CN106331459A - Shooting system and mobile terminal - Google Patents

Abstract

The invention relates to a shooting system and a mobile terminal. The shooting system comprises a plurality of lenses, a common photosensitive element and a processor, wherein the lenses are connected with the common photosensitive element, and each of the lenses is used for collecting light within a respective shooting range so that the light can be projected to the common photosensitive element; the common photosensitive element is connected with the lenses and the processor and used for converting a light signal corresponding to the light collected by the target lens among the lenses into a target signal; the processor is connected with the common photosensitive element and a memory and used for instructing the memory to store the target signal so as to store shooting data of a to-be-shot object within the shooting range of the target lens. According to the technical scheme, due to the fact that the lenses share the same common photosensitive element rather than each lens is separately provided with a photosensitive element, the number of the photosensitive elements is reduced, occupation of too many photosensitive elements can be avoided, the area of a lens circuit board can be reduced to a certain extent, and meanwhile material cost is lowered.

Description

Camera system and mobile terminal

Technical field

It relates to technique for taking field, particularly relate to camera system and mobile terminal.

Background technology

Currently for the terminal of twin-lens, the design of its twin-lens is usually a preposition camera lens and a rearmounted camera lens, And camera lens and the accessory of the terminal of twin-lens are two independent grip assemblies respectively in correlation technique, this just wastes in mobile terminal Space, add the area of lens circuit plate, too increase Material Cost simultaneously, it addition, the preposition camera lens in correlation technique Pixel be usually less than the pixel of the latter's camera lens.

Summary of the invention

Disclosure embodiment provides camera system and mobile terminal.Described technical scheme is as follows:

First aspect according to disclosure embodiment, it is provided that a kind of camera system, including:

Multiple camera lenses, are connected with public photo-sensitive cell, and wherein, in the plurality of camera lens, each camera lens is used for gathering each Light in coverage so that described light is projected to described public photo-sensitive cell；

Described public photo-sensitive cell, is connected with the plurality of camera lens and processor, for by mesh in the plurality of camera lens The optical signal that light that index glass head collects is corresponding is converted to echo signal；

Described processor, is connected with described public photo-sensitive cell and memorizer, is used for indicating described memorizer to store institute State echo signal, to preserve the photographed data of the object to be captured in the coverage of described target camera lens.

In one embodiment, described public photo-sensitive cell specifically for:

Described optical signal is converted to the signal of telecommunication；

Described processor specifically for:

The described signal of telecommunication is converted to digital signal, and indicates described memorizer using described digital signal as described shooting Data store；

Or

Described public photo-sensitive cell specifically for:

After described optical signal is converted to the signal of telecommunication, the described signal of telecommunication is converted to digital signal；

Described processor specifically for:

Described memorizer is indicated to be stored as described photographed data by described digital signal.

In one embodiment, described camera system also includes:

Public data transmission line, is connected between described public photo-sensitive cell and described processor, for by described public The described echo signal that photo-sensitive cell obtains sends to described processor.

In one embodiment, described public photo-sensitive cell includes: multiple photosurfaces, wherein,

The number of the plurality of photosurface is identical with the number of the plurality of camera lens, each photosensitive in the plurality of photosurface The all corresponding camera lens in face.

In one embodiment, described camera system also includes:

Common control line, is connected between described public photo-sensitive cell and described processor, is used for receiving described processor The camera lens sent selects instruction, selects instruction to send to described public photo-sensitive cell on described camera lens；

Described public photo-sensitive cell is additionally operable to:

When receiving described camera lens and selecting instruction, control described camera lens and select the described target camera lens pair selected by instruction Described optical signal is converted to described echo signal by the light-sensitive element on target photosurface answered, and controls the plurality of photosensitive simultaneously In face, the light-sensitive element on other photosurfaces in addition to described target photosurface quits work.

In one embodiment, the distributed constant of the light-sensitive element on described each photosurface is identical, wherein, and described distribution Parameter includes: the distribution of the light-sensitive element on the number of the light-sensitive element on described each photosurface and described each photosurface is close Degree.

In one embodiment, described camera system also includes:

Multiple focusing motor, wherein, the number of the plurality of focusing motor is equal with the number of the plurality of camera lens, described A camera lens during one end of each focusing motor is mounted on the plurality of camera lens in multiple focusing motor, and described each right Burnt motor is respectively positioned between its camera lens installed and described public photo-sensitive cell, and

Described each focusing motor is used for:

When receiving the focus adjustment instruction that described processor sends, regulate its one end according to the instruction of described focus adjustment The focal length of the camera lens installed.

