CN105259427B - A kind of radiation detecting method and electronic equipment - Google Patents
A kind of radiation detecting method and electronic equipment Download PDFInfo
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- CN105259427B CN105259427B CN201510622795.4A CN201510622795A CN105259427B CN 105259427 B CN105259427 B CN 105259427B CN 201510622795 A CN201510622795 A CN 201510622795A CN 105259427 B CN105259427 B CN 105259427B
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Abstract
The invention discloses a kind of radiation detecting method and electronic equipments, comprising: detects to obtain the first radiation signal using first detection module;First radiation signal is handled, the first result is obtained;When obtaining triggering command, the second detection module is triggered by first state and switches to the second state, the first state is cannot to detect the state of radiation signal, and second state is to detect the state of radiation signal;It detects to obtain the second radiation signal using the second detection module in second state;Second radiation signal is handled, the second result is obtained;When second result meets the second predetermined condition, described second the result shows that radiation detection result;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation detection result.
Description
Technical field
The present invention relates to radiation checking technical more particularly to a kind of radiation detecting methods and electronic equipment.
Background technique
Low-frequency filter, such as inductance can effectively detect the low frequency signal in environment, however, working as low-frequency filter
When detecting the low frequency signal in environment, it is also possible to detect the lower-frequency envelope of high-frequency signal, either low frequency signal or height
The lower-frequency envelope of frequency signal, the signal showed are all low frequencies, and it is by low frequency that detected low frequency, which cannot be distinguished, in inductance
Signal generates, or is generated by the lower-frequency envelope of high-frequency signal, also, high frequency letter can not be also accurately detected only according to inductance
Number.
Summary of the invention
In order to solve the above technical problems, the embodiment of the invention provides a kind of radiation detecting method and electronic equipments.
Radiation detecting method provided in an embodiment of the present invention includes:
It detects to obtain the first radiation signal using first detection module;
First radiation signal is handled, the first result is obtained;
When obtaining triggering command, the second detection module is triggered by first state and switches to the second state, first shape
State is cannot to detect the state of radiation signal, and second state is to detect the state of radiation signal;
It detects to obtain the second radiation signal using the second detection module in second state;Handle second spoke
Signal is penetrated, the second result is obtained;
When second result meets the second predetermined condition, described second the result shows that radiation detection result;When described
When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation detection result.
Electronic equipment provided in an embodiment of the present invention, comprising:
Filter obtains the first radiation signal for detecting;
Processor obtains the first result for handling first radiation signal;When obtaining triggering command, triggering is penetrated
Frequency chip switches to the second state by first state, and the first state is cannot to detect the state of radiation signal, and described second
State is to detect the state of radiation signal;
Radio frequency chip, for when in the second state, detection to obtain the second radiation signal;
The processor is also used to handle second radiation signal, obtains the second result;When second result meets
When the second predetermined condition, described second the result shows that radiation detection result;Make a reservation for when second result is unsatisfactory for described second
When condition, described first the result shows that the radiation detection result.
Another embodiment of the present invention provides electronic equipment, comprising:
First detection module obtains the first radiation signal for detecting;
First processing module obtains the first result for handling first radiation signal;
Trigger module switches to the second shape by first state for when obtaining triggering command, triggering the second detection module
State, the first state are cannot to detect the state of radiation signal, and second state is to detect the state of radiation signal;
Second detection module, for when in the second state, detection to obtain the second radiation signal;
Second processing module obtains the second result for handling second radiation signal;
Testing result module, for when second result meets the second predetermined condition, described second the result shows that spoke
Penetrate testing result;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation is examined
Survey result.
In the technical solution of the embodiment of the present invention, there are two detection modules, respectively first detection module for electronic equipment tool
With the second detection module, first detection module is able to detect the first radiation signal, the first radiation signal espespecially low frequency signal;Second
Detection module is able to detect the second radiation signal, the second radiation signal espespecially high-frequency signal.Firstly, being examined using first detection module
Measure to the first radiation signal, the first radiation signal as detected by first detection module is uncertain be low frequency signal or
Therefore the lower-frequency envelope of high-frequency signal detects the second radiation signal by the second detection module, when the second radiation signal meets second
When predetermined condition, then show that the first radiation signal is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When
When two radiation signals are unsatisfactory for the second predetermined condition, then show that the first radiation signal is low frequency signal, the first result is radiation inspection
Survey result.As it can be seen that it is by low frequency that the technical solution of the embodiment of the present invention, which can distinguish low frequency detected by first detection module,
Signal generates, or is generated by the lower-frequency envelope of high-frequency signal, also, can be accurately detected height using the second detection module
Frequency signal.In addition, the second detection module is not the moment all in working condition, when obtaining triggering command, the second inspection is just triggered
It surveys module and the second state is switched to by first state, here, the second state is in working condition, the second inspection in the second state
Module is surveyed to detect the second radiation signal.As it can be seen that the technical solution of the embodiment of the present invention can reduce the whole of electronic equipment
Body power consumption improves the cruising ability of electronic equipment, and then the user experience is improved.
Detailed description of the invention
Fig. 1 is the flow diagram of the radiation detecting method of the embodiment of the present invention one;
Fig. 2 is the flow diagram of the radiation detecting method of the embodiment of the present invention two;
Fig. 3 is the flow diagram of the radiation detecting method of the embodiment of the present invention three;
Fig. 4 is the flow diagram of the radiation detecting method of the embodiment of the present invention four;
Fig. 5 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one;
Fig. 6 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two;
Fig. 7 is low frequency signal, the high-frequency signal schematic diagram of the embodiment of the present invention.
Specific embodiment
The characteristics of in order to more fully hereinafter understand the embodiment of the present invention and technology contents, with reference to the accompanying drawing to this hair
The realization of bright embodiment is described in detail, appended attached drawing purposes of discussion only for reference, is not used to limit the embodiment of the present invention.
Fig. 1 is the flow diagram of the radiation detecting method of the embodiment of the present invention one, the radiation detecting method in this example
Applied to electronic equipment, as shown in Figure 1, the radiation detecting method the following steps are included:
Step 101: detecting to obtain the first radiation signal using first detection module.
In the embodiment of the present invention, there are two detection modules, respectively first detection module and the second detection for electronic equipment tool
Module, first detection module are able to detect the first radiation signal, the first radiation signal espespecially low frequency signal, the first radiation signal
Frequency is less than or equal to first frequency;In one embodiment, first detection module can be realized by low-frequency filter, and inductance is a kind of
More practical low-frequency filter.Second detection module is able to detect the second radiation signal, and the second radiation signal espespecially believe by high frequency
Number, the frequency of the second radiation signal is more than or equal to second frequency;In one embodiment, the second detection module can be by radio frequency chip
Realize that there is in radio frequency chip radio circuit and antenna, antenna receives after the second radiation signal through radio circuit to the
Two radiation signals are handled, and the actual waveform data of the second radiation signal can be obtained.
