WO2022257715A1 - 感光芯片驱动装置及摄像模组 - Google Patents
感光芯片驱动装置及摄像模组 Download PDFInfo
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- WO2022257715A1 WO2022257715A1 PCT/CN2022/093534 CN2022093534W WO2022257715A1 WO 2022257715 A1 WO2022257715 A1 WO 2022257715A1 CN 2022093534 W CN2022093534 W CN 2022093534W WO 2022257715 A1 WO2022257715 A1 WO 2022257715A1
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- Prior art keywords
- fixed base
- movable carrier
- magnet
- coil
- carrier
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- 230000003287 optical effect Effects 0.000 claims abstract description 92
- 230000007246 mechanism Effects 0.000 claims abstract description 64
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- 238000001746 injection moulding Methods 0.000 claims description 2
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
- H04N23/54—Mounting of pick-up tubes, electronic image sensors, deviation or focusing coils
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
- G02B27/64—Imaging systems using optical elements for stabilisation of the lateral and angular position of the image
- G02B27/646—Imaging systems using optical elements for stabilisation of the lateral and angular position of the image compensating for small deviations, e.g. due to vibration or shake
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B7/00—Mountings, adjusting means, or light-tight connections, for optical elements
- G02B7/02—Mountings, adjusting means, or light-tight connections, for optical elements for lenses
- G02B7/04—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B7/00—Mountings, adjusting means, or light-tight connections, for optical elements
- G02B7/02—Mountings, adjusting means, or light-tight connections, for optical elements for lenses
- G02B7/04—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification
- G02B7/08—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification adapted to co-operate with a remote control mechanism
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B7/00—Mountings, adjusting means, or light-tight connections, for optical elements
- G02B7/02—Mountings, adjusting means, or light-tight connections, for optical elements for lenses
- G02B7/04—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification
- G02B7/09—Mountings, adjusting means, or light-tight connections, for optical elements for lenses with mechanism for focusing or varying magnification adapted for automatic focusing or varying magnification
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B13/00—Viewfinders; Focusing aids for cameras; Means for focusing for cameras; Autofocus systems for cameras
- G03B13/32—Means for focusing
- G03B13/34—Power focusing
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B3/00—Focusing arrangements of general interest for cameras, projectors or printers
- G03B3/10—Power-operated focusing
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B5/00—Adjustment of optical system relative to image or object surface other than for focusing
-
- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
- G03B5/00—Adjustment of optical system relative to image or object surface other than for focusing
- G03B5/02—Lateral adjustment of lens
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K41/00—Propulsion systems in which a rigid body is moved along a path due to dynamo-electric interaction between the body and a magnetic field travelling along the path
- H02K41/02—Linear motors; Sectional motors
- H02K41/035—DC motors; Unipolar motors
- H02K41/0352—Unipolar motors
- H02K41/0354—Lorentz force motors, e.g. voice coil motors
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
- H04N23/55—Optical parts specially adapted for electronic image sensors; Mounting thereof
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/57—Mechanical or electrical details of cameras or camera modules specially adapted for being embedded in other devices
Definitions
- the invention relates to the technical field of camera modules, in particular to a photosensitive chip drive device and a camera module.
- a miniaturized and lightweight camera module is an indispensable component.
- at least one camera module is configured on a portable terminal body.
- higher requirements are put forward for features such as high pixel and high frame rate of camera modules, which is an irreversible development trend of existing camera modules.
- the motor is an indispensable component of the high-pixel camera module.
- the motor can drive the lens to move in multiple directions to realize the optical autofocus function (hereinafter referred to as the AF function, Auto Focus) during the shooting process.
- autofocus and optical image stabilization function
- OIS function optical Image Stabilization, optical image stabilization
- the AF function refers to the motor to make the bracket with the lens move linearly in the direction of the optical axis to focus on the subject , to produce sharp images at the image sensor (CMOS, CCD, etc.) located behind the lens.
- the OIS function refers to the function of improving the image definition by adaptively moving the bracket with the lens in the direction of compensating the shake when the lens shakes due to the shake.
- An object of the present invention is to provide a photosensitive chip drive device and a camera module, which facilitates maintaining the stability of the movable carrier in the camera module through the magnetic attraction force generated between the magnetic attraction member and the magnet along the optical axis direction, and keeps the The effect in the medium can effectively prevent the photosensitive component with the movable carrier from falling off when the camera module is shaken or turned upside down.
- Another object of the present invention is to provide a photosensitive chip drive device and a camera module.
- Another object of the present invention is to provide a photosensitive chip drive device and a camera module, which have a simple structure, can ensure the miniaturization of the camera module, and realize the anti-shake correction function and reset function of the photosensitive component on the plane perpendicular to the optical axis, and The AF function of the lens in the direction of the optical axis.
- Another object of the present invention is to provide a photosensitive chip drive device and a camera module, which can ensure displacement accuracy and reduce friction through the supporting mechanism and guide groove, so as to facilitate the improvement of the anti-shake stroke of the camera module.
- a photosensitive chip driving device includes a movable carrier, a fixed base, a driving mechanism, a guide groove, a supporting mechanism and a magnetic attraction member
- the movable carrier is used to carry the photosensitive component
- the fixed base and the movable carrier are disposed opposite to each other at intervals along the optical axis
- the driving mechanism includes at least one set of coils and at least one set of magnets
- the magnets are installed on the peripheral side of the fixed base, so At least one group of the coils is installed on the peripheral side of the movable carrier
- the guide groove is arranged between the movable carrier and the fixed base
- the supporting mechanism is movably arranged in the guide groove
- the magnetic attraction member is installed on the movable carrier and arranged opposite to the magnet, so that a magnetic attraction force along the optical axis direction can be generated between the magnetic attraction member and the magnet, so that the support mechanism can be clamped held between the fixed base and the movable carrier
- the at least one group of coils includes at least one second coil
- the second coil is installed on the peripheral side of the movable carrier
- the magnet and the second coil are arranged axially relative to each other
- the first The second coil and the magnet form a second magnetic field circuit, which can drive the movable carrier to displace along the plane perpendicular to the optical axis relative to the fixed base, and correct the vibration of the photosensitive component.
