CN108808245A - Tuning switch processing method, device, storage medium and electronic equipment - Google Patents
Tuning switch processing method, device, storage medium and electronic equipment Download PDFInfo
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- CN108808245A CN108808245A CN201810575134.4A CN201810575134A CN108808245A CN 108808245 A CN108808245 A CN 108808245A CN 201810575134 A CN201810575134 A CN 201810575134A CN 108808245 A CN108808245 A CN 108808245A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q5/00—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
- H01Q5/10—Resonant antennas
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q5/00—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
- H01Q5/20—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements characterised by the operating wavebands
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q5/00—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
- H01Q5/30—Arrangements for providing operation on different wavebands
- H01Q5/307—Individual or coupled radiating elements, each element being fed in an unspecified way
- H01Q5/314—Individual or coupled radiating elements, each element being fed in an unspecified way using frequency dependent circuits or components, e.g. trap circuits or capacitors
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q5/00—Arrangements for simultaneous operation of antennas on two or more different wavebands, e.g. dual-band or multi-band arrangements
- H01Q5/50—Feeding or matching arrangements for broad-band or multi-band operation
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Abstract
A kind of tuning switch processing method of the embodiment of the present application offer, device, storage medium and electronic equipment, this method include:The first output port of the aerial signal is transmitted according to the frequency acquisition tuning switch of the aerial signal of transmission;Obtain corresponding first frequency range of the first output port;First frequency range is divided into the first frequency sub-band and the second frequency sub-band, the corresponding frequency range of first output port is become into the first frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, it is arranged according to the first frequency sub-band and connect the first match circuit with the first output port, is arranged according to the second frequency sub-band and connect the second match circuit with second output terminal mouth;When receiving or emitting the current antenna signal of the first frequency range, according to the frequency of current antenna signal, the first output port or second output terminal port transmission current antenna signal are selected.First frequency range is divided into two frequency sub-band, the aerial signal of two frequency sub-band is tuned respectively.
Description
Technical field
This application involves technical field of electronic equipment, more particularly to a kind of tuning switch processing method, device, storage medium
And electronic equipment.
Background technology
With the raising of the development and electronic equipment intelligence degree of network technology, user can be realized by electronic equipment
More and more functions, such as call, chat, object for appreciation game etc..Wherein, user is playing game, web page browsing using electronic equipment
In the transmission of signal is realized by the antenna of electronic equipment.
At present since the port of tuning switch is used for transmission the aerial signal of a frequency range, the aerial signal of a frequency range is total
With a match circuit, if the frequency range for sharing a match circuit is wider, such as 2300M-2400M, because match circuit is corresponding
Optimal tuning frequency be 2300M-2400M in some frequency, the aerial signal similar in the optimal tuning frequency can obtain compared with
High emission effciency, but the aerial signal tuning effect remoter with optimum frequency is poorer, can so sacrifice the antenna of band segment
Signal.And the application of the technologies such as smart mobile phone narrow frame, comprehensive screen, antenna environment influence cause antenna performance to decline now.
Invention content
A kind of tuning switch processing method of the embodiment of the present application offer, device, storage medium and electronic equipment, can improve
Antenna performance.
The embodiment of the present application provides a kind of tuning switch processing method, including:
The first output port of the aerial signal is transmitted according to the frequency acquisition tuning switch of the aerial signal of transmission;
Obtain corresponding first frequency range of first output port;
First frequency range is divided into the first frequency sub-band and the second frequency sub-band, by the corresponding frequency range of first output port
Become the first frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to the first son frequency
Section is arranged connect the first match circuit with first output port, according to the setting of the second frequency sub-band and the second output terminal mouth
Connect the second match circuit;
When receiving or emitting the current antenna signal of the first frequency range, according to the frequency of the current antenna signal, selection
Current antenna signal described in first output port or second output terminal port transmission.
The embodiment of the present application provides a kind of tuning switch processing unit, including:
First acquisition module, the frequency acquisition tuning switch for the aerial signal according to transmission transmit the aerial signal
The first output port;
Second acquisition module, for obtaining corresponding first frequency range of first output port;
Processing module is exported for first frequency range to be divided into the first frequency sub-band and the second frequency sub-band by described first
The corresponding frequency range in port becomes the first frequency sub-band, and it is the second frequency sub-band, root that the idle corresponding frequency range of second output terminal mouth, which is arranged,
It is arranged according to first frequency sub-band and connect the first match circuit with first output port, according to the setting of the second frequency sub-band and institute
It states second output terminal mouth and connects the second match circuit;
Control module, for when receiving or emitting the current antenna signal of the first frequency range, being believed according to the current antenna
Number frequency, select current antenna signal described in first output port or second output terminal port transmission.
The embodiment of the present application provides a kind of storage medium, computer program is stored thereon with, when the computer program exists
When being run on computer so that the computer executes the step of tuning switch processing method described above.
The embodiment of the present application provides a kind of electronic equipment, including processor and memory, the memory have computer journey
Sequence, the processor is by calling the computer program, for executing tuning switch processing method described above.
The embodiment of the present application provides a kind of electronic equipment, including:
Tuning switch, including the first output port and second output terminal mouth;
Matching circuit module, including the first match circuit and the second match circuit, the connection of first match circuit one end
The first output port other end is grounded, and second match circuit one end connects second output terminal mouth other end ground connection;
Processor is connect with the tuning switch, and the processor is used for the frequency acquisition of the aerial signal according to transmission
Tuning switch transmits the first output port of the aerial signal, and obtains corresponding first frequency of first output port
Section;First frequency range is divided into the first frequency sub-band and the second frequency sub-band, the corresponding frequency range of first output port is become
First frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, is set according to first frequency sub-band
It sets and connect the first match circuit with first output port, be arranged according to the second frequency sub-band and connect with the second output terminal mouth
Second match circuit;When receiving or when the current antenna signal of the first frequency range of transmitting, according to the frequency of the current antenna signal,
Select current antenna signal described in first output port or second output terminal port transmission.