In one embodiment, described camera system also includes:

Multiple optical filters, wherein, the number of the plurality of optical filter is equal with the number of the plurality of camera lens, the plurality of A focusing motor during each optical filter is installed in described public photo-sensitive cell and the plurality of focusing motor in optical filter Between,

Described each optical filter is used for:

Described light through its immediate focusing motor is filtered, and the light after filtering is projected to described Public photo-sensitive cell.

In one embodiment, described camera system also includes:

Adapter, is arranged between described public photo-sensitive cell and described processor, and described adapter is by described public affairs It is connected with described public photo-sensitive cell with described common control line with data line.

In one embodiment, described public photo-sensitive cell is positioned on lens circuit plate, and described processor is positioned on mainboard.

In one embodiment, the plurality of camera lens includes preposition camera lens and rearmounted camera lens, described preposition camera lens and rearmounted Camera lens is integrally constituted formula structure；

Described public photo-sensitive cell includes: photosensitive sensor.

Second aspect according to disclosure embodiment, it is provided that a kind of mobile terminal, including: including: such as technique scheme According to any one of camera system.

Embodiment of the disclosure that the technical scheme of offer can include following beneficial effect:

Embodiment of the disclosure the technical scheme of offer, by for one public photo-sensitive cell of multiple lens design so that In multiple camera lenses, each camera lens all can gather the light in respective coverage, and the light so collected passes corresponding camera lens The most just can be projected to this public photo-sensitive cell so that the optical signal corresponding to this light is converted to mesh by this public photo-sensitive cell Mark signal, and then processor can indicate memorizer to store echo signal, to be captured with preserve in the coverage of target camera lens The photographed data of object, thus complete to treat the shooting of reference object by target camera lens, this public photo-sensitive cell and processor Operation, and due to multiple camera lenses public be same public photo-sensitive cell rather than each camera lens has all been configured separately one Photo-sensitive cell, thus, which reduce the number of photo-sensitive cell, can avoid taking Multi sensor, it is possible to a certain degree The area of upper minimizing lens circuit plate, also reduces Material Cost simultaneously.

It should be appreciated that it is only exemplary and explanatory, not that above general description and details hereinafter describe The disclosure can be limited.

Accompanying drawing explanation

Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meet the enforcement of the disclosure Example, and for explaining the principle of the disclosure together with description.

Fig. 1 is the structured flowchart according to a kind of camera system shown in an exemplary embodiment.

Fig. 2 is the structured flowchart according to the another kind of camera system shown in an exemplary embodiment.

Fig. 3 is the structured flowchart according to another camera system shown in an exemplary embodiment.

Fig. 4 is the structured flowchart according to another camera system shown in an exemplary embodiment.

Fig. 5 is the structured flowchart according to another camera system shown in an exemplary embodiment.

Fig. 6 is the structured flowchart according to another camera system shown in an exemplary embodiment.

Fig. 7 is the mounting structure schematic diagram according to a kind of camera system shown in an exemplary embodiment.

Fig. 8 is the structured flowchart according to a kind of terminal shown in an exemplary embodiment.

Detailed description of the invention

Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Explained below relates to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the disclosure.On the contrary, they are only with the most appended The example of the device that some aspects that described in detail in claims, the disclosure are consistent.

Currently for the terminal of twin-lens, the design of its twin-lens is usually a preposition camera lens and a rearmounted camera lens, And camera lens and the accessory of the terminal of twin-lens are two independent grip assemblies respectively in correlation technique, i.e. in the terminal of twin-lens respectively There are the independent photo-sensitive cell of the independent camera lens of two sets, two sets, the control line of the data line of two groups of independences, even two groups of independences Deng, this just wastes the space in mobile terminal, adds the area of lens circuit plate, too increases Material Cost simultaneously, separately Outward, the pixel of the preposition camera lens in correlation technique is usually less than the pixel of the latter's camera lens.

In order to solve above-mentioned technical problem, disclosure embodiment provides a kind of camera system, as it is shown in figure 1, this shooting System includes multiple camera lens 101, public photo-sensitive cell 102 and processor 103:

Multiple camera lenses 101, are connected with public photo-sensitive cell 102, and wherein, in multiple camera lenses 101, each camera lens is used for adopting Collect the light in respective coverage so that light is projected to public photo-sensitive cell 102；

The coverage of each camera lens may be different, and the object to be captured in each camera lens each coverage may not With, as when multiple camera lenses include preposition camera lens (also known as front-facing camera) and rearmounted camera lens (also known as putting photographic head), preset lens Object to be captured in the coverage of head and the object to be captured in the coverage of rearmounted camera lens are exactly different, such as, Object to be captured in the coverage of preposition camera lens is usually face, and the object to be captured in the coverage of rearmounted camera lens The object that generally can watch for people (as object, animal or other people etc.), certainly, several mirrors in the plurality of camera lens Object to be captured in the coverage of head is it is also possible to identical.

