KR100211842B1 - Device and method for minimizing transmission memory in digital video camcorder - Google Patents

Abstract

end. TECHNICAL FIELD The present invention relates to a digital video camcorder, and more particularly, to an apparatus and a method for minimizing the size of a transmission memory required for transmitting a video of a digital video camcorder to a personal computer.

I. The technical problem to be solved by the invention: The conventional digital video camcorder image data transmission method to the RS232C transmission port of the personal computer is a distance between the data captured by the capture control unit and the data transmitted from the transmission control unit at the position on the screen. Therefore, since the capturing control unit and the transmission control unit must have a storage area of the same size, the total capacity of the memory unit itself is solved.

All. Summary of the Invention The present invention for solving the above-described problems efficiently improves the control of the capture control unit and the transmission control unit as a speed converter in a method of transmitting a video of a digital video camcorder to the RS232C port of a personal computer. The present invention provides an apparatus and method for minimizing the size of a memory unit required for transmission.

la. Significant Use of the Invention: Apparatus and Method for Minimizing Memory for Transmission in Digital Video Camcorders

Description

Apparatus and Method for Minimizing Memory for Transmission in Digital Video Camcorders

The present invention relates to a digital video camcorder, and more particularly, to an apparatus and a method for minimizing the size of a transfer memory required for transmitting a moving image of a digital video camcorder to a personal computer.

In general, a digital video camcorder is a higher resolution than a digital camera and a device for recording a moving image, and thus has excellent merchandise having a function of transferring this image to a personal computer to edit image data.

Such a current method of transmitting image data by connecting the digital video camcorder to a personal computer uses an RS232C transmission method, which freezes the digital video camcorder screen and continuously reproduces one frame of data, and then speeds up the data. It is configured to allow slow transmission to RS232C port of personal computer using inverter. In this case, the reason for stopping the digital video camcorder image is to continuously acquire data necessary for transmission in the speed conversion apparatus until the transmission is completed in order to transmit the still image in the RS232C method, and the digital video The input / output speed of the data inside the camcorder is 18MHz or 13.5MHz, and the RS232C transmission speed uses 50Kbps and 115Kbps. Therefore, the speed conversion device inside the digital video camcorder adjusts the transmission speed difference between the digital video camcorder and RS232C. The speed converter includes a capture control unit and a transmission control unit, respectively, and a memory having two storage areas necessary for gap and transmission therebetween.

Referring to such a conventional transfer performing operation, first, the digital video camcorder should be stopped in still mode when the transfer is started, and image data stored in the shuffle memory unit continuously transmits one frame of data through the D / A converter. Output to the viewfinder attached to the video camcorder. At this time, the capture control unit stores necessary data in a memory unit in a predetermined amount from the top left to the left of the effective section, and the transmission control unit transmits the data stored in the memory unit at a slow speed through a personal computer through RS232. Therefore, the storage area of the memory used in the capture control unit and the storage area used in the transmission control unit are separated separately. In general, when transferring at 112 Kbps, two memory capacities are required.

However, in the conventional method of transmitting image data of a digital video camcorder to the RS232C transmission port of a personal computer, since the distance between the data captured by the capture controller and the transmission controller is separated from the screen position, the capture control unit and the capturing unit are separated. Since the transmission control unit must have a magnetic field area of the same size in the shared memory unit, the total capacity of the memory unit itself is large.

Accordingly, an object of the present invention is to provide an apparatus for minimizing the size of a memory unit required for transmission by efficiently improving the control of a capture controller and a transfer controller in a method of transmitting a video of a digital video camcorder to an RS232C port of a personal computer. In providing a method.

The present invention as described above in the transmission speed conversion apparatus of a digital video camcorder having a capture control unit, a transmission memory, a transmission control unit therein; Producing an image data gap start signal to the capture controller, and applying a transfer start signal closest to the capture start signal to the transfer control unit to provide a proximity position check and start signal generator to minimize the storage capacity of the transfer memory. It is characterized by.

1 is a block diagram of a moving picture transmission system for connecting a digital video camcorder and a personal computer according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals have the same reference numerals as much as possible even if displayed on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of a moving picture transmission system connecting a digital video camcorder and a personal computer according to an embodiment of the present invention. Referring to FIG. 1, the camera unit 10 captures image information from the outside, so that Y (luminance): Cr (color difference signal = RY): Cb (color difference signal = BY) = 4: 2 : Outputs data in two formats. The decimation unit 20 digitizes the Y: Cr: Cb = 4: 2: 2 format data output from the camera unit 10 in the Y: Cr: Cb = 4: 1: 1 format. . The shuffle memory 40 mixes input Y: Cr: Cb = 4: 1: 1 format data to increase the compression efficiency of the subsequent compression / extension unit 50. The compression / decompression unit 50 receives the shuffling data output from the shuffle memory 40 and compresses it to be stored in the recording / reproducing unit 60 at a later stage, and recorded in the recording / reproducing unit 60. The compressed data is stretched to the original data size for reading and playing back. The recording / reproducing unit 60 receives and records the compressed data from the compression / decompression unit 50 and reproduces the recorded data. The I-desertion unit 30 outputs Y: Cr: Cb = 4: 1: 1 format shuffling data output from the shuffle memory 40 to the view-finder 120 attached to the camcorder. Restore again to the: Cr: Cb = 4: 2: 2 format. The D / A converter 70 outputs Y: Cr: Cb = 4: 2: 2 format data output from the I-desertion unit 30 to the outside through the rear view-pinter 120. In order to do this, the digitally processed data is converted into analog data as an original signal and output. The view-finder 120 outputs the analog signal converted and output through the D / A converter 70 to the outside. The capture control unit 80 samples and outputs data at predetermined intervals in order to transfer the shuffling data output from the shuffle memory 40 to the personal computer 110. The memory unit 100 has a form of a dual port RAM to temporarily store data output from the capture controller 80, and output the temporarily stored data under the control of a transmission controller 90 at a later stage. do. The transmission control unit 90 connects the personal computer 110 and the RS232C transmission line to transmit data temporarily stored in the memory unit 100. The proximity position check and start signal generator 130 generates a data gap start signal to the capture controller 80, and transmits data by applying a transfer start signal closest to the capture start signal to the transfer controller 90. Do it. The personal computer 110 receives data output from the transmission control unit 90 of the digital video camcorder system and outputs the data externally through its own monitor.