Tuning switch processing method provided by the embodiments of the present application, first according to the frequency acquisition tune of the aerial signal of transmission
First output port of humorous switch transmission antenna signal;Then corresponding first frequency range of the first output port is obtained;Then by
One frequency range is divided into the first frequency sub-band and the second frequency sub-band, and the corresponding frequency range of the first output port is become the first frequency sub-band, setting
The idle corresponding frequency range of second output terminal mouth is the second frequency sub-band, is arranged according to the first frequency sub-band and is connect with the first output port
First match circuit is arranged according to the second frequency sub-band and connect the second match circuit with second output terminal mouth;Finally when reception or hair
When penetrating the current antenna signal of the first frequency range, according to the frequency of current antenna signal, the first output port or the second output are selected
Port transmission current antenna signal.It, can not be right such as 2300M-2400M since corresponding first frequency range of the first output port is wider
In first frequency range all aerial signals all be tuned to optimum state the first frequency range is therefore divided into the first frequency sub-band and second
Frequency sub-band, the corresponding frequency range of each frequency sub-band become smaller, and the corresponding aerial signal of two frequency sub-band tunes respectively, the frequency per height
Aerial signal in section can obtain preferable tuning effect, can when emitting the first sub-band signals or the second sub-band signals
Obtain higher transmission power.In the past since antenna performance limited the problem of cannot reaching optimum efficiency is resolved, emit work(
Rate not need to shift onto it is very high meet the performance of total transmission power, can advanced optimize the work(of electronic equipment such as smart mobile phone
Consumption, while ensureing identical conducted power, the total transmission power of electronic equipment such as smart mobile phone is compared to single channel tune
Humorous numerical value is more preferable.
Description of the drawings
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described.It should be evident that the accompanying drawings in the following description is only some embodiments of the present application, for
For those skilled in the art, without creative efforts, it can also be obtained according to these attached drawings other attached
Figure.
Fig. 1 is the first structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Fig. 2 is the sectional view of A-A ' in Fig. 1.
Fig. 3 is second of structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Fig. 4 is the flow diagram of tuning switch processing method provided by the embodiments of the present application.
Fig. 5 is another flow diagram of tuning switch processing method provided by the embodiments of the present application.
Fig. 6 is the another flow diagram of tuning switch processing method provided by the embodiments of the present application.
Fig. 7 is the module diagram of tuning switch processing unit provided by the embodiments of the present application.
Fig. 8 is the structural schematic diagram of antenna module provided by the embodiments of the present application.
Fig. 9 is the third structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Figure 10 is the 4th kind of structural schematic diagram of electronic equipment provided by the embodiments of the present application.
Specific implementation mode
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation describes.Obviously, described embodiments are only a part of embodiments of the present application, instead of all the embodiments.It is based on
Embodiment in the application, the every other implementation that those skilled in the art are obtained under the premise of not making the creative labor
Example, belongs to the protection domain of the application.
Term " first ", " second ", " third " in the description and claims of this application and above-mentioned attached drawing etc.
(if present) is for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that this
The object of sample description can be interchanged in the appropriate case.In addition, term " comprising " and " having " and their any deformation, meaning
Figure, which is to cover, non-exclusive includes.For example, containing the process of series of steps, method or containing a series of modules or list
The device of member, electronic equipment, system those of are not necessarily limited to clearly to list step or module or unit, can also include not having
The step of clearly listing or module or unit can also include for these processes, method, apparatus, electronic equipment or system
Intrinsic other steps or module or unit.
A kind of method of controlling antenna of the embodiment of the present application offer, antenna module, electronic equipment and storage medium.It will divide below
It is not described in detail.The antenna module can be arranged in the electronic equipment, which can be smart mobile phone, tablet
Apparatus such as computer.
It please refers to Fig.1 and Fig. 2, Fig. 1 is the first structural schematic diagram of electronic equipment provided by the embodiments of the present application, Fig. 2
For the sectional view of A-A ' in Fig. 1.In this embodiment, electronic equipment 100 includes display screen 10, center 20, circuit board 30, battery
40 and rear cover 50.
Wherein, display screen 10 is mounted on rear cover 50, to form the display surface of electronic equipment 100.Display screen 10 is as electricity
The front housing of sub- equipment 100 forms a receiving space, other electronic components or work(for accommodating electronic equipment 100 with rear cover 50
It can module.Meanwhile display screen 10 forms the display surface of electronic equipment 100, for showing the information such as image, text.Display screen 10
Can be liquid crystal display (Liquid Crystal Display, LCD) or organic light-emitting diode (OLED) display screen (Organic
Light-Emitting Diode, OLED) etc. types display screen.
In some embodiments, glass cover-plate can be provided on display screen 10.Wherein, glass cover-plate can cover display
Screen 10, to be protected to display screen 10, prevents display screen 10 to be scraped off or by Water Damage.
In some embodiments, display screen 10 may include display area 11 and non-display area 12.Wherein, viewing area
Domain 11 executes the display function of display screen 10, for showing the information such as image, text.Non-display area 12 does not show information.It is non-
Display area 12 can be used for that the function modules such as camera, receiver, proximity sensor are arranged.In some embodiments, non-aobvious
Show that region 12 may include positioned at least one region of 11 upper and lower part of display area.
Referring to Fig. 3, Fig. 3 is second of structural schematic diagram of electronic equipment provided by the embodiments of the present application.In the implementation
In example, display screen 10 can be to shield comprehensively.At this point, display screen 10 can be displayed in full screen information, to electronic equipment 100 have compared with
Big screen accounting.Display screen 10 only includes display area 11, without including non-display area.At this point, taking the photograph in electronic equipment 100
As the function modules such as head, proximity sensor can be hidden in the lower section of display screen 10, and the fingerprint recognition module of electronic equipment 100 can
To be arranged at the back side of electronic equipment 100.
Center 20 can be lamellar or laminar structure, or hollow frame structure.Wherein, center 20 can
To be housed in the receiving space that above-mentioned display screen 10 is formed with rear cover 50.Center 20 is used for as the electronics in electronic equipment 100
Element or function module provide a supporting role, and the electronic component in electronic equipment, function module are mounted together.For example,
The function modules such as camera, receiver, circuit board, battery in electronic equipment can be installed on center 20 to be consolidated
It is fixed.In some embodiments, the material of center 20 may include metal or plastic cement.
Circuit board 30 is mounted on inside above-mentioned receiving space.For example, circuit board 30 may be mounted on center 20, and in
Frame 20 is housed in together in above-mentioned receiving space.Circuit board 30 can be the mainboard of electronic equipment 100.It is provided on circuit board 30
Earth point, to realize the ground connection of circuit board 30.Motor, microphone, loud speaker, receiver, ear can be integrated on circuit board 30
Machine interface, Universal Serial Bus Interface (USB interface), camera, proximity sensor, ambient light sensor, gyroscope and place
Manage one or more of function modules such as device.Meanwhile display screen 10 can be electrically connected to circuit board 30.
In some embodiments, it is provided with display control circuit on circuit board 30.Display control circuit is defeated to display screen 10
Go out electric signal, information is shown with control display screen 10.