Public photo-sensitive cell 102, is connected with multiple camera lenses 101 and processor 103, for by mesh in multiple camera lenses 101 The optical signal that light that index glass head collects is corresponding is converted to echo signal；

Wherein, this echo signal can be the signal of telecommunication or digital signal.

Light in its coverage that camera lens arbitrary in multiple camera lenses can be collected by public photo-sensitive cell 102 is corresponding Optical signal be converted to echo signal, and target camera lens is several camera lenses in multiple camera lens.

Certainly, the determination of this target camera lens can come from the camera lens selection instruction of user, as selected preposition camera lens as user During shooting, will generate for selecting the camera lens of preposition camera lens to select instruction.

Processor 103, is connected with public photo-sensitive cell 102 and memorizer, is used for indicating memorizer to store echo signal, With the photographed data of the object to be captured in the coverage of preservation target camera lens, wherein, processor 103 indicates memorizer to store This echo signal, similar with correlation technique to preserve the process of photographed data, and to be captured in the coverage of target camera lens Object can be one or more, and photographed data can be the image about this object to be captured or video.

By designing a public photo-sensitive cell 102 for multiple camera lenses 101 so that in multiple camera lenses 101, each camera lens is equal Can gather the light in respective coverage, it is public that the light so collected just can be projected to this after passing corresponding camera lens Photo-sensitive cell 102 so that the optical signal corresponding to this light is converted to echo signal, and then place by this public photo-sensitive cell 102 Reason device 103 can indicate memorizer to store echo signal, to preserve the shooting of the object to be captured in the coverage of target camera lens Data, thus complete to treat the shooting operation of reference object by target camera lens, this public photo-sensitive cell 102 and processor 103, And due to multiple camera lenses 101 public be same public photo-sensitive cell 102 rather than each camera lens has all been configured separately one Individual photo-sensitive cell, thus, which reduce the number of photo-sensitive cell, can avoid taking Multi sensor, it is possible in certain journey Reducing the area of lens circuit plate on degree, also reduce Material Cost simultaneously, certainly, this can also reduce terminal inner space Take.

In one embodiment, public photo-sensitive cell 102 specifically for:

Convert optical signals to the signal of telecommunication；

Processor 103 specifically for:

Convert electrical signals to digital signal, and indicate memorizer to be stored as photographed data by digital signal；

The effect of this public photo-sensitive cell 102 can be to convert optical signals into the signal of telecommunication, and then should by processor 103 After the signal of telecommunication is converted into digital signal, digital signal is stored, certainly, in order to reduce by instruction memorizer as photographed data Memory space shared by this digital signal, when memorizer stores this digital signal, it is also possible to be compressed by this digital signal After store again.

Or

Public photo-sensitive cell 102 specifically for:

After converting optical signals to the signal of telecommunication, convert electrical signals to digital signal；

Processor 103 specifically for:

Digital signal is stored by instruction memorizer as photographed data.

The effect of this public photo-sensitive cell 102 can also is that after this optical signal is converted to the signal of telecommunication, then by this electricity Signal is converted to digital signal, and such processor 103 just can directly indicate memorizer using this digital signal as photographed data Store.

As in figure 2 it is shown, in one embodiment, above-mentioned camera system may also include public data transmission line 201:

Public data transmission line 201, is connected between public photo-sensitive cell 102 and processor 103, for by public photosensitive The echo signal that element 102 obtains sends to processor 103.

By designing one group of public data transmission line 201 between public photo-sensitive cell 102 and processor 103 so that appoint Echo signal corresponding to light that one camera lens collects, all can be by this public photo-sensitive cell when being sent to processor 103 102 send, and need not configure the data line of one group of independence for each camera lens, which reduce photo-sensitive cell and processor The number of the data line between 103, reduces the complexity of lens circuit plate upward wiring, also saves material simultaneously This.

In one embodiment, public photo-sensitive cell 102 includes: multiple photosurfaces, wherein,

The number of multiple photosurfaces is identical with the number of multiple camera lenses, each photosurface in multiple photosurfaces all corresponding Individual camera lens.

