of its radiation amount of big pulse, and such as electrostatic, impulse amplitude is very
Greatly, but its radiation amount very little, radiation hazradial bundle can't be generated to human body.And amplitude less (be more than threshold value) but radiation amount is big
Pulse much is obviously to the harm bigger of health, therefore, traditional using radiation intensity as evaluation electromagnetic radiation situation
Standard detection method of electromagnetic radiation it is too simple, the electromagnetic radiation situation of user position cannot be accurately reflected.It is based on
This, the embodiment of the present invention is proposed using electromagnetic radiation total amount as the standard for weighing electromagnetic radiation state.
About radiation amount, dash area corresponds to electromagnetic radiation when electromagnetic radiation intensity exceeds threshold value in Fig. 2 and Fig. 3
Total amount:
In unit interval Δ t, observation compare in Fig. 2 and Fig. 3 the area of dash area and, it is seen that the shadow part in Fig. 3
Facet is long-pending and than hatched area in Fig. 2 and greatly.That is its electromagnetic radiation total amount bigger of pulse shown in Fig. 3.
Referring to Fig. 4, Fig. 4 is a kind of implementation flow chart of detection method of electromagnetic radiation provided in an embodiment of the present invention, it can
To include:
Step S41:The electronic equipment present position is acquired by the electromagnetic wave signal harvester of electronic equipment
Electromagnetic wave signal, obtain several sampled datas;
Electromagnetic wave signal harvester is provided in the embodiment of the present invention, in electronic equipment, to acquire electronic equipment institute
Electromagnetic wave signal at position.
When acquiring electromagnetic wave signal, electromagnetic wave signal harvester can be started the sampling to electromagnetic wave signal by the period
Process does not acquire electromagnetic wave signal in real time, start sampling process by the period, for example, can start within each second primary
Sampling process, a length of 150ms when sampling every time, in the sampling process of this 150ms, the sampling interval is 100 μ s, i.e., every 100 μ s
One data of acquisition will obtain 1500 sampled datas in this way, in the sampling process of this 150ms.
Wherein, sampling duration is more than the period of waves of signal to be collected, specifically a length of when sampling how much to pass through experiment
It determines.
Step S42:Several described sampled datas are handled based on electromagnetic wave signal intensity, obtain handling result,
The handling result is for characterizing radiation magnetic induction total amount;
In the embodiment of the present invention, electromagnetic wave signal intensity can use the voltage value of electromagnetic wave signal to characterize.Radiate magnetic induction
Total amount can be characterized by total amount of electric charge.
If by period startup sampling process, in the embodiment of the present invention, electromagnetic wave signal intensity is based on to described by the period
Several sampled datas are handled, and obtain handling result, the handling result is for characterizing radiation magnetic induction total amount.It is i.e. each
Period obtains a handling result.
Step S43:It is compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message.
In the embodiment of the present invention, radiation magnetic induction total amount can be compared with predetermined threshold, with according to comparison result
Determine whether to generate prompt message.For example, if judging that radiation magnetic induction total amount is smaller by comparing, human body will not be produced
It, can be without prompt when life endangers.It is of course also possible to be prompted, user's current radiation is prompted not generate danger to human body
Evil.
The predetermined threshold can only there are one, it is possibility to have it is multiple.It can specifically be passed through according to the actual demand of people
Experiment determines.
The prompt message can be text prompt, can also be voice prompt or light prompt etc..
Detection method of electromagnetic radiation provided in an embodiment of the present invention is adopted by the electromagnetic wave signal harvester of electronic equipment
The electromagnetic wave signal for collecting the electronic equipment present position, obtains several sampled datas;Based on electromagnetic wave signal intensity
Several described sampled datas are handled, obtain handling result, the handling result is for characterizing radiation magnetic induction total amount;
It is compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message.That is, of the invention
In embodiment, electromagnetic radiation situation is weighed based on radiation magnetic induction total amount, moreover, radiation magnetic induction total amount is believed based on electromagnetic wave
Number intensity (such as voltage value) is handled to obtain to sampled data, therefore, is carried out to electromagnetic radiation by radiating magnetic induction total amount
Measurement can more accurately reflect electromagnetic radiation situation.
