KR20090118551A - Portable electrical device which has a microscope capacity - Google Patents

Abstract

PURPOSE: A portable electronic device having a microscope function is provided to be easily used in a real life by properly processing an expansion image obtained from a microscope lens system. CONSTITUTION: A portable electronic device includes a device control unit(101) and a display unit(104). A microscope unit outputs and converts an expansion image into a digital signal. An expansion image processing unit(130) is displayed through the display unit. The microscope unit includes a microscope lens module(162) for expanding a sample, a light source(161), and an expansion image signal processing module(150). The light source shows an expanded sample image. The expansion image signal processing module outputs and converts the expansion image into a digital signal.

Description

Portable electrical device which has a microscope function

The present invention relates to a portable electronic device having a microscope function, and more particularly, in a state associated with a microscope lens module, by driving a light source to irradiate the sample side, and then enlarge the image reflected from the sample, and then enlarged A computer module that can convert the outputted image into a series of digital signals and output them, and process the digital signal reflecting the enlarged image by converting it into a predetermined enlarged image format, compressing them, storing them, or displaying them through the display module. Systematic linkages with computer modules that can be processed are provided, and through this, producers or consumers can be flexibly possessed with the ability to properly process a series of magnified images / magnified images obtained from a microscope lens system. Easily produce / sell or buy / use products with microscope function in real life Can help to guide it relates to a portable electronic device having a microscopic features.

Recently, as the spread of various portable electronic devices such as mobile communication terminals, digital cameras, game machines, digital multimedia broadcasting (DMB) receivers, content players (eg, audio / video players, etc.) has been greatly expanded, Efforts to add additional new features, such as microscopy, have been widely made.

As part of such efforts, Korean Patent Application No. 2006-80372 (name: reflective microscopic microscope module), and Korean Patent Application No. 2008-2688 (name: optical lens system for microscope), which have been previously filed by the present applicant A variety of magnifications of high quality (e.g. well corrected optical aberration) sample magnification images, even under extremely simple lens systems, rather than complex structures involving multiple objectives and alternative lenses. A wide range of microscope lens systems> is provided to provide flexibility and control at magnification.

However, despite the wide development of such a high quality microscope lens system, a conventional series of electronic devices for accommodating this can be successively processed by a series of magnified images / magnified images obtained from a microscope lens system. Since the various computer modules were not widely supplied and equipped, the producer side could not easily produce / sell a portable electronic device having a microscope function under the conventional system, and the user side also had a strong resistance to the enjoyment of the microscope function. In spite of the desire, there was no choice but to suffer from the actual purchase / use of the portable electronic device employing it.

Accordingly, an object of the present invention is to operate the light source in the state associated with the microscope lens module, to irradiate the sample side, to enlarge the image reflected from the sample, and then to convert the enlarged image into a series of digital signals to output Computational module that can do image processing, digital signal reflecting magnified image, convert it into a predetermined magnified image format, compress it, save it, or systematically link the computer module that can be displayed and processed through the display module. On the producer side or consumer side, by instructing the portable electromagnetic side to flexibly retain the operational capability to properly post-process a series of magnified images / magnifications obtained from the microscope lens system. Easily produce / sell or buy / use a portable electronic device with a microscope function in real life So it is to guide.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

In order to achieve the above object, in the present invention, a portable electronic device having a device control unit and a display unit, which is controlled by the device control unit, irradiates a light beam toward the sample side, and is reflected from the sample side. A microscope unit which enlarges the image and then converts the enlarged image into a digital signal and outputs the digital signal; An enlarged image controlled by the device control unit, converting a digital signal output from the microscope unit side into an image format, generating an enlarged image, compressing and storing the generated enlarged image, or displaying through the display unit. Disclosed is a portable electronic device having a microscope function, comprising an image processing unit.