- the photosensitive component of the movable carrier the photosensitive component can be driven to reset along the plane perpendicular to the optical axis.
- the magnet and the second coil are arranged relatively axially, the magnetic attraction member is located on the back of the second coil, and the magnetic attraction member and the second coil are fixed relative to the axial arrangement Around the active carrier.
- the guide groove includes a plurality of rails, and the rails are respectively opened on the opposite surfaces of the movable carrier and the fixed base, and each of the supporting mechanisms is accommodated in each of the rails, so that the The support mechanism can rollably support the radial displacement of the movable carrier along the plane perpendicular to the optical axis.
- the guide groove is provided with a first track and a second track, the first track and the second track are in a cross structure, and the tracks are respectively located on the adjacent sides of the second coil.
- the first track is set on the upper surface of the movable carrier along the X direction or the Y direction
- the second track is relatively set on the lower surface of the fixed base along the Y direction or the X direction, so that the The supporting mechanism moves within the first track or the second track.
- the number of the supporting mechanisms is at least three
- the number of the guide grooves is at least three pairs
- the supporting mechanisms are balls.
- the number of the guide grooves and the support mechanisms are four respectively, and the guide grooves are respectively recessed at the four corners of the movable carrier and the fixed base, and the support mechanisms can Rollingly supported on the four corners of the movable carrier.
- cross-sectional structures of the first track and the second track are U-shaped, V-shaped or trapezoidal.
- an axial distance is formed between the second coil and the magnet, the axial distance is 0.05-0.5mm, preferably, the axial distance is 0.1-0.3mm, preferably, the The axial spacing is 0.1 mm.
- the magnetic attraction member and the guide groove are sequentially arranged at intervals on the plane perpendicular to the optical axis
- the magnetic attraction member is an iron sheet
- the number of the magnets is four
- the second coil The number of the magnetic attraction components is consistent with the number of the magnets
- the magnets are arranged along the four peripheries of the fixed base.
- the carrier frame includes a lens carrier and the fixed base arranged on the outer periphery of the lens carrier, the lens assembly is accommodated in the lens carrier, and the at least one set of coils is further It includes at least one first coil, the magnet is arranged radially relative to the first coil, and the first coil and the magnet form a first magnetic field circuit, so as to drive the lens carrier to move along the optical axis direction to perform automatic focus.
- the fixed base is provided with an accommodating cavity, a first opening and a second opening, the accommodating cavity is located around the fixed base, and the first opening is opened in the accommodating cavity The radial inner side of the second opening is opened on the axially lower side of the accommodating cavity, and the magnet is fixed in the accommodating cavity.
- the carrier frame further includes an elastic support member, the elastic support member elastically connects the lens carrier and the fixed base, and the elastic support member can support the lens carrier relative to the fixed base
- the elastic support includes an upper elastic piece, a lower elastic piece and at least a pair of extension parts, the upper elastic piece can movably connect the upper surface of the lens carrier and the fixed base, the lower elastic piece The elastic piece is movably connected to the lower surface of the lens carrier and the fixed base, and the extension part is electrically connected to the fixed base and the elastic support member, so that the first coil is electrically connected to the fixed base. base.
- each extension part includes a first fixed end, a second fixed end and a suspension wire , the suspension wire is curvedly connected to the first fixed end and the second fixed end, and the first fixed end is affixed to the fixed base.
- the magnet includes a first magnet and at least two second magnets, the first magnet is arranged on one side of the fixed base, and the first magnet is arranged radially relative to the first coil , so that the lens carrier can be driven to move along the optical axis, the second magnet is arranged on the other adjacent two sides of the fixed base, and the second magnet is arranged axially relative to the second coil, so as to drive the lens carrier
- the movable carrier moves along the plane perpendicular to the optical axis.
- the drive mechanism can drive the lens carrier along the optical axis direction with a range of ⁇ 250 ⁇ m, and the drive mechanism can drive the movable carrier with a drive range of ⁇ 150 ⁇ m in the direction of the plane perpendicular to the optical axis.
- a camera module comprising the above-mentioned photosensitive chip drive device, a lens assembly and a photosensitive assembly, the lens assembly is equipped with at least one lens, the lens assembly is arranged in a fixed base, the photosensitive assembly can be photosensitive and imaged, and the photosensitive
- the chip driving device is used to drive the photosensitive assembly to displace along the direction perpendicular to the optical axis.
- the photosensitive assembly includes a filter, a circuit board, a photosensitive chip and an electronic component, the coil is electrically connected to the circuit board, and the photosensitive chip and the electronic component are electrically connected to the circuit board , the optical filter is attached in the movable carrier, and the circuit board and the photosensitive chip are located behind the movable carrier.
- the circuit is integrally molded in the fixing base by insert injection molding, and the fixing base is electrically connected to the circuit board.
- an LDS groove is provided on the outer surface of the fixed base, and a conductive coating is plated on the surface of the LDS groove, and the fixed base is electrically connected to the circuit board through the conductive coating of the LDS groove.
- it further includes a casing, the photosensitive chip drive device and the photosensitive component are accommodated in the casing, and the fixing base is fixedly connected to the casing.
- the movable carrier includes a bracket body and an extension arm, the extension arm is formed by extending inward from the bracket body, and the filter is attached to the extension arm.
- the extension arm may have a stepped structure, the optical filter is attached to the upper step of the extension arm, the non-optical area of the photosensitive chip or the circuit board is attached to the extension The lower steps of the arm.
- FIG. 1 is a schematic structural view of a camera module according to an embodiment of the present application
- FIG. 2 is an exploded view of a camera module according to an embodiment of the present application
- FIG. 3 is a schematic structural diagram of a photosensitive assembly according to an embodiment of the present application.
- FIG. 4 is a schematic cross-sectional view of a camera module according to an embodiment of the present application.