Optionally, described be compared with predetermined threshold based on the radiation magnetic induction total amount determines whether to generate prompt letter
Breath may include:
The radiation magnetic induction total amount is compared with predetermined threshold, obtains comparison result, the comparison result is used for
Characterize hazards of electromagnetic radiation grade;
Specifically, different hazards of electromagnetic radiation grades can be divided according to predetermined threshold.For example, it is assumed that predetermined threshold has
Two, respectively the first predetermined threshold and the second predetermined threshold, and the first predetermined threshold is less than the second predetermined threshold, then, according to
Predetermined threshold can be divided into three hazards of electromagnetic radiation grades.When radiating magnetic induction total amount less than the first predetermined threshold, it is in
First hazards of electromagnetic radiation grade;It is greater than or equal to the first predetermined threshold when radiating magnetic induction total amount, is less than the second predetermined threshold
When, it is in the second hazards of electromagnetic radiation grade;When radiating magnetic induction total amount more than or equal to the second predetermined threshold, it is in third
Hazards of electromagnetic radiation grade.Wherein, hazards of electromagnetic radiation higher grade, indicates that harm is bigger.Hazards of electromagnetic radiation lower grade,
It endangers smaller, or is safe from harm (such as the lowest class).
Determine whether to generate prompt message based on the hazards of electromagnetic radiation grade.
Optionally, detection method of electromagnetic radiation provided in an embodiment of the present invention can further include:
Several sampled datas and/or the radiation magnetic induction total amount are shown, in order to which user understands spoke in more detail
Penetrate situation.
In the embodiment of the present invention, sampled data can be shown in a manner of oscillogram, can also be directly displayed
The numerical value of sampled data.
Radiation magnetic induction total amount can show numerical value.
It certainly, can be with display reminding information if there is prompt message.
Further, detection method of electromagnetic radiation provided in an embodiment of the present invention can also include:
Radiation magnetic induction intensity is obtained based on several sampled datas;
Radiation magnetic induction intensity can be obtained based on the peak-to-peak value of several sampled datas, specifically, by described several
The corresponding magnetic induction intensity of peak-to-peak value of sampled data is as radiation magnetic induction intensity.
Show the radiation magnetic induction intensity.
In the embodiment of the present invention, radiation magnetic induction total amount is not only measured, also measures radiation magnetic induction intensity.It can make user
Understand magnetic radiation situation from different dimensions.
For example it is possible to record magnetic induction intensity is more than the duration of predetermined threshold, when by radiating magnetic induction total amount
When judging that magnetic radiation is stronger, user is helped to determine the location of its when magnetic radiation induction is stronger, to avoid magnetic is again introduced into
That stronger region of radioinduction.
Optionally, the electromagnetic wave signal harvester by electronic equipment acquires the electronic equipment and is currently located position
The electromagnetic wave signal set, obtaining several sampled datas may include:
Whether the intensity for monitoring the electromagnetic wave signal received exceeds predetermined strength value;
When the intensity for detecting the electromagnetic wave signal received exceeds predetermined strength value, pass through the electromagnetic wave of electronic equipment
Signal pickup assembly acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
In the embodiment of the present invention, in order to reduce the power consumption of electronic equipment, monitoring the intensity of the electromagnetic wave signal received is
It is no to exceed predetermined strength value, only when the intensity for detecting the electromagnetic wave signal received exceeds predetermined strength value, just start
It is acquired electromagnetic wave signal, and when the intensity of the electromagnetic wave signal received is less than predetermined strength value, illustrate electromagnetic wave signal
Harm will not be generated to human body, electromagnet radiation detection may not necessarily be carried out at this time, to reduce powder consumption of electronic equipment.
Certainly, if the intensity of the electromagnetic wave signal to receiving is monitored to judge whether to electromagnet radiation detection
For optional function, can be selected by users.
Optionally, it is described based on electromagnetic wave signal intensity to several described sampled datas carry out processing may include:
Integral operation is carried out to several acquired sampled datas based on electromagnetic wave signal intensity.It specifically can be referring to formula
(1)。
Corresponding with embodiment of the method, the embodiment of the present invention also provides a kind of electromagnetic radiation detection device, and the present invention is implemented
A kind of structural schematic diagram for the electromagnetic radiation detection device that example provides is as shown in figure 5, may include:
Acquisition module 51, processing module 52 and determining module 53;Wherein,
Acquisition module 51 is used to acquire the electromagnetic wave signal of the electronic equipment present position, obtains several samplings
Data;
When acquiring electromagnetic wave signal, acquisition module 51 can be started the sampling process to electromagnetic wave signal by the period, i.e.,
Acquisition electromagnetic wave signal not instead of not in real time starts sampling process by the period, was once sampled for example, can start within each second
Journey, a length of 150ms when sampling every time, in the sampling process of this 150ms, the sampling interval is 100 μ s, i.e., every 100 μ s acquire one
A data will obtain 1500 sampled datas in this way, in the sampling process of this 150ms.