Further, in another aspect of the present invention, in a portable electronic device having a device control unit and a display unit, the device is controlled by the device control unit, and irradiates a light beam toward the sample side to enlarge an image reflected from the sample side. A microscope unit which converts the enlarged image into a digital signal and outputs the converted signal; A camera unit which is controlled by the device control unit and which photographs a subject and converts the photographed image into a digital signal and outputs the digital signal; Microscope / camera function switching controlled by the device control unit and selectively activating the microscope unit or camera unit in accordance with a control signal output from the device control unit side while communicating with the microscope unit and the camera unit. A unit; Controlled by the device control unit, in accordance with the operation of the microscope / camera function switching unit, converts the digital signal output from the microscope unit side or the digital signal output from the camera unit side into an image format to enlarge or capture an image. Disclosed is a portable electronic device having a microscope function, comprising an enlarged / captured image image processing unit generating an image, compressing and storing the generated enlarged image or a captured image, or displaying through the display unit.

In the present invention, in a state associated with the microscope lens module, the light source is driven to irradiate the sample side, and the image reflected from the sample is enlarged, and then the enlarged image is converted into a series of digital signals and output. Module, a digital module reflecting the enlarged image is processed and converted into a predetermined magnified image format, and a computer module, etc. that can be compressed and stored or displayed processing through the display module is systematically provided, Under the implementation environment of the present invention, on the portable electromagnetic side, it is possible to flexibly retain the operational capability to properly post-process a series of magnified images / magnified images obtained from the microscope lens system, and finally, on the producer or consumer side, Easily produce / sell portable electronic devices with a microscope function in real life or It is possible shots / use.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail a portable electronic device having a microscope function according to the present invention.

As shown in FIG. 1, a portable electronic device 100 having a microscope function according to the present invention, for example, a mobile communication terminal, a game machine, a digital multimedia broadcasting (DMB) receiver, a content player (eg, audio / Video player, etc.), the apparatus control unit 101, the microscope unit 160, the enlarged image image processing unit 130, the information storage unit 105, the power supply unit under the control of the apparatus control unit 101, etc. 106, the display drive unit 103, the terminal function auxiliary unit 102, the microscope function guide unit 170, and the like take a close combination.

In this case, the device control unit 101 has its own computerized control system including a terminal function auxiliary module 102 (eg, a keypad drive module, a battery interface module, a signal transmitter, a signal receiver, an antenna, a duplexer, a frequency synthesizer, etc.). By collectively controlling / controlling various computer components placed underneath, the portable electronic device 100 is induced to maintain a normal set of functions.

In this case, for example, the information storage unit 105 such as a memory is linked to a function of stably storing and managing various data (eg, program data, device operation data, etc.) under signal connection with the device control unit 101. Will perform.

Here, when the device control unit 101 needs to update the screen displayed on the display unit 104 (for example, the LCD unit), the device control unit 101 transmits a series of update information to the display drive unit 103, according to the situation. The screen displayed on 104 is induced to be quickly updated to the new screen.

At this time, the microscope unit 160 takes the structure controlled by the device control unit 101, irradiates the light beam toward the sample 1 side, enlarges the image reflected from the sample 1 side, and then enlarges this image. Converts an image into a digital signal and outputs the digital signal. The enlarged image image processing unit 130 is controlled by the device control unit 101 and converts the digital signal output from the microscope unit 160 into an image format. By converting, a series of enlarged images are generated, and the generated enlarged images are compressed and stored in the information storage unit 105 or the like, or displayed through the display unit 104.

Here, as shown in the figure, the microscope unit 160 of the front to take a configuration in which the microscope lens module 162, the light source 161, the magnified image signal processing module 150 and the like for close-up the sample is closely combined. do. In this case, as the microscope lens module 162 for expanding the sample, Korean Patent Application No. 2006-80372 (name: Reflective Microscope Module) previously filed by the present applicant, and Korean Patent Application No. 2008-2688 ( Name: microscope lens module disclosed in the optical lens system for microscope) and the like can be effectively employed.

Here, the light source 161 (for example, LED, etc.) is electrically connected to the power supply unit 106 side of the electronic device 100 including a battery, etc., when the power supply unit 106 side power is supplied, a series of light rays Is supplied to the sample 1 side, while the corresponding light beam is hit by the sample and reflected, it passes through the microscope lens module 162 for sample magnification, and serves to guide the enlarged sample image.

