KR101167431B1 - Camera module manufacturing method - Google Patents

Abstract

The present invention relates to a method for manufacturing a camera module, and more particularly, to a method for manufacturing a camera module including an I / M code value input step of inputting an infinite code and a macro code value in one step.

Description

Camera module manufacturing method {CAMERA MODULE MANUFACTURING METHOD}

The present invention relates to a camera module manufacturing method.

In general, the final step of the manufacturing method of the camera module includes an infinite code value input step for inputting an infinite and macro code separately and a macro code value input step.

Through the input of the infinite and macro code values, the camera module may improve the response speed of driving the AF actuator by driving the AF actuator based on the input infinite and macro code.

1 is a flowchart of a conventional camera module manufacturing method 100. As shown in Figure 1, the camera module manufacturing method is the Infinite code input (S110) step, LSC step (S120), macro code value input step (S130), PIMA completion inspection step (S140), marking and poring attachment step ( After the step S150, the outer packaging step (S160) is configured.

Of course, there is a difference according to the manufacturer, method and camera specifications of the camera module, but in the infinite code value input step (S110) In general, the infinite (infinite) code is input at 1.2m intervals from the operator, the macro code In the value input step S130, the macro code is input at 10cm intervals from the inputter.

In the Infinite code value input step (S110), at least two workers are required and generally takes an operation time of 7.7 seconds.

In addition, in the macro code value input step (S130), at least two workers are required and generally takes about 7.3 seconds of working time.

Thus, in the Infinite code value input step (S110) and the macro code value input step (S130), a total of at least four workers are required and a total of 15 seconds of work time is wasted, which wastes manpower and work time. There is a problem of reducing the productivity of the product and reducing the price competitiveness.

Accordingly, an object of the present invention is to provide an I / M code value input step of inputting an infinite code and a macro code value in one step in a camera module manufacturing method.

In order to achieve the above object of the present invention, the present invention includes an I / M code value input step of inputting an infinite code and a macro code value in one step.

The I / M code value input step includes an infinite code value input step for inputting an infinite code value and a macro code value input step for automatically inputting a macro code value after the infinite code value input step.

The macro code value in the macro code value input step may include calculating an average input value of the infinite code of the infinite code value input step, and calculating an average input value of the macro code of the macro code value input step. Calculating an average difference of a difference between the average input value of the infinite code value input step and the average input value of the macro code value input step; and the infinite code of the average difference value and the infinite code value input step Calculated by summing values.

And the camera manufacturing method according to the present invention I / M code value input step, LSC step, macro code value input step, PIMA completion inspection step, marking and poring step of inputting the Infinite code and macro code value in one step and It characterized in that it comprises an appearance packaging step.

By providing I / M code value input step that inputs Infinite code and macro code value in one step, it not only reduces the wasted work force, but also relocates the work force to the work space where there is not enough work time and also reduces work time. This improves the productivity of the camera module and has the effect of lowering the manufacturing price of the camera module.

1 is a flow chart related to a conventional camera module manufacturing method.
2 is a flow chart related to a camera module manufacturing method according to an embodiment of the present invention.

Hereinafter, a method of manufacturing a camera module according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a flowchart illustrating a camera module manufacturing method according to an embodiment of the present invention. As shown in Figure 2, the camera module manufacturing method 200 according to an embodiment of the present invention I / M code value input step (S210), LSC (Lens) to input the Infinite code and macro code values in one step shading correction, lens shading correction; ambient light amount adjustment step (S220), PIMA (Resolution, resolution) completion inspection step (S230), marking and poring attachment step (S240) and appearance packaging step (S250).

In the I / M code value input step (S210) according to the present invention, after the infinite code value input step (S211) and the infinite code value input step (S211) for inputting an infinite code value by an operator, the macro code value input is started. It includes a macro code value input step (S212).

In this case, the algorithm of the macro code value input step S212 for calculating the macro code value to input the macro code value after the infinite code value input step S211 is as follows.

First, an average input value 213a of the infinite code of the infinite code value input step S211 and an average input value 213b of the macro code of the macro code value input step S212 are calculated.

Next, an average difference of the difference between the average input value 213a of the infinite code of the infinite code value input step S211 and the average input value 213b of the macro code of the macro code value input step S212. Calculate 213c.

