KR20140144973A - Auto focus offset calibration method - Google Patents

Abstract

An auto focus offset calibration method comprises: (A) a step of moving a lens to an auto focus (AF) best position; (B) a step of searching for a lens position section where the central part and the edge part can satisfy a fixed resolution in the whole section by moving the lens; and (C) a step of setting a median value of the searched lens position section where the central part and the edge part can satisfy a fixed resolution. Therefore, the AF offset calibration method can prevent the reduction of resolution when repeating auto focusing without any replacement of a component such as a lens, a lens driving unit, or an image sensor, can prevent the generation of a defective product according to input of an offset value which is not optimized, and can save manufacturing costs thereof by generating a high-quality camera module where the central part and the edge part can satisfy a fixed resolution regardless of deviations among lens modules, or deviations among tools interlocking during VCM actuator tilt, die tilt, or auto focusing.

Description

[0001] The present invention relates to an auto focus offset calibration method,

The present invention relates to an autofocus offset calibration method, and more particularly, to an autofocus offset calibration method capable of setting an offset value to an optimum value.

In general, the auto focus (AF) performance of the camera module is influenced by the performance of the AF algorithm applied and the performance of the lens, and is determined by the repeatability and accuracy performance of the camera module. Especially, in case of AF repeatability problem, it is directly related to the performance of the AF algorithm and the performance of the lens.

In recent years, camera lenses and driving parts have been designed in accordance with the trend of high-definition and light-weight miniaturization. However, the height of camera modules is becoming lower and the size of pixels of image sensors is also being miniaturized. Phenomenon.

At the point when it is difficult to develop new technology for the raw material being applied to the lens side and to secure the additional precision of the driving part itself, there is a problem of deterioration of the repeatability deviation resolution.

Also, in the case of the AF algorithm, the performance of the AF algorithm is determined according to the performance and the operation sequence of the AF filter. If the optimization is difficult due to the physical structure of the image signal processor (ISP), the repeatability performance may be affected.

As a result, there are three optimization problems in the current high-pixel module, which are difficult to improve in a short period of time.

1. Fabrication and design technology of lens-secured product due to lens optimization problem due to light and short cut.

2. Problems of securing additional performance due to technical limitations of AF algorithm itself.

3. Deterioration due to image sensor pixel miniaturization.

Although the above problems exist, the consumer desires to use the uniform performance product and wants the uniform performance product at the time of AF instead of the product having the excellent performance of the specific section.

However, in the case of the present product, a product having a high resolution of a specific section but not satisfying the resolution of a certain section is generated in mass production due to the tilting and other problems of the driving part in addition to the above problems. For such products, AF offset correction Is corrected through work. However, if the optimized value is not input after calibrating due to the light and short cut of the camera module, the adverse effect may occur.

Conventionally, the best position of the lens with respect to the image is found through the focus position information and the focus position search algorithm calculated from the AF filter. However, even though the lens is positioned at the center of the best lens position after the auto focusing operation, a camera module whose resolution of the peripheral portion does not satisfy a certain level of resolution may appear. This is mainly caused by degradation of resolution due to deviation between mechanisms that operate in conjunction with a voice coil motor (VCM) actuator tilt, die tilt, or AF.

The VCM actuator tilt will be described. The VCM actuator drives a bobbin equipped with a lens by an electromagnetic force generated by a magnetic field generated by a magnet and an electric field generated by a coil. However, the VCM actuator has a problem in that a lens tilt occurs while the bobbin is driven by a magnetic or mechanical imbalance such as a difference in surface magnetic flux density of the magnet or a difference in distance between the magnet and the coil. Such a tilt also causes a deviation between the VCM actuators of the same model produced. Therefore, according to the deviation between the VCM actuators adopted in a device requiring high precision such as a camera module using a VCM actuator, a camera module in which the resolution of the center portion is satisfactory but the resolution of the peripheral portion does not satisfy the predetermined resolution It can also produce.

The di-tilt will be described. The image sensor module is formed by adhering a die for an image sensor to a substrate. When such a die for an image sensor is adhered to a substrate, it is unevenly adhered to the substrate, and a tilt may be generated in which the die tilts to one side. Such a tilt also causes a deviation between image sensor modules of the same model produced. Therefore, according to the deviation between the image sensor modules adopted in a device requiring high precision, such as a camera module using an image sensor module, the resolution of the center portion can be satisfied, while the resolution of the peripheral portion does not satisfy the predetermined resolution Modules.

