CN103368594B

CN103368594B - Wireless communication device

Info

Publication number: CN103368594B
Application number: CN201210085043.5A
Authority: CN
Inventors: 纪权洲; 蔡志阳; 黄柏程; 张浩颖
Original assignee: Shenzhen Futaihong Precision Industry Co Ltd
Current assignee: Shenzhen Futaihong Precision Industry Co Ltd
Priority date: 2012-03-28
Filing date: 2012-03-28
Publication date: 2017-02-08
Anticipated expiration: 2032-03-28
Also published as: CN103368594A

Abstract

The invention provides a wireless communication device comprising a first antenna, a second antenna, a first light sensor, a second light sensor, a controller and a magnetic part, wherein the first light sensor and the second light sensor are respectively arranged close to the first antenna and the second antenna, and the magnetic part is arranged between the first antenna and the second antenna; when the first antenna or the second antenna in a wireless signal receiving and transmitting state is covered, the first light sensor or the second light sensor is used for triggering a pulse signal to the controller, the controller is used for controlling the first antenna and the second antenna to change magnetic poles according to the pulse signal, and therefore one of the first antenna and the second antenna is attracted to the magnetic part and the other is separated from the magnetic part, and the first antenna or the second antenna is selected to receive and transmit wireless signals in a switched manner, or the wireless signals are received and transmitted in a switched manner through a combination of the first antenna and the magnetic part or a combination of the second antenna and the magnetic part. The wireless communication device is characterized by stably receiving the wireless signals in different states.

Description

Radio communication device

Technical field

The present invention relates to radio communication device.

Background technology

The radio communication devices such as current mobile phone have multiple working frequency range mostly, are correspondingly provided with multiple skies Line, such as the GSM/CDMA radio antenna of routine, Wireless Fidelity（Wireless fidelity, WIFI）Antenna and the whole world Alignment system（Global Position System, GPS）Antenna etc..Generally, in order to prevent this grade antenna from interfering, design These antenna is often respectively arranged at different positions in radio communication device by person.However, working as user hand-held wireless communication During device, the handss that this kind of assembling mode is easily caused user grip radio communication device anyway and are likely to cover State one or more of antenna, cause the radiation efficiency of antenna to reduce, the transmitting-receiving performance of impact signal.

Content of the invention

In view of this it is necessary to provide a kind of radiation efficiency of antenna stable radio communication device.

A kind of radio communication device, it includes first antenna, the second antenna, the first optical sensor, the second optical sensor, control Device processed and magnetic part, this first optical sensor and the second optical sensor are respectively adjacent to first antenna and the setting of the second antenna, this magnetic Property part is arranged between first antenna and the second antenna, when the first antenna being in transmitting/receiving wireless signal condition or the second antenna quilt During covering, the first optical sensor or the second optical sensor are used for controller start pulse signal, and controller is used for according to pulse Signal controls first antenna and the second antenna to change magnetic pole, so that one of first antenna and the second antenna are adsorbed with magnetic part, Another is separated with magnetic part, and then selects to switch transmitting/receiving wireless signal by first antenna or the second antenna, or by the One antenna and magnetic part combine or the second antenna and magnetic part combine switching transmitting/receiving wireless signal.

Above-mentioned radio communication device is respectively provided with the first optical sensor and the by neighbouring first antenna and the second antenna Two optical sensors so that when first antenna or the second antenna are capped, the first optical sensor and the second optical sensor trigger pulse Signal, so that controller controls one of first antenna and the second antenna to adsorb with magnetic part, another is separated with magnetic part.So When user handheld redio communication device affects wireless signal transmitting-receiving efficiency, may be selected to pass through first antenna or the second antenna Transmitting/receiving wireless signal, or select by first antenna and magnetic part combine or the second antenna switches receipts with combining of magnetic part Send out wireless signal, to ensure equal reception wireless signal that can be stable under different conditions, be easy to radio communication device and stably lead to Letter.

Brief description

Fig. 1 is the axonometric chart of the radio communication device of better embodiment of the present invention；

Fig. 2 is the partial functional block diagram of the radio communication device shown in Fig. 1；

Fig. 3 is the use state figure of the radio communication device shown in Fig. 1；

Fig. 4 is another use state figure of the radio communication device shown in Fig. 1.