Firstly, detecting to obtain the first radiation signal using first detection module, first detected by first detection module
Radiation signal is divided into two kinds of situations: one is low frequency signals, the lower-frequency envelope of another high-frequency signal.
Referring to Fig. 7, (a) figure is low frequency signal schematic diagram, and the frequency of the low frequency signal is 30Hz, and (b) figure is high-frequency signal
Schematic diagram, the frequency of the high-frequency signal is that 3MHz is passed periodically through as shown, high-frequency signal is not lasting
0.5s continues one section of high-frequency signal, it is seen then that the period that the high-frequency signal occurs is 0.5s, frequency 2Hz namely high frequency letter
Number lower-frequency envelope frequency be 2Hz.
In the embodiment of the present invention, the frequency that either frequency of low frequency signal or the low frequency of high-frequency signal include all belongs to
In low frequency, can detect to obtain by first detection module.
Embodiment to facilitate the understanding of the present invention is below explained low frequency signal, high-frequency signal, and radiation is divided into
Two major classes, one is high frequency radiations, and one is low frequency radiations.
The frequency of high frequency radiation is generally higher than 800MHz, and high frequency radiation is also known as fuel factor.Common high frequency radiation has: hand
Machine radiates (800-1800MHz), micro-wave oven radiation (300MHz~300GHz), WIFI radiation (2.4GHz) or bluetooth radiation
(2.4GHz) etc..
The frequency of low frequency radiation is generally below 300Hz, and low frequency radiation, which is called, does non-thermal effect.Common low frequency radiation source
Have: distribution wire, electric substation, high voltage transmission line, dust catcher, washing machine, electric iron, coffee machine, humidifier, electricity in wall are blown
Wind, air-conditioning, electric cooker, fluorescent lamp or refrigerator etc..
Step 102: processing first radiation signal obtains the first result.
Specifically, the first radiation signal is the original analog signal detected by first detection module, need by
After Analog-digital Converter, corresponding digital signal is obtained.The digital signal is indicated that high level can by a series of low and high level
It is indicated by number 1, low level can be indicated by number 0.First result is the corresponding digital signal of the first radiation signal.
Step 103: when obtaining triggering command, triggering the second detection module by first state and switch to the second state, institute
Stating first state is that cannot detect the state of radiation signal, and second state is to detect the state of radiation signal.
In the embodiment of the present invention, the second detection module long period was in first state, and first state is cannot to detect spoke
The state of signal is penetrated, i.e. first state is the idle state of the second detection module, when the second detection module is in first state
When, the power consumption of the second detection module is extremely low, and the second detection module need to only retain power consumption required for obtaining triggering command.Second work
It is that can detect the state of radiation signal as state, i.e. the second state is the state of the second detection module work, when the second detection mould
When block is in the second state, the second detection module power consumption is higher.Based on the above, the second detection module is in first state
Power consumption is lower than the power consumption in the second state.
Second detection module is not the moment all in working condition, when obtaining triggering command, just triggers the second detection mould
Block switches to the second state by first state, and the second detection module in the second state detects the second radiation signal.
As it can be seen that the technical solution of the embodiment of the present invention can reduce the overall power of electronic equipment, the continuation of the journey energy of electronic equipment is improved
Power.
In an application mode, which can be wearable electronic equipment, for example, smartwatch, Intelligent bracelet or
Intelligent glasses etc. need the power consumption of electronic equipment to accomplish sufficiently low this class of electronic devices, to possess the continuation of the journey of overlength
Ability, it is seen then that the radiation detecting method of the embodiment of the present invention more has application value for this class of electronic devices, enables to electronics
The power consumption of equipment is accomplished sufficiently low.
Step 104: detecting to obtain the second radiation signal using the second detection module in second state;Processing institute
The second radiation signal is stated, the second result is obtained.
In the embodiment of the present invention, the second radiation signal is the original analog signal detected by the second detection module,
Specifically, when the second detection module is radio frequency chip, the antenna of radio frequency chip receives the second radiation signal, then, by simulation
After number conversion, corresponding digital signal is obtained.The digital signal is indicated that high level can be by counting by a series of low and high level
Word 1 indicates that low level can be indicated by number 0.Second result is the corresponding digital signal of the second radiation signal.
Step 105: when second result meets the second predetermined condition, described second the result shows that radiation detection knot
Fruit;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation detection result.
In the embodiment of the present invention, it is low frequency signal that the first radiation signal as detected by first detection module is uncertain
Or therefore the lower-frequency envelope of high-frequency signal detects the second radiation signal by the second detection module, comes according to the second radiation signal
Determine that first detection module detected is the lower-frequency envelope of low frequency signal or high-frequency signal.When the second radiation signal meets the
When two predetermined conditions, then show that the first radiation signal is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When
When second radiation signal is unsatisfactory for the second predetermined condition, then show that the first radiation signal is low frequency signal, the first result is radiation
Testing result.
Specifically, judge whether the second result is greater than predetermined threshold value, which can be set by the user, ideal feelings
Under condition, 0 is set by predetermined threshold value, in this way, showing that there are the second radiation signal, the first radiation letters when the second result is greater than 0
It number is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When second result is 0, show that there is no the second spokes
Signal is penetrated, the first radiation signal is low frequency signal, and the first result is radiation detection result.In view of disturbed condition, by pre- gating
Limit value is set greater than 0 a certain lesser numerical value, can avoid the erroneous judgement of radiation detection result.
As it can be seen that it is by low frequency that the technical solution of the embodiment of the present invention, which can distinguish low frequency detected by first detection module,
Signal generates, or is generated by the lower-frequency envelope of high-frequency signal, also, can be accurately detected height using the second detection module
Frequency signal.In addition, the second detection module is not the moment all in working condition, when obtaining triggering command, the second inspection is just triggered
It surveys module and the second state is switched to by first state, here, the second state is in working condition, the second inspection in the second state
Module is surveyed to detect the second radiation signal.As it can be seen that the technical solution of the embodiment of the present invention can reduce the whole of electronic equipment
Body power consumption improves the cruising ability of electronic equipment, and then the user experience is improved.
Fig. 2 is the flow diagram of the radiation detecting method of the embodiment of the present invention two, the radiation detecting method in this example
Applied to electronic equipment, as shown in Fig. 2, the radiation detecting method the following steps are included:
Step 201: detecting to obtain the first radiation signal using first detection module.
In the embodiment of the present invention, there are two detection modules, respectively first detection module and the second detection for electronic equipment tool
Module, first detection module are able to detect the first radiation signal, the first radiation signal espespecially low frequency signal, the first radiation signal
Frequency is less than or equal to first frequency;In one embodiment, first detection module can be realized by low-frequency filter, and inductance is a kind of
More practical low-frequency filter.Second detection module is able to detect the second radiation signal, and the second radiation signal espespecially believe by high frequency
Number, the frequency of the second radiation signal is more than or equal to second frequency;In one embodiment, the second detection module can be by radio frequency chip
Realize that there is in radio frequency chip radio circuit and antenna, antenna receives after the second radiation signal through radio circuit to the
Two radiation signals are handled, and the actual waveform data of the second radiation signal can be obtained.