Battery 40 is mounted on inside above-mentioned receiving space.For example, battery 40 may be mounted on center 20, and with center 20
It is housed in together in above-mentioned receiving space.Battery 40 can be electrically connected to circuit board 30, to realize battery 40 for electronic equipment 100
Power supply.Wherein, electric power management circuit can be provided on circuit board 30.The voltage that electric power management circuit is used to provide on battery 40
The each electronic component being assigned in electronic equipment 100.
Rear cover 50 is used to form the exterior contour of electronic equipment 100.Rear cover 50 can be integrally formed.In the molding of rear cover 50
In the process, the structures such as rear camera hole, fingerprint recognition module mounting hole can be formed on rear cover 50.
During the screen accounting of the display screen of electronic equipment is continuously improved, for example, being changed to from display screen shown in FIG. 1
Display screen as shown in Figure 3, screen is smaller and smaller at a distance from center, and the empty regions for leaving center antenna for are also smaller and smaller,
Antenna performance is also affected, and therefore, a kind of antenna module of the embodiment of the present application offer and electronic equipment can be in narrow headroom items
Solve the problems, such as that the antenna performance of the transverse screen under game mode is bad under part.The antenna of the embodiment of the present application is described more detail below
Component and electronic equipment.
Referring to Fig. 4, Fig. 4 is the flow diagram of tuning switch processing method provided by the embodiments of the present application.It is specific and
Speech, the tuning switch processing method include:
101, according to the first output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission.
Tuning switch includes an input terminal and multiple output ends, and input terminal connects the earth point of antenna radiator.It is multiple
Output end is separately connected match circuit ground connection.Tuning switch and match circuit are used for tuned antenna, make antenna tuning to most preferably
Efficient point.
Each output port of tuning switch transmits the aerial signal of a frequency range, obtains the aerial signal for needing to transmit
Afterwards, the output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal transmitted as needed is the first output end
Mouthful, which passes through the first output port matching connection circuit.
102, corresponding first frequency range of the first output port is obtained.
After obtaining the first output port of tuning switch, according to preset corresponding informance, first output port pair is obtained
The first frequency range answered, such as 2300M-2400M.
103, the first frequency range is divided into the first frequency sub-band and the second frequency sub-band, the corresponding frequency range of the first output port is become
First frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to the setting of the first frequency sub-band with
First output port connects the first match circuit, is arranged according to the second frequency sub-band and connect the second matching electricity with second output terminal mouth
Road.
First frequency range is wider, can not aerial signal all in first frequency range all be tuned all best efficient point.Cause
This, is divided into two frequency sub-band, i.e. the first frequency sub-band and the second frequency sub-band by the first frequency range.Wherein, the first output port is corresponding
Frequency range becomes the first frequency sub-band from the first frequency range, and second output terminal mouth becomes second output terminal mouth and correspond to second from idle state
The aerial signal of first frequency range is split to two channels by frequency sub-band from a channel.First output port passes through the first matching
Circuit ground, second output terminal mouth are grounded by the second match circuit, and the first match circuit is configured according to the first frequency sub-band,
Second match circuit is configured according to the second frequency sub-band, in this way, corresponding to the matching of the first frequency sub-band and the second frequency sub-band respectively
Circuit is different, can more accurately be tuned.
104, when receiving or emitting the current antenna signal of the first frequency range, according to the frequency of current antenna signal, selection
First output port or second output terminal port transmission current antenna signal.
When receiving or emitting the current antenna signal of the first frequency range, judge that the frequency of current antenna signal is to belong to first
Frequency sub-band still falls within the second frequency sub-band, if belonging to the first frequency sub-band, the first output port is selected to transmit current antenna signal.
If belonging to the second frequency sub-band, second output terminal port transmission current antenna signal is selected.Wherein, the first match circuit or second
Antenna tuning can be made to best efficient point according to current antenna signal with circuit.
Referring to Fig. 5, Fig. 5 is another flow diagram of tuning switch processing method provided by the embodiments of the present application.Tool
For body, this method includes:
201, according to the first output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission.
Tuning switch includes an input terminal and multiple output ends, and input terminal connects the earth point of antenna radiator.It is multiple
Output end is separately connected match circuit ground connection.Tuning switch and match circuit are used for tuned antenna, make antenna tuning to most preferably
Efficient point.
Each output port of tuning switch transmits the aerial signal of a frequency range, obtains the aerial signal for needing to transmit
Afterwards, the output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal transmitted as needed is the first output end
Mouthful, which passes through the first output port matching connection circuit.
202, obtain corresponding first frequency range of the first output port.
After obtaining the first output port of tuning switch, according to preset corresponding informance, first output port pair is obtained
The first frequency range answered, such as 2300M-2400M.
203, judge whether the first frequency range is default frequency range.
Default frequency range is the frequency range that can be used for dividing of default settings, and not every frequency range is all divided into two son frequencies
Section.
204, if so, obtaining the second output terminal mouth of tuning switch free time, and the first frequency range is divided into the first frequency sub-band
With the second frequency sub-band.
If the first frequency range is default frequency range, then it is assumed that first frequency range is the frequency range that can be divided, and the first frequency range is divided into the
One frequency sub-band and the second frequency sub-band.
205, the corresponding frequency range of the first output port is become into the first frequency sub-band, idle second output terminal mouth is set and is corresponded to
Frequency range be the second frequency sub-band, be arranged according to the first frequency sub-band and with the first output port connect the first match circuit, according to second
Frequency sub-band is arranged connect the second match circuit with second output terminal mouth.
First frequency range is wider, can not aerial signal all in first frequency range all be tuned all best efficient point.Cause
This, is divided into two frequency sub-band, i.e. the first frequency sub-band and the second frequency sub-band by the first frequency range.Wherein, the first output port is corresponding
Frequency range becomes the first frequency sub-band from the first frequency range, and second output terminal mouth becomes second output terminal mouth and correspond to second from idle state
The aerial signal of first frequency range is split to two channels by frequency sub-band from a channel.First output port passes through the first matching
Circuit ground, second output terminal mouth are grounded by the second match circuit, and the first match circuit is configured according to the first frequency sub-band,
Second match circuit is configured according to the second frequency sub-band, in this way, corresponding to the matching of the first frequency sub-band and the second frequency sub-band respectively
Circuit is different, can more accurately be tuned.
206, when receiving or emitting the current antenna signal of the first frequency range, according to the frequency of current antenna signal, selection
First output port or second output terminal port transmission current antenna signal.
When receiving or emitting the current antenna signal of the first frequency range, judge that the frequency of current antenna signal is to belong to first
Frequency sub-band still falls within the second frequency sub-band, if belonging to the first frequency sub-band, the first output port is selected to transmit current antenna signal.
If belonging to the second frequency sub-band, second output terminal port transmission current antenna signal is selected.Wherein, the first match circuit or second
Antenna tuning can be made to best efficient point according to current antenna signal with circuit.
