KR20150124126A - Camera module and Mobile apparatus with the camera module - Google Patents

Abstract

The present invention relates to a camera module and a portable device including the same. The camera module of the present invention comprises: a substrate which has an image sensor; a base, wherein the substrate is mounted; a bobbin assembly which is located on an upper part of the substrate, and has a coil and a yoke respectively mounted in the inside and outside of the bobbin assembly; an optical unit which has an automatic focusing module in the center by being located inside the bobbin assembly, and has a magnet in the outer surface, to be moved to a horizontal direction or a vertical direction by magnetic force generated from the coil; and a case which forms the entire outer surface by being connected with the base, has an opening on the upper surface and at least one biometric recognition LED around the case. Accordingly, the present invention can provide the portable device including the camera module. According to the present invention, deterioration of display quality is reduced by minimizing shaking of the optical unit.

Description

[0001] The present invention relates to a camera module and a mobile device having the camera module,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera module, and more particularly, to a structure-improved camera module equipped with an LED for biometrics and an image stabilization device and a portable device having the camera module.

With the popularization of mobile devices including smartphones, mobile phones and smartphones with various functions and capabilities have been launched, and consumers are now at a much higher level. Especially, in order to put various functions into a small-sized smart phone, each device is becoming more compact and lighter, and has a higher performance.

The camera module is mounted not only in a compact size but also in a portable device such as a mobile phone, a smart phone, a tablet PC, In this case, the handheld device is more affected by the shaking than the camera module applied to the fixed device. Therefore, a camera module mounted on various portable apparatuses is equipped with an auto focus (AF) function and an image stabilization (OIS) function.

Auto Focus is a function of an optical system (camera) that automatically focuses on a specific object (subject). It is an Auto Focus Actuator, which is a device that moves the lens in the vertical direction of the image sensor, To focus on the object. Actuators that are used for the auto focus of existing portable devices, that is, smart phones, can be classified into three types such as voice coil motors, piezo actuators, and encoder actuators. Among them, voice coil motor type is most widely used in recent years. However, this type has good price competitiveness, but it is difficult to use when the stroke of the lens assembly is large or precise position control is required.

The anti-shake function is a function for alleviating a change in focus caused by hand tremor and movement occurring during operation of the portable device. In other words, when the camera shakes, the movement of the pixel occurs rapidly, which deteriorates the image quality. In this case, the technique generated by the hand tremor and the movement includes the image shake prevention method using the image sensor and the optical image shake prevention method.

There are also two methods of preventing image blur using the image sensor. Mechanical and electronic.

The electronic system receives light of only about 80 to 90% of the entire imaging surface of the image sensor, centering on the center of the image sensor, and the remaining portions are set as white space for shake correction. When a motion occurs, the white space in the opposite direction of the movement is received by the image sensor and the electronic signal is received, and the image is corrected. This method has been used for a long time compared with the mechanical method. The disadvantage of this method is that only a part of the imaging surface is used, which results in a lower resolution.

The mechanical method moves the image sensor in a direction opposite to the shake of the device and moves the image sensor mechanically. Therefore, it is possible to use the entire imaging surface as it is, thereby overcoming the disadvantages of the electronic method. There are advantages. On the other hand, there is a disadvantage in that it is not possible to prevent blurring at the viewfinder image, that is, at the viewpoint of the photographer, and to prevent the image from reaching the auto-focus sensor.

Although the camera module of the portable device is applied with the auto focus function and the hand shake correction function, there are various problems.

Korean Patent Laid-Open No. 10-2013-0127783 (November 31, 2013. Manufacturing method of camera module and camera module)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a camera module having an improved structure for improving autofocus and hand shake correction functions.

It is another object of the present invention to provide a portable device on which a camera module with improved structure is mounted.

According to an aspect of the present invention, there is provided an image sensor comprising: a substrate on which an image sensor is formed; A base on which the substrate is seated; A bobbin assembly positioned above the substrate and having coils and yokes mounted inside and outside, respectively; An optical unit positioned inside the bobbin assembly and provided with an autofocus module at the center thereof and having a magnet attached to an outer surface thereof to move vertically and horizontally by a magnetic force generated by the coil; And a case coupled to the base to form a total outer surface, an upper surface having an opening, and at least one biometric LED disposed around the case.