Public photo-sensitive cell 102 is stereochemical structure, including multiple photosurfaces the same number of with camera lens so that each camera lens The light collected all can be projected on corresponding photosurface, and then by the light-sensitive element on this photosurface by each camera lens The optical signal that the light that collects is corresponding is converted to echo signal, and so, no matter which camera lens user selects, all can be by these public affairs Conversion and the process of signal is completed, it is achieved shoot function with photo-sensitive cell 102.

As in figure 2 it is shown, in one embodiment, camera system also includes:

Common control line 202, is connected between public photo-sensitive cell and processor, for receiving the camera lens that processor sends Select instruction, select instruction to send to public photo-sensitive cell on camera lens；

Public photo-sensitive cell 102 is additionally operable to:

When receiving camera lens and selecting instruction, control camera lens and select the target that the target camera lens selected by instruction is corresponding photosensitive Light-sensitive element on face converts optical signals to echo signal, controls in multiple photosurface its in addition to target photosurface simultaneously Light-sensitive element on his photosurface quits work.

The selection instruction of this camera lens can come from the camera lens of user's input and selects operation, i.e. terminal receiving camera lens selection behaviour When making, this camera lens can be generated by processor 103 and select the camera lens corresponding to operation to select instruction, as when the plurality of camera lens 101 Including respectively: when A camera lens, B camera lens and C camera lens, if user inputs the operation selecting A camera lens, then processor 103 can generate use Selecting instruction in the camera lens selecting A camera lens, this camera lens selects the target camera lens selected by instruction to be exactly A camera lens, if user is defeated Enter to select the operation of B camera lens, then processor 103 can generate for selecting the camera lens of B camera lens to select instruction, and this camera lens selects instruction Selected target camera lens is exactly B camera lens.

After designing one group of common control line 202 between public photo-sensitive cell 102 and processor 103, no matter processor 103 send for selecting the camera lens of which camera lens to select instruction, all can be sent to public photosensitive unit by this common control line 202 Part 102, the public layout type of this control line is compared to needing in correlation technique to configure one group of independence for each camera lens Select the control line of instruction for transmitting camera lens for, it is possible to reduce the number of the control line between photo-sensitive cell and processor 103 Mesh, reduces the complexity of lens circuit plate upward wiring, also saves Material Cost simultaneously.

It addition, when receiving this camera lens and selecting instruction, illustrate that user expects that shooting this camera lens selects corresponding to instruction Object to be captured in the coverage of target camera lens, and the object to be captured in other lens coverages is not clapped Take the photograph, thus only obtain the photographed data of the object to be captured in the coverage of target camera lens, thus, public photo-sensitive cell 102 When receiving this camera lens and selecting instruction, at the light-sensitive element controlled on the target photosurface that target camera lens is corresponding, optical signal is turned While being changed to echo signal, the light-sensitive element on other photosurfaces in addition to target photosurface can be controlled in multiple photosurface Quitting work, thus normally work by controlling the light-sensitive element in target photosurface, the light-sensitive element in other photosurfaces is temporary Do not work, it is achieved the shooting to the object to be captured in target lens coverage, and do not shoot in other lens coverages Object to be captured.

In one embodiment, the distributed constant of the light-sensitive element on each photosurface is identical, wherein, and distributed constant bag Include: the distribution density of the light-sensitive element on the number of the light-sensitive element on each photosurface and each photosurface.

Due to the corresponding pixel of a light-sensitive element, thus, the number of the light-sensitive element on each photosurface is identical, makes The number of pixels of every two field picture in the light correspondence photographed data that collects of each camera lens is identical, simultaneously because each photosensitive The distribution density of the light-sensitive element on face is the most identical, thus, every in the photographed data that light that each camera lens collects is corresponding Two field picture can reach equal shooting clear degree.

As it is shown on figure 3, in one embodiment, camera system may also include multiple focusing motor 301:

Multiple focusing motor 301, wherein, the number of multiple focusing motor 301 is equal with the number of multiple camera lenses 101, many A camera lens during one end of each focusing motor is mounted on multiple camera lens 101 in individual focusing motor 301, and each focusing horse Reach and be respectively positioned between its camera lens installed and public photo-sensitive cell, and

Each focusing motor is used for:

When receiving the focus adjustment instruction that processor 103 sends, regulate its one end according to focus adjustment instruction and pacified The focal length of the camera lens of dress, wherein, the instruction of this focus adjustment can be transmitted by the connecting line between processor 103 and focusing motor To corresponding focusing motor, the arrangement of the connecting line between processor 103 and focusing motor is similar with correlation technique, herein Repeating no more, certainly, Fig. 1 to Fig. 8 does not shows that yet.

