KR20180088270A - Camera module including liquid lens - Google Patents

Abstract

A camera module of an embodiment comprises: a holder including a first aspect having a first aperture and a second aspect having a second aperture facing the first aperture in the direction perpendicular to the optical axis direction; a first lens unit disposed in the holder; a second lens unit disposed in the holder; a liquid lens disposed between the first lens unit and the second lens unit and allowing at least a portion of the liquid lens to be disposed in the first aperture and the second aperture of the holder; a connecting substrate disposed in the liquid lens; and a sensor substrate having an image sensor and disposed below the holder. Moreover, the connecting substrate includes a first connecting substrate disposed on the liquid lens and a second connecting substrate disposed below the liquid lens. Furthermore, the first connecting substrate electrically connects the liquid lens to the sensor substrate via the first aperture, and the second connecting substrate electrically connects the liquid lens to the sensor substrate via the second aperture.

Description

[0001] CAMERA MODULE INCLUDING LIQUID LENS [0002]

Embodiments relate to a camera module, and more particularly, to a camera module including a liquid lens.

A user of a portable apparatus wants an optical apparatus having a high resolution and a small size and having various photographing functions (Auto-Focusing, AF function, camera shake correction or optical image stabilizer (OIS) function, etc.) . Such a photographing function can be realized by a method of directly moving the lens by combining a plurality of lenses, but when the number of lenses is increased, the size of the optical device can be increased.

The autofocus and camera shake correction functions are performed by moving a plurality of lens modules fixed to a lens holder and having optical axes aligned in a vertical direction of an optical axis or an optical axis or by tilting, Device is used. However, since the lens driving apparatus requires a driving member such as a magnet and a coil for driving the lens module and requires a free space for driving the lens module in accordance with the driving range of the lens module, The thickness of the film becomes thick.

Therefore, research is being conducted on a liquid lens that performs autofocus and shake correction functions by electrically adjusting the curvature of the interface between two liquids.

In the embodiment, in the camera module and the optical device including the liquid lens, the liquid lens is intended to be disposed stably in the lens assembly.

The embodiments are intended to facilitate the performance evaluation of the remaining optical lenses except for the liquid lens in the camera module and the optical device including the liquid lens.

A camera module according to an embodiment includes a holder including a first side having a first opening and a second side having a second opening facing the first opening in a direction perpendicular to the optical axis direction; A first lens unit disposed in the holder; A second lens unit disposed in the holder; A liquid lens disposed between the first lens portion and the second lens portion and disposed at least partially within the first opening and the second opening of the holder; A connecting substrate disposed on the liquid lens; And a sensor substrate including an image sensor and disposed below the holder, wherein the connection substrate comprises: a first connection substrate disposed on the liquid lens; And a second connection substrate disposed under the liquid lens, wherein the first connection substrate electrically connects the liquid lens and the sensor substrate through the first opening, and the second connection substrate electrically connects the liquid lens and the sensor substrate, And the liquid lens and the sensor substrate can be electrically connected through the opening.

For example, the liquid lens may be inserted through at least one of the first opening and the second opening, and a part of the liquid lens may protrude to the side of the holder.

For example, the holder may include a second region in which the liquid lens is disposed between the first opening and the second opening; A first region in which the first lens section is disposed on the second region; And a third region in which the second lens portion is disposed under the second region.

For example, the camera module may further include a cover covering at least a part of a side surface and an upper surface of the holder, and the cover may cover the first opening and the second opening.

For example, in the direction from the first opening toward the second opening, the length of the liquid lens may be longer than the length of the first lens portion and the second lens portion.

For example, the liquid lens may include a first plate including a cavity in which a first liquid and a second liquid are disposed; A first electrode disposed on the first plate; And a second electrode disposed under the first plate, wherein the first connection substrate is electrically connected to the first electrode, and the second connection substrate is electrically connected to the second electrode.

For example, the liquid lens may include a second plate disposed above the first electrode; And a third plate disposed under the second electrode, wherein the second plate and the third plate may be bonded to the holder and the epoxy, respectively.

For example, the liquid lens may be separated from at least one of the first lens unit and the second lens unit.

For example, the first lens unit includes a plurality of lenses, and the length of the lens closest to the liquid lens among the plurality of lenses of the first lens unit, in a direction perpendicular to the optical axis direction, May be larger than the diameter of the cavity closest to the cavity.