In addition, the enlarged image signal processing module 150 controlled by the device control unit 101 controls the on / off state of the light source 161 while digitally displaying the enlarged image passing through the microscope lens module 162 for magnifying the sample. It performs the role of converting the signal into the output.

At this time, the microscope function guide unit 170 controlled by the device control unit 101 communicates with the display drive unit 103 and, as shown in FIG. 2, through the display unit 104, the microscope function. When the user who uses the apparatus 100 operates the menu posted on the microscope function guide frame 180 while generating and displaying the guide frame 180, the microscope unit 160 and the enlarged image image processing unit ( 130, and serves to guide the enlarged image corresponding to the sample 1 to be selectively stored or displayed.

Meanwhile, as shown in FIG. 3, the above-described enlarged image signal processing module 150 communicates with the device control unit 101 and controls the on / off state of the light source 161. 151, a CCD module (152: Charge Coupled Device module) for converting and outputting the magnified image passing through the sample magnifying microscope lens module (162) into an electrical signal, and the electricity converted and output by the CCD module (152). Correlation Double Sampling and Gain Control of CDS / AGC Module (153: Correlated Double Sampling / Auto Grain Control Module) and Analog Type Electrical Signal Output from CDS / AGC Module 153 The ADC module 154 (Analog / Digital Convert module) for converting and outputting an electrical signal of the system has a configuration that is systematically combined. In this case, the correlated double sampling operation in the CDS / AGC module 153 serves to remove noise of the electrical signal generated by the CCD module 151.

In this case, the ADC module 154 may be implemented as an ADC chipset, and the CCD module 152 and the CDS / AGC module 153 may be implemented as CMOS sensor chips according to circumstances.

On the other hand, as shown in the figure, the above-mentioned enlarged image image processing unit 130 performs image processing such as gamma correction and color correction on the digital signal output from the microscope unit 160 side, and thus the NTSC method (National Television). DSP module 140 for generating an enlarged image having an electrical image signal (Y, C) of a System Committee method or a PAL method (Phase Alteration by Line method), and the DSP module 140 side. A magnified image storage module 131 for compressing the magnified image output from the JPEG image (Joint Picture Expert Group pattern) and storing the compressed magnified image in the information storage unit 105 or the temporary buffer 133; While communicating with the display drive unit 103 and the display unit 104, the enlarged image output from the DSP module 140 side is transmitted to the display unit 104 side, and the enlarged image is displayed on the display unit 104. Magnify to handle display through The video display module 132 has a close combination (for reference, in the above image signals Y and C, Y means luminance signal and C means color signal).

At this time, as shown in Figure 4, the DSP module 140 belonging to the image processing unit 130, the gamma correction unit 141 for gamma correcting the digital signal output from the microscope unit 160 side, and A color interpolation unit 142 that performs color interpolation on the digital signal gamma corrected by the gamma correction unit 141, and converts the digital signal color interpolated by the color interpolation unit 142 into RGB data. The generated color corrector 143 and the RGB data converted / generated by the color corrector 143 are converted into YCbCr (Y: luminance signal, Cb: chrominance signal, Cr: chrominance signal), or YUV (Y: luminance signal, UV: convert the color signal) to generate a magnified image, and transfer the generated magnified image to the magnified image storage module 131 for storage processing or transfer the magnified image to the magnified image display module 132 for display processing. The enlarged video signal conversion output unit 145 is configured to be closely combined. Done.

In this case, the RGB data converted / generated by the color corrector 143 may be directly transmitted to the display driving unit 103 and displayed on the display unit 104 according to circumstances. In this case, the speed of the frame is further increased, so that the user using the portable electronic device 100 of the present invention performs the task of focusing while bringing the microscope unit 160 close to the sample. This can be done very easily.