A description will be given of resolution deterioration due to a deviation between mechanisms operating in conjunction with auto focusing. In order to move the lens accurately to the set position during autofocusing, it is necessary to repeatedly perform autofocusing to move the lens to the correct focusing position. However, when auto focusing is repeatedly performed, in some cases, satisfactory resolution can be obtained when the auto focus is repeated 10 times, so that the auto focusing can be completed. However, in some cases, the auto focusing is repeated 10 times or more The resolution of the center portion or the peripheral portion may not satisfy the predetermined resolution. This is caused by the deviation between the mechanisms that operate in cooperation with the autofocusing.

If the camera module is manufactured such that the resolution of the peripheral part does not satisfy the resolution of the peripheral part even though the lens is positioned at the center of the best lens position after the auto focusing operation, the autofocus offset correction is performed to correct the center part resolution It uses a method of increasing the resolution of the periphery while maintaining a certain level of resolution.

In this method, a position obtained by adding a predetermined offset value to the best lens position of the center portion is set to the lens position after AF. In the method of determining the offset value, the lens is moved at regular intervals at the best lens position where the best focus value is obtained, and the offset value is set to a value that satisfies the resolution of the entire section. That is, when the lens is moved gradually from the best position and the resolution of only the center portion and the peripheral portion is within the good portion satisfying the predetermined resolution, the resolution of the center portion and the peripheral portion is changed between the lens position satisfying the predetermined resolution and the best lens position The difference is set as an offset value and stored in the memory.

However, setting the offset value in this manner will result in a deviation between components produced in the same model, such as deviations between the lens modules of the same model, VCM actuator tilt, deviations between mechanisms that work in tie tilt or autofocusing , Some camera modules can be judged to be good products that satisfy both the center and peripheral resolutions. However, even if the same offset value is added to the center lens best lens position and the lens position is set to the AF lens position, the resolution of the center part of the other camera module is satisfied, but the resolution of the peripheral part is not satisfied.

On the other hand, the patent documents described in the following prior art documents relate to an autofocus system, in which autofocus control is performed based on a focus evaluation value indicating sharpness of an image obtained from a plurality of image pickup elements arranged at different positions of an optical path Discloses an autofocus system capable of performing autofocus with high accuracy by appropriately calibrating the sensitivity of a focus evaluation value by providing means for calibrating the sensitivity of a focus evaluation value obtainable from each imaging element have.

However, the patent documents described in the following prior art documents are based on the fact that, due to deviations between produced parts, such as deviation between lens modules, deviations between VCM actuator tilt, die tilt, There is a problem that the resolution of the peripheral portion may not satisfy a certain level of resolution even when the lens is located at the best lens position.

Therefore, even if there is a deviation between produced parts, such as deviation between lens modules, deviation between VCM actuator tilt, die tilt, or mechanisms working in cooperation with autofocusing, the resolution of the central part and the peripheral part satisfies a certain level of resolution An autofocus offset calibration method capable of producing a module is required.

Japanese Patent Application Publication No. JP 2004-85676.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a zoom lens system, an optical zoom lens, The present invention provides a method of calibrating an autofocus offset capable of producing a camera module having a resolution of a predetermined level and a resolution of a central portion and a peripheral portion of the camera module.

Another problem to be solved by the present invention is to provide a method and an apparatus for correcting errors in a center portion and a peripheral portion of a lens, even if there is a deviation between produced parts, such as deviation between lens modules, deviation between VCM actuator tilt, And is capable of producing a camera module whose resolution satisfies a certain level of resolution.

According to an aspect of the present invention, there is provided an autofocus offset correcting method,

(A) moving the lens to the best position of the autofocus (AF);

(B) moving a lens to search for a lens position section in which a resolution of a central portion and a peripheral portion of the entire section satisfies a predetermined resolution; And

(C) setting an intermediate value of a lens position interval in which the resolution of the searched center part and the peripheral part satisfies a predetermined resolution to an offset value.

In the autofocus offset calibration method according to an embodiment of the present invention, the lens may include a focus lens of a camera.