Firstly, detecting to obtain the first radiation signal using first detection module, first detected by first detection module
Radiation signal is divided into two kinds of situations: one is low frequency signals, the lower-frequency envelope of another high-frequency signal.
Referring to Fig. 7, (a) figure is low frequency signal schematic diagram, and the frequency of the low frequency signal is 30Hz, and (b) figure is high-frequency signal
Schematic diagram, the frequency of the high-frequency signal is that 3MHz is passed periodically through as shown, high-frequency signal is not lasting
0.5s continues one section of high-frequency signal, it is seen then that the period that the high-frequency signal occurs is 0.5s, frequency 2Hz namely high frequency letter
Number lower-frequency envelope frequency be 2Hz.
In the embodiment of the present invention, the frequency that either frequency of low frequency signal or the low frequency of high-frequency signal include all belongs to
In low frequency, can detect to obtain by first detection module.
Embodiment to facilitate the understanding of the present invention is below explained low frequency signal, high-frequency signal, and radiation is divided into
Two major classes, one is high frequency radiations, and one is low frequency radiations.
The frequency of high frequency radiation is generally higher than 800MHz, and high frequency radiation is also known as fuel factor.Common high frequency radiation has: hand
Machine radiates (800-1800MHz), micro-wave oven radiation (300MHz~300GHz), WIFI radiation (2.4GHz) or bluetooth radiation
(2.4GHz) etc..
The frequency of low frequency radiation is generally below 300Hz, and low frequency radiation, which is called, does non-thermal effect.Common low frequency radiation source
Have: distribution wire, electric substation, high voltage transmission line, dust catcher, washing machine, electric iron, coffee machine, humidifier, electricity in wall are blown
Wind, air-conditioning, electric cooker, fluorescent lamp or refrigerator etc..
Step 202: processing first radiation signal obtains the first result.
Specifically, the first radiation signal is the original analog signal detected by first detection module, need by
After Analog-digital Converter, corresponding digital signal is obtained.The digital signal is indicated that high level can by a series of low and high level
It is indicated by number 1, low level can be indicated by number 0.First result is the corresponding digital signal of the first radiation signal.
Step 203: when first result meets the first predetermined condition, generating triggering command;Alternatively, working as current time
When meeting third predetermined condition, triggering command is generated.
In the embodiment of the present invention, triggering command switches to the second state by first state for triggering the second detection module.
The second detection module in the second state is able to detect to obtain the second radiation signal.
Triggering command can be generated there are two types of situation, both of these case is described in detail separately below.
The first situation: generating triggering command according to the first result, specifically, when the first result meets the first predetermined item
When part, triggering command is generated.In one embodiment, the peak-to-peak value of the first radiation signal can be extracted from the first result;When
When the peak-to-peak value is more than or equal to preset threshold, the triggering command is generated.Highest signal value in first radiation signal with most
The difference of low signal value is peak-to-peak value, and peak-to-peak value shows the radiation level of radiation signal, it is contemplated that the harm of Radiation On Human body,
When peak-to-peak value is more than or equal to preset threshold, user needs to pay close attention to radiation source, at this point, triggering command is generated, to trigger
Second detection module, which detects, whether there is high-frequency signal in environment, when the second detection module detects that there are high-frequency signals in environment
When, on the one hand demonstrate be detected by first detection module high-frequency signal lower-frequency envelope, on the other hand by second inspection
It surveys module and has been accurately detected high-frequency signal, the radiation far from current location, far from high-frequency signal may be selected in user.
Second situation: whether third predetermined condition is met according to current time and generates triggering command, in an embodiment
In, the time cycle for generating triggering command, such as the triggering command of generation in every 20 seconds can be preset, then whenever current time
When reaching periodic moments, triggering command is all generated, whether there is high-frequency signal to trigger in the second detection module detection environment,
When the second detection module detects that there are when high-frequency signal, on the one hand demonstrate detected by first detection module to be in environment
The lower-frequency envelope of high-frequency signal, has on the other hand been accurately detected high-frequency signal by the second detection module, and user may be selected
Far from current location, the radiation far from high-frequency signal.
Step 204: when obtaining triggering command, triggering the second detection module by first state and switch to the second state, institute
Stating first state is that cannot detect the state of radiation signal, and second state is to detect the state of radiation signal.
In the embodiment of the present invention, the second detection module long period was in first state, and first state is cannot to detect spoke
The state of signal is penetrated, i.e. first state is the idle state of the second detection module, when the second detection module is in first state
When, the power consumption of the second detection module is extremely low, and the second detection module need to only retain power consumption required for obtaining triggering command.Second work
It is that can detect the state of radiation signal as state, i.e. the second state is the state of the second detection module work, when the second detection mould
When block is in the second state, the second detection module power consumption is higher.Based on the above, the second detection module is in first state
Power consumption is lower than the power consumption in the second state.
Second detection module is not the moment all in working condition, when obtaining triggering command, just triggers the second detection mould
Block switches to the second state by first state, and the second detection module in the second state detects the second radiation signal.
As it can be seen that the technical solution of the embodiment of the present invention can reduce the overall power of electronic equipment, the continuation of the journey energy of electronic equipment is improved
Power.
In an application mode, which can be wearable electronic equipment, for example, smartwatch, Intelligent bracelet or
Intelligent glasses etc. need the power consumption of electronic equipment to accomplish sufficiently low this class of electronic devices, to possess the continuation of the journey of overlength
Ability, it is seen then that the radiation detecting method of the embodiment of the present invention more has application value for this class of electronic devices, enables to electronics
The power consumption of equipment is accomplished sufficiently low.
Step 205: detecting to obtain the second radiation signal using the second detection module in second state;Processing institute
The second radiation signal is stated, the second result is obtained.
In the embodiment of the present invention, the second radiation signal is the original analog signal detected by the second detection module,
Specifically, when the second detection module is radio frequency chip, the antenna of radio frequency chip receives the second radiation signal, then, by simulation
After number conversion, corresponding digital signal is obtained.The digital signal is indicated that high level can be by counting by a series of low and high level
Word 1 indicates that low level can be indicated by number 0.Second result is the corresponding digital signal of the second radiation signal.
Step 206: when second result meets the second predetermined condition, described second the result shows that radiation detection knot
Fruit;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation detection result.
In the embodiment of the present invention, it is low frequency signal that the first radiation signal as detected by first detection module is uncertain
Or therefore the lower-frequency envelope of high-frequency signal detects the second radiation signal by the second detection module, comes according to the second radiation signal
Determine that first detection module detected is the lower-frequency envelope of low frequency signal or high-frequency signal.When the second radiation signal meets the
When two predetermined conditions, then show that the first radiation signal is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When
When second radiation signal is unsatisfactory for the second predetermined condition, then show that the first radiation signal is low frequency signal, the first result is radiation
Testing result.