The substrate is provided with terminals for supplying power to the biometric LED, the optical unit, and the bobbin assembly.

The substrate and the optical unit are connected to a flexible printed circuit board.

In the case, a power connection pattern formed by a 3D-EPCB method is formed, and the power connection pattern connects the substrate and the biometric LED.

The bobbin assembly and the optical unit are connected by a plurality of springs.

At least one Hall sensor for sensing the position of the optical unit is provided inside the bobbin assembly.

The optical unit may be a voice coil motor, a motor drive, or a piezoelectric actuator.

According to another aspect of the present invention, there is provided a portable device for mounting a camera module configured as described above.

The camera module and the portable device having the camera module according to the present invention have the following effects.

The camera module of the present invention is a camera module in which an optical unit is connected to a bobbin assembly by a plurality of springs and the magnets of the optical unit are controlled by using a magnetic force generated by a coil mounted on the bobbin assembly, And is moved in the horizontal direction. Therefore, the shaking of the optical unit can be minimized.

In addition, since the optical unit is supplied with power by using the flexible printed circuit board, the defective product rate can be reduced due to stable power supply.

In addition, the present invention has an improved structure of a camera module in which an LED for biometric recognition is mounted on an upper surface of a case forming an outer shape of the camera module. Of course, this is a structure that can supply power because it uses a power connection pattern formed by 3D-EPCB method for biometric LED.

1 is an exploded perspective view of a camera module according to a preferred embodiment of the present invention.
Fig. 2 is a plan view of the case in which the case is separated in Fig.
Fig. 3 is a plan view showing a state in which the case is mounted in Fig.

The present invention improves the structure of a camera module which deteriorates the conventional camera shake prevention and auto-focusing function of the camera module, thereby automatically adjusting the focus of the subject at low cost and minimizing the shaking, .

Hereinafter, preferred embodiments of a camera module and a portable device having the camera module according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an exploded perspective view of a camera module according to a preferred embodiment of the present invention. FIG. 2 is a plan view of the case in which the case is separated in FIG. 1, and FIG.

Referring to FIG. 1, a base (not labeled) is first formed as a support of a camera module. The protrusion 115 is formed at the edge of the base. So that the central portion is formed in a concave shape. Also, some sides are open shapes. That is, a structure in which a substrate to be described later can be stably mounted.

The substrate 110 is seated on the base. The substrate 110 has a substantially rectangular shape corresponding to the base, and the substrate portion 110a extends outward through the open portion. An image sensor 111 is formed at the center of the substrate 110 and a first terminal 113, a second terminal 112 and a third terminal 114 are formed in one region. The first terminal 113 is a connection terminal for connection to the biometric LED 141. The second terminal 112 is a connection terminal for connection with the optical unit 120. The third terminal 114 is connected to the bovine assembly 130 And the substrate 110. In this case, The configuration of the biometric LED 141, the optical unit 120, and the bobbin assembly 130 will be described later.

On top of the substrate 110, an optical unit 120 is provided. The optical unit 120 also has a hexahedron shape corresponding to the base. At this time, the optical unit 120 moves in the horizontal / vertical direction while being positioned inside the bobbin assembly 130, not in contact with the substrate 110. Of course, the optical unit 120 and the substrate 110 must be electrically connected to each other, and a flexible printed circuit board (FPCB) is used for this purpose. Thus, power can be supplied to the optical unit 120 through the second terminal 112 formed on the substrate 110.

On the other hand, the optical unit 120 is equipped with an autofocus module 123, which is exposed at the top of the optical unit 120 as shown. The optical unit 120 including the auto focus module 123 is driven by a voice coil motor, a motor drive, or a piezoelectric actuator.

A magnet 121 is mounted on the side surface of the optical unit 120. The magnet 121 serves to change the position of the optical unit 120 by the magnetic force generated by the coil 131 of the bobbin assembly 130 surrounding the optical unit 120.