Main element symbol description

Radio communication device	100
		Carrier	10
First antenna	22
		Main part	222
Joint portion	224
		Second antenna	24
Main paragraph	242
		Adapter section	244
First optical sensor	32
		Second optical sensor	34
First magnetic inductor	42
		Second magnetic inductor	44
Controller	50
		Magnetic part	60

Following specific embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Specific embodiment

Refer to Fig. 1, the better embodiment of the present invention provides a kind of radio communication device 100, and it can be mobile phone Or personal digital assistant (Personal Digital Assistant, PDA) etc..

In the present embodiment, this radio communication device 100 includes carrier 10, first antenna 22, the second antenna 24, the first light Sensor 32, the second optical sensor 34, the first magnetic inductor 42, the second magnetic inductor 44, controller 50 and magnetic part 60.

This carrier 10 can be the circuit board of radio communication device 100, and this first antenna 22, the second antenna 24, the first light pass Sensor 32, the second optical sensor 34, the first magnetic inductor 42, the second magnetic inductor 44 and controller 50 are arranged on carrier 10.

This first antenna 22 is identical with the shape of the second antenna 24, and the two is respectively arranged at carrier 10 two ends.Wherein, first Antenna 22 includes main part 222 and joint portion 224, and what this main part 222 was straight is attached on carrier 10, and electrical with carrier 10 Connect.This joint portion 224 vertically arrange with main part 222 on, and the thickness of joint portion 224 is thicker than main part 222.By adjusting Whole main part 222 and the size and shape of joint portion 224, can make first antenna 22 for receive and dispatch the first wireless signal（For example WIFI signal）.This second antenna 24 includes main paragraph 242 and adapter section 244, and what this main paragraph 242 was straight is attached at carrier 10 On, and be electrically connected with carrier 10.This adapter section 244 vertically arrange with main paragraph 242 on, and the combination with first antenna 22 Portion 224 is oppositely arranged, and the thickness of adapter section 244 is thicker than main paragraph 242.By adjusting the chi of main paragraph 242 and adapter section 244 Very little and shape, can make the second antenna 24 be used for transmitting-receiving the first wireless signal（Such as WIFI signal）.

Please refer to Fig. 2, this first optical sensor 32 and the second optical sensor 34 are respectively adjacent to first antenna 22 and Two antennas 24 are arranged, and are electrically connected with controller 50 simultaneously.When the handss of user grip radio communication device 100 and cover When first antenna 22 or the second antenna 24, this first optical sensor 32 or the second optical sensor 34 will be because light is interrupted to controls Device 50 processed triggers a pulse signal.

In the present embodiment, the first magnetic inductor 42 and the second magnetic inductor 44 are Hall element, and the two is respectively with The main paragraph 242 of the main part 222 of one antenna 22 and the second antenna 24 connects.This first magnetic inductor 42 and the second magnetic inductor 44 can assume the South Pole and two kinds of arctic magnetic pole under control of controller 50, and then make this first antenna 22 and second day respectively Line 24 assumes corresponding magnetic pole respectively.For example, when the magnetic pole of the first magnetic inductor 42 is the South Pole, the magnetic pole of this first antenna 22 Also it is the South Pole, when the magnetic pole of the second magnetic inductor 44 is the arctic, the magnetic pole of this second antenna 24 is also the arctic.

This controller 50 is electrically connected with the first magnetic inductor 42 and the second magnetic inductor 44 simultaneously, for according to the first light The pulse signal of sensor 32 and the second optical sensor 34 triggering and current first antenna 22 and the second antenna 24 transmitting/receiving wireless letter Number state control the first magnetic inductor 42 and the second magnetic inductor 44 to change magnetic pole.Specifically, when first antenna 22 is in When being capped during transmitting/receiving wireless signal condition, controller 50 receives the pulse signal of the first optical sensor 32 triggering, and controls First magnetic inductor 42 and the second magnetic inductor 44 change magnetic pole.When the second antenna 24 is in transmitting/receiving wireless signal condition When capped, controller 50 receives the pulse signal of the second optical sensor 34 triggering, and controls the first magnetic inductor 42 and second Magnetic inductor 44 changes magnetic pole.