207, if it is not, then the first output port transmits the aerial signal of the first frequency range.
If the first frequency range is not default frequency range, then it is assumed that first frequency range is that can not divide, the first output port transmission the
The aerial signal of one frequency range.
In some embodiments, the step of the first frequency range being divided into the first frequency sub-band and the second frequency sub-band, may include:
First frequency range is divided equally to obtain the first frequency sub-band and the second frequency sub-band, naturally it is also possible to be divided into the first frequency range
Point the first frequency sub-band and the second frequency sub-band, corresponding first match circuit is more preferably, corresponding in the second frequency sub-band in the first frequency sub-band
Second match circuit is more preferably.
In some embodiments, the step of the first frequency range being divided into the first frequency sub-band and the second frequency sub-band, may include:
The first match circuit is determined according to the frequency of aerial signal;The first frequency sub-band is determined according to the first match circuit;Root
The second frequency sub-band is obtained according to the first frequency range and the first frequency sub-band;The second match circuit is determined according to the second frequency sub-band.
It first according to antenna frequencies determines the first match circuit, so that the aerial signal of the antenna frequencies is tuned best, obtain the
After one match circuit, the first best frequency sub-band of tuning is obtained according to first match circuit, the first frequency range removes the first son frequency
The second frequency sub-band is obtained after section, the second match circuit is then determined according to the second frequency sub-band, makes the antenna in the second frequency sub-band
Signal tuning is best.
In some embodiments, the step of the first frequency range being divided into the first frequency sub-band and the second frequency sub-band, may include:
According to the frequency of aerial signal, adjust the first adjustable element, it is adjusted after the first match circuit;According to adjusting
The first match circuit afterwards determines the first frequency sub-band;The second frequency sub-band is obtained according to the first frequency range and the first frequency sub-band;According to
Two frequency sub-band adjust the second adjustable element, it is adjusted after the second match circuit.
First according to antenna frequencies adjust the first adjustable element, it is adjusted after the first match circuit, make the antenna frequencies
Aerial signal tuning it is best, it is adjusted after after the first match circuit, adjusted according to the first match circuit after the adjusting
Humorous the first best frequency sub-band, the first frequency range, which is removed, obtains the second frequency sub-band after the first frequency sub-band, then according to the second son frequency
Section adjusts the second adjustable element, it is adjusted after the second match circuit, so that aerial signal in the second frequency sub-band is tuned best.
In some embodiments, the first match circuit and the second match circuit respectively include the first adjustable element and second can
Adjust element;Be arranged according to the first frequency sub-band and with the first output port connect the first match circuit, be arranged according to the second frequency sub-band and
Second output terminal mouth connects the step of the second match circuit, may include:
First output port is grounded by the first match circuit, and second output terminal mouth is grounded by the second match circuit, root
The first adjustable element is adjusted according to the first frequency sub-band, the second adjustable element is adjusted according to the second frequency sub-band.
The first frequency range is first divided into the first frequency sub-band and the second frequency sub-band, it is adjustable then to adjust first according to the first frequency sub-band
Element, it is adjusted after the first match circuit, so that the aerial signal of the antenna band is tuned best, according to the second frequency sub-band tune
Save the second adjustable element, it is adjusted after the second match circuit, so that the aerial signal of the antenna band is tuned best.
Referring to Fig. 6, Fig. 6 is the another flow diagram of tuning switch processing method provided by the embodiments of the present application.Tool
For body, which can also include:
301, according to the first output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission.
Tuning switch includes an input terminal and multiple output ends, and input terminal connects the earth point of antenna radiator.It is multiple
Output end is separately connected match circuit ground connection.Tuning switch and match circuit are used for tuned antenna, make antenna tuning to most preferably
Efficient point.
Each output port of tuning switch transmits the aerial signal of a frequency range, obtains the aerial signal for needing to transmit
Afterwards, the output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal transmitted as needed is the first output end
Mouthful, which passes through the first output port matching connection circuit.
302, obtain corresponding first frequency range of the first output port.
After obtaining the first output port of tuning switch, according to preset corresponding informance, first output port pair is obtained
The first frequency range answered, such as 2300M-2400M.
303, the first frequency range is divided into multiple frequency sub-band, multiple frequency sub-band include at least three frequency sub-band, by the first output
The corresponding frequency range in port becomes a frequency sub-band in multiple frequency sub-band, and it is defeated that remaining frequency sub-band is corresponded idle second
Exit port, the first output port and multiple second output terminal mouths are separately connected a match circuit.
First frequency range is wider, can not aerial signal all in first frequency range all be tuned all best efficient point.Cause
First frequency range is divided into multiple frequency sub-band by this, and multiple frequency sub-band include at least three frequency sub-band.First output port is corresponding
Frequency range becomes a frequency sub-band in multiple frequency sub-band, and remaining frequency sub-band is corresponded to idle second output terminal mouth, the
One output port and multiple second output terminal mouths are separately connected a match circuit.One wide frequency range is divided into multiple narrow sons
Frequency range, each idle second output terminal mouth are set as one narrow frequency sub-band of transmission, and each second output terminal mouth connects one
Match circuit, each match circuit correspond to frequency sub-band setting member, and the inductor of different induction amount and/or different capacitances is such as arranged
The capacitor of value.In this way, the match circuit for corresponding to each frequency sub-band respectively is different, can more accurately be tuned.
304, when receiving or when the current antenna signal of the first frequency range of transmitting, according to the frequency of current antenna signal, from the
A transmission current antenna signal is selected in one output port and multiple second output terminal mouths.
When receiving or emitting the current antenna signal of the first frequency range, judge the frequency of current antenna signal is which belongs to
Then frequency sub-band selects a transmission current according to affiliated frequency sub-band from the first output port and multiple second output terminal mouths
Aerial signal.
It should be noted that the band limits of aerial signal in above-described embodiment has multiple, such as can be
2300M-2400M or 2496M to 2689M.Specifically, frequency sub-band may include 2300M-2350M, 2350M-2400M,
The frequency sub-band such as 2496m-2520m, 2520m-25550m, 2550m-2580m, 25800M-26200M, 2620M-2689M.It can be with
It is divided by other means.
It should be noted that the aerial signal in above-described embodiment is time division duplex aerial signal.Time division duplex is mobile
One kind of the full-duplex communication technology used in communication system is to distinguish wireless communication in time in the downlink operation in frame period
Road and a kind of technology for continuing uplink operation.In the mobile communication system of TDD mode, receives and be transmitted in
The different time-gap of same frequency channel (i.e. carrier wave) detaches reception and transmission channel with the time is ensured.