Wherein, sampling duration is more than the period of waves of signal to be collected, specifically a length of when sampling how much to pass through experiment
It determines.
Processing module 52 is handled for being handled several described sampled datas based on electromagnetic wave signal intensity
As a result, the handling result is for characterizing radiation magnetic induction total amount;
In the embodiment of the present invention, electromagnetic wave signal intensity can use the voltage value of electromagnetic wave signal to characterize.Radiate magnetic induction
Total amount can be characterized by total amount of electric charge.
If by period startup sampling process, in the embodiment of the present invention, electromagnetic wave signal intensity is based on to described by the period
Several sampled datas are handled, and obtain handling result, the handling result is for characterizing radiation magnetic induction total amount.It is i.e. each
Period obtains a handling result.
Determining module 53 is carried for being compared to determine whether to generate with predetermined threshold based on the radiation magnetic induction total amount
Show information.
In the embodiment of the present invention, radiation magnetic induction total amount can be compared with predetermined threshold, with according to comparison result
Determine whether to generate prompt message.For example, if judging that radiation magnetic induction total amount is smaller by comparing, human body will not be produced
It, can be without prompt when life endangers.It is of course also possible to be prompted, user's current radiation is prompted not generate danger to human body
Evil.
The predetermined threshold can only there are one, it is possibility to have it is multiple.It can specifically be passed through according to the actual demand of people
Experiment determines.
The prompt message can be text prompt, can also be voice prompt or light prompt etc..
Electromagnetic radiation detection device provided in an embodiment of the present invention acquires electronic equipment by acquisition module and is currently located position
The electromagnetic wave signal set obtains several sampled datas;Several described sampled datas are carried out based on electromagnetic wave signal intensity
Processing obtains handling result, and the handling result is for characterizing radiation magnetic induction total amount;Based on the radiation magnetic induction total amount with
Predetermined threshold, which is compared, to be determined whether to generate prompt message.That is, in the embodiment of the present invention, it is total based on radiation magnetic induction
Amount weighs electromagnetic radiation situation, moreover, radiation magnetic induction total amount is to be based on electromagnetic wave signal intensity (such as voltage value) to hits
According to being handled to obtain, therefore, it can more accurately reflect electromagnetism spoke by radiating magnetic induction total amount and being weighed to electromagnetic radiation
Penetrate situation.
Optionally, a kind of structural schematic diagram of determining module 53 is as described in Figure 6, may include;
Comparing unit 61 and determination unit 62;Wherein,
Comparing unit 61 obtains comparison result, institute for the radiation magnetic induction total amount to be compared with predetermined threshold
Comparison result is stated for characterizing hazards of electromagnetic radiation grade;
Specifically, different hazards of electromagnetic radiation grades can be divided according to predetermined threshold.For example, it is assumed that predetermined threshold has
Two, respectively the first predetermined threshold and the second predetermined threshold, and the first predetermined threshold is less than the second predetermined threshold, then, according to
Predetermined threshold can be divided into three hazards of electromagnetic radiation grades.When radiating magnetic induction total amount less than the first predetermined threshold, it is in
First hazards of electromagnetic radiation grade;It is greater than or equal to the first predetermined threshold when radiating magnetic induction total amount, is less than the second predetermined threshold
When, it is in the second hazards of electromagnetic radiation grade;When radiating magnetic induction total amount more than or equal to the second predetermined threshold, it is in third
Hazards of electromagnetic radiation grade.Wherein, hazards of electromagnetic radiation higher grade, indicates that harm is bigger.Hazards of electromagnetic radiation lower grade,
It endangers smaller, or is safe from harm (such as the lowest class).
Determination unit 62 is used to determine whether to generate prompt message based on the hazards of electromagnetic radiation grade.
Optionally, on the basis of embodiment shown in Fig. 5, electromagnetic radiation detection device provided in an embodiment of the present invention it is another
A kind of structural schematic diagram is as shown in fig. 7, can also include:
First display module 71, for showing several sampled datas and/or the radiation magnetic induction total amount, in order to
User understands radiation event in more detail.
In the embodiment of the present invention, sampled data can be shown in a manner of oscillogram, can also be directly displayed
The numerical value of sampled data.
Radiation magnetic induction total amount can show numerical value.
Certainly, the first display module 71 is readily applicable in embodiment illustrated in fig. 6.
Certainly, if there is prompt message, the first display module 71 can be also used for display reminding information.