Specifically, judge whether the second result is greater than predetermined threshold value, which can be set by the user, ideal feelings
Under condition, 0 is set by predetermined threshold value, in this way, showing that there are the second radiation signal, the first radiation letters when the second result is greater than 0
It number is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When second result is 0, show that there is no the second spokes
Signal is penetrated, the first radiation signal is low frequency signal, and the first result is radiation detection result.In view of disturbed condition, by pre- gating
Limit value is set greater than 0 a certain lesser numerical value, can avoid the erroneous judgement of radiation detection result.
In addition, described first the result shows that the radiation when first result is unsatisfactory for first predetermined condition
Testing result.Specifically, the peak-to-peak value of the first radiation signal can be extracted from the first result;It is preset when the peak-to-peak value is less than
When threshold value, the radiation level of radiation signal is lower, and the first result is radiation detection result.
As it can be seen that it is by low frequency that the technical solution of the embodiment of the present invention, which can distinguish low frequency detected by first detection module,
Signal generates, or is generated by the lower-frequency envelope of high-frequency signal, also, can be accurately detected height using the second detection module
Frequency signal.In addition, the second detection module is not the moment all in working condition, when obtaining triggering command, the second inspection is just triggered
It surveys module and the second state is switched to by first state, here, the second state is in working condition, the second inspection in the second state
Module is surveyed to detect the second radiation signal.As it can be seen that the technical solution of the embodiment of the present invention can reduce the whole of electronic equipment
Body power consumption improves the cruising ability of electronic equipment, and then the user experience is improved.
Fig. 3 is the flow diagram of the radiation detecting method of the embodiment of the present invention three, the radiation detecting method in this example
Applied to electronic equipment, as shown in figure 3, the radiation detecting method the following steps are included:
Step 301: detecting to obtain the first radiation signal using first detection module.
In the embodiment of the present invention, there are two detection modules, respectively first detection module and the second detection for electronic equipment tool
Module, first detection module are able to detect the first radiation signal, the first radiation signal espespecially low frequency signal, the first radiation signal
Frequency is less than or equal to first frequency;In one embodiment, first detection module can be realized by low-frequency filter, and inductance is a kind of
More practical low-frequency filter.Second detection module is able to detect the second radiation signal, and the second radiation signal espespecially believe by high frequency
Number, the frequency of the second radiation signal is more than or equal to second frequency;In one embodiment, the second detection module can be by radio frequency chip
Realize that there is in radio frequency chip radio circuit and antenna, antenna receives after the second radiation signal through radio circuit to the
Two radiation signals are handled, and the actual waveform data of the second radiation signal can be obtained.
Firstly, detecting to obtain the first radiation signal using first detection module, first detected by first detection module
Radiation signal is divided into two kinds of situations: one is low frequency signals, the lower-frequency envelope of another high-frequency signal.
Referring to Fig. 7, (a) figure is low frequency signal schematic diagram, and the frequency of the low frequency signal is 30Hz, and (b) figure is high-frequency signal
Schematic diagram, the frequency of the high-frequency signal is that 3MHz is passed periodically through as shown, high-frequency signal is not lasting
0.5s continues one section of high-frequency signal, it is seen then that the period that the high-frequency signal occurs is 0.5s, frequency 2Hz namely high frequency letter
Number lower-frequency envelope frequency be 2Hz.
In the embodiment of the present invention, the frequency that either frequency of low frequency signal or the low frequency of high-frequency signal include all belongs to
In low frequency, can detect to obtain by first detection module.
Embodiment to facilitate the understanding of the present invention is below explained low frequency signal, high-frequency signal, and radiation is divided into
Two major classes, one is high frequency radiations, and one is low frequency radiations.
The frequency of high frequency radiation is generally higher than 800MHz, and high frequency radiation is also known as fuel factor.Common high frequency radiation has: hand
Machine radiates (800-1800MHz), micro-wave oven radiation (300MHz~300GHz), WIFI radiation (2.4GHz) or bluetooth radiation
(2.4GHz) etc..
The frequency of low frequency radiation is generally below 300Hz, and low frequency radiation, which is called, does non-thermal effect.Common low frequency radiation source
Have: distribution wire, electric substation, high voltage transmission line, dust catcher, washing machine, electric iron, coffee machine, humidifier, electricity in wall are blown
Wind, air-conditioning, electric cooker, fluorescent lamp or refrigerator etc..
Step 302: processing first radiation signal obtains the first result.
Specifically, the first radiation signal is the original analog signal detected by first detection module, need by
After Analog-digital Converter, corresponding digital signal is obtained.The digital signal is indicated that high level can by a series of low and high level
It is indicated by number 1, low level can be indicated by number 0.First result is the corresponding digital signal of the first radiation signal.
Step 303: when first result meets the first predetermined condition, generating triggering command.
In the embodiment of the present invention, triggering command switches to the second state by first state for triggering the second detection module.
The second detection module in the second state is able to detect to obtain the second radiation signal.
In one embodiment, the peak-to-peak value of the first radiation signal can be extracted from the first result;When the peak-to-peak value
When more than or equal to preset threshold, the triggering command is generated.Highest signal value in first radiation signal and lowest signal value it
Difference is peak-to-peak value, and peak-to-peak value shows the radiation level of radiation signal, it is contemplated that the harm of Radiation On Human body, when peak-to-peak value is big
When being equal to preset threshold, user needs to pay close attention to radiation source, at this point, triggering command is generated, to trigger the second detection mould
Block, which detects, whether there is high-frequency signal in environment, when the second detection module detects in environment there are when high-frequency signal, on the one hand
Demonstrate be detected by first detection module high-frequency signal lower-frequency envelope, on the other hand by the second detection module it is accurate
Ground detects high-frequency signal, and the radiation far from current location, far from high-frequency signal may be selected in user.
Step 304: when obtaining triggering command, triggering the second detection module by first state and switch to the second state, institute
Stating first state is that cannot detect the state of radiation signal, and second state is to detect the state of radiation signal.
In the embodiment of the present invention, the second detection module long period was in first state, and first state is cannot to detect spoke
The state of signal is penetrated, i.e. first state is the idle state of the second detection module, when the second detection module is in first state
When, the power consumption of the second detection module is extremely low, and the second detection module need to only retain power consumption required for obtaining triggering command.Second work
It is that can detect the state of radiation signal as state, i.e. the second state is the state of the second detection module work, when the second detection mould
When block is in the second state, the second detection module power consumption is higher.Based on the above, the second detection module is in first state
Power consumption is lower than the power consumption in the second state.
Second detection module is not the moment all in working condition, when obtaining triggering command, just triggers the second detection mould
Block switches to the second state by first state, and the second detection module in the second state detects the second radiation signal.
As it can be seen that the technical solution of the embodiment of the present invention can reduce the overall power of electronic equipment, the continuation of the journey energy of electronic equipment is improved
Power.