- Fig. 5 is a schematic structural view of a fixed base and a supporting mechanism according to an embodiment of the present application
- Fig. 6 is a structural schematic diagram of a movable carrier and a supporting mechanism according to an embodiment of the present application.
- Fig. 7 is a schematic structural diagram of a movable carrier and an extension according to an embodiment of the present application.
- orientation words such as the terms “center”, “horizontal”, “longitudinal”, “length”, “width”, “thickness”, “upper”, “lower” , “Front”, “Back”, “Left”, “Right”, “Vertical”, “Horizontal”, “Top”, “Bottom”, “Inner”, “Outer”, “Clockwise”, “Counterclockwise “ and other indication orientations and positional relationships are based on the orientations or positional relationships shown in the drawings, and are only for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the device or element referred to must have a specific orientation, or in a specific orientation. The structure and operation should not be construed as limiting the specific protection scope of the present invention.
- the terms “installation”, “installation”, “connection” and “connection” should be understood in a broad sense, for example, it may be a fixed connection, It can also be a detachable connection or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, a contact connection or an indirect connection through an intermediary, and it can be the internal communication of two components.
- installation e.g., it may be a fixed connection, It can also be a detachable connection or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection, a contact connection or an indirect connection through an intermediary, and it can be the internal communication of two components.
- a photosensitive chip driving device 2 is provided.
- a support mechanism 42 and a magnetic attraction member 43 the carrier frame 20 is used to accommodate the lens assembly 1, the movable carrier 10 and the carrier frame 20 are arranged opposite to each other at intervals along the optical axis direction, and the drive mechanism 30 includes At least one group of coils and at least one group of magnets 33, the magnets 33 are installed on the peripheral side of the carrier frame 20, at least one group of the coils is installed on the peripheral side of the movable carrier 10, the guide groove 41 is set Between the movable carrier 10 and the carrier frame 20, the supporting mechanism 42 is movably arranged in the guide groove 41, and the magnetic attraction member 43 is installed on the movable carrier 10 and is connected with the magnet 33 are arranged opposite to each other, so that a magnetic attraction force along the optical axis direction can be generated between the magnetic attraction member 43 and the magnet 33, so that the movable carrier 10 can be displaced along a plane perpendicular to
- the support mechanism 42 can support the relative movement between the movable carrier 10 and the carrier frame 20 along the guide groove 41, so as to provide support and guidance for the movable carrier 10, improve displacement accuracy and prevent
- the magnetic attraction member 43 and the magnet 33 are arranged opposite to each other along the optical axis direction, so that a magnetic attraction force along the optical axis direction is generated between the magnetic attraction member 43 and the magnet 33, which is convenient for maintaining the
- the stability of the movable carrier 10 of the second coil 32 in the camera module keeps the photosensitive assembly 60 with the movable carrier 10 centered, effectively preventing the movable carrier 10 from shaking or inverting with the camera module resulting in shedding.
- the magnetic attraction member 43 and the magnet 33 are arranged oppositely along the optical axis direction, and generate a magnetic attraction force along the optical axis direction, since the magnetic attraction member 43 and the magnet 33 are not completely aligned, as described
- the movable carrier 10 moves radially along the plane perpendicular to the optical axis or rotates around the optical axis, there will be an offset between the magnet 33 and the magnetic attraction member 43, but the plane where the magnet 33 is located and the magnetic attraction member 43
- the planes where the magnet 33 is located are always kept parallel, and at the same time, the plane where the magnet 33 is located and the plane where the magnetic attraction member 43 is located are respectively perpendicular to the optical axis, so "there is an edge along the magnetic attraction member 43 and the magnet 33.”
- Magnetic attraction force in the direction of the optical axis refers to the magnetic attraction force generated between the plane where the magnet 33 is located and the plane where the magnetic attraction member 43 is located, including but not limited to the magnetic attraction force in the vertical direction, the offset vertical
- the Z direction is the direction of the optical axis and the front-rear direction.
- the X direction is the up and down direction (or the left and right direction)
- the Y direction is the left and right direction (or the up and down direction)
- the plane perpendicular to the optical axis is the plane formed by the X direction and the Y direction
- the "radial” is orthogonal to the Z axis
- Axial refers to the opposite setting between two Z-axis orthogonal surfaces, including not only the direction parallel to the Z-axis, but also the direction close to the Z-axis.
- the at least one group of coils includes at least one first coil 31 and at least one second coil 32, and the magnet 33 is set apart from the first coil 31 and the second coil 32 respectively.
- the first coil 31 and the magnet 33 form a first magnetic field circuit, so as to drive the carrier frame 20 to move along the optical axis direction for automatic focusing
- the second coil 32 and the magnet 33 form a second magnetic field
- the circuit is used to drive the movable carrier 10 to move relative to the carrier frame 20 along the direction of the plane perpendicular to the optical axis to perform shake correction.
- the carrier frame 20 includes a lens carrier 21 and a fixed base 22 disposed on the periphery of the lens carrier 21, the lens assembly 1 is accommodated in the lens carrier 21, and the first coil 31 is disposed on The outer periphery of the lens carrier 21, the magnet 33 is fixed on the peripheral side of the fixed base 22, the magnet 33 and the first coil 31 are arranged radially relative to each other, and the magnet 33 and the second The coil 32 is disposed relative to the axial direction, the second coil 32 is disposed on the movable carrier 10 , and the movable carrier is fixedly connected to the photosensitive component 60 .
- the relative radial arrangement of the magnet 33 and the first coil 31 means that the magnet 33 and the first coil 31 are oppositely arranged in the X direction or the Y direction, and the magnet 33 and the second coil
- the arrangement of 32 relative to the axial direction means that the magnet 33 and the second coil 32 are arranged opposite to each other along the Z direction.
- the fixed base 22 is a stator.
- the lens carrier 21 with the first coil 31 moves in the Z direction relative to the fixed base 22, thereby driving the lens assembly 1 to move in the Z direction to realize automatic focusing.
- the direction of the Lorentz force is A direction (Z direction) perpendicular to the direction of the magnetic field (X direction or Y direction) and the direction of the current in the first coil 31 (Y direction or X direction).