The alternative embodiment that any combination forms the present invention may be used, herein no longer in above-mentioned all optional technical solutions
It repeats one by one.
When it is implemented, the application is not limited by the execution sequence of described each step, conflict is not being generated
In the case of, certain steps can also use other sequences to carry out or be carried out at the same time.
It can be seen from the above, tuning switch processing method provided by the embodiments of the present application, first according to the aerial signal of transmission
Frequency acquisition tuning switch transmission antenna signal the first output port;Then corresponding first frequency of the first output port is obtained
Section;Then the first frequency range is divided into the first frequency sub-band and the second frequency sub-band, the corresponding frequency range of the first output port is become first
Frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to the first frequency sub-band setting and first
Output port connects the first match circuit, is arranged according to the second frequency sub-band and connect the second match circuit with second output terminal mouth;Most
Afterwards when receiving or emitting the current antenna signal of the first frequency range, according to the frequency of current antenna signal, the first output end is selected
Mouth or second output terminal port transmission current antenna signal.Since corresponding first frequency range of the first output port is wider, such as 2300M-
2400M, can not to aerial signal all in the first frequency range all be tuned to optimum state the first frequency range is therefore divided into first
Frequency sub-band and the second frequency sub-band, the corresponding frequency range of each frequency sub-band become smaller, the corresponding aerial signal difference of two frequency sub-band
It tunes, the aerial signal in each frequency sub-band can obtain preferable tuning effect, emit the first sub-band signals or the second son
Higher transmission power can be obtained when frequency band signals.In the past since antenna performance limited the problem of cannot reaching optimum efficiency obtains
To solution, transmission power not need to shift onto it is very high meet the performance of total transmission power, electronic equipment can be advanced optimized
Such as the power consumption of smart mobile phone, while ensureing identical conducted power, total transmitting work(of electronic equipment such as smart mobile phone
Rate is more preferable compared to single channel tuning numerical value.
Referring to Fig. 7, Fig. 7 is the module diagram of tuning switch processing unit provided by the embodiments of the present application.It is specific and
Speech, the tuning switch processing unit 400 include the first acquisition module 401, the second acquisition module 402, processing module 403 and control
Module 404.
First acquisition module 401 is used for the frequency acquisition tuning switch transmission antenna signal of the aerial signal according to transmission
The first output port.
Second acquisition module 402, for obtaining corresponding first frequency range of the first output port.
Processing module 403, for the first frequency range to be divided into the first frequency sub-band and the second frequency sub-band, by the first output port pair
The frequency range answered becomes the first frequency sub-band, and it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to first
Frequency sub-band is arranged connect the first match circuit with the first output port, is arranged according to the second frequency sub-band and is connect with second output terminal mouth
Second match circuit.
Control module 404 is used for when receiving or emitting the current antenna signal of the first frequency range, according to current antenna signal
Frequency, select the first output port or second output terminal port transmission current antenna signal.
In some embodiments, which further includes judgment module.
Judgment module, for judging the whether default frequency range of the first frequency range.
Processing module is additionally operable to if so, obtaining the second output terminal mouth of tuning switch free time, and the first frequency range is divided into
First frequency sub-band and the second frequency sub-band;If it is not, then the first output port transmits the aerial signal of the first frequency range.
In some embodiments, processing module is additionally operable to divide the first frequency range equally to obtain the first frequency sub-band and the second son frequency
Section.
In some embodiments, processing module is additionally operable to determine the first match circuit according to the frequency of aerial signal;According to
First match circuit determines the first frequency sub-band;The second frequency sub-band is obtained according to the first frequency range and the first frequency sub-band;According to the second son
Frequency range determines the second match circuit.
In some embodiments, the first match circuit and the second match circuit respectively include the first adjustable element and second can
Adjust element.Processing module is additionally operable to the frequency according to aerial signal, adjusts the first adjustable element, it is adjusted after the first matching
Circuit;The first frequency sub-band is determined according to the first match circuit after adjusting;Second is obtained according to the first frequency range and the first frequency sub-band
Frequency sub-band;According to the second frequency sub-band adjust the second adjustable element, it is adjusted after the second match circuit.
In some embodiments, the first match circuit and the second match circuit respectively include the first adjustable element and second can
Adjust element.Processing module is additionally operable to the first output port and is grounded by the first match circuit, and second output terminal mouth passes through second
With circuit ground, the first adjustable element is adjusted according to the first frequency sub-band, the second adjustable element is adjusted according to the second frequency sub-band.
In some embodiments, which includes the first acquisition module, the second acquisition module, processing mould
Block and control module.
First acquisition module is additionally operable to according to the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission
First output port.
Second acquisition module is additionally operable to obtain corresponding first frequency range of the first output port.
Processing module is additionally operable to the first frequency range being divided into multiple frequency sub-band, and multiple frequency sub-band include at least three frequency sub-band,
The corresponding frequency range of first output port is become into a frequency sub-band in multiple frequency sub-band, remaining frequency sub-band is corresponded empty
Not busy second output terminal mouth, the first output port and multiple second output terminal mouths are separately connected a match circuit.
Control module is additionally operable to when receiving or emitting the current antenna signal of the first frequency range, according to current antenna signal
Frequency, from the first output port and multiple second output terminal mouths select one transmission current antenna signal.
It can be seen from the above, tuning switch processing unit provided by the embodiments of the present application, 401 basis of the first acquisition module first
First output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission;Then the second acquisition module
402 obtain corresponding first frequency range of the first output port;Then the first frequency range is divided into the first frequency sub-band and by processing module 403
The corresponding frequency range of first output port is become the first frequency sub-band by two frequency sub-band, and it is corresponding that idle second output terminal mouth is arranged
Frequency range is the second frequency sub-band, is arranged according to the first frequency sub-band and connect the first match circuit with the first output port, according to the second son
Frequency range is arranged connect the second match circuit with second output terminal mouth;Last control module 404 is when the first frequency range of reception or transmitting
When current antenna signal, according to the frequency of current antenna signal, select the first output port or second output terminal port transmission current
Aerial signal.It, can not be to institute in the first frequency range such as 2300M-2400M since corresponding first frequency range of the first output port is wider
Some aerial signals all be tuned to optimum state the first frequency range is therefore divided into the first frequency sub-band and the second frequency sub-band, per height
The corresponding frequency range of frequency range becomes smaller, and the corresponding aerial signal of two frequency sub-band tunes respectively, the antenna letter in each frequency sub-band
Preferable tuning effect number can be obtained, higher hair can be obtained when emitting the first sub-band signals or the second sub-band signals
Penetrate power.In the past since antenna performance limited the problem of cannot reaching optimum efficiency is resolved, transmission power is not needing to push away
Meet the performance of total transmission power to very high, the power consumption of electronic equipment such as smart mobile phone can be advanced optimized, while protecting
In the case of demonstrate,proving identical conducted power, the total transmission power of electronic equipment such as smart mobile phone is more preferable compared to single channel tuning numerical value.