For example, the second lens unit includes a plurality of lenses, and a length of the lens closest to the liquid lens among the plurality of lenses of the second lens unit, in a direction perpendicular to the optical axis direction, May be larger than the diameter of the cavity closest to the cavity.

For example, in the first region, the inner wall of the holder has a step, the first lens portion contacts the step of the first region, the inner wall of the holder in the third region has a step, And the second lens portion may contact the step of the third region.

A camera module according to another embodiment includes a holder including a first side having a first opening and a second side having a second opening facing the first opening in a direction perpendicular to the optical axis direction; A first lens unit disposed in the holder; A second lens unit disposed in the holder; And a liquid lens disposed between the first lens portion and the second lens portion and disposed at least partially within the first opening and the second opening of the holder, As shown in FIG.

For example, the liquid lens may be inserted through at least one of the first opening and the second opening, and a part of the liquid lens may protrude to the side of the holder.

For example, the liquid lens may include a first plate including a cavity in which a first liquid and a second liquid are disposed; A first electrode disposed on the first plate; A second electrode disposed below the first plate; A second plate disposed above the first electrode; And a third plate disposed under the second electrode, and the second plate and the third plate may be bonded to the holder and the epoxy, respectively.

For example, the liquid lens may be separated from at least one of the first lens unit and the second lens unit.

For example, the first lens unit includes a plurality of lenses, and the length of the lens closest to the liquid lens among the plurality of lenses of the first lens unit, in a direction perpendicular to the optical axis direction, And the second lens unit includes a plurality of lenses, and the lens of the lens closest to the liquid lens among the plurality of lenses of the second lens unit is in a direction perpendicular to the optical axis direction The length may be larger than the diameter of the cavity closest to the second lens portion.

The camera module including the liquid lens according to the embodiment can reduce the size of the camera module by changing the interface between the first and second electric furnaces, The power consumption is small and the size of the camera module can be reduced.

Then, the liquid lens can be stably inserted into the holder.

The first lens portion and the second lens portion may be disposed in the holder and the liquid lens may be inserted after evaluating the optical performance of the first and second lens portions.

1 is a view showing an embodiment of a camera module,
2A and 2B are views showing a liquid lens of the camera module of FIG. 1,
FIGS. 3 and 4 are sectional views of the lens assembly of the camera module of FIG. 1,
FIG. 5 is a view showing a structure of the lens assembly of the camera module of FIGS. 3 and 4 before the liquid lens is coupled.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

In the description of the embodiment according to the present invention, in the case of being described as being formed "on or under" of each element, the upper (upper) or lower (lower) or under are all such that two elements are in direct contact with each other or one or more other elements are indirectly formed between the two elements. Also, when expressed as "on or under", it may include not only an upward direction but also a downward direction with respect to one element.

1 is a view showing an embodiment of a camera module. The camera module may include a lens assembly 100 and a control circuit 2000.

The lens assembly 1000 may include a liquid lens and / or a solid lens. The liquid lens may comprise a liquid, a plate and an electrode. The liquid may include a conductive liquid and a non-conductive liquid, and the electrodes may be disposed above or below the plate. The electrode may also include a common terminal and a plurality of individual terminals. There can be one common terminal and a plurality of individual terminals. The plate may comprise a first plate comprising a cavity in which the liquid is disposed, and may further comprise a second plate above or below the first plate. The liquid lens may further include a third plate such that the first plate is disposed between the second plate and the third plate. The shape of the interface formed by the conductive liquid and the nonconductive liquid is changed corresponding to the drive voltage applied between the common terminal and the individual terminal, and the focal distance can be changed. The control circuit 2000 can supply the driving voltage to the liquid lens and can be disposed on the sensor substrate on which the image sensor is disposed. The camera module may further include a connector 3000 which is connected by a control circuit 2000 and a connection part 3500 and is electrically connected to an external power supply or other device Can be connected.

The configuration of the control circuit 2000 can be designed differently according to the specifications required for the image pickup apparatus. In particular, in order to reduce the magnitude of the operating voltage applied to the lens assembly 1000, the control circuit 2000 may be implemented as a single chip. As a result, the size of the camera device mounted on the portable device can be further reduced.

The lens assembly 1000 may include a first lens unit 100, a second lens unit 400, a liquid lens 300, a holder 500 and a cover 600. The first lens unit 100 Or the second lens unit 400 may be omitted.

