KR101724678B1 - Camera module and Manufacturing method of the same - Google Patents

Abstract

The present invention relates to a camera module and a manufacturing method thereof.
That is, the camera module includes: a housing assembly having a lens and an IR filter; An image sensor for sensing light passing through the lens and converting the light into an electrical signal; A substrate on which the image sensor is mounted; And a curable resin printing layer for fixing the housing assembly to the substrate.

Description

[0001] The present invention relates to a camera module and a manufacturing method thereof,

The present invention relates to a camera module capable of performing accurate focusing.

In general, camera modules applied to portable mobile communication devices such as camera phones, personal digital assistants (PDAs), smart phones, and IT devices are manufactured in a small size. Recently, various functions A mobile communication device equipped with a camera module having a built-in camera module is gradually being launched.

Such a camera includes a plurality of lenses, and is configured to adjust the optical focal length by moving each lens and changing its relative distance.

SUMMARY OF THE INVENTION The present invention solves the problem of achieving accurate focusing.

According to the present invention,

A housing assembly having a lens and an IR filter;

An image sensor for sensing light passing through the lens and converting the light into an electrical signal;

A substrate on which the image sensor is mounted;

And a curable resin printing layer for fixing the housing assembly to the substrate.

Further, according to the present invention,

Mounting an image sensor on a substrate and forming a curable resin printed layer around the image sensor;

Placing a housing assembly with a lens and an IR filter on top of the curable resin printing layer;

Performing focusing while pressing the housing assembly toward the substrate;

And curing the curable resin printing layer by irradiating ultraviolet light when the focusing is completed.

The camera module according to the present embodiment includes a substrate; An image sensor disposed on the substrate; A housing assembly coupled to an upper surface of the substrate; A lens received in the housing assembly; And a curable resin disposed between the upper surface of the substrate and the housing assembly, wherein the housing assembly is pressed in the direction of the substrate while being disposed on the curable resin before the curable resin is cured, The thickness of the cured curable resin between the housing assembly and the substrate is 0.1 占 퐉 to 50 占 퐉 and the thickness of the first portion is thinner than the thickness of the second portion but not the first portion.

The optical axis of the lens and the optical axis of the image sensor may be aligned during the pressing of the housing assembly toward the substrate.

The curable resin may be an epoxy which is cured by ultraviolet rays (UV).

The image sensor and the housing assembly are tilted, and the tilt angle of the image sensor and the tilt angle of the housing assembly correspond to each other.

A method of manufacturing a camera module according to an embodiment of the present invention includes disposing an image sensor on a substrate; Disposing a curable resin on the upper surface of the substrate so as to correspond to the shape of the lower end surface of the housing assembly; Disposing the housing assembly in the curable resin; Pressing the housing assembly toward the substrate side to perform focusing of the lens of the housing assembly with respect to the image sensor; And fixing the housing assembly to the substrate by curing the curable resin after the focusing is completed, wherein the thickness of the curable resin in a cured state on the upper surface of the substrate is 0.1 占 퐉 to 50 占 퐉, The thickness of the first portion of the curable resin may be less than the thickness of the second portion rather than the first portion.

The step of performing the focusing may include aligning the optical axis of the image sensor with the optical axis of the lens by pressing the housing assembly toward the substrate side.

The curable resin may be formed in a ring-shaped pattern, and the image sensor may be located inside the curable resin that is the ring-shaped pattern.

The step of curing the curable resin may include the step of curing the curable resin by irradiating ultraviolet rays to the curable resin.

In the step of irradiating ultraviolet rays to the curable resin, the housing assembly may be gripped to maintain the focusing state until the curing of the curable resin is completed.

The image sensor and the housing assembly are tilted, and the tilt angle of the image sensor and the tilt angle of the housing assembly correspond to each other.