Referring to Fig. 8, Fig. 8 is the structural schematic diagram of antenna module provided by the embodiments of the present application.The antenna module includes
Radio-frequency module 35, antenna radiator 34 and tuning switch module 300, radio-frequency module 35 are connect with antenna radiator 34, and tuning is opened
It closes module 300 to connect with antenna radiator 34, tuning switch module 300 includes first switch 31, the first match circuit 32 and the
Two match circuits 33.
First switch 31 includes first connecting pin 311 and the multiple second connection ends being oppositely arranged with first end
312, for being connect with antenna radiator 34, multiple second connection ends 312 are used for transmission the day of different frequency range for the first connecting pin 311
Line signal.
Antenna radiator 34 can be used for receiving and transmitting antenna signal.Antenna radiator 34 coordinates humorous with match circuit
Shake, receive and emit all be tuned to best efficiency point.Wherein, antenna radiator 34 can be a frame part for metal center,
For example, the top margin of metal center is a metallic conductor, as antenna radiator 34.Certainly, antenna radiator 34 can also
It is one or more in side, bottom edge, corner for metal center etc..Antenna radiator 34 can also be paster antenna radiator
34, it is arranged in places such as the rear shells of electronic equipment.Wherein, tuning switch module 300 can also be the tuning in other embodiment
Switch module 300.
In some embodiments, tuning switch module 300 is connected to the earth point of antenna radiator 34, antenna radiator 34
Feed end connect radio-frequency module 35.
Electronic equipment further includes antenna diplexer 36, and the first branch end of antenna diplexer 36 connects the defeated of radio-frequency module 35
Inbound port, the output port of the second branch end connection radio-frequency module 35 of antenna diplexer 36.
Radio-frequency module 35 includes multiple input port and an output port, and multiple input port corresponds to mutiple antennas duplex
Device 36, that is, input port is corresponded with antenna diplexer 36, and input port connects the first branch end of antenna diplexer 36,
The second branch end of the antenna diplexer 36 is connect with the output port of frequency range with the input port, that is, an antenna diplexer
36 the first branch end connects an input port, and the second branch end connects an output port, is connected to same antenna duplex
What the input port and output port of device 36 transmitted is the aerial signal of same frequency range.The common end connection of antenna diplexer 36 is penetrated
One input port of frequency switch 37, mutiple antennas duplexer 36 are separately connected an input port of RF switch 37, radio frequency
The multiple input port of switch 37 corresponds an output port, the output port connection antenna radiator 34 of RF switch 37
Feed end, for receiving and transmitting antenna signal.
There are one output port, the output ports to connect the input terminal of amplifier 38, the amplifier 38 for the tool of radio-frequency module 35
It will be amplified, then connect with mutiple antennas duplexer 36 by a selecting switch 39, each for the aerial signal of transmitting
Antenna diplexer 36 corresponds to the aerial signal of a frequency range, and selecting switch 39 is passed according to the frequency range for the aerial signal to be emitted
Corresponding antenna diplexer 36 is transported to, 39 one end of selecting switch only has a port and connect with the output end of amplifier 38, choosing
Selecting 39 other end of switch, there are multiple ports, each port to correspond to the second branch end of a duplexer.
The earth point of antenna radiator 34 connects first switch 31, and there are one the first connecting pins 311 for the tool of first switch 31, and
Multiple second connection ends corresponding with first connecting pin 311 312, the earth point of the first connecting pin 311 and antenna radiator 34
Connection, multiple second connection ends 312 transmit the aerial signal of different frequency range, and second connection end 312 can transmit the antenna of reception
Signal can also transmitting aerial signal.
It can be formed it should be noted that first switch 31 can be tuner or first switch 31 and match circuit
One tuner.
Referring to Fig. 9, Fig. 9 is the third structural schematic diagram of electronic equipment provided by the embodiments of the present application.Electronic equipment
500 include processor 501 and memory 502.Wherein, processor 501 is electrically connected with memory 502.
The processor 500 is the control centre of electronic equipment 500, utilizes various interfaces and the entire electronic equipment of connection
Various pieces, the computer program in memory 502 by operation or load store, and call and be stored in memory
Data in 502 execute the various functions of electronic equipment 500 and handle data, to carry out whole prison to electronic equipment 500
Control.
The memory 502 can be used for storing software program and module, and processor 501 is stored in memory by operation
502 computer program and module, to perform various functions application and data processing.Memory 502 can include mainly
Storing program area and storage data field, wherein storing program area can storage program area, the computer needed at least one function
Program (such as sound-playing function, image player function etc.) etc.;Storage data field can be stored uses institute according to electronic equipment
The data etc. of establishment.In addition, memory 502 may include high-speed random access memory, can also include non-volatile memories
Device, for example, at least a disk memory, flush memory device or other volatile solid-state parts.Correspondingly, memory
502 can also include Memory Controller, to provide access of the processor 501 to memory 502.
In the embodiment of the present application, the processor 501 in electronic equipment 500 can be according to following step, by one or one
The corresponding instruction of process of a above computer program is loaded into memory 502, and is stored in by the operation of processor 501
Computer program in reservoir 502, it is as follows to realize various functions:
According to the first output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission;
Obtain corresponding first frequency range of the first output port;
First frequency range is divided into the first frequency sub-band and the second frequency sub-band, the corresponding frequency range of the first output port is become first
Frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to the first frequency sub-band setting and first
Output port connects the first match circuit, is arranged according to the second frequency sub-band and connect the second match circuit with second output terminal mouth;
When receiving or emitting the current antenna signal of the first frequency range, according to the frequency of current antenna signal, first is selected
Output port or second output terminal port transmission current antenna signal.
In some embodiments, when the first frequency range being divided into the first frequency sub-band and the second frequency sub-band, processor 501 can be with
It is specific to execute following steps:
Judge whether the first frequency range is default frequency range;
If so, obtaining the second output terminal mouth of tuning switch free time, and the first frequency range is divided into the first frequency sub-band and the
Two frequency sub-band;
If it is not, then the first output port transmits the aerial signal of the first frequency range.
In some embodiments, when the first frequency range being divided into the first frequency sub-band and the second frequency sub-band, processor 501 can be with
It is specific to execute following steps:
First frequency range is divided equally to obtain the first frequency sub-band and the second frequency sub-band.