In an application mode, which can be wearable electronic equipment, for example, smartwatch, Intelligent bracelet or
Intelligent glasses etc. need the power consumption of electronic equipment to accomplish sufficiently low this class of electronic devices, to possess the continuation of the journey of overlength
Ability, it is seen then that the radiation detecting method of the embodiment of the present invention more has application value for this class of electronic devices, enables to electronics
The power consumption of equipment is accomplished sufficiently low.
Step 305: detecting to obtain the second radiation signal using the second detection module in second state;Processing institute
The second radiation signal is stated, the second result is obtained.
In the embodiment of the present invention, the second radiation signal is the original analog signal detected by the second detection module,
Specifically, when the second detection module is radio frequency chip, the antenna of radio frequency chip receives the second radiation signal, then, by simulation
After number conversion, corresponding digital signal is obtained.The digital signal is indicated that high level can be by counting by a series of low and high level
Word 1 indicates that low level can be indicated by number 0.Second result is the corresponding digital signal of the second radiation signal.
Step 306: when meeting third predetermined condition at current time, generating the triggering command;The triggering is obtained to refer to
It enables, triggers the second detection module by the first state and switch to second state;Utilize the in second state
Two detection modules detect to obtain the second radiation signal;Second radiation signal is handled, the second result is obtained.
In the embodiment of the present invention, whether third predetermined condition is met according to current time and generates triggering command, is implemented one
In mode, each moment for generating triggering command can be preset, when at the time of reaching set at current time, is all generated
Triggering command, to trigger in the second detection module detection environment with the presence or absence of high-frequency signal, when the second detection module detects ring
In border there are when high-frequency signal, on the one hand demonstrate be detected by first detection module high-frequency signal lower-frequency envelope, separately
On the one hand high-frequency signal has been accurately detected by the second detection module, user may be selected far from current location, far from high frequency
The radiation of signal.
In the embodiment of the present invention, triggering command is generated according to whether the first result meets the first predetermined condition first, into
And it triggers the second detection module and detects to obtain the second radiation signal.In view of the high-frequency signal of duration is without lower-frequency envelope, first
Detection module can't detect this signal, thus, it detects to obtain second to trigger the second detection module except through the first result
Except radiation signal, whether should meet third predetermined condition by current time also to trigger the second detection module and detect to obtain
Two radiation signals, in this way, no matter whether high-frequency signal has lower-frequency envelope, progressive triggering side through the embodiment of the present invention
Formula can trigger the second detection module and detect the second radiation signal.
Step 307: when second result meets the second predetermined condition, described second the result shows that radiation detection knot
Fruit;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation detection result.
In the embodiment of the present invention, it is low frequency signal that the first radiation signal as detected by first detection module is uncertain
Or therefore the lower-frequency envelope of high-frequency signal detects the second radiation signal by the second detection module, comes according to the second radiation signal
Determine that first detection module detected is the lower-frequency envelope of low frequency signal or high-frequency signal.When the second radiation signal meets the
When two predetermined conditions, then show that the first radiation signal is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When
When second radiation signal is unsatisfactory for the second predetermined condition, then show that the first radiation signal is low frequency signal, the first result is radiation
Testing result.
Specifically, judge whether the second result is greater than predetermined threshold value, which can be set by the user, ideal feelings
Under condition, 0 is set by predetermined threshold value, in this way, showing that there are the second radiation signal, the first radiation letters when the second result is greater than 0
It number is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When second result is 0, show that there is no the second spokes
Signal is penetrated, the first radiation signal is low frequency signal, and the first result is radiation detection result.In view of disturbed condition, by pre- gating
Limit value is set greater than 0 a certain lesser numerical value, can avoid the erroneous judgement of radiation detection result.
In addition, described first the result shows that the radiation when first result is unsatisfactory for first predetermined condition
Testing result.Specifically, the peak-to-peak value of the first radiation signal can be extracted from the first result;It is preset when the peak-to-peak value is less than
When threshold value, the radiation level of radiation signal is lower, and the first result is radiation detection result.
In the embodiment of the present invention, when second detection module is in the second state, whether first result is monitored
Meet first predetermined condition;When monitoring that first result is unsatisfactory for first predetermined condition, described the is triggered
Two detection modules switch to the first state by second state.In this way, the power consumption of electronic equipment can be saved further.
In the embodiment of the present invention, when second detection module completes the detection of the second radiation signal, second inspection
It surveys module and the first state is switched to by second state;Alternatively, second detection module is in a certain preset delay
The first state is switched to by second state after period.In this way, the power consumption of electronic equipment can be saved further.
As it can be seen that it is by low frequency that the technical solution of the embodiment of the present invention, which can distinguish low frequency detected by first detection module,
Signal generates, or is generated by the lower-frequency envelope of high-frequency signal, also, can be accurately detected height using the second detection module
Frequency signal.In addition, the second detection module is not the moment all in working condition, when obtaining triggering command, the second inspection is just triggered
It surveys module and the second state is switched to by first state, here, the second state is in working condition, the second inspection in the second state
Module is surveyed to detect the second radiation signal.As it can be seen that the technical solution of the embodiment of the present invention can reduce the whole of electronic equipment
Body power consumption improves the cruising ability of electronic equipment, and then the user experience is improved.
Fig. 4 is the flow diagram of the radiation detecting method of the embodiment of the present invention four, the radiation detecting method in this example
Applied to electronic equipment, as shown in figure 4, the radiation detecting method the following steps are included:
Step 401: detecting to obtain the first radiation signal using first detection module.
In the embodiment of the present invention, there are two detection modules, respectively first detection module and the second detection for electronic equipment tool
Module, first detection module are able to detect the first radiation signal, the first radiation signal espespecially low frequency signal, the first radiation signal
Frequency is less than or equal to first frequency;In one embodiment, first detection module can be realized by low-frequency filter, and inductance is a kind of
More practical low-frequency filter.Second detection module is able to detect the second radiation signal, and the second radiation signal espespecially believe by high frequency
Number, the frequency of the second radiation signal is more than or equal to second frequency;In one embodiment, the second detection module can be by radio frequency chip
Realize that there is in radio frequency chip radio circuit and antenna, antenna receives after the second radiation signal through radio circuit to the
Two radiation signals are handled, and the actual waveform data of the second radiation signal can be obtained.
Firstly, detecting to obtain the first radiation signal using first detection module, first detected by first detection module
Radiation signal is divided into two kinds of situations: one is low frequency signals, the lower-frequency envelope of another high-frequency signal.
Referring to Fig. 7, (a) figure is low frequency signal schematic diagram, and the frequency of the low frequency signal is 30Hz, and (b) figure is high-frequency signal
Schematic diagram, the frequency of the high-frequency signal is that 3MHz is passed periodically through as shown, high-frequency signal is not lasting
0.5s continues one section of high-frequency signal, it is seen then that the period that the high-frequency signal occurs is 0.5s, frequency 2Hz namely high frequency letter
Number lower-frequency envelope frequency be 2Hz.