In the present embodiment, this preferred Magnet of magnetic part 60.This magnetic part 60 is arranged above carrier 10, and its length is less than Spacing between the main paragraph 242 of the main part 222 of first antenna 22 and the second antenna 24, to be arranged at main part 222 and master Between body section 242.This magnetic part 60 also has the South Pole and two, arctic magnetic pole, and in the present embodiment, agreement magnetic part 60 is close One end of the main part 222 of first antenna 22 is the arctic, is the South Pole near one end of the main paragraph 242 of the second antenna 24.

The operation principle of this radio communication device 100 is further illustrated below：

In the present embodiment, give tacit consent to this first magnetic inductor 42 and the initial magnetic pole of the second magnetic inductor 44 be the arctic, Therefore magnetic part 60 will be adsorbed by the main paragraph 242 of the second antenna 24.So this first antenna 22 can receive and dispatch the first wireless signal（Example As WIFI signal）, and the current path that the second antenna 24 and magnetic part 60 are formed and second wireless singal（Such as gps signal） Wavelength become special ratios so that this second antenna 24 and magnetic part 60 can be used for receive and dispatch second wireless singal（Such as GPS believes Number）.

Refer to Fig. 3, when user needs to receive and dispatch second wireless singal by radio communication device 100（Such as GPS believes Number）When, the second antenna 24 is in receiving and transmitting signal state.If user handss grip radio communication device 100 and cause first antenna 22 are capped, now because first antenna 22 is not in receiving and transmitting signal state, therefore controller 50 will not start, do not interfere with the Second wireless singal normally received and dispatched by two antennas 24（Such as gps signal）.If user handss grip radio communication device 100 and cause Second antenna 24 is capped.Now, the second optical sensor 34 of neighbouring second antenna 24 setting will be because light is interrupted to control Device 50 start pulse signal processed.This controller 50 controls the first magnetic inductor 42 and the second magnetic inductor after receiving pulse signal 44 change magnetic poles, that is, control the first magnetic inductor 42 and the magnetic pole of the second magnetic inductor 44 to be changed into the South Pole by the arctic.Subsequently, The magnetic pole of one antenna 22 and the second antenna 24 is also changed into the South Pole, and such magnetic part 60 will be separated with the second antenna 24, and by first Antenna 22 adsorbs so that first antenna 22 and magnetic part 60 are used for receiving and dispatching second wireless singal（Such as gps signal）.In this respect Under, even if the second antenna 24 is capped, this radio communication device 100 may continue to receive and dispatch by first antenna 22 and magnetic part 60 Second wireless singal（Such as gps signal）, without affecting second wireless singal because the radiation efficiency of the second antenna 24 reduces （Such as gps signal）Transmitting-receiving.

Refer to Fig. 4, in the same manner, when user needs to receive and dispatch the first wireless signal by radio communication device 100（For example WIFI signal）When, first antenna 22 is in receiving and transmitting signal state.If user handss grip radio communication device 100 and cause the Two antennas 24 are capped, now because the second antenna 24 is not in receiving and transmitting signal state, therefore controller 50 will not start, will not Impact first antenna 22 normally receives and dispatches the first wireless signal（Such as WIFI signal）.If user handss grip radio communication device 100 and cause first antenna 22 be capped.Now, the first optical sensor 32 of neighbouring first antenna 22 setting will be hidden because of light Disconnected and to controller 50 start pulse signal.This controller 50 controls the first magnetic inductor 42 and second after receiving pulse signal Magnetic inductor 44 changes magnetic pole, that is, control the first magnetic inductor 42 and the magnetic pole of the second magnetic inductor 44 to be changed into south by the arctic Pole.Subsequently, the magnetic pole of first antenna 22 and the second antenna 24 is also changed into the South Pole, and such magnetic part 60 will be inhaled by first antenna 22 Attached, and separate with the second antenna 24 so that the second antenna 24 is used for transmitting-receiving the first wireless signal（Such as WIFI signal）.In this feelings Under shape, even if first antenna 22 is capped, this radio communication device 100 may continue to wireless by the second antenna 24 transmitting-receiving first Signal（Such as WIFI signal）, without affecting the first wireless signal because the radiation efficiency of first antenna 22 reduces（For example WIFI signal）Transmitting-receiving.

It is appreciated that the radio communication device 100 of this case also can give tacit consent to this first magnetic inductor 42 and the second magnetic inductor 44 initial magnetic pole is the South Pole, and now, the transmitting-receiving principle of wireless signal is same as described above, will not be described here.