Each focusing motor is for when receiving the focus adjustment instruction that processor 103 sends, according to this focus adjustment Instruction is automatically adjusted the focal length of camera lens mounted thereto, so that this object to be captured of capturing of the camera lens after Tiao Jie The definition of the shooting picture that light is formed is higher.

Wherein, the light through target camera lens comprehends shape through a series of place after being projected to public photo-sensitive cell 102 Becoming a preliminary picture, at this moment processor 103 can judge whether the definition of this picture meets requirement, if being unsatisfactory for requirement Focus adjustment instruction will be generated, regulate the focal length of this camera lens controlling corresponding focusing motor.

Further, since one end of each focusing motor is mounted on a camera lens, and each focusing motor all designs in public affairs With between photo-sensitive cell 102 and camera lens mounted thereto, thus, the light through camera lens is projected to public photo-sensitive cell 102 Before, the through hole of the focusing motor that also can be connected through this camera lens, and then it is projected to this mirror on this public photo-sensitive cell 102 again On the photosurface that head is tackled.

As shown in Figure 4, in one embodiment, camera system may also include multiple optical filter 401:

Multiple optical filters 401, wherein, the number of multiple optical filters 401 is equal with the number of multiple camera lenses 101, multiple filters A focusing motor during each optical filter is installed in public photo-sensitive cell 102 and multiple focusing motor 301 in mating plate 401 it Between,

Each optical filter is used for:

Light through its immediate focusing motor is filtered, and will filter after light be projected to public photosensitive Element 102.

Light is before being projected to public photo-sensitive cell 102 through the focusing motor of each optical filter, it is also possible to use with The optical filter of focusing motor next-door neighbour filters, thus the light after filtering is projected to public photo-sensitive cell 102, to realize Decay to a certain extent light intensity, improve spectral component so that the quality of the shooting picture shot is more preferable, it is possible to meet The shooting demand of user.

Certainly, each optical filter can filter out which part light in light, depends on the filtering feature of each optical filter, simultaneously In multiple optical filters 401, the filtering feature of different optical filters may be different, namely different optical filter can filter out different light, Such as: the optical filter having possibly filters out ultraviolet light influential on camera lens, some optical filters possibly filter out gold-tinted, some filters Mating plate possibly filters out infrared ray etc..

As it is shown in figure 5, in one embodiment, camera system may also include adapter 501:

Adapter 501, is arranged between public photo-sensitive cell 102 and processor 103, and adapter 501 is by public number It is connected with public photo-sensitive cell 102 with common control line 202 according to transmission line 201.

If due to public photo-sensitive cell 102 directly by public data transmission line 201 and common control line 202 and process Device 103 is connected, and public data transmission line 201 and common control line 202 may be caused long, therefore, it is possible to public photosensitive Adapter 501 is installed, as Intermediate connection device, to avoid public data transmission line 201 between element 102 and processor 103 Long with common control line 202, just it is connected by one group of cabling between the most public photo-sensitive cell 102 and adapter 501, when So, this group cabling includes: be used for transmitting the public data transmission line 201 of data (such as echo signal) and being used for transmitting control instruction The common control line 202 of (as camera lens selects instruction).

Certainly, (this group transmission line is also included in can also to pass through one group of transmission line between adapter 501 and processor 103 Transmit the public data transmission line of data and the common control line being used for transmitting control instruction (selecting instruction etc. such as camera lens)) it is connected Connecing, this cabling layout type all configures one group of independence compared to needing in correlation technique for camera lens each in multiple camera lenses For data line and control line, the cabling complexity on mainboard can be reduced, save further and space is taken and thing The consumption of material.

As shown in Figure 6 and Figure 7, in one embodiment, public photo-sensitive cell 102 is positioned on lens circuit plate, processor 103 it is positioned on mainboard and (wherein, Fig. 6 and Fig. 7 to have been omitted from processor 103 and mainboard, and the installation of processor 103 and mainboard is closed System can be similar with correlation technique with the annexation of adapter 501 with processor 103, and here is omitted).

Adapter 501 and public photo-sensitive cell 102 are respectively positioned on lens circuit plate, i.e. PCB (Printed Circuit Board, printed circuit board), simultaneously as the public photo-sensitive cell of multiple camera lens 101, thus, photo-sensitive cell The pin of 102 is distributed on the edge of its surrounding, is also equipped with perforate on pcb board simultaneously, in order to public photo-sensitive cell 102 energy Enough it is welded on pcb board.

In one embodiment, multiple camera lenses 101 include preposition camera lens and rearmounted camera lens, preposition camera lens and rearmounted camera lens structure It is integrally forming formula structure；

Preposition camera lens and rearmounted camera lens composition can reduce further with integral structure and take terminal inner space.