Under the system of the portable electronic device 100 having the microscope function of the present invention having such a configuration, on the user side, the device 100 is operated to activate the microscope function guide frame 180 as shown in FIG. When operating the menu posted on the microscope function guide frame 180 while bringing the microscope unit 160 close to the sample 1, the electronic device 100 side first utilizes the microscope unit 160, After irradiating the light beam toward the sample 1 side, enlarging the image reflected from the sample 1 side, converting the enlarged image into a digital signal and outputting the digital signal>, and then expanding the image processing unit ( 130, convert the digital signal output from the microscope unit 160 to an image format, generate an enlarged image, compress and store the generated enlarged image, or display the table through the display unit 104. 5, the enlarged image corresponding to the sample 1 is stored in the information storage unit 104, the temporary buffer 133, or the like according to a user side menu operation. It is naturally processed through the display unit 104, the display unit 104, the microscope function guide frame 180 and the like.

In short, in the present invention, in the state associated with the microscope lens module 162, the light source 161 is driven to irradiate the sample 1 side, and the image reflected from the sample 1 is enlarged and then enlarged. A series of computer modules for converting and outputting the converted image into a series of digital signals, and processing a digital signal reflecting the enlarged image to convert the image into a predetermined enlarged image format, compressing it, storing it, or displaying the display module ( 104, the system provides a series of computer modules and the like that can be displayed and processed in a systematic manner. Therefore, in the implementation environment of the present invention, on the portable electronic device 100 side, a series of enlarged images obtained from the microscope lens module 162 are provided. It is possible to flexibly possess an operational capability to properly follow-up a magnified image, etc. As a result, on the producer or consumer side, a portable electronic device having a microscope function The unit 100 is able to easily produce / sell or purchase / use in real life.

On the other hand, as shown in Figure 6, the portable electronic device 200 having a microscope function according to another embodiment of the present invention, in addition to the above-described microscope module 160, the camera module 260, microscope / camera function switching It will take a modified configuration further including the unit 280 or the like.

At this time, the camera unit 260 takes a structure controlled by the device control unit 201 and uses the light source 261, the camera lens module 262, and the like to shoot the subject 2, and then the shooting is completed. It converts the captured image into a digital signal and outputs it. In this case, the image signal processing module 250 substantially controls the on / off state of the light source 261, and converts the photographed image passing through the camera lens module 262 into a digital signal. .

Further, the microscope / camera function switching unit 280 communicates with the microscope unit 160 and the camera unit 260, and according to the control signal output from the device control unit 201 side, the microscope unit 160 or By selectively activating the camera unit 260, it serves to selectively operate them.

At this time, while the magnification / captured image image processing unit 230 is controlled by the device control unit 201, the microscope unit 160 or the camera unit (according to the switching operation of the microscope / camera function switching unit 280 described above) 260 converts the digital signal output from the side into an image format, generates a series of enlarged images or captured images, compresses the generated enlarged images or captured images, and stores them in the information storage unit 105, or the display unit 104. ) Will play the role of displaying.

At this time, the microscope / camera function guide unit 270 controlled by the device control unit 201 communicates with the display driving unit 103 and, as shown in FIG. 7, through the display unit 104. When the user using the apparatus 200 operates the menu posted on the microscope / camera function guide frame 290 while generating and displaying the microscope / camera function guide frame 290, the microscope unit 160, Communicates with the camera unit 260, the enlarged / photographed image image processing unit 230, and the like to guide the enlarged or photographed image corresponding to the specimen 1 or the subject 2 to be selectively stored or displayed. It will play a role.

Meanwhile, as shown in FIG. 8, the enlarged image signal processing module 250 belonging to the camera unit 260 described above communicates with the device control unit 201, while the light source 261 is turned on / off. The light source driving module 251 for controlling the control unit, a CCD module 252 converting and outputting the photographed image passing through the camera lens module 262 into an electrical signal, and the CCD module 252 Correlated Double Sampling / Auto Grain Control Module (253) for correlated double sampling and gain control of the converted output electrical signal, and analog type electrical output from the CDS / AGC module 253 side. The ADC module 254 (Analog / Digital Convert module), which converts a signal into a digital type electrical signal and outputs the signal, takes a systematic combination. Even in this case, the correlated double sampling operation in the CDS / AGC module 253 serves to remove noise of the electrical signal generated by the CCD module 251.

In this case, the ADC module 254 may be implemented as an ADC chipset, and the CCD module 252 and the CDS / AGC module 253 may also be implemented as CMOS sensor chips.