The present invention is characterized in that after a curable resin printing layer is interposed between the housing assembly and the substrate, a focusing process is performed to focus the object on the object through the lens to the incident surface of the image sensor, and then the curable resin printing layer is cured, There is an effect that fixation to the substrate and focusing can be performed simultaneously.

In addition, the camera module according to the embodiment of the present invention has the effect of simplifying the configuration of the camera module by focusing the lens with the curable resin printing layer.

In the method of manufacturing a camera module according to an embodiment of the present invention, a focusing process is performed while pressing a housing assembly with a curable resin printing layer interposed between a housing assembly and a substrate so that the distance between the lens surface and the incident surface of the image sensor So that it is possible to perform accurate focusing.

In addition, the manufacturing method of the camera module according to the embodiment of the present invention has an effect of solving the tilt problem that occurs when the image sensor is bonded.

1 is a schematic cross-sectional view of a camera module according to an embodiment of the present invention;
2A to 2E are schematic cross-sectional views illustrating a method of manufacturing a camera module according to an embodiment of the present invention
3 is a schematic perspective view showing a state before placing the housing assembly on the curable resin printing layer according to the embodiment of the present invention.
4 is a schematic cross-sectional view illustrating a method of focusing a tilted image sensor according to an embodiment of the present invention

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic cross-sectional view of a camera module according to an embodiment of the present invention.

A camera module according to an embodiment of the present invention includes a housing assembly 100 having a lens 130 and an IR filter 140 built therein; An image sensor 210 for sensing light passing through the lens 130 and converting the light into an electrical signal; A substrate 200 on which the image sensor 210 is mounted; And a curable resin printing layer 300 for fixing the housing assembly 100 to the substrate 200.

Here, the housing assembly 100 includes a housing 110 having a transparent window 150; A lens 130 and an IR filter 140 mounted in the inner space of the housing 110. The lens 130 and the IR filter 140 are defined as a single optical component assembled to the housing 110 .

Here, the housing 110 may be defined as a holder.

In addition, the lens 130 may be at least one lens, and may implement a lens optical system of various lenses capable of implementing a camera.

The curable resin printed layer 300 is used as a means for fixing the housing assembly 100 to the substrate 200 and is used for focusing the lens 130 of the housing assembly 100.

That is, after the curable resin printing layer 300 is interposed between the housing assembly 100 and the substrate 200, the focus of the object through the lens 130 is focused on the incident surface of the image sensor 210, And then the curable resin print layer 300 is cured to fix the housing assembly 100 to the substrate 200 and perform focusing.

Therefore, the camera module according to the embodiment of the present invention is advantageous in that the configuration of the camera module can be simplified by focusing the lens with the curable resin printing layer.

If the thickness of the curable resin print layer 300 is less than 0.1 탆, the thickness T of the curable resin print layer 300 may be too thin to perform a smooth focusing process. If it is larger than 50 탆, a certain pattern can not be realized due to the viscosity of the resin.

The curable resin printed layer 300 may be a printed layer of a resin cured by ultraviolet (UV) radiation.

In addition, the curable resin printed layer 300 may be formed of epoxy resin.

Such a camera module transmits the light of the subject filtered by the IR filter 140 to the image sensor 210 through the transparent window 150 and the lens 130 of the housing assembly 100, The image of the subject can be captured.

2A to 2E are schematic cross-sectional views illustrating a method of manufacturing a camera module according to an embodiment of the present invention.

First, an image sensor 210 is mounted on a substrate 200, and a curable resin printing layer 300 is formed around the image sensor 210 (Fig. 2A)

A printed circuit board may be applied to the substrate 200. The image sensor 210 may be die bonded to the substrate 200 in a chip form or may be bonded to a substrate by flip chip bonding .

The curable resin printed layer 300 may be formed by printing a curable resin on an area spaced apart from the image sensor 210 and may be formed in a barrier pattern surrounding the image sensor 210 .

That is, the curable resin print layer 300 may be formed in a ring-shaped pattern, and the image sensor 210 is positioned inside the curable resin print layer 300 in the ring-shaped pattern.