Optionally, on the basis of embodiment shown in Fig. 5, electromagnetic radiation detection device provided in an embodiment of the present invention is again
A kind of structural schematic diagram is as shown in figure 8, can also include;
Acquisition module 81 and the second display module 82;Wherein,
Acquisition module 81 is used to obtain radiation magnetic induction intensity based on several sampled datas;
Radiation magnetic induction intensity can be obtained based on the peak-to-peak value of several sampled datas, specifically, by described several
The corresponding magnetic induction intensity of peak-to-peak value of sampled data is as radiation magnetic induction intensity.
Second display module 82 is for showing the radiation magnetic induction intensity.
In the embodiment of the present invention, radiation magnetic induction total amount is not only measured, also measures radiation magnetic induction intensity.It can make user
Understand magnetic radiation situation from different dimensions.
For example it is possible to record magnetic induction intensity is more than the duration of predetermined threshold, when by radiating magnetic induction total amount
When judging that magnetic radiation is stronger, user is helped to determine the location of its when magnetic radiation induction is stronger, to avoid magnetic is again introduced into
That stronger region of radioinduction.
It should be noted that the function of the first display module 71 and the function of the second display module 82 can be integrated in same work(
In energy module, i.e. the first display module 71 and the second display module 82 can be the same function module.
Optionally, a kind of structural schematic diagram of acquisition module 51 is as shown in figure 9, may include:
Monitoring unit 91 and collecting unit 92;Wherein,
Whether the intensity that monitoring unit 91 is used to monitor the electromagnetic wave signal received exceeds predetermined strength value;
Collecting unit 92 is used to detect the intensity of the electromagnetic wave signal received beyond predetermined when the monitoring unit 91
When intensity value, harvester acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
In the embodiment of the present invention, in order to reduce the power consumption of electronic equipment, monitoring the intensity of the electromagnetic wave signal received is
It is no to exceed predetermined strength value, only when the intensity for detecting the electromagnetic wave signal received exceeds predetermined strength value, just start
It is acquired electromagnetic wave signal, and when the intensity of the electromagnetic wave signal received is less than predetermined strength value, illustrate electromagnetic wave signal
Harm will not be generated to human body, electromagnet radiation detection may not necessarily be carried out at this time, to reduce powder consumption of electronic equipment.
Certainly, if the intensity of the electromagnetic wave signal to receiving is monitored to judge whether to electromagnet radiation detection
For optional function, can be selected by users.
The embodiment of the present invention also provides a kind of electronic equipment, which includes the electricity described in any one embodiment as above
Magnetic radiation detection device.Specifically,
The electronic equipment may include processor and the memory that is coupled with the processor;Wherein, the processor by with
It is set to:
The electromagnetic wave of the electronic equipment present position is acquired by the electromagnetic wave signal harvester of electronic equipment
Signal obtains several sampled datas;
Several described sampled datas are handled based on electromagnetic wave signal intensity, obtain handling result, the processing
As a result it is used to characterize radiation magnetic induction total amount;
It is compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message.
It is configured as being compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message
Processor be configured to:
The radiation magnetic induction total amount is compared with predetermined threshold, obtains comparison result, the comparison result is used for
Characterize hazards of electromagnetic radiation grade;
Determine whether to generate prompt message based on the hazards of electromagnetic radiation grade.
Processor is configured to:
Show several sampled datas and/or the radiation magnetic induction total amount.
Processor can be configured to:
Radiation magnetic induction intensity is obtained based on several sampled datas;
Show the radiation magnetic induction intensity.
It is configured as acquiring the electronic equipment present position by the electromagnetic wave signal harvester of electronic equipment
Electromagnetic wave signal, the processor for obtaining several sampled datas is configured to:
Whether the intensity for monitoring the electromagnetic wave signal received exceeds predetermined strength value;
When the intensity for detecting the electromagnetic wave signal received exceeds predetermined strength value, pass through the electromagnetic wave of electronic equipment
Signal pickup assembly acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
It is further to be configured as the processor handled several described sampled datas based on electromagnetic wave signal intensity
It is configured as:
Integral operation is carried out to several acquired sampled datas based on electromagnetic wave signal intensity.
The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention.
Various modifications to these embodiments will be apparent to those skilled in the art, as defined herein
General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention
It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one
The widest range caused.