On the other hand, as shown in the figure, the above-mentioned enlarged / photographed image image processing unit 230 performs image processing such as gamma correction and color correction on the digital signal output from the microscope unit 160 or the camera unit 260 side. DSP module 240 for selectively generating an enlarged image or a captured image having an electric image signal (Y, C) of NTSC (National Television System Committee method) or PAL (Phase Alteration by Line method). Signal Processor module and the enlarged image output from the DSP module 240 side are compressed into a JPEG Picture (Joint Picture Expert Group pattern), and then the compressed enlarged image is stored in the information storage unit 105 or the temporary buffer 233. The enlarged image or the captured image outputted from the DSP module 240 while communicating with the enlarged / photographed image storage module 231 and the display drive unit 103 and the display unit 104, which are stored and processed in the storage module 231. Display unit 104 And a magnified / captured image display module 232 for displaying and processing the magnified image or the captured image through the display unit 104 (see the preceding image signal Y, In C, Y means luminance signal and C means color signal).

At this time, as shown in Figure 9, the DSP module 240 belonging to the image processing unit 230, the gamma correction unit for gamma correction of the digital signal output from the microscope unit 160 or the camera unit 260 side 241, a color interpolation unit 242 for color interpolation of the digital signal gamma corrected by the gamma correction unit 241, and a digital signal color interpolated by the color interpolation unit 242. To YCbCr (Y: luminance signal, Cb: chrominance signal, Cr: chrominance signal) or YUV by using a color correction unit 243 that converts / generates the RGB data into RGB data and RGB data converted / generated by the color correction unit 243. (Y: luminance signal, UV: color signal) to generate an enlarged image or a captured image, and transfer the generated enlarged image or captured image to the enlarged / captured image storage module 231 for storage processing, or the enlarged image Alternatively, transfer the captured image to the enlarged / captured image display module 232 side. , Is to take a close-up combinations configuration / recording the video signal conversion output portion 245 that handles display.

Here, the RGB data converted / generated by the color correcting unit 243 may be directly transmitted to the display driving unit 103 and displayed on the display unit 104 according to the situation. In this case, the speed of the frame is further increased, so that the user using the portable electronic device 200 according to the present invention is very focused on the task of focusing the microscope unit 160 near the sample. It is possible to proceed easily.

Under the configuration of the portable electronic device 200 according to another embodiment of the present invention having such a configuration, on the user side, the device 200 is operated to operate the microscope / camera function guide frame 290 as shown in FIG. 7. After activating, when operating the menu associated with the microscope posted on the microscope / camera function guide frame 290 while bringing the microscope unit 160 close to the sample 1, on the electronic device 200 side, first, the microscope / Using the camera function switching unit 280, the <procedure for activating the microscope unit 160> proceeds, and then, using the microscope unit 160, the light is irradiated to the <sample 1 side, the sample (1) after enlarging the image reflected from the side, and converting the enlarged image into a digital signal and outputting>, and then using the enlarged / photographed image image processing unit 230, the <microscope unit ( 160) side Converts the digital signal output from the image format into an image format, generates an enlarged image, compresses and stores the generated enlarged image, or displays through the display unit 104>. As shown, the enlarged image corresponding to the sample 1 is stored and processed in the information storage unit 104, the temporary buffer 133, etc. according to the user side menu operation, or the display unit 104, the microscope function guide frame ( 180) through the display process is naturally experienced.

On the other hand, under the portable electronic device 200 system according to another embodiment of the present invention, by operating the device 200 on the user side, to activate the microscope / camera function guide frame 290 as shown in FIG. Next, when operating the menu associated with the camera posted on the microscope / camera function guide frame 290 while fixing the camera unit 260 in the direction of the subject, on the electronic device 200 side, first, the microscope / camera function switching enable After using the net 280, the <procedure for activating the camera unit 260> proceeds, and then, using the camera unit 260, after taking <the subject (2), the captured image is taken And then converting the digital signal output from the camera unit 260 into an image format by using the enlarged / captured image image processing unit 230. To generate an image, compress and store the generated photographed image, or display through the display unit 104>, and so on. As a result, as shown in FIG. The photographed image to be stored is processed by the information storage unit 104, the temporary buffer 133, etc. according to the user's menu operation, or is processed by the display unit 104, the microscope / camera function guide frame 290, etc. You will naturally experience

