KR100340459B1 - Focusing method for an imaging apparatus - Google Patents

Abstract

A focusing method of an imaging apparatus is described. The system for achieving this method consists of an imaging device, CCD beacon and monitor. The imaging device displays a special image for focusing. The CCD videocone captures the image and displays it on the monitor. Based on the difference between the image frequency of the imaging device and the sampling frequency of the CCD beacon, the image displayed on the monitor generates an interference band. By adjusting the clarity of the interference band, the technician can adjust the focus of the video device.

Description

FOCUSING METHOD FOR AN IMAGING APPARATUS

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a focusing method of an imaging apparatus, and more particularly, to generate an interference image on a monitor by a frequency difference between a sampling frequency of a CCD and a frequency of an imaging apparatus using a CCD beacon photographing an imaging apparatus. It relates to a focusing method.

Imaging devices, such as cathode ray tubes (CRT), LCD (liquid crystal display) projectors, and digital cameras, must be focused before shipping. The most commonly used method of adjusting the focus of an imaging device is to manually adjust it to have the best characteristics by a skilled person. However, most cathode ray tubes are so large that it is difficult to focus them manually. In order to focus the image on the screen efficiently, the technicians have to adjust the control elements located behind the imaging apparatus while looking at the screen.

There are several ways to use CCD beacons to solve such problems. The CCD video camera photographs the screen of the imaging device and displays the image on the monitor. Technicians adjust focus by looking at the monitor instead of the imager. However, since the resolution of the CCD videocone is only 640 x 480 pixels, the focusing of the imaging device is not satisfactory.

It is therefore an object of the present invention to provide a focusing method of an imaging apparatus that can alleviate or eliminate the above problems.

It is a main object of the present invention to provide a focusing method of an imaging apparatus which can obtain focusing that is convenient and satisfactory to a technician.

Other objects, advantages and novel features of the invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

1 is a schematic diagram of components used to implement the imaging apparatus focusing method according to the present invention;

2 shows an image displayed on a CRT.

3 is a timing diagram showing the principle of sampling the frequency difference between a CRT and a CCD videocone;

Fig. 4 is a diagram showing an image of an interference band shown on a monitor of a CCD beacon.

Referring to FIG. 1, the components used to implement the focusing method of the imaging apparatus according to the present invention include the imaging device 10, the CCD video camera 200 and the CCD video camera 20 for capturing the screen of the imaging device 10. It is composed of a monitor displaying an image taken by). The imaging device 10 may be a CRT, an LCD projector, a digital camera, or the like. In this embodiment, the imaging device is a CRT. The monitor 30 is disposed at a predetermined position that can be easily seen by a technician. The focusing method according to the present invention comprises the following process.

1. Generates an image from the imaging device 10 to be adjusted.

2. The image of the imaging device 10 is captured by the CCD videocone 20.

3. Adjust the focus of the imaging apparatus based on the interference band appearing on the screen of the CCD videocone 20.

The principle of this focusing method is as follows. That is, the interference band will appear on the monitor 30 when the frequency of the imaging device 10 is different from the sampling frequency of the CCD videocone 20. As a result of the experiment, adjusting the focus of the imaging device 10 will improve the clarity of the interference band. When the interference band on the CCD video screen is clearly identified, the focusing adjustment is completed.

The generation of the interference band shall satisfy the following requirements.

1. The frequency of the imaging device 10 is higher than the sampling frequency of the CCD videocone 20.

2. Not all images displayed on the screen of the imaging device 10 can exhibit the interference band most visible to the CCD videocone 20.

Therefore, it is concluded that the main reason for generating the interference band on the screen of the CCD beacon 20 is the difference between the frequency of the image and the sampling frequency of the CDD beacon 20. In other words, under any conditions, the image causes the CCD beacon to exhibit optical interference.

Therefore, the image must have the following characteristics.

1. Be precisely oriented.

2. Have a cycle.

3. There must be an optimum frequency within the period.

2 illustrates an embodiment of a particular image 40. The image 40 is composed of four band groups, two of which are the horizontal bands 41 and 42. The length of these bands decreases toward the center and the band range in the middle. The separation of adjacent bands in the two groups of horizontal bands 41 and 42 is equivalent to each other and the separation of adjacent bands in the two groups of vertical bands 43 and 44 is equivalent.

With reference to Fig. 3, the sine waveform signal A represents a special image in the image device 10, and the rectangular waveform signal B represents the sampling frequency of the CCD videocone 20. This sampling frequency is lower than the frequency of the image, and the amplitude of the rectangular waveform signal B is proportional to the amplitude of the sine waveform signal A.

The frequency expression of the sine waveform signal (A) is

Here, T represents the period of the sine waveform signal (A).

Each sampling interval is expressed as follows.

Where T _s represents the sampling period, _o represents the initial phase angle.

If a T _s / T and a ^* a-int (a) (a 1),

The above formula is expressed as follows.

if = a ^* x 2 Then, the above formula is expressed as follows.

According to the above equation, the difference between the image frequency and the sampling frequency is selected, indicating that there is an interference band displayed on the monitor 30. Therefore, the technician can adjust the focus of the imaging apparatus 10 by looking at the interference band. By adjusting the clarity of the interference band to show the best mode, the imaging device 10 is focused.

Therefore, the present invention has the following advantages.

1. The focusing method according to the present invention does not increase costs since only the apparatus used in the conventional method is required.

2. This focusing method is very effective in the case of manual adjustment.

Although various features and advantages of the invention have been presented in terms of the foregoing description, detailed description of the construction, and the functionality of the invention, these are merely exemplary and are to the extent expressed in broad terms described in the appended claims. Various modifications can be made, especially in shape, size and arrangement.

Claims (5)

As a focusing method of an imaging apparatus, Generating an image 40 having a special directivity and a period to the imaging apparatus 10; Photographing an image (40) of the imaging device (10) with a CCD beacon (20) to display the image (40) on a monitor (30) of the CCD beacon (20); Adjusting the focus of the imaging device (10) by visually observing the clarity of the interference band of the monitor (30). The method of claim 1, And a plurality of horizontal bands (41, 42) and vertical bands (43, 44) of equal intervals. The method of claim 2, The horizontal and vertical bands (41, 42, 43, 44) are distributed in the center, the length of the focusing method of the image device is gradually reduced as the center approaches. The method of claim 1, And focusing is adjusted by adjusting the clarity of the interference band. The method of claim 5, And the imaging apparatus is selected from the group consisting of a CRT, an LCD projector, and a digital camera.