In addition, in the autofocus offset correcting method according to the embodiment of the present invention, the camera may include a camera module of a mobile communication terminal.

In the method of correcting an autofocus offset according to an embodiment of the present invention, the step (B)

(B1) moving the lens progressively at the best position and searching for and storing the first lens position (L) where the resolution of the center portion and the peripheral portion satisfies a predetermined resolution; And

(B2) moving the lens progressively at the best position and searching for and storing the last lens position (H) in which the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution.

Further, in the method for correcting an autofocus offset according to an embodiment of the present invention, the step (B1) is a step of gradually moving the lens at its best position so that the resolutions of the central part and the peripheral part still satisfy a predetermined resolution, The lens position immediately before the specific lens position is determined to be the last lens position (H) where the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution and stored Step < / RTI >

Furthermore, in the autofocus offset calibration method according to the embodiment of the present invention, the step (C) may set the offset value by the offset value = (H-L) / 2.

According to another aspect of the present invention, there is provided an autofocus offset correcting apparatus comprising:

Means for moving the lens to the best position of autofocus (AF);

Means for searching for a lens position interval in which a resolution of a central portion and a peripheral portion satisfies a predetermined resolution in the entire section by moving the lens; And

And means for setting an intermediate value of a lens position interval in which the searched center and surround resolutions satisfy a predetermined resolution to an offset value.

In the autofocus offset correcting apparatus according to the embodiment of the present invention, the lens may include a focus lens of a camera.

In addition, in the autofocus offset correcting apparatus according to the embodiment of the present invention, the camera may include a camera module of a mobile communication terminal.

In the apparatus for correcting an autofocus offset according to an embodiment of the present invention, the means for searching for a lens position section in which the lens is moved so that the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution in the entire section, The first lens position L in which the resolutions of the central part and the peripheral part satisfy a predetermined resolution is searched for and stored in the memory and the lens is gradually moved at the best position so that the resolution of the center part and the peripheral part is predetermined The last lens position H that satisfies the resolution of the last lens position H can be searched and stored in the memory.

In the apparatus for correcting an autofocus offset according to an embodiment of the present invention, the means for searching for a lens position section in which the lens is moved so that the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution in the entire section, The first lens position L in which the resolutions of the central part and the peripheral part satisfy a predetermined resolution is searched for and stored in the memory and the lens is gradually moved at the best position so that the resolution of the center part and the peripheral part is predetermined When the resolution of the central portion and the peripheral portion does not satisfy the predetermined resolution at the specific lens position, the lens position immediately before the specific lens position is determined as the last lens position where the resolutions of the central portion and the peripheral portion satisfy the predetermined resolution (H) and stored in the memory.

In the apparatus for correcting an autofocus offset according to an embodiment of the present invention, the means for setting an intermediate value of a lens position interval in which the searched center and surround resolutions satisfy a predetermined resolution, as an offset value, = (HL) / 2.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may appropriately define the concept of a term in order to best describe its invention The present invention should be construed in accordance with the spirit and scope of the present invention.

According to the present invention, it is possible to improve the degradation of resolution in auto focus repeatedly without replacing components such as a lens, a lens driving unit, or an image sensor, and to prevent defective products from being generated in response to an input of an unoptimized offset value And can produce a good quality camera module whose resolution in the center and periphery satisfies a certain level of resolution in spite of the deviation between the lens modules, the deviation between the VCM actuator tilt, the tilt or the auto focus operation, , The manufacturing cost can be reduced.

1 is a block diagram of an autofocus offset correcting apparatus to which an autofocus offset correcting method according to an embodiment of the present invention is applied.
2 is a flowchart of an autofocus offset correcting method according to an embodiment of the present invention.
3 is a detailed flowchart of the section search step of the autofocus offset calibration method shown in FIG.
4 is a view for explaining the operation of the autofocus offset correcting method according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings.

Also, terms such as " first ", "second ", " one side "," other side ", and the like are used to distinguish one element from another, and the elements are not limited thereto.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, detailed description of related arts which may unnecessarily obscure the gist of the present invention will be omitted.