In some embodiments, when the first frequency range being divided into the first frequency sub-band and the second frequency sub-band, processor 501 can be with
It is specific to execute following steps:
The first match circuit is determined according to the frequency of aerial signal;
The first frequency sub-band is determined according to the first match circuit;
The second frequency sub-band is obtained according to the first frequency range and the first frequency sub-band;
The second match circuit is determined according to the second frequency sub-band.
In some embodiments, the first match circuit and the second match circuit respectively include the first adjustable element and second
Adjustable element;When first frequency range is divided into the first frequency sub-band and the second frequency sub-band, processor 501 can specifically execute following step
Suddenly:
According to the frequency of aerial signal, adjust the first adjustable element, it is adjusted after the first match circuit;
The first frequency sub-band is determined according to the first match circuit after adjusting;
The second frequency sub-band is obtained according to the first frequency range and the first frequency sub-band;
According to the second frequency sub-band adjust the second adjustable element, it is adjusted after the second match circuit.
In some embodiments, the first match circuit and the second match circuit respectively include the first adjustable element and second
Adjustable element;It is arranged according to the first frequency sub-band and connect the first match circuit with the first output port, is arranged according to the second frequency sub-band
When connecting the second match circuit with second output terminal mouth, processor 501 can specifically execute following steps:
First output port is grounded by the first match circuit, and second output terminal mouth is grounded by the second match circuit, root
The first adjustable element is adjusted according to the first frequency sub-band, the second adjustable element is adjusted according to the second frequency sub-band.
In some embodiments, processor 501 can specifically execute following steps:
According to the first output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission;
Obtain corresponding first frequency range of the first output port;
First frequency range is divided into multiple frequency sub-band, multiple frequency sub-band include at least three frequency sub-band, by the first output port
Corresponding frequency range becomes a frequency sub-band in multiple frequency sub-band, and remaining frequency sub-band is corresponded to idle second output terminal
Mouthful, the first output port and multiple second output terminal mouths are separately connected a match circuit;
It is defeated from first according to the frequency of current antenna signal when receiving or emitting the current antenna signal of the first frequency range
A transmission current antenna signal is selected in exit port and multiple second output terminal mouths.
It can be seen from the above, electronic equipment provided in this embodiment, first according to the frequency acquisition tune of the aerial signal of transmission
First output port of humorous switch transmission antenna signal;Then corresponding first frequency range of the first output port is obtained;Then by
One frequency range is divided into the first frequency sub-band and the second frequency sub-band, and the corresponding frequency range of the first output port is become the first frequency sub-band, setting
The idle corresponding frequency range of second output terminal mouth is the second frequency sub-band, is arranged according to the first frequency sub-band and is connect with the first output port
First match circuit is arranged according to the second frequency sub-band and connect the second match circuit with second output terminal mouth;Finally when reception or hair
When penetrating the current antenna signal of the first frequency range, according to the frequency of current antenna signal, the first output port or the second output are selected
Port transmission current antenna signal.It, can not be right such as 2300M-2400M since corresponding first frequency range of the first output port is wider
In first frequency range all aerial signals all be tuned to optimum state the first frequency range is therefore divided into the first frequency sub-band and second
Frequency sub-band, the corresponding frequency range of each frequency sub-band become smaller, and the corresponding aerial signal of two frequency sub-band tunes respectively, the frequency per height
Aerial signal in section can obtain preferable tuning effect, can when emitting the first sub-band signals or the second sub-band signals
Obtain higher transmission power.In the past since antenna performance limited the problem of cannot reaching optimum efficiency is resolved, emit work(
Rate not need to shift onto it is very high meet the performance of total transmission power, can advanced optimize the work(of electronic equipment such as smart mobile phone
Consumption, while ensureing identical conducted power, the total transmission power of electronic equipment such as smart mobile phone is compared to single channel tune
Humorous numerical value is more preferable.
Also referring to Figure 10, Figure 10 is the 4th kind of structural schematic diagram of electronic equipment provided by the embodiments of the present application.Electricity
Sub- equipment 500 can also include:Display 503, radio circuit 504, voicefrequency circuit 505 and power supply 506.Wherein, wherein aobvious
Show that device 503, radio circuit 504, voicefrequency circuit 505 and power supply 506 are electrically connected with processor 501 respectively.
The display 503 is displayed for information input by user or is supplied to the information of user and various figures
User interface, these graphical user interface can be made of figure, text, icon, video and its arbitrary combination.Display
503 may include display panel, in some embodiments, liquid crystal display (Liquid Crystal may be used
Display, LCD) or the forms such as Organic Light Emitting Diode (Organic Light-Emitting Diode, OLED) match
Set display panel.
The radio circuit 504 can be used for transceiving radio frequency signal, with by radio communication with the network equipment or other electronics
Equipment establishes wireless telecommunications, the receiving and transmitting signal between the network equipment or other electronic equipments.
The voicefrequency circuit 505 can be used for providing the audio between user and electronic equipment by loud speaker, microphone and connecing
Mouthful.
The power supply 506 is used to all parts power supply of electronic equipment 500.In some embodiments, power supply 506 can
With logically contiguous by power-supply management system and processor 501, to be charged, be discharged by power-supply management system realization management,
And the functions such as power managed.
Although being not shown in Figure 10, electronic equipment 500 can also include camera, bluetooth module etc., and details are not described herein.
The embodiment of the present application also provides a kind of storage medium, which is stored with computer program, when the computer
When program is run on computers so that the computer executes the processing method of the touch information in any of the above-described embodiment, than
Such as:According to the first output port of the frequency acquisition tuning switch transmission antenna signal of the aerial signal of transmission;It is defeated to obtain first
Corresponding first frequency range of exit port;First frequency range is divided into the first frequency sub-band and the second frequency sub-band, the first output port is corresponded to
Frequency range become the first frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to the first son
Frequency range, which is arranged, with the first output port connect the first match circuit, and the is connect with second output terminal mouth according to the setting of the second frequency sub-band
Two match circuits;When receiving or when the current antenna signal of the first frequency range of transmitting, according to the frequency of current antenna signal, selection the
One output port or second output terminal port transmission current antenna signal.
In the embodiment of the present application, storage medium can be magnetic disc, CD, read-only memory (Read Only Memory,
) or random access memory (Random Access Memory, RAM) etc. ROM.
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment
Point, it may refer to the associated description of other embodiment.
For the processing of the tuning switch of the embodiment of the present application, each function module can be integrated in a processing chip
In, can also be that modules physically exist alone, can also two or more modules be integrated in a module.It is above-mentioned
The form that hardware had both may be used in integrated module is realized, can also be realized in the form of software function module.It is described integrated
If module realized in the form of software function module and when sold or used as an independent product, one can also be stored in
In a computer read/write memory medium, the storage medium is for example read-only memory, disk or CD etc..