- the movable carrier 10 moves along the X direction or the Y direction, thereby driving the photosensitive assembly 60 to move along the X direction or the Y direction, so as to realize OIS anti-shake correction, and the direction of the Lorentz force in the second magnetic field circuit is consistent with the magnetic field
- the direction (Z direction) is a direction (Y direction or X direction) perpendicular to the direction of the current (X direction or Y direction).
- the magnetic attraction member 43 is located on the back of the second coil 32 , and the magnetic attraction member 43 and the second coil 32 are fixed on the periphery of the movable carrier 10 so as to be axially arranged relative to each other. That is to say, the magnetic attraction member 43 overlaps with the second coil 32 , and the magnetic attraction member 43 can be built into the movable carrier 10 , such as the magnetic attraction member 43 is completely covered by the movable carrier 10 Covering, the second coil 32 is fixed on the surface of the movable carrier 10 to avoid increasing the height of the photosensitive chip driving device 2; the magnetic attraction member 43 can also be embedded in the movable carrier 10, as shown The magnetic member 43 is partially embedded in the movable carrier 10, the front of the magnetic member 43 is higher than the surface of the movable carrier 10, and the second coil 32 is superimposed on the front of the magnetic member 43; The magnetic attraction member 43 can also be placed flat on the surface of the movable carrier 10 , and the second coil 32 is superimposed on the front surface of the magnetic attraction
- the magnetic attraction member 43 is disposed opposite to the magnet 33 along the Z direction, rather than disposed opposite to the X direction or the Y direction (for example, the magnetic attraction member 43 is disposed on the side wall of the housing 50 ), when the magnetic attraction member 43 is arranged on the side wall of the housing 50, the magnetic attraction member 43 generates a magnetic attraction force in the X direction or the Y direction to the magnet 33, and when the OIS stroke increases, the The distance between the magnet 33 and the magnetic attraction member 43 will increase, and the magnetic attraction force will weaken, making it difficult for the movable carrier 10 to reset.
- the arrangement of the magnetic attraction member 43 and the magnet in the X direction or the Y direction is helpful to produce Z to the magnet 33. direction, when the stroke required by the magnet 33 on the plane perpendicular to the optical axis increases, the distance between the magnetic attraction member 43 and the magnet 33 will not be affected by the OIS stroke, which is convenient for the The movable carrier 10 realizes a larger OIS stroke, which is conducive to quick reset.
- the magnetic attraction member 43 is made of a material capable of attracting each other with the magnet 33 and generating a magnetic attraction force, such as iron sheet or the like.
- a magnetic attraction force such as iron sheet or the like.
- the fixed base 22 and the movable carrier 10 are frictionally contacted by the supporting mechanism 42, so as to maintain the stability of the movable carrier 10 in the camera module, The effect of keeping the movable carrier 10 in the center will not fall off with the shaking or inversion of the camera module.
- the movable carrier 10 passes through the magnetic attraction member 43 and the magnet 33 quickly returns to the initial position, the initial position is the position of the movable carrier 10 before optical image stabilization.
- the guide groove 41 includes a plurality of rails, and the rails are respectively opened on the opposite surfaces of the movable carrier 10 and the fixed base 22, and each of the support mechanisms 42 is accommodated in each of the rails.
- the support mechanism 42 can rollably support the displacement of the movable carrier 10 along the plane perpendicular to the optical axis. Therefore, the track is set between the movable carrier 10 and the fixed base 22, and the support mechanism 42 is accommodated in the track, so that the movable carrier 10 During the process of moving along the X direction and/or Y direction relative to the fixed base 22, the support mechanism 42 always maintains dynamic support for the movable carrier 10, so that the movable carrier 10 slides smoothly, ensuring displacement accuracy.
- the guide groove 41 is provided with a first rail 411 and a second rail 412, the first rail 411 and the second rail 412 are in a cross structure, and the rails are respectively located on the adjacent
- the first rail 411 is set on the upper surface of the movable carrier 10 along the X direction or the Y direction
- the second rail 412 is relative to the first rail 411 along the Y direction.
- the X direction is provided on the lower surface of the fixed base 22, so that the support mechanism 43 can move between the first track 411 and the second track 412, and the support mechanism 42 is a ball, as shown in the figure 5 and Figure 6.
- the movement track of the support mechanism 43 is limited in the track, which helps to control the moving process of the movable carrier 10
- rolling friction can be used instead of sliding friction through the balls, further reducing the friction between the fixed base 22 and the movable carrier 10, and effectively improving the optical resistance of the movable carrier 10.
- the stability of the movement during the shaking process improves the image quality.
- the upper surface of the movable carrier 10 and the lower surface of the fixed base 22 refer to the direction along the optical axis, and the direction from the movable carrier 10 to the fixed base 22 is from bottom to top.
- the number of the support mechanisms 42 is at least three, the number of the guide grooves 41 is at least three pairs, the number of the magnets 33 is at least three, and each of the guide grooves 41 is provided with a ball.
- the number of the guide groove 41 and the support mechanism 42 is four respectively, the magnetic attraction member 43 and the guide groove 41 are arranged at intervals in sequence on the plane perpendicular to the optical axis, and the position of the guide groove 41 can be Set on the opposite corners along the plane perpendicular to the optical axis, the magnetic attraction member 43 can be arranged on the four sides of the movable carrier 10, or the position of the guide groove 41 is set on the four sides along the plane perpendicular to the optical axis, The magnetic attraction members 43 can be disposed at four corners of the movable carrier 10 .
- the guide grooves 41 are respectively recessed at the four corners of the movable carrier 10 and the fixed base 22, and the support mechanism 42 is rotatably supported on the fixed base 22 and the fixed base 22.
- the four corners of the movable carrier 10 help to maintain the stability of the movable carrier 10 .