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

FIG. 1 is a block diagram of an autofocus offset correcting apparatus to which an autofocus offset correcting method according to an embodiment of the present invention is applied, FIG. 2 is a flowchart of an autofocus offset correcting method according to an embodiment of the present invention, 3 is a detailed flowchart of the section searching step of the autofocus offset correcting method shown in FIG. 2, and FIG. 4 is a view for explaining the operation of the autofocus offset correcting method according to an embodiment of the present invention.

Hereinafter, an autofocus offset calibration method according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

Referring to FIGS. 1 and 2, the controller 108 controls the lens driving unit 104 to move the lens 100 to the best position of the autofocus AF (S20). Next, the control unit 108 controls the lens driving unit 104 to gradually move the lens 100 to search for the lens position interval in which the resolution of the central portion and the peripheral portion satisfies a predetermined resolution in the whole section (S22). The search for the lens position section in which the resolution of the center part and the peripheral part satisfies a predetermined resolution is performed by recognizing the image sensed by the image sensor 102 through the lens 100 by the resolution recognition part 112, And determining whether the resolution is equal to or higher than a predetermined resolution.

Then, the control unit 108 determines whether or not the resolution of the center portion and the peripheral portion satisfies a predetermined resolution based on the result output from the resolution recognition unit 112 and the value indicating the current lens position output from the lens position detection unit 106 The intermediate value of the searched lens position section is set as an offset value and is stored in the memory 110 (S24).

The offset value stored in the memory 110 is used to move the lens 100 to the optimum focusing position when the autofocusing operation is performed. That is, the offset value stored in the memory 110 is an optimal offset value reflecting the deviation between the lens modules, the VCM actuator tilt, the tilt, And the resolution of the peripheral portion is used to move the lens 100 to an optimal position that satisfies a certain level of resolution.

1, the resolution recognition unit 112, the memory 110, and the control unit 108 are shown separately. However, the resolution recognition unit 112 and the memory 110 may be included in the control unit 108. FIG. When the resolution recognition unit 112 and the memory 110 are included in the control unit 108, the control unit 108 not only controls the operation of the lens driving unit 104 and the lens position detection unit 106, 112 and the memory 110. [0050]

1, the lens 100 may be a focus lens of a camera. As described above, the present invention can be applied to a camera including a focus lens, but the present invention is not limited thereto and can be applied to various optical devices including a focus lens, such as a camera module of a mobile communication terminal.

3 and 4, in step S22, the lens 100 is gradually moved from the best position to the first lens position L in which the resolution of the center part and the peripheral part satisfies a predetermined resolution (S30) of gradually moving the lens 100 in the best position to search for and store the last lens position H in which the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution (S32).

The step S32 of searching for and storing the last lens position H in the above step gradually moves the lens 100 at the best position so that the resolutions of the central part and the peripheral part still satisfy the predetermined resolution, The lens position immediately before the specific lens position is determined as the last lens position (H) where the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution, and when the resolution of the center portion and the peripheral portion does not satisfy the predetermined resolution, ). ≪ / RTI >

As shown in FIG. 4, in step S24, setting the intermediate value of the searched lens position interval in which the resolution of the center part and the peripheral part satisfies a predetermined resolution to an offset value and storing the intermediate value in the memory 110 may be expressed by Equation 1 And may store the determined offset value in the memory 110. [0033] FIG.

The lens position L is the first lens position L in which the lens 100 is gradually moved from its best position and the resolutions of the central portion and the peripheral portion satisfy a predetermined resolution. The lens position H gradually moves the lens 100 in the best position so that the resolutions of the central portion and the peripheral portion still satisfy a predetermined resolution and the resolutions of the central portion and the peripheral portion do not satisfy the predetermined resolution Is the lens position immediately before the specific lens position. That is, the lens position H is the last lens position H where the resolutions of the center portion and the peripheral portion satisfy a predetermined resolution.

As described above, according to the present invention, since the intermediate value of the searched lens position interval in which the resolution of the center portion and the peripheral portion satisfies a predetermined resolution is set as an offset value, The camera module is not judged to be a defective product due to a deviation between the VCM actuator tilt, the tilt, or a deviation between the mechanisms operating in conjunction with auto focusing. Accordingly, it is possible to improve the degradation of resolution in auto focusing repeatedly without replacing components such as a lens module, a lens driving unit, or an image sensor, and it is possible to prevent defective products from being generated according to an input of an unoptimized offset value. In addition, according to the present invention, even if there is a deviation between the lens modules, the deviation between the mechanisms that operate in conjunction with the VCM actuator tilt, the tilt, or the auto focusing, the resolution of the central part and the peripheral part satisfies a certain level of resolution. Module can be produced, and manufacturing cost can be reduced.