The structure of the illustrated lens assembly 1000 is only one example, and the structure of the lens assembly 1000 may vary according to the specifications required for the camera device.

The first lens unit 100 may be disposed in front of the lens assembly 1000 and may be a region in which light is incident from the outside of the lens assembly 1000. The first lens unit 100 may be composed of at least one lens, or two or more lenses may be aligned with respect to the central axis to form an optical system. Here, the central axis may be the same as the optical axis of the optical system.

The first lens unit 100 may be composed of two lenses but is not limited thereto.

The first lens unit 200, the second lens unit 400 and the liquid lens 300 are inserted into the holder 500 through the through holes formed in the holder 500, Hole. In order to distinguish the first and second lens units 100 and 400 from the liquid lens 300, the first and second solid lens units may be referred to as first and second solid lens units. In detail, the first lens unit 100 is disposed on and coupled to the holder 500, and the second lens unit 400 is disposed on and under the holder 500.

An exposure lens (not shown) may be provided on the front surface of the first lens unit 100, and a cover glass may be disposed on the front of the exposure lens. The exposure lens may protrude outside the holder 500 and may be exposed to the outside to damage the surface. If the surface of the lens is damaged, the image quality of the image photographed by the camera module may deteriorate. Therefore, in order to prevent or suppress surface damage of the exposure lens, a method of disposing a cover glass, forming a coating layer, or constructing an exposure lens with a wear resistant material for preventing surface damage can be applied.

The second lens unit 400 is disposed behind the first lens unit 100 and the liquid lens 300 and the light incident from the outside to the first lens unit 100 passes through the liquid lens 300, 2 lens unit 400 as shown in FIG. The second lens unit 400 may be disposed in the through hole formed in the holder 500, spaced apart from the first lens unit 100.

The liquid lens 300 may be disposed below the first lens unit 100 and the second lens unit 400 may be disposed below the liquid lens 300. [ The second lens unit 400 may be composed of at least one lens, and when two or more lenses are included, the optical system may be formed by aligning the lens with respect to the central axis.

The liquid lens 300 may be disposed between the first lens unit 100 and the second lens unit 400. The configuration of the liquid lens 300 will be described later with reference to Fig.

The liquid lens 300, the first lens unit 100 on the upper side, and the second lens unit 400 on the lower side may be fixed and disposed inside the holder 500. [ The liquid lens 300 may be aligned with respect to the central axis in the same manner as the first lens unit 100 and the second lens unit 400. [

The first and second connection electrodes 356 and 346 of the liquid lens 300 may be electrically connected to the pad 385 of the connection substrate 380 exposed to the outside of the holder 500. [ The connection substrate 380 may be a flexible printed circuit board, for example, and the pad 385 may be electrically connected to the pad 810 of the circuit board 800 on the lower side.

The pads 383 and 810 may be terminals exposed from the connection board 380 and the circuit board 800, respectively.

Although not shown, a conductive epoxy may be disposed between the first electrode 355 and the first connection electrode 356, and a conductive epoxy may be disposed between the second electrode 345 and the second connection electrode 346 .

The first and second connection electrodes 356 and 346 may be disposed on the connection substrate 380. The connection substrate 380 may include an upper terminal including a plurality of terminals and a lower terminal including a plurality of terminals. Here, the upper terminal may be connected to the first and second electrodes 355 and 345 of the liquid lens 300, and may correspond to the first connection electrode 356 described above. The lower terminal may correspond to the pad 385 and the terminal of the sensor substrate may correspond to the pad 810 of the circuit board 800 have.

A cover 600 is disposed around the first lens 100, the second lens 400, the liquid lens 300 and the holder 500. The cover 600 and the holder 500 are mounted on the base 700 As shown in FIG. The base 700 may be omitted.

The circuit board 800 is disposed under the base 700 and the pad 810 can supply current to the first and second electrodes 355 and 345 of the liquid lens 300. [

Although not shown, a light receiving element such as an image sensor may be disposed under the second lens unit 400. The light receiving element may be provided in the sensor substrate together with the circuit board 800 described above. The horizontal and / or vertical length of the unit pixel of the image sensor 900 may be, for example, 2 mu m (micrometer) or less.

2A and 2B are views showing a liquid lens of the camera module of FIG.

The liquid lens 300 includes a first plate 310 having a cavity accommodating the first liquid 350 and a second liquid 340 having a nonconductive property, A first electrode 355 disposed on the first electrode 355 and a second electrode 345 disposed on the lower portion of the first plate 355; a second plate 320 disposed on the first electrode 355; And a third plate 330 disposed on the second plate 330.