- the guide groove 41 and the support mechanism 42 are placed at the opposite four corners of the movable carrier 10 and the fixed base 22, so that the free space of the movable carrier 10 and the fixed base 22 can be fully utilized , thereby providing a larger spatial position for the guide groove 41, so that it has a longer longitudinal dimension, so that when the movable carrier 10 is guided by the guide groove 41 and the support mechanism 42, it can be
- the movable carrier 10 provides a larger movement stroke, which is beneficial to realize optical anti-shake with a larger stroke.
- the length along the X direction is greater than the diameter of the support mechanism 42, and the dimension along the Y direction is equal to or slightly greater than the diameter of the support mechanism 42, ensuring that the support The movement of the mechanism 42 along the X direction; for the guide groove 41 provided in the Y direction, the length along the Y direction is greater than the diameter of the support mechanism 42, and the size along the X direction is equal to or slightly greater than the diameter of the support mechanism 42. diameter, to ensure that the support mechanism 42 moves along the Y direction.
- the number of the magnets 33 is four, the number of the second coil 32 and the magnetic attraction member 43 is consistent with the number of the magnets 33, and the magnets 33 are arranged along the fixed base. 22, the magnet 33 and the magnetic member 43 are arranged oppositely, and the magnetic member 43 is arranged on the upper surface of the movable carrier 10 and is located on the four sides of the movable carrier 10.
- the second coil 32 is superimposed on the top of the magnetic attraction member 43, and a magnetic attraction force is generated between the fixed base 22 and the movable carrier 10 through the magnetic attraction member 43 and the magnet 33, and the magnet 33 Located on the four sides of the fixed base 22 , since the four sides of the fixed base 22 have a larger space, it can be suitable for placing a magnet 33 of a larger size, thereby providing a greater driving force.
- the cross-sectional structures of the first track 411 and the second track 412 are U-shaped, V-shaped or trapezoidal.
- the second coil 32 is disposed on four sides of the movable carrier 10 and is disposed opposite to the magnet 33, and an axial distance is formed between the second coil 32 and the magnet 33,
- the axial spacing is 0.05-0.5mm, preferably, the axial spacing is 0.1-0.3mm, preferably, the axial spacing is 0.1mm. Therefore, the magnet 33 will not be in contact with the second coil 32 to cause interference, and good magnetic induction can be generated.
- the first coil 31 is attached to the outer wall of the lens carrier 21, and the magnet 33 is a dual-purpose magnet, that is, a common magnet for the first coil 31 and the second coil 32 , during automatic focusing, the first coil 31 can generate electromagnetic induction with the magnet 33 after being energized, so as to drive the first coil 31 and then drive the lens carrier 21 to move along the optical axis direction to realize AF of the lens , since it is only necessary to drive the lens carrier 21 and the lens assembly 1 therein to move, relatively speaking, only a small driving force is required in the AF process to reduce power consumption; when performing optical anti-shake, the After the second coil 32 is energized, it can generate electromagnetic induction with the magnet 33, so as to drive the second coil 32 to drive the movable carrier 10 and then drive the photosensitive component 60 to move, so that the photosensitive component 60 is perpendicular to the optical axis as a whole. Moving in the plane direction, the four groups of second coils 32 interact with the magnets 33 to generate greater driving force.
- each of the magnets 33 includes four magnetic poles, and each N pole and S pole are arranged adjacent to each other. Since the magnets 33 are dual-purpose magnets, the number of parts can be reduced, so that the photosensitive chip drive device 2 The structure is simpler.
- the first coil 31 and the second coil 32 may be provided with other position sensing devices such as ICs and Hall devices, so as to be arranged opposite to the magnet 33 to detect the position of the magnet 33 .
- the first coil 31 and the second coil 32 may not share the magnet 33, the first coil 31 is arranged on the peripheral side of the lens carrier 21, and the magnet 33 includes a second A magnet and at least two second magnets, the first magnet is arranged on one side of the fixed base 22, the first magnet is arranged radially relative to the first coil 31, when the first coil 31 After electrification, a magnetic field force is generated between the first magnet and the first coil 31 to drive the lens carrier 21 to move along the optical axis, and the second magnet is arranged on the other adjacent two sides of the fixed base 22 , the second magnet is arranged axially relative to the second coil 32, and the side where the second magnet is located is different from the side where the first magnet is located, so as to avoid magnetic interference.
- the second magnet can also be arranged on the other three sides of the fixed base 22, or the first magnet can be arranged on adjacent two sides of the fixed base 22, and the second magnet can be arranged on the fixed base 22. The other adjacent two sides of the fixed base 22.
- the number of the second magnets is two, and the second magnets are arranged on adjacent two sides of the fixed base 22 to achieve optical anti-shake in the X direction and the Y direction.
- the fixed base 22 is provided with an accommodating cavity 221, a first opening 222 and a second opening 223, the accommodating cavity 221 is located around the fixed base 22, the first opening 222 is opened on the radial inner side of the accommodation cavity 221 , the second opening 223 is opened on the axial lower side of the accommodation cavity 221 , and the magnet 33 is fixed in the accommodation cavity 221 .
- the accommodating cavity 221 is located on the four sides of the fixed base 22, the accommodating cavity 221 is an open cavity, and the magnet 33 is fixed in the accommodating cavity 221 by an upside-down method.
- the magnet 33 is spaced opposite to the first coil 21 , and the magnet 33 is spaced opposite to the second coil 32 .
- the carrier frame 20 further includes an elastic support member 23, the elastic support member 23 elastically connects the lens carrier 21 and the fixed base 22, and the elastic support member 23 can support the lens
- the carrier 21 moves and focuses relative to the fixed base 22 along the optical axis.
- the elastic support 23 includes an upper elastic piece 231, a lower elastic piece 232 and at least one pair of extensions 233.
- the upper elastic piece 231 is movably connected to the lens.
- the upper surface of the carrier 21 and the fixed base 22, the lower elastic piece 232 is movably connected to the lower surface of the lens carrier 21 and the fixed base 22, and the extension part 233 can be electrically connected to the fixed base.
- the seat 22 and the elastic supporting member 23 make the first coil 31 electrically connected to the fixed base 22 .