Public photo-sensitive cell 102 includes: photosensitive sensor, and wherein, photosensitive sensor can be CCD image sensor (Charge Coupled Device, Charge Coupled Device (CCD)).

Wherein, Fig. 6 and Fig. 7 shows, when multiple camera lenses 101 include preposition camera lens 1011 and rearmounted camera lens 1012, and focusing Motor 301 includes that preposition focusing motor 3011 and rearmounted focusing motor 3012, multiple optical filters 401 include front filter 4011 He During rear optical filter 4012, the structural representation of camera system, and from figure 7, it is seen that adapter 501 may be installed flexible PCB On, so, the position of adapter 501 is the freest, it is not necessary to certain and pcb board is in a plane, and public data transmission The layout type of line 201 and common control line 202 also the most freely, can be with free folding.

Certainly, it should be understood that

Photosensitive sensor welding pin in Fig. 7 is for being soldered to pcb board by photosensitive sensor, and focusing motor solder joint is also For welding focusing motor pin with fixing corresponding focusing motor, certainly, in order to preferably fix front filter 4011 and after Optical filter 4012, can be respectively preposition focusing motor 3011 and rearmounted focusing motor 3012 configures corresponding motor base, its In, the motor base of preposition focusing motor 3011 can be arranged between prefilter 4011 and photosensitive sensor, can on it To arrange the installing hole that the position of the pin with preposition focusing motor 3011 matches, in order to drawing of preposition focusing motor 3011 Foot can be fixed on corresponding focusing motor solder joint after the installing hole inserted on motor base, thus by preposition optical filtering Sheet 4011 is fixed between preposition focusing motor 3011 and its base, similarly, and the motor base of rearmounted focusing motor 3012 Position and design, similar, the most no longer with the position of the motor base of preposition focusing motor 3011 described above and design Repeat；

It addition, in the camera system shown in Fig. 7, eliminate public data transmission line 201 and common control line 202, and In Fig. 7, on pcb board, the dashed rectangle region of display is hollow, and the distributed about of dashed rectangle region has and photosensitive sensor Solder joint that welding pin position is corresponding and focusing motor solder joint, so, the welding pin of photosensitive sensor is solderable is connected to pcb board On dashed rectangle region corresponding solder joint distributed about on so that photosensitive sensor be fixed on pcb board shown Time in virtual rectangle regional extent, two photosurfaces of photosensitive sensor can lay respectively at the both sides of pcb board (simply in Fig. 7 Only draw the photosurface being positioned on the upside of pcb board corresponding with preposition camera lens 1011 on photosensitive sensor, do not show that photosensitive sensing Another photosurface being positioned at pcb board opposite side (i.e. downside) corresponding with rearmounted camera lens 1012 on device), respectively with preposition camera lens 1011 and rearmounted camera lens 1012 corresponding, so that preposition camera lens 1011 and rearmounted camera lens 1012 can this photosensitive sensings public (certainly, in order to fix rearmounted focusing motor 3012, the back side of pcb board is positioned on the relevant position around dashed rectangle region device It is also configured with focusing motor solder joint, to fix rearmounted focusing motor 3012 by welding rear lens focusing motor pin, simply Fig. 7 does not shows that).

Finally, multiple camera lenses may be located on the side of pcb board, and as being positioned at the upside of pcb board, so, multiple camera lenses can To be distributed over around multiple photosurfaces of pcb board side so that each camera lens can distinguish a corresponding photosurface.

The disclosure additionally provides a kind of mobile terminal, including: the camera system as any one of technique scheme, its In, this mobile terminal can be mobile phone, panel computer etc., such as: can be to be provided with the mobile phone of dual camera, panel computer Deng.

This mobile terminal includes the camera system as any one of technique scheme, thus, it camera system included Structure and effect the most above-mentioned any one technical scheme, here is omitted.

Fig. 8 is according to a kind of block diagram for mobile terminal 800 shown in an exemplary embodiment, and this device is applicable to end End equipment.Such as, device 800 can be mobile phone, computer, digital broadcast terminal, messaging devices, and game controls Platform, tablet device, armarium, body-building equipment, individual number assistant etc..

With reference to Fig. 8, device 800 can include with next or at least two assembly: process assembly 802, memorizer 804, Power supply module 806, multimedia groupware 808, audio-frequency assembly 810, input/output (I/O) interface 812, sensor cluster 814, with And communications component 816.