In the embodiment of the present invention, the frequency that either frequency of low frequency signal or the low frequency of high-frequency signal include all belongs to
In low frequency, can detect to obtain by first detection module.
Embodiment to facilitate the understanding of the present invention is below explained low frequency signal, high-frequency signal, and radiation is divided into
Two major classes, one is high frequency radiations, and one is low frequency radiations.
The frequency of high frequency radiation is generally higher than 800MHz, and high frequency radiation is also known as fuel factor.Common high frequency radiation has: hand
Machine radiates (800-1800MHz), micro-wave oven radiation (300MHz~300GHz), WIFI radiation (2.4GHz) or bluetooth radiation
(2.4GHz) etc..
The frequency of low frequency radiation is generally below 300Hz, and low frequency radiation, which is called, does non-thermal effect.Common low frequency radiation source
Have: distribution wire, electric substation, high voltage transmission line, dust catcher, washing machine, electric iron, coffee machine, humidifier, electricity in wall are blown
Wind, air-conditioning, electric cooker, fluorescent lamp or refrigerator etc..
Step 402: processing first radiation signal obtains the first result.
Specifically, the first radiation signal is the original analog signal detected by first detection module, need by
After Analog-digital Converter, corresponding digital signal is obtained.The digital signal is indicated that high level can by a series of low and high level
It is indicated by number 1, low level can be indicated by number 0.First result is the corresponding digital signal of the first radiation signal.
Step 403: when obtaining triggering command, triggering the second detection module by first state and switch to the second state, institute
Stating first state is that cannot detect the state of radiation signal, and second state is to detect the state of radiation signal.
In the embodiment of the present invention, the second detection module long period was in first state, and first state is cannot to detect spoke
The state of signal is penetrated, i.e. first state is the idle state of the second detection module, when the second detection module is in first state
When, the power consumption of the second detection module is extremely low, and the second detection module need to only retain power consumption required for obtaining triggering command.Second work
It is that can detect the state of radiation signal as state, i.e. the second state is the state of the second detection module work, when the second detection mould
When block is in the second state, the second detection module power consumption is higher.Based on the above, the second detection module is in first state
Power consumption is lower than the power consumption in the second state.
Second detection module is not the moment all in working condition, when obtaining triggering command, just triggers the second detection mould
Block switches to the second state by first state, and the second detection module in the second state detects the second radiation signal.
As it can be seen that the technical solution of the embodiment of the present invention can reduce the overall power of electronic equipment, the continuation of the journey energy of electronic equipment is improved
Power.
In an application mode, which can be wearable electronic equipment, for example, smartwatch, Intelligent bracelet or
Intelligent glasses etc. need the power consumption of electronic equipment to accomplish sufficiently low this class of electronic devices, to possess the continuation of the journey of overlength
Ability, it is seen then that the radiation detecting method of the embodiment of the present invention more has application value for this class of electronic devices, enables to electronics
The power consumption of equipment is accomplished sufficiently low.
Step 404: detecting to obtain the second radiation signal using the second detection module in second state;Processing institute
The second radiation signal is stated, the second result is obtained.
In the embodiment of the present invention, the second radiation signal is the original analog signal detected by the second detection module,
Specifically, when the second detection module is radio frequency chip, the antenna of radio frequency chip receives the second radiation signal, then, by simulation
After number conversion, corresponding digital signal is obtained.The digital signal is indicated that high level can be by counting by a series of low and high level
Word 1 indicates that low level can be indicated by number 0.Second result is the corresponding digital signal of the second radiation signal.
Step 405: when second result meets the second predetermined condition, described second the result shows that radiation detection knot
Fruit;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation detection result.
In the embodiment of the present invention, it is low frequency signal that the first radiation signal as detected by first detection module is uncertain
Or therefore the lower-frequency envelope of high-frequency signal detects the second radiation signal by the second detection module, comes according to the second radiation signal
Determine that first detection module detected is the lower-frequency envelope of low frequency signal or high-frequency signal.When the second radiation signal meets the
When two predetermined conditions, then show that the first radiation signal is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When
When second radiation signal is unsatisfactory for the second predetermined condition, then show that the first radiation signal is low frequency signal, the first result is radiation
Testing result.
Specifically, judge whether the second result is greater than predetermined threshold value, which can be set by the user, ideal feelings
Under condition, 0 is set by predetermined threshold value, in this way, showing that there are the second radiation signal, the first radiation letters when the second result is greater than 0
It number is the lower-frequency envelope of high-frequency signal, the second result is radiation detection result.When second result is 0, show that there is no the second spokes
Signal is penetrated, the first radiation signal is low frequency signal, and the first result is radiation detection result.In view of disturbed condition, by pre- gating
Limit value is set greater than 0 a certain lesser numerical value, can avoid the erroneous judgement of radiation detection result.
Step 406: processing first radiation signal obtains third result.
In the embodiment of the present invention, third result is integrated value of first radiation signal in preset period of time, third result table
The radiation amount of the first radiation signal is illustrated.Radiation amount has practical significance for radiation, for example, radiation intensity is M
Radiation signal radiated 4000s, radiation intensity is that the radiation signal of 1000M has radiated 0.01s, the former radiation amount is
4000M, the radiation amount of the latter are 10M, it is seen then that the former radiation amount is much larger than the radiation amount of the latter, and radiation amount is big
Signal caused by influence it is more serious.
Step 407: analyzing the third as a result, determining corresponding radiation intensity of the third result etc. according to predetermined policy
Grade.
In the embodiment of the present invention, it is stored in advance the corresponding relationship of the first result and radiation intensity level, in a certain range
The corresponding radiation levels of third result, check that third result is fallen into that radiation intensity level, then can determine that third
As a result corresponding radiation intensity level.
Step 408: output indicates the prompt information of the radiation intensity level.
In the embodiment of the present invention, when described second the result shows that when the radiation detection result, output indicates the radiation
The prompt information that strength grade is generated by second radiation signal;When described first the result shows that the radiation detection result
When, output indicates the prompt information that the radiation intensity level is generated by first radiation signal.
For example, when second the result shows that then export following prompt information: high-frequency signal is produced when the radiation detection result
Raw radiation intensity level is B grades.When first the result shows that when the radiation detection result, then following prompt information is exported: low
Radiation intensity level caused by frequency signal is A grades.
It is by low frequency signal that the technical solution of the embodiment of the present invention, which can distinguish low frequency detected by first detection module,
It generates, or is generated by the lower-frequency envelope of high-frequency signal, also, high frequency can be accurately detected using the second detection module and believed
Number.In addition, the second detection module is not the moment all in working condition, when obtaining triggering command, the second detection mould is just triggered
Block switches to the second state by first state, and here, the second state is in working condition, the second detection mould in the second state
Block detects the second radiation signal.As it can be seen that the technical solution of the embodiment of the present invention can reduce the whole function of electronic equipment
Consumption, improves the cruising ability of electronic equipment, and then the user experience is improved.