- the upper elastic piece 231 and the lower elastic piece 232 can also be respectively fixed on the side wall of the fixed base 22, which is not limited in this application. Therefore, the lens carrier 21 can be centered by the elastic support member 23, and the elastic support member 23 keeps the lens carrier 21 in the fixed base 22 by elastic force, and at the same time, the elastic support member 23 The lens carrier 21 is pulled back to the initial position by elastic force, wherein the initial position refers to the position of the lens carrier 21 before AF displacement along the optical axis direction.
- the upper surface and the lower surface are the directions along the optical axis of the lens carrier 21 and the fixed base 22 respectively, the front of the optical axis is the upper surface, and relatively speaking, the rear of the optical axis is the lower surface.
- the upper elastic piece 231 includes an upper inner profile 234a, an upper outer profile 235a, and an upper elastic portion 236a, and the upper elastic portion 236a elastically connects the upper inner profile 234a and the upper outer profile portion 235a,
- the upper inner frame 234a and the upper outer frame 235a can move relative to each other along the Z direction, wherein the upper inner frame 234a is fixed on the upper surface of the lens carrier 21, and the upper outer frame 235a is fixed connected to the upper surface of the fixed base 22, so that the upper elastic piece 231a can be movably connected to the upper surface of the lens carrier 21 and the upper surface of the fixed base 22, wherein the fixing method is not limited , can be fixed by fitting or bonding.
- the upper elastic portion 236a has a meandering structure, which is convenient for elastically connecting the upper inner profile 234a and the upper outer profile 235a.
- the structure of the lower elastic piece 232 is similar to that of the upper elastic piece 231
- the lower elastic piece 231 includes a lower inner profile 234b, a lower outer profile 235b and a lower elastic part 236b
- the lower elastic part 236b is elastically connected
- the lower inner profile 234b and the lower outer profile portion 235b enable relative movement between the lower inner profile 234b and the lower outer profile 235b along the Z direction, wherein the lower inner profile 234b is fixed to the The lower surface of the lens carrier 21, the lower outer profile 235b is fixed on the lower surface of the fixed base 22, so that the lower elastic piece 231b is movably connected to the lower surface of the lens carrier 21 and the fixed base.
- the lower surface of the base 22 is not limited in the way of fixing, and can be fixed by fitting or bonding.
- the lower elastic portion 236 has a meandering structure, which is convenient for elastically connecting the lower inner profile 234b and the lower outer profile 235b.
- each of the extension parts 233 includes a first fixed end 237, a second fixed end 238 and a suspension wire 239, and the suspension wire 239 is curvedly connected to the first fixed end 237 and the second fixed end.
- end 238, the first fixed end 237 is affixed to the fixed base 22, and can be electrically connected to the fixed base 22, and the second fixed end 238 is electrically connected to the upper elastic piece 231 and/or the lower
- the elastic piece 232 can be electrically connected to the first coil 31 and the fixed base 22 through the upper elastic piece 231 and/or the lower elastic piece 232 .
- the number of the extensions 233 may be two or four, and when the number of the extensions 233 is two, the circuit conduction is realized through the extensions 233;
- the number of the extension parts 233 is 4, one pair of the extension parts 233 realizes the circuit conduction, and the other pair of the extension parts 233 realizes the reset function of the photosensitive assembly 60 through its elastic force. Further, they are respectively fixed at the four corners of the fixed base 22, and a pair of the extension parts 233 are integrally connected to both sides of the upper elastic piece 231 or the two sides of the lower elastic piece 232, so as to be electrically connected
- the first coil 31 and the fixed base 22 are described.
- the electrical connection between the first coil 31 and the fixed base 22 can be achieved through the electrical connection between the extension part 233 and the fixed base 22, and the extension part 233 can be connected to the upper elastic piece 231
- the lower elastic piece 232 may have an integrated structure or a split structure
- the upper elastic piece 231 may have an integrated structure or a split structure
- the lower elastic piece 232 may have an integrated structure or a split structure. That is to say, the fixed base 22 integrates a conductive function, electrically connects the first coil 31 to the fixed base 22, and conducts to the photosensitive chip driving device through the fixed base 22 2 to simplify the electrical connection structure of the photosensitive chip driving device 2.
- the pair of extensions 233 are arranged at a pair of adjacent corners of the fixed base 22, so as to electrically connect the first coil 31 and the fixed base 22, and the first The fixed end 237 and the second fixed end 238 are attached to the outer periphery of the fixed base 22, and the second fixed end 238 is affixed to the upper elastic piece 231 or the lower elastic piece 232;
- the extension part 233 is provided at another pair of adjacent corners of the fixed base 22 , the first fixed end 237 is fixed to the fixed base 22 , and the second fixed end 238 is fixed to the movable carrier 10 , the second fixed end 238 is not connected to the upper elastic piece 231 or the lower elastic piece 232, and the other pair of extensions 233 are non-conductive, and provide a certain recovery for the photosensitive component 60 when performing OIS through its elastic force force
- the movable carrier 10 has at least two extension columns 13 extending upward from the corners of the movable carrier 10, so that the second fixed end 238 is affixed to the extension columns
- the extension part 233 includes a pair of conductive extension parts 233a and a pair of reset extension parts 233b, and the conductive extension part 233a is used for electrically conducting the first coil 31 and the fixed base 22.
- the conductive extensions 233a are respectively located at a pair of corners on the same side of the fixed base 22, and the reset extensions 233b are respectively located at the other pair of corners of the same side of the fixed base 22.
- the conductive extensions 233a The first fixed end 237 is affixed to the fixed base 22, the second fixed end 238 of the conductive extension 233a is affixed to the upper elastic piece 231 or the lower elastic piece 232; The first fixed end 237 is affixed to the fixed base 22, the second fixed end 238 of the reset extension 233b is affixed to the extension column 13 of the movable carrier 10, and the reset extension 233b is used for The reset of the movement of the movable carrier 10 along the plane perpendicular to the optical axis pulls the movable carrier 10 back to the initial position through the elastic force of the reset extension 233b, and the initial position refers to the position of the movable carrier before OIS displacement .