The first plate 310 is disposed between the second plate 320 and the third plate 330 and includes upper and lower openings having a predetermined inclined plane (for example, an inclined plane having an angle of about 59 to 61 degrees) can do. The area surrounded by the inclined surface, the opening portion contacting with the second plate 320, and the opening portion contacting with the third plate 330 may be referred to as a 'cavity'.

The first plate 310 is a structure that receives the first and second liquids 350 and 340. The second plate 320 and the third plate 330 may include a region through which the light passes and may be made of a transparent material and may be made of glass, And the third plate 330 may be formed of the same material.

In addition, the first plate 310 may contain impurities to prevent light from being transmitted easily.

The second plate 320 is configured such that light incident from the first lens unit 100 enters the cavity, and the third plate 330 is configured such that light having passed through the cavity is incident on the second lens unit 100, (400).

The first liquid 350 and the second liquid 340 having different properties may be filled in the cavity and the interface may be formed between the first liquid 350 and the second liquid 340. [ The interface between the first liquid 350 and the second liquid 340 may vary in bending, inclination, and the like.

That is, by changing the surface tension of the electric furnace first and second liquids 350 and 340, it is possible to reduce the size of the camera device by moving the solid lens (adjusting the distance between lenses) , The power consumption is smaller than when the lens is mechanically moved using a motor or the like.

The first liquid 350 may be an oil and may be, for example, a phenyl-based silicone oil.

The second liquid 340 may be formed by mixing, for example, ethylene glycol and sodium bromide (NaBr).

The first liquid 350 and the second liquid 340 may include at least one of a sterilizing agent and an antioxidant, respectively. The bactericide may be a phenolic antioxidant or a phosphorus (P) antioxidant. The sterilizing agent may be any one of an alcoholic, aldate and phenolic sterilizing agent.

The first electrode 355 may be disposed in a portion of the upper surface of the first plate 310 and may be in direct contact with the second liquid 350. The second electrode 345 is spaced apart from the first electrode 35 and may be disposed on the upper surface and the lower surface of the first plate 310.

The side surface of the first plate 310 or the side surface of the insulating layer 360 may form an inclined surface or side wall of the cavity. The first electrode 355 may contact the first liquid 350 and the second liquid 340 with an insulating layer 360 therebetween.

The first electrode 355 and the second electrode 345 may apply an electrical signal received from an external circuit board to control the interface between the first liquid 350 and the second liquid 340.

The first electrode 355 and the second electrode 345 may be made of a conductive material, for example, a metal, and may include chromium (Cr) in detail. Chromium or chromium is a silver-colored, hard, transition metal that is brittle and has a high melting point without discoloration.

In addition, alloys containing chromium are resistant to corrosion and can be used in alloy with other metals because of their hardness. In particular, chromium (Cr) has a characteristic of being resistant to the conductive liquid filling the cavity because of less corrosion and discoloration.

The insulating layer 360 includes a second electrode 145 forming a side wall of the cavity and an upper surface of the third plate 330 on the bottom surface of the cavity. And the first plate 310 and the second electrode 345, as shown in FIG. The insulating layer 360 may be formed of, for example, a parylene C coating, and may further include a white dye. The white dye can increase the frequency of reflection of light in the insulating layer 360 constituting the side wall (i) of the cavity.

As shown, the second liquid 340 is in surface contact with the third plate 330 with the insulating layer 360 therebetween, and the first liquid 350 is in direct surface contact with the second plate 320 have.

The cavity may include a first opening in the direction of the second plate 320 and a second opening in the direction of the third plate 330. The size of the cross section of the first opening may be larger than the size of the cross section of the second opening. Here, the size of the first and second openings means a radius if the cross section of the opening is circular, and the length of one side if it is square.

The edges of the second plate 320 and the third plate 330 may have a rectangular shape, but are not limited thereto.

The first electrode 355 may be exposed in at least one region of the outer periphery of the second plate 320 and the second electrode 345 may be exposed in at least one region of the edge of the third plate 330 .

A first contact electrode 356 is disposed on the first electrode 355 in the outer region of the second plate 320 and a second contact electrode 356 is disposed on the second electrode 345 in the outer region of the third plate 300. [ An electrode 346 may be disposed.