Process assembly 802 and generally control the integrated operation of device 800, such as with display, call, data communication, phase The operation that machine operation and record operation are associated.Process assembly 802 and can include one or at least two processor 820 performs Instruction, to complete all or part of function of above-mentioned system.Additionally, process assembly 802 can include one or at least two Module, it is simple to process between assembly 802 and other assemblies is mutual.Such as, process assembly 802 and can include multi-media module, With facilitate multimedia groupware 808 and process between assembly 802 mutual.

Memorizer 804 is configured to store various types of data to support the operation at device 800.Showing of these data Example include on device 800 operation any storage object or the instruction of method, contact user data, telephone book data, Message, picture, video etc..Memorizer 804 can by any kind of volatibility or non-volatile memory device or they Combination realizes, such as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), erasable can Program read-only memory (EPROM), programmable read only memory (PROM), read only memory (ROM), magnetic memory, flash memory Reservoir, disk or CD.

The various assemblies that power supply module 806 is device 800 provide power supply.Power supply module 806 can include power management system System, one or at least two power supply, and other generate, manage and distribute, with for device 800, the assembly that power supply is associated.

The screen of one output interface of offer that multimedia groupware 808 is included between described device 800 and user.One In a little embodiments, screen can include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel, screen Curtain may be implemented as touch screen, to receive the input signal from user.Touch panel includes one or at least two touch Sensor is with the gesture on sensing touch, slip and touch panel.Described touch sensor can not only sense touch or slide The border of action, but also detect the persistent period relevant to described touch or slide and pressure.In certain embodiments, Multimedia groupware 808 includes a preposition camera lens and/or rearmounted camera lens.When device 800 is in operator scheme, such as screening-mode or During video mode, preposition camera lens and/or rearmounted camera lens can receive the multi-medium data of outside.Each preposition camera lens and rearmounted mirror Head can be a fixing optical lens system or have focal length and optical zoom ability.

Audio-frequency assembly 810 is configured to output and/or input audio signal.Such as, audio-frequency assembly 810 includes a Mike Wind (MIC), when device 800 is in operator scheme, during such as call model, logging mode and speech recognition mode, mike is joined It is set to receive external audio signal.The audio signal received can be further stored at memorizer 804 or via communication set Part 816 sends.In certain embodiments, audio-frequency assembly 810 also includes a speaker, is used for exporting audio signal.

I/O interface 812 provides interface for processing between assembly 802 and peripheral interface module, above-mentioned peripheral interface module can To be keyboard, put striking wheel, button etc..These buttons may include but be not limited to: home button, volume button, start button and lock Set button.

Sensor cluster 814 includes one or at least two sensor, for providing the state of various aspects for device 800 Assessment.Such as, what sensor cluster 814 can detect device 800 opens/closed mode, the relative localization of assembly, such as institute Stating display and keypad that assembly is device 800, sensor cluster 814 can also detect device 800 or 800 1 groups of device The position change of part, the presence or absence that user contacts with device 800, device 800 orientation or acceleration/deceleration and device 800 Variations in temperature.Sensor cluster 814 can include proximity transducer, is configured to when not having any physical contact examine The existence of object near surveying.Sensor cluster 814 can also include optical sensor, such as CMOS or ccd image sensor, is used for Imaging applications uses.In certain embodiments, this sensor cluster 814 can also include acceleration transducer, and gyroscope passes Sensor, Magnetic Sensor, pressure transducer or temperature sensor.

Communications component 816 is configured to facilitate the communication of wired or wireless mode between device 800 and other equipment.Device 800 can access wireless network based on communication standard, such as WiFi, 2G or 3G, or combinations thereof.An exemplary enforcement In example, communications component 816 receives the broadcast singal from external broadcasting management system or broadcast related information via broadcast channel. In one exemplary embodiment, described communications component 816 also includes near-field communication (NFC) module, to promote junction service.Example As, can be based on RF identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, Bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 800 can be by one or at least two application specific integrated circuit (ASIC), number Word signal processor (DSP), digital signal processing appts (DSPD), PLD (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic building bricks realize, for realizing the function of said system.

In the exemplary embodiment, a kind of non-transitory computer-readable recording medium including instruction, example are additionally provided As included the memorizer 804 of instruction, above-mentioned instruction can have been performed the function of said system by the processor 820 of device 800. Such as, described non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, Floppy disk and optical data storage devices etc..

Art technology user person, after considering description and putting into practice disclosure disclosed herein, will readily occur to the disclosure Other embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modification, purposes Or adaptations follow the disclosure general principle and include the disclosure undocumented in the art known often Know or conventional techniques means.Description and embodiments is considered only as exemplary, and the true scope of the disclosure and spirit are by following Claim point out.