- the drive mechanism 30 can drive the lens carrier 21 along the optical axis direction is ⁇ 250 ⁇ m, and the drive mechanism 30 can drive the movable carrier 10 along the direction of the plane perpendicular to the optical axis.
- the stroke is ⁇ 150 ⁇ m.
- a camera module including the photosensitive chip drive device 2, the lens assembly 1 and the photosensitive component 60, the lens assembly 1 is equipped with at least one lens, and the photosensitive chip drive device 2 is used to drive the displacement of the lens assembly 1 along the direction of the optical axis, so as to realize the automatic focusing of the camera module; In order to realize the optical anti-shake of the camera module.
- the lens assembly 1 includes a lens barrel and a plurality of lenses arranged along the optical axis.
- the lens barrel can be fixed to the lens carrier 21 by sticking or buckling, or the
- the lens assembly 1 and the lens carrier 21 are arranged as an integral structure, that is, the lens carrier 21 has a structure instead of the lens barrel for accommodating the lenses in the lens assembly 1.
- the lens carrier 21 moves along the optical axis , it can drive the lens assembly 1 to move to realize the AF function.
- the lens barrel is fixed in the lens carrier 21, and the size of the lens barrel can be reduced through the integrated structure. , reducing the gap between the conventional lens barrel and the lens carrier 21 helps to further reduce the size of the camera module.
- the photosensitive component 60 includes a filter 61, a circuit board 62, a photosensitive chip 63 and an electronic component 64, the coil is electrically connected to the circuit board 62, the photosensitive chip 63 and the electronic component
- the element 64 is electrically connected to the circuit board 62
- the optical filter 61 is attached in the movable carrier 10
- the circuit board 62 and the photosensitive chip 63 are located behind the movable carrier 10 .
- the electronic component 64 is located outside the photosensitive chip 63.
- the movable carrier 10 includes a bracket body 11 and an extension arm 12, and the extension arm 12 is formed by extending inward from the bracket body 11.
- the filter 61 is attached on the extension arm 12 .
- the extension arm 12 may have a stepped structure, the filter 61 is attached to the upper step of the extension arm 12, and the non-optical area of the photosensitive chip 63 is attached to the lower portion of the extension arm 12. steps.
- the circuit board 62, the photosensitive chip 63, the movable carrier 10 and the optical filter 61 are packaged in an integrated structure to form a closed space, so that the photosensitive chip 63 is accommodated in the closed space, and the The sealing of the photosensitive chip 63 ensures that the imaging of the photosensitive chip 63 is not affected by dust during the production or use of the camera module.
- the circuit is integrally molded in the fixed base 22 by means of insert molding (Insert molding technology), and the fixed base 22 is electrically connected to the circuit board 62, so that the fixed base The circuit between the seat 22 and the first coil 31 is conducted.
- the outer surface of the fixed base 22 is provided with at least two LDS slots, and a conductive coating is plated on the surface of the LDS slots, and the fixed base 22 is electrically connected to the
- the circuit board 62 is convenient for conducting the circuit between the fixed base 22 and the first coil 31 .
- the depth of the LDS groove is not more than 20-30 ⁇ m, and the width is not less than 60 ⁇ m.
- LDS laser direct structuring technology
- a conductive coating such as a nickel-palladium-gold coating
- the second coil 32 is electrically connected to the circuit board 62 of the photosensitive component 60 , and extends upward through the circuit board 62 to conduct with the fixed base 22 , and the fixed base 22