In other words, in another embodiment of the present invention, in the state associated with the microscope lens module 162, the light source 161 is driven to irradiate the sample 1 side, and the image reflected from the sample 1 is reflected. After enlarging, a series of computer modules capable of converting the enlarged image into a series of digital signals and outputting the same; and <The camera lens module 262 is connected, the subject (2) is photographed, and the photographed image Computation module that can convert and output a series of digital signals>, <Enlarged image, or digital signal reflecting the captured image, image processing, convert to a predetermined enlarged image format or captured image format, and compress , A series of computer modules that can be stored, or displayed and processed through the display module 104, etc. are systematically arranged. Therefore, under the implementation environment of the present invention, on the portable electronic device 200 side, the microscope lens module 162 is provided. In addition to the series of magnified images / magnified images obtained from the above, a series of photographed images / photographed images obtained from the camera lens module 262 can be flexibly additionally retained. On the producer or consumer side, the portable electronic device 200 having the microscope function and the camera function together can be easily produced / sold or purchased / used in real life.

This invention can be variously modified depending on the situation.

For example, in the present invention, a part of the function of the above-described device control unit is separated, and under the control system of the device control unit, the microscope function control unit capable of exclusively controlling / managing the microscope unit and the enlarged image image processing unit> Altered measures may be taken to further deploy.

Further, in the present invention, it is also possible to take a changed measure of arranging a plurality of preceding microscope units, and furthermore, to change the arrangement of a plurality of camera units according to a detailed functional category such as <for external subject shooting> and <for self photographing>. Action may be taken.

Of course, even under such changed measures, the portable electronic device 100,200 side can flexibly possess an operation capability capable of properly subsequent processing of a series of enlarged images / enlarged images obtained from the microscope lens module 162. In the end, a producer or a consumer may easily produce / sell or purchase / use a portable electronic device 100,200 having a microscope function in real life.

While specific embodiments of the invention have been described and illustrated above, it will be apparent that the invention may be embodied in various modifications by those skilled in the art.

Such modified embodiments should not be understood individually from the technical spirit or point of view of the present invention and such modified embodiments should fall within the scope of the appended claims of the present invention.

1 is an exemplary diagram conceptually showing the overall configuration of a portable electronic device having a microscope function according to the present invention.

Figure 2 is an exemplary view conceptually showing a publication form of the microscope function guide frame according to the present invention.

3 is an exemplary diagram conceptually showing a detailed configuration of an enlarged image signal processing module and an enlarged image image processing unit according to the present invention;

4 is an exemplary diagram conceptually showing a detailed configuration of a DSP module belonging to an enlarged image image processing unit according to the present invention.

5 is an exemplary view conceptually showing a processing procedure of an enlarged image obtained according to the present invention.

6 is an exemplary diagram conceptually showing the overall configuration of a portable electronic device having a microscope function according to another embodiment of the present invention.

7 is an exemplary view conceptually showing a publication form of a microscope / camera function guide frame according to another embodiment of the present invention.

8 is an exemplary diagram conceptually showing a detailed configuration of a captured image signal processing module and an enlarged / captured image image processing unit according to another embodiment of the present invention;

9 is an exemplary diagram conceptually showing a detailed configuration of a DSP module belonging to an enlarged / captured image image processing unit according to another embodiment of the present invention;

10 is an exemplary view conceptually illustrating a processing procedure of an enlarged image or a captured image acquired according to another embodiment of the present invention.