Then, when the operation of the present invention having the block configuration as described above, first, when the digital video camcorder operates in the still mode, the proximity position check and start signal generation unit 130 starts to capture the capture control unit 80 Generate a signal. In this case, the capture controller 80 receives the capture start signal to capture data from the shuffle memory 40 and store the data in the memory unit 100. Then, the proximity position check and start signal generation unit 130 transmits a transmission start signal to the transmission control unit 90 most closely to the capture start signal. At this time, the transmission control unit 90 receives the transmission start signal and transmits the data stored in the memory unit.

As a result, the proximity position check and start signal generator 130 generates the capture start signal of the capture controller 80, and generates a transmission signal close to the start signal to the transfer controller 90, thereby storing a memory. Can be minimized. At this time, the proximity position check and start signal generation unit 130 receives a system clock, a horizontal synchronous signal of the signal, and a vertical synchronous signal of the signal from the outside to calculate the minimum close distance time as shown in the following equation.

At this time, the equation of ① in Equation 1 is the time of 1H, the formula of ② is the time required for transmission when transmitting 3 bytes at 115200bps.

Therefore, in order to minimize the capacity of the above-described memory, the specific definition is as follows. As a first definition, the time interval for capturing data is 13.5 MHz clock, with 3 bytes every 4432 minutes (H). As a second definition, the transmission method transmits Y: Cr: Cb = 1: 1: 1 first for 4 pixels, and then Y: Cr: Cb = 3: 0: 0. As a third definition, 360 bytes are transmitted during one frame period. As a fourth definition, RS232C transmission method requires 10 clocks when transmitting 1 byte with start bit: 1 and stop bit: 1. As a fifth definition, the location of image data is rearranged by software inside the personal computer. As a sixth definition, the personal computer transmits data at one horizontal interval for ease of realignment.

In conclusion, the proximity position check and start signal generator 130 generates a start signal which can be started to the capture controller 80 and the transfer controller 90 when the image transmission starts. At this time, the capture controller 80 detects the capture start signal and captures the predetermined interval 4H data by 3 bytes and temporarily stores the data in the memory unit. The transmission control unit 90 detects the transmission signal and transmits data stored in the memory unit at a position close to the capture start signal.

Provided an apparatus and method for minimizing the size of the memory unit required for transmission by efficiently improving the control of the capture control unit and the transmission control unit in the method for transmitting the video of the digital video camcorder to the RS232C port of the personal computer as described above By doing so, the size of the entire system circuit can be reduced, and the cost of purchasing the memory unit can be reduced.

Claims (6)

In the transmission speed converting apparatus of a digital video camcorder having a capture control unit, a transmission memory, and a transmission control unit therein, Producing an image data gap start signal to the capture controller, and applying a transfer start signal closest to the capture start signal to the transfer control unit to provide a proximity position check and start signal generator to minimize the storage capacity of the transfer memory. Minimizing device for transmission memory in a digital video camcorder, characterized in that. In the method for minimizing the memory for transmission in a digital video camcorder having a transmission speed conversion device consisting of a capture control unit, a transmission memory, a transmission control unit, a proximity position check and a start signal generation unit therein, A first step of generating the image data gap start signal from the proximity position check and start signal generation unit to the capture control unit, and generating a transfer start signal to the transmission control unit at a time close to the capture control unit; A second step of capturing, by the capture control unit, the capture start signal and capturing a predetermined amount of image data at a predetermined time interval in the transmission memory; And transmitting the image data temporarily stored in the transmission memory such that the transmission control unit receives the transmission start signal and is closest in time to the location of the captured data. How to minimize memory. The method of claim 2, The method of capturing image data in the second process as a method of minimizing the memory for transmission in a digital video camcorder, characterized in that for capturing three bytes every four horizontal minutes. The method of claim 2, A method of minimizing transmission memory in a digital video camcorder characterized in that the interval is captured every four horizontal minutes when the time interval capturing is 115200bps. The method of claim 2, A method of minimizing transmission memory in a digital video camcorder, characterized in that the interval is captured every 8 horizontal minutes when the time interval capturing is 57600 bps as the method of approaching a position in time in the third process. The method of claim 2, As a method of capturing and transmitting the image data in the second and third processes, Y: Cr: Cb = 1: 1: 1 is transmitted, and then Y: Cr: Cb = 3: 0: 0. Minimizing the amount of memory for transmission in a digital video camcorder.

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