Finally, the macro code value input in the macro code value input step S212 is calculated by adding the average difference 213c and the infinite code value in the infinite code value input step S211.

Table 1 is a table showing the code values of the Infinite code and the macro code.

NO Macro
Code value Infinite code value
Difference value
NO Macro
Code value Infinite code value
Difference value One 560 332 228 11 520 292 228 2 496 260 236 12 520 300 220 3 560 324 236 13 544 308 236 4 512 292 220 14 504 300 204 5 480 260 220 15 512 284 228 6 496 284 212 16 576 348 228 7 500 252 248 17 496 276 220 8 520 284 236 18 496 268 228 9 536 308 228 19 504 292 212 10 568 332 236 20 472 244 228

In addition to the Infinite code and macro code values listed in Table 1, there are a large number of Infinite code and macro code values, but in the present invention, 20 code values are described by way of example.

Of course, there are differences depending on the specifications of the company producing the carrera module, input method and camera, but in the present invention, the average input value 213a of the Infinite code of the Infinite code value input step S211 is approximately 293.193 with reference to Table 1 above. The average input value 213b of the macro code of the macro code value input step S212 is approximately 519.885.

Therefore, the average difference 213c of the difference between the average input value 213a of the infinite code of the infinite code value input step S211 and the average input value 213b of the macro code of the macro code value input step S212 is Calculated as approximately 226.692.

Accordingly, when the average difference 213c and the infinite code value of the infinite code value input step S211 are added, the macro code value of the macro code value input step S212 is calculated.

Accordingly, in the conventional camera module manufacturing method, the infinite code value input step took 7.7 seconds and the macro code value input step took 7.3 seconds, which took 15.0 seconds in total, but the manufacturing process of the camera module according to the preferred embodiment of the present invention is Infinite. The I / M code value input step (S210) for inputting code and macro code values in one step provides a total of 9.56 seconds to input the infinite code and the macro code value, which is approximately 5.44 seconds longer than the conventional method. The effect is to shorten the time.

Thus, in the camera module manufacturing method according to an embodiment of the present invention, by providing an I / M code value input step of inputting the Infinite code and macro code values in one step, the work manpower is wasted and the work manpower is insufficient Not only can the workforce be relocated to the space, but the working time can be shortened to improve the productivity of the camera module and reduce the manufacturing cost of the camera module.

As mentioned above, although the camera module manufacturing method of this invention was demonstrated with reference to the preferred embodiment of the present invention, it is clear for those skilled in the art that modifications, changes, and various deformation | transformation embodiments are possible without deviating from the idea of this invention.

100: camera module manufacturing method S110: Infinite code value input step
S120: LSC step S130: Macro code value input step
S140: PIMA complete inspection step S150: marking and fore attaching step
S160: exterior packaging step 200: camera module manufacturing method
S210: I / M code value input step S220: LSC step
S230: PIMA complete inspection step S240: marking and fore attaching step
S250: appearance packing

Claims (5)

An I / M code value input step of inputting an infinite code and a macro code value in one step;
LSC step; And
PIMA completion inspection step; including,
The I / M code value input step,
An infinite code value input step of inputting an infinite code value; And
And a macro code value input step of automatically inputting a macro code value after the infinite code value input step.
delete The method according to claim 1,
The macro code value in the macro code value input step is
Calculating an average input value of the infinite code of the infinite code value input step;
Calculating an average input value of the macro code in the macro code value input step;
Calculating an average difference of a difference between the average input value of the infinite code value input step and the average input value of the macro code value input step; And
And calculating the average difference and the infinite code value of the infinite code value input step.
An I / M code value input step of inputting an infinite code and a macro code value in one step;
LSC step;
PIMA completion inspection step;
Marking and forcing step
Camera module manufacturing method comprising the packaging step.
The method of claim 4,
The macro code value in the macro code value input step is
Calculating an average input value of the infinite code of the infinite code value input step;
Calculating an average input value of the macro code in the macro code value input step;
Calculating an average difference of a difference between the average input value of the infinite code value input step and the average input value of the macro code value input step; And
And calculating the average difference and the infinite code value of the infinite code value input step.

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