Thereafter, the housing assembly 100 with the lens 130 and the IR filter 140 mounted therein is placed on the curable resin printing layer 300 (Fig. 2B)

Here, the distance d between the lens 130 and the image sensor 210 is a factor for performing focusing in the assembling process of the camera module.

Subsequently, focusing is performed while pressing the housing assembly 100 toward the substrate 200 (FIG. 2C)

At this time, the focusing is performed using an active alignment apparatus, and the active alignment apparatus may be provided with a function of pressing the housing assembly 100.

The focusing is performed by pressing the housing assembly 100 while the image sensor 210 senses the light of an object incident in the 'A' direction of FIG. 2C to determine the degree of focusing.

Further, a separate jig such as '500' of FIG. 2C may be prepared to press and grip the housing assembly 100.

When the housing assembly 100 is pressed toward the substrate 200, the curable resin print layer 300 is not cured and is pressed by a pressurized force. Thus, the housing assembly 100 is pressed against the substrate 200, (200).

Therefore, the lens 130 of the housing assembly 100 is focused while approaching the image sensor 210.

That is, the second thickness ('T2' in FIG. 2C) of the curable resin print layer 300 when the housing assembly 100 is pressed is larger than the first thickness (the thickness of the curable resin print layer 300 when the curable resin print layer 300 is printed) ('T1' in FIG. 2B).

Subsequently, when focusing is completed, ultraviolet light is irradiated to cure the curable resin printed layer 300 (Fig. 2D)

The curing may be carried out by an instant curing process of about 3 seconds.

When the housing assembly 100 is not gripped by the outside, the focus of the curable resin print layer 300 may be detected by the viscosity of the curable resin print layer 300, The position will not be maintained.

Therefore, the housing assembly 100 may be gripped by external means in order to maintain the focused state from the time of ultraviolet ray irradiation until the curing of the curable resin printed layer 300 is completed.

When the hardening of the curable resin printing layer 300 is completed, the housing assembly 100 is fixed to the substrate 200 in a focused state, thereby manufacturing the camera module of FIG. 2E.

Therefore, in the method of manufacturing a camera module according to an embodiment of the present invention, a focusing process is performed while pressing a housing assembly through a curable resin printing layer between a housing assembly and a substrate, so that the distance between the lens surface and the incident surface of the image sensor So that it is possible to perform accurate focusing.

That is, in the comparative example in which the lens is assembled by using the screw assembly, the distance between all the surfaces of the lens (all surfaces forming the curvature of the lens) and all the incident surfaces of the image sensor is not fixed due to the assembly tolerance of the lens and the tilt of the image sensor, Focusing can not be performed.

3 is a schematic perspective view showing a state before placing the housing assembly on the curable resin printing layer according to the embodiment of the present invention.

As described above, the housing assembly 100 includes a housing 110 having a transparent window; And a lens mounted on the inner space of the housing 110 and an IR filter.

The housing 110 is in contact with the curable resin print layer 300 formed on the substrate 200. The curable resin print layer 300 is formed in a pattern shape in consideration of the contact surface of the housing 110.

If the housing 110 has a container shape capable of incorporating the lens and the IR filter, the curable resin printed layer 300 is formed in the same pattern as the top of the container.

4 is a schematic cross-sectional view illustrating a method of focusing a tilted image sensor according to an embodiment of the present invention.

The image sensor 210 is likely to be tilted by the bonding means when mounted on the substrate 200 and when the image sensor 210 is tilted the incident surface 211 of the image sensor 210, ) Are also tilted.

Therefore, the lens 130 is out of focus on the incident surface 211 of the tilted image sensor 210, thereby deteriorating the performance of the camera module.

However, according to the present invention, the tilting problem that occurs when the image sensor 210 is bonded can be solved by bonding the housing assembly 100 to the substrate 200 with the curable resin print layer 300 and performing focusing.