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment
Point, it may refer to the associated description of other embodiment.
Detailed Jie has been carried out to tuning switch module, antenna module and electronic equipment provided by the embodiments of the present application above
It continues, specific examples are used herein to illustrate the principle and implementation manner of the present application, and the explanation of above example is only
It is to be used to help understand the application.Meanwhile for those skilled in the art, according to the thought of the application, in specific embodiment party
There will be changes in formula and application range, in conclusion the contents of this specification should not be construed as limiting the present application.
Claims (11)
1. a kind of tuning switch processing method, which is characterized in that including:
The first output port of the aerial signal is transmitted according to the frequency acquisition tuning switch of the aerial signal of transmission;
Obtain corresponding first frequency range of first output port;
First frequency range is divided into the first frequency sub-band and the second frequency sub-band, the corresponding frequency range of first output port is become
First frequency sub-band, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, is set according to first frequency sub-band
It sets and connect the first match circuit with first output port, be arranged according to the second frequency sub-band and connect with the second output terminal mouth
Second match circuit;
When receiving or when the current antenna signal of the first frequency range of transmitting, according to the frequency of the current antenna signal, described in selection
Current antenna signal described in first output port or second output terminal port transmission.
2. tuning switch processing method according to claim 1, which is characterized in that described that first frequency range is divided into
The step of one frequency sub-band and the second frequency sub-band, including:
Judge whether first frequency range is default frequency range;
If so, obtaining the second output terminal mouth of the tuning switch free time, and first frequency range is divided into the first frequency sub-band
With the second frequency sub-band;
If it is not, then first output port transmits the aerial signal of the first frequency range.
3. tuning switch processing method according to claim 1, which is characterized in that described that first frequency range is divided into
The step of one frequency sub-band and the second frequency sub-band, including:
Divide equally first frequency range to obtain the first frequency sub-band and the second frequency sub-band.
4. tuning switch processing method according to claim 1, which is characterized in that described that first frequency range is divided into
The step of one frequency sub-band and the second frequency sub-band, including:
The first match circuit is determined according to the frequency of the aerial signal;
The first frequency sub-band is determined according to first match circuit;
The second frequency sub-band is obtained according to first frequency range and first frequency sub-band;
The second match circuit is determined according to second frequency sub-band.
5. tuning switch processing method according to claim 4, which is characterized in that first match circuit and described
Two match circuits respectively include the first adjustable element and the second adjustable element;
Described the step of first frequency range is divided into the first frequency sub-band and the second frequency sub-band, including:
According to the frequency of the aerial signal, adjust first adjustable element, it is adjusted after the first match circuit;
The first frequency sub-band is determined according to the first match circuit after the adjusting;
The second frequency sub-band is obtained according to first frequency range and first frequency sub-band;
According to second frequency sub-band adjust the second adjustable element, it is adjusted after the second match circuit.
6. tuning switch processing method according to claim 1, which is characterized in that first match circuit and described
Two match circuits respectively include the first adjustable element and the second adjustable element;
Described be arranged according to first frequency sub-band connect the first match circuit with first output port, according to the second son frequency
The step of section setting connect the second match circuit with the second output terminal mouth, including:
First output port is grounded by the first match circuit, and the second output terminal mouth is connect by the second match circuit
Ground, first adjustable element is adjusted according to first frequency sub-band, and the second adjustable element is adjusted according to the second frequency sub-band.
7. a kind of tuning switch processing method, which is characterized in that including:
The first output port of the aerial signal is transmitted according to the frequency acquisition tuning switch of the aerial signal of transmission;
Obtain corresponding first frequency range of first output port;
First frequency range is divided into multiple frequency sub-band, multiple frequency sub-band include at least three frequency sub-band, and described first is exported
The corresponding frequency range in port becomes a frequency sub-band in the multiple frequency sub-band, and remaining frequency sub-band is corresponded idle the
Two output ports, the first output port and multiple second output terminal mouths are separately connected a match circuit;
When receiving or when the current antenna signal of the first frequency range of transmitting, according to the frequency of the current antenna signal, from described the
A transmission current antenna signal is selected in one output port and multiple second output terminal mouths.
8. a kind of tuning switch processing unit, which is characterized in that including:
First acquisition module, the frequency acquisition tuning switch for the aerial signal according to transmission transmit the of the aerial signal
One output port;
Second acquisition module, for obtaining corresponding first frequency range of first output port;
Processing module, for first frequency range to be divided into the first frequency sub-band and the second frequency sub-band, by first output port
Corresponding frequency range becomes the first frequency sub-band, and it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to institute
It states the first frequency sub-band and is arranged and with first output port connect the first match circuit, be arranged according to the second frequency sub-band and described the
Two output ports connect the second match circuit;
Control module is used for when receiving or emitting the current antenna signal of the first frequency range, according to the current antenna signal
Frequency selects current antenna signal described in first output port or second output terminal port transmission.
9. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that described program is by processor
The step of tuning switch processing method as described in any one of claim 1 to 7 is realized when execution.
10. a kind of electronic equipment, including processor and memory, the memory have computer program, which is characterized in that described
Processor is by calling the computer program, for executing tuning switch processing side as described in any one of claim 1 to 7
Method.
11. a kind of electronic equipment, which is characterized in that including:
Tuning switch, including the first output port and second output terminal mouth;
Matching circuit module, including the first match circuit and the second match circuit, first match circuit one end connection first
The output port other end is grounded, and second match circuit one end connects second output terminal mouth other end ground connection;
Processor is connect with the tuning switch, and the processor is used to be tuned according to the frequency acquisition of the aerial signal of transmission
Switch transmits the first output port of the aerial signal, and obtains corresponding first frequency range of first output port;It will
First frequency range is divided into the first frequency sub-band and the second frequency sub-band, and the corresponding frequency range of first output port is become the first son
Frequency range, it is the second frequency sub-band that the idle corresponding frequency range of second output terminal mouth, which is arranged, according to first frequency sub-band setting and institute
It states the first output port and connects the first match circuit, be arranged according to the second frequency sub-band and connect second with the second output terminal mouth
With circuit;When receiving or emitting the current antenna signal of the first frequency range, according to the frequency of the current antenna signal, institute is selected
State current antenna signal described in the first output port or second output terminal port transmission.
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| CN201810575134.4A CN108808245B (en) | 2018-06-06 | 2018-06-06 | Tuning switch processing method and device, storage medium and electronic equipment |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN113330637A (en) * | 2019-05-31 | 2021-08-31 | 深圳市柔宇科技股份有限公司 | Antenna control method, terminal and computer readable storage medium |
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