A bobbin assembly 130, which is configured to surround the optical unit 120, is located outside the optical unit 120. The bobbin assembly 130 moves the position of the optical unit 120 located therein. To this end, the optical unit 120 and the bobbin assembly 130 are connected by a plurality of springs 122. The spring 122 is provided at the edge of the optical unit 120 and the inner edge of the bobbin assembly 130 as shown in FIG. Accordingly, it is possible to minimize the movement of the optical unit 120 in the vertical and horizontal impacts, and as a result, it is possible to alleviate the image quality deterioration caused by the shaking.

A coil 131 is mounted inside the bobbin assembly 130, and a yoke 132 is mounted on the outside of the bobbin assembly 130. A magnetic force is generated by using the coil 131 and the yoke 132 and the optical unit 120 to which the magnet 121 is attached is moved in the horizontal and vertical directions through the magnetic force. At this time, power is supplied to the coil 131 from the substrate 110 through the third terminal 114.

At least one Hall sensor (not shown) for detecting the position of the optical unit 120 is formed inside the bobbin assembly 130. Of course, a sensor having a different structure capable of sensing the position of the vertically moving optical unit 120 in addition to the Hall sensor may be sufficiently applied.

A case 140 is formed to enclose the bobbin assembly 130 and form an outer shape of the camera module. One end of the case 140 is in contact with and engages with the protrusion 115 formed on the base. The case 140 is made of a plastic material.

An opening 143 is formed at the center of the case 140 so that the auto-focus module 123 can take an image of the subject. A biometric LED 141 is mounted around the opening 143. In the embodiment, a total of four biometric LEDs 141 are applied, but the number is not limited thereto. A power connection pattern 142 is formed to supply power to the biometric LED 141. The power connection pattern 142 may be formed in a 3D-EPCB manner, And is connected to the terminal 113.

The camera module thus configured can recognize the subject positioned in front by mounting the biometric LED 141 on the upper surface of the case 140 and can recognize the subject positioned on the inside of the bobbin assembly 130 by the magnetic force The position of the optical unit 120 can be changed in the vertical / horizontal direction while minimizing the movement of the optical unit 120. Accordingly, when such a camera module is applied to a portable device, it is possible to prevent deterioration in image quality caused by hand trembling and movement.

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. It will be apparent that modifications, variations and equivalents of other embodiments are possible. Therefore, the true scope of the present invention should be determined by the technical idea of the appended claims.

110: substrate 111: image sensor
113, 112 and 114: first to third terminals
115: protrusion 120: optical unit
121: Magnet 122: Spring
123: spring 130: bobbin assembly
131: coil 132: yoke
140: Case 141: Biometric LED
142: Pattern for power connection

Claims (8)

A substrate on which an image sensor is formed;
A base for seating the substrate;
A bobbin assembly positioned above the substrate and having coils and yokes mounted inside and outside, respectively;
An optical unit positioned inside the bobbin assembly and provided with an autofocus module at the center thereof and having a magnet attached to an outer surface thereof to move vertically and horizontally by a magnetic force generated by the coil; And
And a case having an opening formed on an upper surface thereof and at least one biometric LED formed in the periphery thereof. The method according to claim 1,
In the substrate,
And a terminal for supplying power to the biometric LED, the optical unit, and the bobbin assembly are respectively formed. The method according to claim 1,
Wherein the substrate and the optical unit are connected to a flexible printed circuit board. The method according to claim 1,
In the case, a power connection pattern formed by a 3D-EPCB method is formed,
And the power connection pattern connects the substrate and the biometric LED. The method according to claim 1,
Wherein the bobbin assembly and the optical unit are connected by a plurality of springs. 6. The method of claim 5,
And at least one hall sensor for sensing a position of the optical unit is provided inside the bobbin assembly. The method according to claim 1,
The optical unit includes:
A camera module to which any one of a voice coil motor method, a motor driving method, and a piezoelectric actuator method is applied. A portable device comprising the constitution according to any one of claims 1 to 7.

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