Claims (13)
1. a kind of detection method of electromagnetic radiation, which is characterized in that the method includes:
The electromagnetism of the electronic equipment present position is acquired by the period by the electromagnetic wave signal harvester of electronic equipment
Wave signal, obtains several sampled datas in sampling duration, and the sampling duration is more than the period of waves of signal to be collected;
Several described sampled datas are handled based on electromagnetic wave signal intensity by the period, obtain handling result, institute
State handling result for characterize radiation magnetic induction total amount;
It is compared with predetermined threshold based on the radiation magnetic induction total amount and determines whether to generate prompt message.
2. according to the method described in claim 1, it is characterized in that, described be based on the radiation magnetic induction total amount and predetermined threshold
It is compared and determines whether that generation prompt message includes:
The radiation magnetic induction total amount is compared with predetermined threshold, obtains comparison result, the comparison result is for characterizing
Hazards of electromagnetic radiation grade;
Determine whether to generate prompt message based on the hazards of electromagnetic radiation grade.
3. according to the method described in claim 1, it is characterized in that, further including:
Show several sampled datas and/or the radiation magnetic induction total amount.
4. according to the method described in claim 1, it is characterized in that, further including:
Radiation magnetic induction intensity is obtained based on several sampled datas;
Show the radiation magnetic induction intensity.
5. according to the method described in claim 1, it is characterized in that, the electromagnetic wave signal harvester by electronic equipment
The electromagnetic wave signal of the electronic equipment present position is acquired by the period, obtains several sampled datas in sampling duration
Including:
Whether the intensity for monitoring the electromagnetic wave signal received exceeds predetermined strength value;
When the intensity for detecting the electromagnetic wave signal received exceeds predetermined strength value, pass through the electromagnetic wave signal of electronic equipment
Harvester acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
6. according to the method described in claim 1, it is characterized in that, described be based on electromagnetic wave signal intensity to institute by the period
It states several sampled datas and handle and include:
Integral operation is carried out to several acquired sampled datas based on electromagnetic wave signal intensity.
7. a kind of electromagnetic radiation detection device, which is characterized in that described device includes:
Acquisition module is obtained for the electromagnetic wave signal by period acquisition electronic equipment present position in sampling duration
Several sampled datas, the sampling duration are more than the period of waves of signal to be collected;
Processing module is obtained for being handled several described sampled datas based on electromagnetic wave signal intensity by the period
To processing as a result, the handling result is for characterizing radiation magnetic induction total amount;
Determining module is compared for being based on the radiation magnetic induction total amount with predetermined threshold and determines whether to generate prompt letter
Breath.
8. device according to claim 7, which is characterized in that the determining module includes:
Comparing unit obtains comparison result, the comparison for the radiation magnetic induction total amount to be compared with predetermined threshold
As a result it is used to characterize hazards of electromagnetic radiation grade;
Determination unit determines whether to generate prompt message for being based on the hazards of electromagnetic radiation grade.
9. device according to claim 7, which is characterized in that further include:
First display module, for showing several sampled datas and/or the radiation magnetic induction total amount.
10. device according to claim 7, which is characterized in that further include:
Acquisition module, for obtaining radiation magnetic induction intensity based on several sampled datas;
Second display module, for showing the radiation magnetic induction intensity.
11. device according to claim 7, which is characterized in that the acquisition module includes:
Whether monitoring unit, the intensity for monitoring the electromagnetic wave signal received exceed predetermined strength value;
Collecting unit, the intensity for detecting the electromagnetic wave signal received when the monitoring unit exceed predetermined strength value
When, harvester acquires the electromagnetic wave signal of the electronic equipment present position, obtains several sampled datas.
12. device according to claim 7, which is characterized in that the processing module includes:
Processing unit, for carrying out integral operation to several acquired sampled datas based on electromagnetic wave signal intensity.
13. a kind of electronic equipment, which is characterized in that include the electromagnet radiation detection dress as described in claim 7-12 any one
It sets.
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CN201510130173.XA CN104655941B (en) | 2015-03-24 | 2015-03-24 | Detection method of electromagnetic radiation, device and electronic equipment |
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CN105259427B (en) * | 2015-09-25 | 2018-12-14 | 联想(北京)有限公司 | A kind of radiation detecting method and electronic equipment |
CN108089065A (en) * | 2017-12-06 | 2018-05-29 | 深圳市环境监测中心站 | Detection method of electromagnetic radiation, device, electronic equipment and storage medium |
CN109239471A (en) * | 2018-10-31 | 2019-01-18 | 北京小米移动软件有限公司 | The exceeded processing method and processing device of amount of electromagnetic radiation |
CN112986709B (en) * | 2019-12-17 | 2022-03-08 | 中国科学院沈阳自动化研究所 | Device and method for monitoring health state of underwater robot through electromagnetic information |
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