Fig. 5 is the result composition schematic diagram of the electronic equipment of the embodiment of the present invention one, as shown in figure 5, the electronic equipment
Include:
Filter 51 obtains the first radiation signal for detecting;
Here, filter 51 espespecially low-frequency filter, such as inductance.
Processor 52 obtains the first result for handling first radiation signal;When obtaining triggering command, triggering
Radio frequency chip switches to the second state by first state, and the first state is cannot to detect the state of radiation signal, and described
Two-state is the state that can detect radiation signal;
Radio frequency chip 53, for when in the second state, detection to obtain the second radiation signal;
The processor 52 is also used to handle second radiation signal, obtains the second result;When second result is full
When the second predetermined condition of foot, described second the result shows that radiation detection result;When second result is unsatisfactory for described second in advance
When fixed condition, described first the result shows that the radiation detection result.
The processor 52 is also used to generate the triggering command when first result meets the first predetermined condition;
Alternatively, generating the triggering command when meeting third predetermined condition at current time.
In the embodiment of the present invention, the power consumption that second detection module is in the first state is lower than in described second
The power consumption of state.
The frequency of first radiation signal is less than or equal to first frequency;The frequency of second radiation signal is more than or equal to
Second frequency.
The processor 52 is also used to handle first radiation signal, obtains third result;Analyze the third knot
Fruit determines the corresponding radiation intensity level of the third result according to predetermined policy;
The electronic equipment further include: output device 54, for exporting the prompt information for indicating the radiation intensity level;
When described second the result shows that when the radiation detection result, output indicates that the radiation intensity level is believed by second radiation
Number generate prompt information;When described first the result shows that when the radiation detection result, output indicates described radiation intensity etc.
The prompt information that grade is generated by first radiation signal.
The electronic equipment has fixed device 55, for maintained when electronic equipment be in stationary state electronic equipment with
At least part of relative positional relationship of user's body.
Based on above scheme, the electronic equipment is used as wearable electronic equipment, and the body part of user can be with
It is that wrist, neck or ear etc. facilitate the position for wearing object.The way of realization of fixed device 55 is related with wearing mode, example
Such as, when electronic equipment maintains relative positional relationship (being worn on the wrist of user) with user's wrist, fixed device
55 can be presented in a manner of bracelet or bangle etc.When electronic equipment is maintained with the relative positional relationship of user's ear (i.e.
It is worn on the ear of user) when, fixed device 55 can be the bracket being capable of fixing on ear.
In a preferred real-time mode, the fixed device 55 at least has stationary state, and the fixed device 55 can be made
For at least part of an annulus, or meet at least part in the proximate annular space of the first preset condition.
Here, the electronic equipment is Wrist belt-type electronic equipment, and fixed device 55 maintains the opposite position with user's wrist
Set relationship (being worn on the wrist of user).
In above scheme, since electronic equipment is worn on the wrist of user, fixed device 55 can be cyclic annular as one
At least part in space, or meet at least part in the proximate annular space of the first preset condition.Here, it is pre- to meet first
If the proximate annular space of condition refers to: ring can have opening, but being open cannot be excessive, needs to be less than the bore of column, this
In, column refers to the column of the annulus or proximate annular space energy relatively fixed (or surrounding), such as hand
Wrist.Here, the shape of column is not the cylindric of standard, and the position that column has is thick, the position that has is thin.The opening of limitation ring
Less than the bore of column, can be capable of fixing when cricoid fixed device 55 is centered around column periphery in column
Body periphery is without falling.
In the embodiment of the present invention, the annulus or proximate annular space energy relatively fixed (or surrounding) are meeting
The column periphery of second preset condition.
Here, the second predetermined condition refers to: the bore of column needs to be less than the bore of annulus, in this way, cyclic annular empty
Between can be centered around the periphery of column.Further, annulus is fixed on to the periphery of column if necessary, needs to limit
Determining column is that both ends bore is greater than and intermediate bore is less than the column of cyclic annular bore.For example, fixed device is a bracelet, hand
Arm is above-mentioned column, and bracelet is that annular space or the annular space with an opening, the opening of bracelet need to be less than arm
The bore of middle wrist, so, it is ensured that bracelet is not fallen out.In order to further ensure bracelet will not be sliding from the both ends of wrist
Fall, the bore at the position at the position and forearm of hand need to be greater than the bore of bracelet in arm.
In the embodiment of the present invention, filter 51, processor 52, radio frequency chip 53, output device 54 in electronic equipment collect
At in agent set, there are two types of connection relationships for fixed device and agent set:
The first, fixed device is connected with (opposite) both ends of agent set, so that fixed device is cyclic annular/approximate ring
The a part in shape space;Specifically, fixed device can consist of two parts, such as watchband is made of two section watch chains;Fixed dress
It sets and is also possible to a whole ring-type, such as bracelet is made of a domain.
Second, fixed device oneself constitutes ring-type/proximate annular space, and agent set setting is in fixed outside of deivce face
On.
In addition, fixed device at least refers to stationary state: fixed device can only have stationary state, can also be also
Transitory state.For example, watch buckle can be opened and be fastened, it is exactly transitory state;Bracelet just only has stationary state.
Fig. 6 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two, as shown in fig. 6, the electronic equipment
Include:
First detection module 61 obtains the first radiation signal for detecting;
First processing module 62 obtains the first result for handling first radiation signal;
Trigger module 63 switches to second by first state for when obtaining triggering command, triggering the second detection module
State, the first state are cannot to detect the state of radiation signal, and second state is to detect the state of radiation signal;
Second detection module 64, for when in the second state, detection to obtain the second radiation signal;
Second processing module 65 obtains the second result for handling second radiation signal;
Testing result module 66, for when second result meet the second predetermined condition when, described second the result shows that
Radiation detection result;When second result is unsatisfactory for second predetermined condition, described first the result shows that the radiation
Testing result.
The trigger module 63 is also used to when first result meets the first predetermined condition, is generated the triggering and is referred to
It enables;Alternatively, generating the triggering command when meeting third predetermined condition at current time.
The first processing module 62 is also used to handle first radiation signal, obtains third result;Analyze described
Three as a result, determine the corresponding radiation intensity level of the third result according to predetermined policy;
The electronic equipment further include: output module 67, for exporting the prompt information for indicating the radiation intensity level.
When described second the result shows that when the radiation detection result, output indicates that the radiation intensity level is believed by second radiation
Number generate prompt information;When described first the result shows that when the radiation detection result, output indicates described radiation intensity etc.
The prompt information that grade is generated by first radiation signal.
It will be appreciated by those skilled in the art that before the realization function of each unit in electronic equipment shown in fig. 6 can refer to
It states the associated description of radiation detecting method and understands.
It, in the absence of conflict, can be in any combination between technical solution documented by the embodiment of the present invention.