4, the image sensor 210 is tilted and mounted on the substrate 200, and the area of the housing assembly 100 close to the tilted region of the image sensor 210 The force B1 applied to the image sensor 210 is greater than the force B2 applied to the area of the housing assembly 100 close to the area of the image sensor 210 opposite to the tilted area, ) Can be solved.

At this time, the housing assembly 100 is also tilted and bonded to the substrate 200.

The tilt angle? 1 of the image sensor 210 and the tilt angle? 2 of the housing assembly 100 are the same.

In more detail, when the incident surface 211 of the image sensor 210 includes a first edge region b1 and a second edge region b2 opposed to the first edge region b1, The image sensor 210 is tilted from the first edge region b1 to the second edge region b2 when tilted.

The position of the first edge region b1 is lower than the position of the second edge region b2.

At this time, a force B1 applied to the area of the housing assembly 100 close to the first edge area b1 is applied to the area of the housing assembly 100 close to the second edge area b2 Is larger than the force (B2).

Meanwhile, when the image sensor 210 applies force to the substrate 200 to the solder ball for adhesive bonding or flip chip bonding for die bonding to the image sensor 210, If not, the image sensor 210 is tilted and mounted.

Therefore, the manufacturing method of the camera module according to the embodiment of the present invention has an advantage of solving the tilting problem generated when the image sensor is bonded.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: housing assembly 200: substrate
300: Curable resin printing layer

Claims (10)

Board;
An image sensor disposed on the substrate;
A housing assembly coupled to an upper surface of the substrate;
A lens received in the housing assembly; And
And a curable resin disposed between the upper surface of the substrate and the housing assembly,
Wherein the housing assembly is pressed toward the substrate in a state where the housing assembly is disposed in the curable resin before the curable resin is cured,
Wherein a thickness of the cured curable resin between the housing assembly and the substrate is 0.1 占 퐉 to 50 占 퐉 and the thickness of the first portion is thinner than the thickness of the second portion, . The method according to claim 1,
Wherein an optical axis of the lens is aligned with an optical axis of the image sensor when the housing assembly is pressed toward the substrate. The method according to claim 1,
Wherein the curable resin is an epoxy which is cured by ultraviolet rays (UV). 3. The method of claim 2,
Wherein the image sensor and the housing assembly are arranged in a tilted manner,
Wherein the tilt angle of the image sensor and the tilt angle of the housing assembly correspond to each other. Disposing an image sensor on a substrate;
Disposing a curable resin on the upper surface of the substrate so as to correspond to the shape of the lower end surface of the housing assembly;
Disposing the housing assembly in the curable resin;
Pressing the housing assembly toward the substrate side to perform focusing of the lens of the housing assembly with respect to the image sensor; And
And fixing the housing assembly to the substrate by curing the curable resin after the focusing is completed,
The thickness of the curable resin in the cured state on the upper surface of the substrate is 0.1 탆 to 50 탆,
Wherein the thickness of the first portion of the curable resin after the focusing is thinner than the thickness of the second portion other than the first portion. 6. The method of claim 5,
The step of performing focusing includes:
And pressing the housing assembly toward the substrate to align the optical axis of the lens with the optical axis of the image sensor. 6. The method of claim 5,
The curable resin is formed in a ring-shaped pattern,
Wherein the image sensor is positioned inside the curable resin as the ring-shaped pattern. 6. The method of claim 5,
The step of curing the curable resin comprises:
And curing the curable resin by irradiating ultraviolet rays to the curable resin. 9. The method of claim 8,
The step of irradiating ultraviolet rays to the curable resin may include:
Wherein the housing assembly is gripped to maintain the focusing state from the time of ultraviolet ray irradiation until the curing of the curable resin is completed. 6. The method of claim 5,
Wherein the image sensor and the housing assembly are arranged in a tilted manner,
Wherein the tilt angle of the image sensor corresponds to the tilt angle of the housing assembly.

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