It is appreciated that the radio communication device 100 of this case is not limited to receive and dispatch the first wireless signal or/and the second wireless communication Number it can also be used to transmitting-receiving the 3rd and above wireless signal, now only need to corresponding increase antenna over the carrier 10.

The radio communication device 100 of the present invention passes through neighbouring first antenna 22 and the second antenna 24 is respectively provided with the first light and passes Sensor 32 and the second optical sensor 34 so that when first antenna 22 or the second antenna 24 are capped, the first optical sensor 32 and Two optical sensor 34 start pulse signal, so that controller 50 controls the first magnetic inductor 42 and the second magnetic inductor 44 to change magnetic Pole, and then one of first antenna 22 and the second antenna 24 and magnetic part 60 are adsorbed, another is separated with magnetic part 60.So When user handheld redio communication device 100 affects wireless signal transmitting-receiving efficiency, this radio communication device 100 may be selected logical Cross first antenna 22 or the second antenna 24 switching transmitting/receiving wireless signal, or select the group by first antenna 22 and magnetic part 60 Close or the second antenna 24 switches transmitting/receiving wireless signal with combining of magnetic part 60, to ensure all stable connecing of energy under different conditions Receive wireless signal, be easy to radio communication device 100 and stably communicate.

Claims

1. a kind of radio communication device it is characterised in that：This radio communication device includes first antenna, the second antenna, the first light Sensor, the second optical sensor, the first magnetic inductor, the second magnetic inductor, controller and magnetic part, this first optical sensor and Second optical sensor is respectively adjacent to first antenna and the setting of the second antenna, this first magnetic inductor and the second magnetic inductor respectively with First antenna and the second antenna connect, and this magnetic part is arranged between first antenna and the second antenna, believe when being in transmitting/receiving wireless When the first antenna of number state or the second antenna are capped, the first optical sensor or the second optical sensor are used for controller triggering Pulse signal, controller is used for controlling this first magnetic inductor and the second magnetic inductor to change magnetic pole according to pulse signal, thus First antenna and the second antenna is controlled to change magnetic pole, so that one of first antenna and the second antenna are adsorbed with magnetic part, another Individual separate with magnetic part, and then select by first antenna and magnetic part combine or the second antenna and magnetic part combine switching Transmitting/receiving wireless signal.

2. radio communication device as claimed in claim 1 it is characterised in that：This first magnetic inductor and the second magnetic inductor are equal For Hall element.

3. radio communication device as claimed in claim 1 it is characterised in that：When controller receives the first optical sensor triggering Pulse signal, and when first antenna is in transmitting/receiving wireless signal condition, controller controls the first magnetic inductor and the second magnetic Induction apparatuss change magnetic pole；When controller receives the pulse signal of the second optical sensor triggering, and the second antenna is in transmitting-receiving no During line signal, controller controls the first magnetic inductor and the second magnetic inductor to change magnetic pole.

4. radio communication device as claimed in claim 1 it is characterised in that：This radio communication device also includes carrier, and this One antenna is identical with the shape of the second antenna, and initial magnetic pole is identical, and the two is respectively arranged at carrier two ends.

5. radio communication device as claimed in claim 4 it is characterised in that：This first antenna includes main part and joint portion, What this main part was straight is attached on carrier, and is electrically connected with carrier, this joint portion vertically arrange with main part on, this Two antennas include main paragraph and adapter section, and what this main paragraph was straight is attached on carrier, and are electrically connected with carrier, this adapter section Vertically in setting and main paragraph, and it is oppositely arranged with the joint portion of first antenna.

6. radio communication device as claimed in claim 5 it is characterised in that：This first magnetic inductor and the second magnetic inductor divide It is not connected with the main part of first antenna and the main paragraph of the second antenna.

7. radio communication device as claimed in claim 5 it is characterised in that：This magnetic part is arranged above carrier, magnetic part Length be less than spacing between the main part of first antenna and the main paragraph of the second antenna, to be arranged at main part and main paragraph Between.

8. radio communication device as claimed in claim 1 it is characterised in that：This first antenna and the second antenna are used for switching and receive Send out the first wireless signal, combining of this first antenna and magnetic part and combining for switching transmitting-receiving the of the second antenna and magnetic part Two wireless signals.