It should be appreciated that the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and And various modifications and changes can carried out without departing from the scope.The scope of the present disclosure is only limited by appended claim.

Claims (12)

1. a camera system, it is characterised in that including:

Multiple camera lenses, are connected with public photo-sensitive cell, and wherein, in the plurality of camera lens, each camera lens is used for gathering each shooting In the range of light so that described light is projected to described public photo-sensitive cell；

Described public photo-sensitive cell, is connected with the plurality of camera lens and processor, for by target mirror in the plurality of camera lens The optical signal that the light that collects of head is corresponding is converted to echo signal；

Described processor, is connected with described public photo-sensitive cell and memorizer, is used for indicating described memorizer to store described mesh Mark signal, to preserve the photographed data of the object to be captured in the coverage of described target camera lens.

Camera system the most according to claim 1, it is characterised in that

Described public photo-sensitive cell specifically for:

Described optical signal is converted to the signal of telecommunication；

Described processor specifically for:

The described signal of telecommunication is converted to digital signal, and indicates described memorizer using described digital signal as described photographed data Store；

Or

Described public photo-sensitive cell specifically for:

After described optical signal is converted to the signal of telecommunication, the described signal of telecommunication is converted to digital signal；

Described processor specifically for:

Described memorizer is indicated to be stored as described photographed data by described digital signal.

Camera system the most according to claim 1 and 2, it is characterised in that described camera system also includes:

Public data transmission line, is connected between described public photo-sensitive cell and described processor, for by described public photosensitive The described echo signal that element obtains sends to described processor.

Camera system the most according to claim 3, it is characterised in that

Described public photo-sensitive cell includes: multiple photosurfaces, wherein,

The number of the plurality of photosurface is identical with the number of the plurality of camera lens, and in the plurality of photosurface, each photosurface is equal A corresponding camera lens.

Camera system the most according to claim 4, it is characterised in that described camera system also includes:

Common control line, is connected between described public photo-sensitive cell and described processor, is used for receiving described processor and sends Camera lens select instruction, select instruction to send to described public photo-sensitive cell on described camera lens；

Described public photo-sensitive cell is additionally operable to:

When receiving described camera lens and selecting instruction, control described camera lens and select the described target camera lens selected by instruction corresponding Described optical signal is converted to described echo signal by the light-sensitive element on target photosurface, controls in the plurality of photosurface simultaneously The light-sensitive element on other photosurfaces in addition to described target photosurface quits work.

Camera system the most according to claim 4, it is characterised in that

The distributed constant of the light-sensitive element on described each photosurface is identical, and wherein, described distributed constant includes: described each sense The distribution density of the light-sensitive element on the number of the light-sensitive element on bright finish and described each photosurface.

Camera system the most according to claim 1, it is characterised in that described camera system also includes:

Multiple focusing motor, wherein, the number of the plurality of focusing motor is equal with the number of the plurality of camera lens, the plurality of A camera lens during one end of each focusing motor is mounted on the plurality of camera lens in focusing motor, and described each focusing horse Reach and be respectively positioned between its camera lens installed and described public photo-sensitive cell, and

Described each focusing motor is used for:

When receiving the focus adjustment instruction that described processor sends, regulate its one end according to the instruction of described focus adjustment and pacified The focal length of the camera lens of dress.

Camera system the most according to claim 7, it is characterised in that described camera system also includes:

Multiple optical filters, wherein, the number of the plurality of optical filter is equal with the number of the plurality of camera lens, the plurality of optical filtering Between a focusing motor during each optical filter is installed in described public photo-sensitive cell and the plurality of focusing motor in sheet,

Described each optical filter is used for:

Described light through its immediate focusing motor is filtered, and will filter after light be projected to described public Photo-sensitive cell.

9. according to the camera system according to any one of claim 5 to 8, it is characterised in that described camera system also includes:

Adapter, is arranged between described public photo-sensitive cell and described processor, and described adapter is by described public number It is connected with described public photo-sensitive cell with described common control line according to transmission line.

10. according to the camera system according to any one of claim 5 to 8, it is characterised in that

Described public photo-sensitive cell is positioned on lens circuit plate, and described processor is positioned on mainboard.

11. according to the camera system according to any one of claim 5 to 8, it is characterised in that

The plurality of camera lens includes that preposition camera lens and rearmounted camera lens, described preposition camera lens and rearmounted camera lens are integrally constituted formula knot Structure；

Described public photo-sensitive cell includes: photosensitive sensor.

12. 1 kinds of mobile terminals, it is characterised in that including: the camera system as according to any one of claim 1 to 11.