KR0174712B1 - Still camera - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to still cameras that can be used with repeated playback, and more particularly, to still cameras using analog storage devices using EEPROM.

The present invention stores an analog signal output from the CDS as an analog value by using an analog storage device (ASD) made of NAND flash.

Therefore, the present invention stores data in an efficient manner, thus simplifying the structure of the system as a whole, lowering the cost of the entire set, reducing power consumption drastically, making it possible to simply record and play back voice, and to compress by JPEG. In addition, it is possible to flexibly cope with more advanced compression techniques in the future, and since the file type is low data, it is possible to efficiently manage the data file by taking it at a separate compression rate according to the user's taste and importance on the image.

Description

Still camera

1 is a block diagram of a conventional still camera.

2 is a block diagram of a still camera according to the present invention.

* Explanation of symbols for main parts of the drawings

1, 11: CDS 2, 13: A / D Converter

3, 14: DCP 4, 15: MC

5: NAND Flash 6: JPEG

7: SRAM 12: ASD

[Industrial use]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to still cameras that can be used with repeated playback, and more particularly, to still cameras using analog storage devices using EEPROM.

[Private Technology and His Issues]

Recently, a still camera using a solid state film of a different concept from the conventional film has been in the spotlight. Such still cameras not only stimulate the consumer's desire to purchase by repeatedly using a regenerated film instead of a disposable camera, but also have the advantage that the screen can be edited according to the consumer's taste.

The market for such still cameras is expected to threaten the existing camera market in the future with the rapid spread of personal computers (PCs). 1 is a configuration diagram of a conventional camera camera.

As shown in FIG. 1, a conventional still camera includes a CDS (Correlated Double Sampling) (1) for sampling and holding a signal input through a CCD (Charge Coupled Device) and removing noise. A / D (Analog / Digital) converter 2 for converting analog signals output from the CDS 1 into digital signals, and 16-bit Y, Cb, and digital signals output from the A / D converter 2; DCP (Digital Camera Processor) 3 converting Cr signals, MC (Micro Controller) 4 to adjust the signals output from DCP 3 and store them in DRAM, and compress and store the signals stored in DRAM. NAND FLASH 5 for storing signals output from JPEG 6 and SRAM 7 for temporarily storing captured image data output from DCP 3. It consists of.

The operation of the conventional still camera configured as described above will be described.

The signal serially input through the CCD 1 is sampled and held in the CDS 1 and the noise is removed, and then converted into a digital signal in the A / D converter 2.

The digital signal thus produced is converted into a 16-bit signal composed of Y, Cb and Cr in the DCP 3. At this time, the analog signal NTSC is output from the DCP (3), which is used by the camera user to see the object.

On the other hand, the signal made in the DCP 3 is stored in the DRAM by the adjustment of the MC 4, and the signal stored in the DRAM is compressed by the JPEG 6 and made in the form of a file, and then NAND FLASH (5). ) Will be stored.

In addition, the file thus created is sent to the personal computer at the request of the user through the input / output terminal, and the signal transmitted is visualized through a monitor or a printer.

This structure has the advantage that it is possible to provide the function of the phenomenon to the user without adding any special function in the personal computer. However, since most personal computers currently on the market are mainly for multimedia, it is a general trend that the above JPEG function is embedded in the personal computer.

Therefore, it is meaningless that the camera has a separate function for creating a compressed file. This phenomenon becomes even clearer in light of the trend of the personal computer market towards multimedia. The advantage of conventional still cameras in such a tube is simply to reduce the size of the file into the NAND flash.

As a result of the unnecessary addition of the JPEG function, the conventional still camera stores data in an inefficient manner, thereby increasing the cost of the component and thus excessively increasing the overall set price.

[Purpose of invention]

An object of the present invention to improve the above disadvantages is to provide a still camera for efficiently storing data using an analog storage device using an EEPROM.