In several embodiments provided by the present invention, it should be understood that disclosed method and smart machine, Ke Yitong
Other modes are crossed to realize.Apparatus embodiments described above are merely indicative, for example, the division of the unit, only
Only a kind of logical function partition, there may be another division manner in actual implementation, such as: multiple units or components can be tied
It closes, or is desirably integrated into another system, or some features can be ignored or not executed.In addition, shown or discussed each group
Can be through some interfaces at the mutual coupling in part or direct-coupling or communication connection, equipment or unit it is indirect
Coupling or communication connection, can be electrical, mechanical or other forms.
Above-mentioned unit as illustrated by the separation member, which can be or may not be, to be physically separated, aobvious as unit
The component shown can be or may not be physical unit, it can and it is in one place, it may be distributed over multiple network lists
In member;Some or all of units can be selected to achieve the purpose of the solution of this embodiment according to the actual needs.
In addition, each functional unit in various embodiments of the present invention can be fully integrated into a second processing unit,
It is also possible to each unit individually as a unit, can also be integrated in one unit with two or more units;
Above-mentioned integrated unit both can take the form of hardware realization, can also add the form of SFU software functional unit real using hardware
It is existing.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.
Claims (14)
1. a kind of radiation detecting method, comprising:
It detects to obtain the first radiation signal using first detection module;
First radiation signal is handled, the first result is obtained;
When obtaining triggering command, the second detection module is triggered by first state and switches to the second state, the first state is
The state of radiation signal cannot be detected, second state is to detect the state of radiation signal;
It detects to obtain the second radiation signal using the second detection module in second state;Handle the second radiation letter
Number, obtain the second result;
When second result meets the second predetermined condition, determine that first radiation signal is the low frequency packet of high-frequency signal
Network, described second the result shows that radiation detection result;When second result is unsatisfactory for second predetermined condition, institute is determined
Stating the first radiation signal is low frequency signal, and described first the result shows that the radiation detection result;Wherein, second result is full
The second predetermined condition of foot includes: that second result is greater than predetermined threshold value.
2. radiation detecting method according to claim 1, the method include: before when obtaining triggering command
When first result meets the first predetermined condition, the triggering command is generated;Alternatively,
When meeting third predetermined condition at current time, the triggering command is generated.
3. radiation detecting method according to claim 1, the method includes: when described before when obtaining triggering command
When first result meets the first predetermined condition, the triggering command is generated;
And the method also includes:
When meeting third predetermined condition at current time, the triggering command is generated;
The triggering command is obtained, the second detection module is triggered by the first state and switches to second state;
It detects to obtain the second radiation signal using the second detection module in second state;Handle the second radiation letter
Number, obtain the second result.
4. radiation detecting method according to claim 2, described when first result meets the first predetermined condition, raw
At the triggering command, comprising:
The peak-to-peak value of first radiation signal is extracted from first result;
When the peak-to-peak value is more than or equal to preset threshold, the triggering command is generated.
5. radiation detecting method according to claim 2, when first result is unsatisfactory for first predetermined condition,
Described first the result shows that the radiation detection result.
6. radiation detecting method according to claim 1, the method also includes:
First radiation signal is handled, third result is obtained;
The third is analyzed as a result, determining the corresponding radiation intensity level of the third result according to predetermined policy;
Output indicates the prompt information of the radiation intensity level.
7. radiation detecting method according to claim 6, the method also includes:
When described second the result shows that when the radiation detection result, output indicates the radiation intensity level by second spoke
Penetrate the prompt information of signal generation;
When described first the result shows that when the radiation detection result, output indicates the radiation intensity level by first spoke
Penetrate the prompt information of signal generation.
8. radiation detecting method according to any one of claims 1 to 7, second detection module is in first shape
The power consumption of state is lower than the power consumption in second state.
9. the frequency of radiation detecting method according to any one of claims 1 to 7, first radiation signal is less than or equal to
First frequency;The frequency of second radiation signal is more than or equal to second frequency.
10. a kind of electronic equipment, comprising:
Filter obtains the first radiation signal for detecting;
Processor obtains the first result for handling first radiation signal;When obtaining triggering command, radio frequency core is triggered
Piece switches to the second state by first state, and the first state is cannot to detect the state of radiation signal, second state
It is the state that can detect radiation signal;
Radio frequency chip, for when in the second state, detection to obtain the second radiation signal;
The processor is also used to handle second radiation signal, obtains the second result;When second result meets second
When predetermined condition, determine that first radiation signal is the lower-frequency envelope of high-frequency signal, described second the result shows that radiation detection
As a result;When second result is unsatisfactory for second predetermined condition, determine that first radiation signal is low frequency signal, institute
First is stated the result shows that the radiation detection result;Wherein, it includes: described second that second result, which meets the second predetermined condition,
As a result it is greater than predetermined threshold value.
11. electronic equipment according to claim 10, the processor are also used to handle first radiation signal, obtain
Obtain third result;The third is analyzed as a result, determining the corresponding radiation intensity level of the third result according to predetermined policy;
The electronic equipment further include: output device, for exporting the prompt information for indicating the radiation intensity level;When described
Second the result shows that output indicates that the radiation intensity level is generated by second radiation signal when radiation detection result
Prompt information;When described first the result shows that when the radiation detection result, output indicates the radiation intensity level by institute
State the prompt information of the first radiation signal generation.
12. 0 or 11 described in any item electronic equipments according to claim 1, the electronic equipment has fixed device, for working as
Electronic equipment maintains electronic equipment and at least part of relative positional relationship of user's body when being in stationary state.
13. electronic equipment according to claim 12, the fixed device at least has stationary state, the fixed device
At least part of energy as an annulus, or meet at least part in the proximate annular space of preset condition.
14. a kind of electronic equipment, comprising:
First detection module obtains the first radiation signal for detecting;
First processing module obtains the first result for handling first radiation signal;
Trigger module switches to the second state, institute by first state for when obtaining triggering command, triggering the second detection module
Stating first state is that cannot detect the state of radiation signal, and second state is to detect the state of radiation signal;
Second detection module, for when in the second state, detection to obtain the second radiation signal;
Second processing module obtains the second result for handling second radiation signal;
Testing result module, for determining that first radiation signal is when second result meets the second predetermined condition
The lower-frequency envelope of high-frequency signal, described second the result shows that radiation detection result;When second result is unsatisfactory for described second
When predetermined condition, determine that first radiation signal is low frequency signal, described first the result shows that the radiation detection result;Its
In, it includes: that second result is greater than predetermined threshold value that second result, which meets the second predetermined condition,.
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CN204241576U (en) * | 2014-12-20 | 2015-04-01 | 王君龙 | Electromagnetic wave energy pick-up unit |
CN204515026U (en) * | 2015-02-03 | 2015-07-29 | 江汉大学 | A kind of device detecting electromagnetic radiation |
CN104655941B (en) * | 2015-03-24 | 2018-08-10 | 联想(北京)有限公司 | Detection method of electromagnetic radiation, device and electronic equipment |
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2015
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