The first contact electrode 356 and the second contact electrode 346 may be integrally formed with the first electrode 355 and the second electrode 345, respectively.

The first contact electrode 356 and the second contact electrode 346 may be electrically connected to a connection substrate 380 such as a flexible circuit board as described above.

FIGS. 3 and 4 are cross-sectional views of the lens assembly of the camera module of FIG. 1, and FIG. 5 is a view illustrating a structure of the lens assembly of the camera module of FIGS. Hereinafter, the arrangement of the first lens unit 100, the liquid lens 300, and the second lens unit 400 in the lens assembly according to the embodiment will be described with reference to FIGS. 3 to 5. FIG.

In the holder 500, first to third regions (region 1 to region 3) may be provided. The first lens unit 100 may be inserted into the first region 1 and the liquid lens 300 may be disposed in the second region 2 and the second lens unit 300 may be provided in the third region 3, (400) may be disposed. The first region (region 1) and the second region (region 2) are spaced apart from each other by a first gap (gap 1), and the second region (region 2) and the third region (region 3) (gap 2). The first gap gap 1 may be a distance between the first lens unit 100 and the liquid lens 300 and the second gap gap 2 may be a distance between the liquid lens 300 and the second lens 400, Lt; / RTI >

The above-described through-holes formed in the holder 500 may include the first to third regions (region 1 to region 3).

The holder 500 is disposed so as to surround the side surface and the front surface of the first region and a portion of the holder 500 is removed from the front surface of the first region facing the first lens portion 100, .

The holder 500 may be disposed around the sides of the second region (region 2) and the third region (region 3).

In the lens assembly 1000 according to the embodiment, the holder 500 may be disposed to surround the through hole therein.

5, the first lens units 110 and 120 and the second lens units 410, 420, and 430 are inserted into the first and third regions 1 and 3 in the holder 500, 2) This empty state is shown.

The cover 600 may be disposed to cover a part of the side surface of the holder 500 and a part of the upper surface. At this time, the opening formed in the side surface of the holder 500 and used as an entrance of the liquid lens 300 may be covered with the cover 600.

The side surface of the holder 500 may be provided with two openings which can be used as an entrance and exit of the liquid lens 300, and may be referred to as a first hole and a second hole, respectively. The both ends of the liquid lens 300 may be disposed so as to protrude outward from the first and second holes on both sides of the holder 500.

The cover 600 covers the above-mentioned protruded portion of the liquid lens 300 and can be disposed further outward.

The first and second holes may be formed by arranging the first lens unit 100 and the second lens unit 400 in the holder 500 and evaluating the optical performance of the first and second lens units 100 and 400, The length d4 of the second region 2 in the transverse direction of the lens assembly 1000 according to the embodiment may be smaller than the length d4 of the second region the length d1 in the horizontal direction of the first region and the length d3 in the horizontal direction of the third region. The length d2 in the transverse direction of the second plate 320 or the third plate 330 of the liquid lens 300 is greater than the length d1 in the transverse direction of the first region, May be greater than the length d3 in the transverse direction.

The length d1 of the first region 1 in the lateral direction may be the length of the first lens portion 100 in the lateral direction and the length of the first lens portion 100 in the region adjacent to the liquid lens 300, (C1) of the cavity in the adjacent region. The length d3 of the third region 3 in the lateral direction may be the length of the second lens portion 400 in the lateral direction in the region adjacent to the liquid lens 300, The length c2 of the cavity in the adjacent region may be greater than the length c2 of the cavity in the lateral direction.

This structure is such that when the liquid lens 300 is inserted into the second region 2, the second plate 320 and the third plate 330 of the liquid lens 300 are respectively in the first region 1, The upper surface of the second plate 320 of the liquid lens 300 and the lower surface of the third plate 330 are respectively protruded laterally from the holder 500 and the third region, Can be contacted and fixed.

The second plate 320 and the third plate 330 may be bonded to the holder 500 with an adhesive such as epoxy. At least a portion of the liquid lens 300 may be spaced away from the inner surface of the holder 500 without contact.

The upper surface 310a of the first plate 310 and the upper surface of the second plate 320 of the liquid lens 300 are in contact with the holder 500, And may be disposed lower than the lower surface 100b. The upper surface of the second plate 320 of the liquid lens 300 is in contact with the holder 500 or the upper surface 310a of the first plate 310 and the lower surface of the first lens portion 100 May be spaced apart by a first gap (gap 1).