[Configuration of Invention]

Still camera according to the present invention for achieving the above object is a sample and hold (Sample and Hold) the signal input from the CCD (Charge Coupled Device) (Correlated Double Sampling) to remove noise, the analog output from the CDS ASD (Analog Storage Device) for storing the signal, an A / D converter for converting the analog signal stored in the ASD to a digital signal, and converts the digital signal output from the A / D converter into Y, Cb, Cr signals DCP (Digital Camera Processor), and the MC (Micro Controller) for adjusting the signal output from the DCP to store in the memory.

[Action]

The still camera according to the present invention stores an analog signal output from the CDS as an analog value by using an analog storage device (ASD) made of NAND flash.

EXAMPLE

Referring to FIG. 2, the novel still camera according to the present invention includes a CDS (Correlated Double Sampling) 11 for sampling and holding a signal input from a charge coupled device (CCD) and removing noise. ASD (Analog Storage Device) (12) for storing analog signals output from the CDS (11) as analog values, and A / D conversion for converting analog signals stored in the ASD (12) to digital signals. A unit 13, a digital camera processor (DCP) 14 for converting a digital signal output from the A / D converter 12 into a Y, Cb, Cr signal, and a signal output from the DCP 14 It consists of an MC (Micro Controller) 15 that adjusts and stores it in a memory.

The ASD 12 is basically made of NAND flash, but unlike NAND flash, it has a function of storing an analog value rather than a logic value, and has the capability of storing and playing data corresponding to one byte of digital memory in one cell. Memory. Therefore, the effect of compressing the size of the data corresponding to the image to 8 ratios without using compression can be expected. Therefore, the compression storage capability of the conventional still camera is offset.

The image stored in this real time is observed by the user through the DCP 14 by the switching operation of the switch before taking the camera.

When the observation of such an image is placed in a satisfactory position, the user presses the shutter like a conventional camera, thereby causing the captured image to enter the ASD 12 through the CCD at the moment the shutter is closed by the switching operation of the switch. And stored.

As such, the signals stored in the ASD 12 may be exported in various other formats, rather than in the same file as the conventional method, when connected and output to a personal computer. For example, R, G, B signals having a 24-bit structure, Y, Cr, Cb signals, or NTSC signals having 16 bits can be exported.

The output signal can be stored in the hard drive through the signal compression function such as JPEG function built in personal computer, and the signal output to the monitor or printer is reproduced as uncompressed signal so that it is clearer. Images can be played back.

The compressed signal may be stored and used in a diskette as in the prior art, and there is no problem even when the signal is transmitted to another medium through a modem.

[effect]

As described above, the still camera according to the present invention has the following effects.

First, the data is stored in an efficient manner, which simplifies the structure of the system as a whole.

Second, the overall set is lowered in price due to the simplification of the structure.

Third, the power consumption is drastically reduced due to the simplification of the structure, so that even if the same battery is used as compared to a still camera, the use time is significantly longer.

Fourth, voice recording and playback can be made by simply mounting a microphone and a speaker.

Fifthly, it is possible to flexibly cope not only with JPEG compression but also with more advanced compression techniques in the future. In other words, sending raw data of an image can flexibly cope with any type of compression that will be developed in the future.

Sixth, since the file type is raw data, it is possible to efficiently manage the data file by taking a separate compression rate according to the user's taste and the importance of the image.

Claims (3)

Sample and hold (Sample and Hold) the signal input from the charge coupled device (CCD) (Correlated Double Sampling) (11) for removing the noise, ASD (Analog) for storing the analog signal output from the CDS (11) Storage Device) 12, an A / D converter 13 for converting an analog signal stored in the ASD 12 into a digital signal, and the digital signal output from the A / D converter 12 in Y, Cb, DCP (Digital Camera Processor) (14) for converting the Cr signal, and MC (Micro Controller) (15) for adjusting the signal output from the DCP (14) to store in the memory. The still camera according to claim 1, wherein the ASD (12) is composed of a NAND flash. The still camera according to claim 1, wherein the ASD (12) stores an analog signal output from the CDS (11) as an analog value.