Claims (8)

In a portable electronic device having a device control unit and a display unit, A microscope unit, controlled by the device control unit, for irradiating light rays to the sample side to enlarge an image reflected from the sample side, and convert the enlarged image into a digital signal and output the digital signal; An enlarged image controlled by the device control unit, converting a digital signal output from the microscope unit into an image format, generating an enlarged image, compressing and storing the generated enlarged image, or displaying through the display unit. A portable electronic device having a microscope function, comprising an image processing unit. The method of claim 1, wherein the microscope unit comprises a microscope lens module for expanding the sample; A light source which irradiates a light beam toward the sample side and guides the light beam to collide with the sample and reflect the light, and to pass through the sample magnifying microscope lens module to display an enlarged sample image; And a magnified image signal processing module controlled by the device control unit and controlling an on / off state of the light source and converting the magnified image passing through the specimen lens module into a digital signal and outputting the digital signal. Portable electronic device with microscope function to assume. The apparatus of claim 2, wherein the enlarged image signal processing module comprises: a light source driving module configured to control an on / off state of the light source while communicating with the device control unit; A charge-coupled device module (CCD) for converting and outputting an enlarged image passing through the microscope lens module for magnifying the sample into an electrical signal; A correlated double sampling / auto grain control module (CDS / AGC) module for correlating double sampling and gain control of the electrical signal converted and output by the CCD module; A portable electronic device having a microscope function, comprising: an analog / digital convert module (ADC) for converting an analog type electrical signal output from the CDS / AGC module side into an electrical signal of a digital type . The digital image processing unit of claim 1, wherein the magnified image processing unit performs gamma correction and color correction on the digital signal output from the microscope unit side, thereby performing an NTSC method (Phase Alteration by Line method). A digital signal processor module (DSP) for generating an electric magnified image; A magnified image storage module for compressing the magnified image output from the DSP module side into a JPEG (Joint Picture Expert Group pattern) and storing the compressed image; And a magnified image display module for transmitting an enlarged image output from the DSP module side to the display unit side while communicating with the display unit, and displaying the enlarged image through the display unit. Portable electronic device with function. The apparatus of claim 4, wherein the DSP module comprises: a gamma correction unit configured to gamma correct a digital signal output from the microscope unit side; A color interpolation unit which performs color interpolation on the digital signal gamma corrected by the gamma correction unit; A color compensator for converting / generating digital signals interpolated by the color interpolator into RGB data; Converts the RGB data converted / generated by the color correction unit into a luminance signal / color difference signal or a luminance signal / color signal to generate an enlarged image, and transmits the generated enlarged image to the enlarged image storage module for storage processing; And a magnified image signal conversion output unit configured to transmit the magnified image to the magnified image display module and display the magnified image signal. The method according to claim 1, wherein when the user who uses the device operates a menu posted on the microscope function guide frame while the display unit is controlled by the device control unit and displays and operates the microscope function guide frame through the display unit, And a microscope function guide unit which communicates with the microscope unit and the magnified image processing unit and guides the magnified image corresponding to the sample to be selectively stored or displayed. Electronics. In a portable electronic device having a device control unit and a display unit, A microscope unit, controlled by the device control unit, for irradiating light rays to the sample side to enlarge an image reflected from the sample side, and convert the enlarged image into a digital signal and output the digital signal; A camera unit which is controlled by the device control unit and which photographs a subject and converts the photographed image into a digital signal and outputs the digital signal; Microscope / camera function switching controlled by the device control unit and selectively activating the microscope unit or camera unit in accordance with a control signal output from the device control unit side while communicating with the microscope unit and the camera unit. A unit; Controlled by the device control unit, in accordance with the operation of the microscope / camera function switching unit, converts the digital signal output from the microscope unit side or the digital signal output from the camera unit side into an image format to enlarge or capture an image. And an enlarged / captured image image processing unit for generating an image, compressing and storing the generated magnified image or the captured image, or displaying the image through the display unit. 8. A menu according to claim 7, which is controlled by the device control unit and, through the display unit, displays and operates the microscope / camera function guide frame, the user using the device displays a menu posted on the microscope / camera function guide frame. In the case of operation, communication with the microscope unit, the camera unit, the microscope / camera function switching unit, and the magnified / photographed image image processing unit is performed so that an enlarged image or a captured image corresponding to the sample or subject can be selectively stored or displayed. Portable electronic device having a microscope function, characterized in that it further comprises a microscope / camera function guide unit for guiding.

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