The area where the lower surface of the third plate 330 of the liquid lens 300 is in surface contact with the holder 500 and the lower surface 310b of the first plate 310 are in contact with the upper surface of the second lens unit 400 May be disposed higher than the surface 400a. The area where the lower surface of the third plate 330 of the liquid lens 300 is in surface contact with the holder 500 or the lower surface 310b of the first plate 310 and the upper surface of the second lens part 400 May be spaced apart by a second gap (gap 2).

5 and 6, the first and second connection electrodes 356 and 346 are connected to the first and second contact electrodes 357 and 347. The first and second contact electrodes 357 and 347 are connected to the connection substrate 380, or the first and second connection electrodes 356, 346 may be electrically connected to the connection substrate 380 directly.

The space between the holder 500 and the cover 600 is filled by the second holder 550. The holder 500 and the second holder 550 may be integrally formed of the same material.

The first lens unit 100 may include two lenses 110 and 120. At this time, the holder 500 may have a step structure at the inner wall of the first region (region 1) in which the first lens portion 100 is accommodated, and the edge of each lens 110, 120 in the stepped structure The area can be in surface contact and fixed.

The second lens unit 400 may include three lenses 410, 420, and 430. At this time, the holder 500 may have a step structure at an inner wall of a third region (region 3) in which the second lens unit 400 is accommodated. In the stepped structure, The edge regions can be in surface contact and fixed.

The camera module including the liquid lens according to the embodiment may include a conductive liquid and a non-conductive liquid together in the cavity, and the conductive liquid and the non-conductive liquid may have an interface without being mixed with each other. The interface between the conductive liquid and the non-conductive liquid is deformed by the driving voltage applied to the first and second electrodes 355 and 345 from the outside, so that the curvature and focal length of the liquid lens 300 can be changed.

The liquid lens 300, the lens assembly 1000 including the lens lens, and the image pickup apparatus are provided with an optical zoom function, an auto-focusing (AF) function, a camera shake correction or image blur prevention An optical image stabilizer (OIS) function, and the like. The size of the camera module can be reduced, and the power consumption can be reduced as compared with moving the lens mechanically by performing electric path AF or OIS.

Since the liquid lens is inserted into the holder, the upper and lower surfaces of the liquid lens are in surface contact with the holder, and are disposed with the first and second gaps (gaps 1, 2) Alignment and tilting to the optical axis can be easily prevented.

A camera module is manufactured by providing a holder having an upper portion and a lower portion opened, a first hole on a side surface and a second hole facing the first hole, a first lens portion coupled to an upper portion of the holder, After the second lens part is coupled to the lower part of the holder, the second lens part can be inserted through the first hole and / or the second hole of the holder, and the liquid lens may protrude from the side surface of the holder.

(For example, the optical axis of the liquid lens or the center of the region in which the liquid is arranged) when the position of the liquid lens is adjusted by supporting the side surface of the liquid lens projected from the side surface of the holder, The position can be adjusted to align the center of the lens portion or the second lens portion (e.g., the center or optical axis of the lens).

The position of the liquid lens can be moved on a plane perpendicular to the optical axis so that the center of the liquid lens is located at the center of the optical axis by holding the portion of the liquid lens protruding out of the first and second holes on the side of the holder, The liquid lens can be rotated and moved on a plane perpendicular to the liquid lens. It is possible to check and correct whether the optical axis of the liquid lens is tilted so that the optical axis of the liquid lens coincides with the optical axis of the lens assembly.

The holder and the liquid lens can be combined using an adhesive such as epoxy. When manufacturing a camera module, can be manufactured with a combination of at least some of the steps described above, the order of the steps being changeable. For example, the liquid lens may be first placed in the holder, and then the first lens portion or the second lens portion may be placed in the holder.

After evaluating the optical performance of the first and second lens units and the liquid lens, if a tilting or other problem is found, the liquid lens can be exchanged through one of the first and second holes.

The camera module including the liquid lens described above can be embedded in various digital devices such as a digital camera, a smart phone, a notebook, and a tablet PC. In particular, the camera module can be embedded in a mobile device, A zoom lens can be implemented.