- the conductive extension part 233b is electrically connected to the first coil 31 to realize the electrical connection structure of the camera module.
- the camera module further includes a casing 50, the photosensitive chip driving device 2 and the photosensitive component 60 are housed in the casing, and the fixing base 22 is fixed to the casing.
- the housing 50 includes a first housing 51 and a second housing 52, the first housing 51 covers the carrier frame 20 from the front, and the second housing 52 covers the photosensitive housing 52 from the rear. Assembly 60, the carrier frame 20 supports the movable carrier 10 to move along the plane perpendicular to the optical axis, so as to prevent the imaging assembly from rushing out when an external impact occurs, causing damage to the camera module, and the fixed base 22 is fixed to the first A casing 51 and the second casing 52 .
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Abstract
Description
Claims (22)
- 一种感光芯片驱动装置,其特征在于,包括:活动载体,所述活动载体用于承载感光组件;固定基座,所述固定基座和所述活动载体沿光轴方向间隔地对向设置;驱动机构,所述驱动机构包括至少一组线圈和至少一组磁石,所述磁石安装于所述固定基座的周侧,所述线圈中至少有一组安装于所述活动载体的周侧;导向槽,所述导向槽设置于所述活动载体和所述固定基座之间;支承机构,所述支承机构可移动地设置于所述导向槽中;磁吸构件,所述磁吸构件安装于所述活动载体并与所述磁石对向设置,得以在所述磁吸构件和所述磁石之间产生沿光轴方向的磁吸力,得以将所述支承机构被夹持于所述固定基座和所述活动载体之间。
- 根据权利要求1所述的感光芯片驱动装置,其特征在于,所述至少一组线圈包括至少一第二线圈,所述第二线圈安装于所述活动载体的周侧,所述磁石和所述第二线圈相对轴向设置,所述第二线圈和所述磁石形成第二磁场回路,得以驱动所述活动载体相对所述固定基座沿光轴的正交面位移,对感光组件进行抖动修正,所述磁吸构件设置于带有所述活动载体的感光组件中,得以驱动感光组件沿光轴正交面复位。
- 根据权利要求2所述的感光芯片驱动装置,其特征在于,所述磁石和所述第二线圈相对轴向设置,所述磁吸构件位于所述第二线圈的背面,所述磁吸构件和所述第二线圈相对轴向设置地固定于所述活动载体的四周。
- 根据权利要求2所述的感光芯片驱动装置,其特征在于,所述导向槽包括多个轨道,所述轨道分别开设于所述活动载体和所述固定基座的相对面,各个所述支承机构容纳于各个所述轨道中,得以使所述支承机构可滚动地支撑所述活动载体沿光轴的正交面径向位移。
- 根据权利要求4所述的感光芯片驱动装置,其特征在于,所述导向槽设有第一轨道和第二轨道,所述第一轨道和所述第二轨道呈十字交叉结构,所述轨道分别位于所述相邻所述第二线圈的间隔处,所述第一轨道沿X方向或Y方向开设于所述活动载体的上表面,所述第二轨道相对沿Y方向或X方向开设于所述固定基座的下表面,得以使所述支承机构在所述第一轨道或所述第二轨道内移动。
- 根据权利要求4所述的感光芯片驱动装置,其特征在于,所述支承机构的数量至少为3个,所述导向槽的数量至少为3对,所述支承机构是滚珠。
- 根据权利要求4所述的感光芯片驱动装置,其特征在于,所述导向槽和所述支承机构的数量分别为四个,所述导向槽分别内凹地开设于所述活动载体和所述固定基座相对地四角处,所述支承机构可滚动地支撑于所述活动载体的四角。
- 根据权利要求5所述的感光芯片驱动装置,其特征在于,所述第一轨道和所述第二轨道的截面结构为U形、V形或梯形。
- 根据权利要求2所述的感光芯片驱动装置,其特征在于,所述第二线圈和所述磁石之间形成轴向间距,所述轴向间距为0.05~0.5mm,优选的,所述轴向间距为0.1~0.3mm,优选的,所述轴向间距为0.1mm。
- 根据权利要求2所述的感光芯片驱动装置,其特征在于,所述磁吸构件和所述导向槽在光轴正交面上依次间隔地设置,所述磁吸构件为铁片,所述磁石的数量为4个,所述第二线圈、所述磁吸构件的数量与所述磁石数量相一致,所述磁石沿所述固定基座的四个周边设置。
- 根据权利要求2~10中任一所述的感光芯片驱动装置,其特征在于,其进一步包括载体框架,所述载体框架包括镜头载体及设置于所述镜头载体外周的所述固定基座,镜头组件容纳于所述镜头载体中,所述至少一组线圈 进一步包括至少一第一线圈,所述磁石与所述第一线圈相对径向设置,所述第一线圈和所述磁石形成第一磁场回路,得以驱动所述镜头载体沿光轴方向移动,进行自动对焦。
- 根据权利要求11所述的感光芯片驱动装置,其特征在于,所述固定基座设有容置腔、第一开口以及第二开口,所述容置腔位于所述固定基座的四周,所述第一开口开设于所述容置腔的径向内侧,所述第二开口开设于所述容置腔的轴向下侧,所述磁石固定于所述容置腔中。
- 根据权利要求11所述的感光芯片驱动装置,其特征在于,所述载体框架进一步包括弹性支撑件,所述弹性支撑件弹性连接所述镜头载体和所述固定基座,所述弹性支撑件得以支撑所述镜头载体相对所述固定基座沿光轴方向移动对焦,所述弹性支撑件包括上弹片、下弹片以及至少一对延伸部,所述上弹片可活动地连接所述镜头载体和所述固定基座的上表面,所述下弹片可活动地连接所述镜头载体和所述固定基座的下表面,所述延伸部得以电导通所述固定基座和所述弹性支撑件,使得所述第一线圈电连接于所述固定基座。
- 根据权利要求11所述的感光芯片驱动装置,其特征在于,所述延伸部为两个或四个,所述延伸部分别固定于所述固定基座的角处,各个所述延伸部包括第一固定端、第二固定端和悬丝,所述悬丝弯曲地连接所述第一固定端和所述第二固定端,所述第一固定端固接于所述固定基座。
- 根据权利要求11所述的感光芯片驱动装置,其特征在于,所述磁石包括第一磁石以及至少二第二磁石,所述第一磁石设置于所述固定基座的一侧,所述第一磁石与所述第一线圈相对径向设置,得以驱动所述镜头载体沿光轴移动,所述第二磁石设置于所述固定基座的另外相邻两侧,所述第二磁石与所述第二线圈相对轴向设置,得以驱动所述活动载体沿光轴正交面移动。
- 根据权利要求11所述的感光芯片驱动装置,其特征在于,所述驱 动机构对所述镜头载体沿光轴方向的可驱动行程为±250μm,所述驱动机构对所述活动载体沿光轴正交面方向的可驱动行程为±150μm。
- 一种摄像模组,其特征在于,包括:权利要求2~16中任一所述的感光芯片驱动装置;镜头组件,所述镜头组件安装有至少一透镜,镜头组件设置于固定基座中;感光组件,所述感光组件得以感光成像,所述感光芯片驱动装置用于驱动所述感光组件沿光轴正交面方向位移。
- 根据权利要求17所述的摄像模组,其特征在于,所述感光组件包括滤光片、线路板、感光芯片以及电子元件,所述线圈电连接于所述线路板,所述感光芯片和所述电子元件电连接于所述线路板,所述滤光片贴附于所述活动载体内,所述线路板和所述感光芯片位于所述活动载体后方。
- 根据权利要求18所述的摄像模组,其特征在于,通过嵌入式注塑的方式将电路一体成型于所述固定基座中,所述固定基座电连接于所述线路板;或者,所述固定基座的外表面开设有LDS槽,在所述LDS槽表面镀设导电镀层,所述固定基座通过所述LDS槽的导电镀层电连接于所述线路板。
- 根据权利要求18所述的摄像模组,其特征在于,其进一步包括外壳,所述感光芯片驱动装置和所述感光组件容置于所述外壳内,所述固定基座固接于所述外壳。
- 根据权利要求18所述的摄像模组,其特征在于,所述活动载体包括支架主体及延伸臂,所述延伸臂自所述支架主体向内延伸形成,所述滤光片贴附于所述延伸臂上。
- 根据权利要求21所述的摄像模组,其特征在于,所述延伸臂可以呈台阶型结构,所述滤光片贴附于所述延伸臂的上台阶,所述感光芯片的非光学区或所述线路板贴附于所述延伸臂的下台阶。
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