The methods discussed herein may be implemented using various means, depending on the application. For example, these methods may be implemented in the form of hardware, firmware, software, or any combination thereof. In an implementation involving hardware, the control circuitry or control portion may comprise one or more application specific integrated circuits (ASICs), digital signal processors (DSPs), field programmable gate arrays (FPGAs), processors, , Microprocessors, electronic devices, other electronic units designed to perform the functions discussed herein, or a combination thereof.

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 is clear that the present invention can be modified or improved.

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 present invention as defined by the appended claims.

S20: Move to the best position for autofocus
S22: a section search step that satisfies the resolution for the central part and the peripheral part
S24: setting an intermediate value of the searched interval as an offset value

Claims (12)

(A) moving the lens to the best position of the autofocus (AF);
(B) moving a lens to search for a lens position section in which a resolution of a central portion and a peripheral portion of the entire section satisfies a predetermined resolution; And
(C) setting an intermediate value of a lens position section having the resolution of the searched center part and the peripheral part satisfying a predetermined resolution as an offset value. The method of claim 1, wherein the lens comprises a focus lens of a camera. The method of claim 2, wherein the camera comprises a camera module of a mobile communication terminal. The method of claim 1, wherein the step (B)
(B1) moving the lens progressively at the best position and searching for and storing the first lens position (L) where the resolution of the center portion and the peripheral portion satisfies a predetermined resolution; And
(B2) moving the lens progressively at the best position to search for and store the last lens position (H) where the resolution of the center portion and the peripheral portion satisfies a predetermined resolution. 5. The method of claim 4, wherein the step (B1)
When the resolution of the central portion and the peripheral portion continues to satisfy the predetermined resolution and the resolution of the central portion and the peripheral portion does not satisfy the predetermined resolution at the specific lens position, the lens position immediately before the specific lens position is set to And determining and storing the last lens position (H) in which the resolution of the center portion and the peripheral portion satisfies a predetermined resolution. The method of claim 4, wherein the step (C)
And an offset value is set by an offset value = (HL) / 2. Means for moving the lens to the best position of autofocus (AF);
Means for searching for a lens position interval in which a resolution of a central portion and a peripheral portion satisfies a predetermined resolution in the entire section by moving the lens; And
And means for setting an intermediate value of a lens position interval in which the searched center and surround resolutions satisfy a predetermined resolution to an offset value. 8. The autofocus offset correcting apparatus according to claim 7, wherein the lens includes a focus lens of a camera. 9. The apparatus of claim 8, wherein the camera comprises a camera module of a mobile communication terminal. 9. The apparatus according to claim 7, wherein the means for searching for a lens position interval in which the resolution of the center portion and the peripheral portion satisfies a predetermined resolution in the whole section by moving the lens,
The lens is moved gradually from the best position and the first lens position L in which the resolutions of the center and the periphery satisfy a predetermined resolution is searched and stored in the memory and the lens is gradually moved from the best position to the resolution Searches for a last lens position (H) satisfying a predetermined resolution, and stores the search in the memory. 9. The apparatus according to claim 7, wherein the means for searching for a lens position interval in which the resolution of the center portion and the peripheral portion satisfies a predetermined resolution in the whole section by moving the lens,
The lens is moved gradually from the best position and the first lens position L in which the resolutions of the center and the periphery satisfy a predetermined resolution is searched and stored in the memory and the lens is gradually moved from the best position to the resolution If the resolutions of the central portion and the peripheral portion do not satisfy the predetermined resolution at the specific lens position, the lens position immediately before the specific lens position is determined as the final Is determined as the lens position (H), and is stored in the memory. 12. The apparatus of claim 10, wherein the means for setting an intermediate value of a lens position interval having a resolution of the searched center portion and a peripheral portion to an offset value,
And an offset value is set by an offset value = (HL) / 2.

Images