For example, in a camera module including the liquid lens, the first and second lens units, the first and second lens units, and the light receiving element, a digital device or an optical device that converts an image incident from the outside into an electrical signal, The display module and the camera module may be controlled by a control unit.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

100: lens assembly 2000: Control circuit

Claims (16)

A holder including a first side having a first opening and a second side having a second opening facing the first opening in a direction perpendicular to the optical axis direction;
A first lens unit disposed in the holder;
A second lens unit disposed in the holder;
A liquid lens disposed between the first lens portion and the second lens portion and disposed at least partially within the first opening and the second opening of the holder;
A connecting substrate disposed on the liquid lens; And
And a sensor substrate including an image sensor and disposed below the holder,
The connecting substrate
A first connection substrate disposed on the liquid lens; And
And a second connection substrate disposed below the liquid lens,
Wherein the first connection substrate electrically connects the liquid lens and the sensor substrate through the first opening and the second connection substrate is electrically connected to the sensor substrate through the second opening, module. The camera module according to claim 1, wherein the liquid lens is inserted through at least one of the first opening and the second opening, and a part of the liquid lens protrudes to the side of the holder. 2. The apparatus of claim 1, wherein the holder
A second region in which the liquid lens is disposed between the first opening and the second opening;
A first region in which the first lens section is disposed on the second region; And
And a third region in which the second lens section is disposed below the second region. 2. The holder according to claim 1, further comprising a cover covering at least a part of a side surface and an upper surface of the holder,
And the cover covers the first opening and the second opening. The camera module according to claim 1, wherein a length of the liquid lens is longer than a length of the first lens portion and the second lens portion in a direction from the first opening toward the second opening. The liquid lens according to any one of claims 1 to 5, wherein the liquid lens
A first plate including a cavity in which a first liquid and a second liquid are disposed;
A first electrode disposed on the first plate; And
And a second electrode disposed below the first plate,
Wherein the first connection substrate is electrically connected to the first electrode, and the second connection substrate is electrically connected to the second electrode. 7. The apparatus according to claim 6, wherein the liquid lens
A second plate disposed above the first electrode; And
And a third plate disposed below the second electrode,
Wherein the second plate and the third plate are respectively bonded to the holder and the epoxy. The camera module according to any one of claims 1 to 5, wherein the liquid lens is separated from at least one of the first lens unit and the second lens unit. 7. The zoom lens of claim 6, wherein the first lens unit includes a plurality of lenses,
Wherein a length of the lens closest to the liquid lens among the plurality of lenses of the first lens unit in a direction perpendicular to the optical axis direction is larger than a diameter of the cavity closest to the first lens unit. 7. The zoom lens of claim 6, wherein the second lens unit includes a plurality of lenses,
Wherein a length of the lens closest to the liquid lens among the plurality of lenses of the second lens unit in a direction perpendicular to the optical axis direction is larger than a diameter of the cavity closest to the second lens unit. The method of claim 3,
The inner wall of the holder in the first region has a step, the first lens portion is in contact with the step of the first region,
The inner wall of the holder in the third region has a step, and the second lens portion is in contact with the step of the third region. A holder including a first side having a first opening and a second side having a second opening facing the first opening in a direction perpendicular to the optical axis direction;
A first lens unit disposed in the holder;
A second lens unit disposed in the holder; And
And a liquid lens disposed between the first lens portion and the second lens portion and disposed at least partially within the first opening and the second opening of the holder,
Wherein at least a part of the liquid lens is disposed apart from the inner surface of the holder. 13. The method of claim 12,
Wherein the liquid lens is inserted through at least one of the first opening and the second opening, and a portion of the liquid lens protrudes to the side of the holder. 13. The apparatus according to claim 12, wherein the liquid lens
A first plate including a cavity in which a first liquid and a second liquid are disposed;
A first electrode disposed on the first plate;
A second electrode disposed below the first plate;
A second plate disposed above the first electrode; And
And a third plate disposed below the second electrode
Wherein the second plate and the third plate are respectively bonded to the holder and the epoxy. 13. The camera module according to claim 12, wherein the liquid lens is separated from at least one of the first lens unit and the second lens unit. 13. The zoom lens of claim 12, wherein the first lens unit includes a plurality of lenses,
The length of the lens closest to the liquid lens in the direction perpendicular to the optical axis direction of the plurality of lenses of the first lens unit is larger than the diameter of the cavity closest to the first lens unit,
Wherein the second lens unit includes a plurality of lenses,
Wherein a length of the lens closest to the liquid lens among the plurality of lenses of the second lens unit in a direction perpendicular to the optical axis direction is larger than a diameter of the cavity closest to the second lens unit.

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