Abstract:
A video integrated circuit and a video processing apparatus thereof, connected to a memory and a video display apparatus, for processing and displaying a plurality of video signals are provided. The video integrated circuit and the video processing apparatus comprise a processor, a video capture unit, a motion picture experts group decoder, a memory control unit, and a video output unit. The video integrated circuit and the video processing apparatus generate a plurality of images corresponding to the plurality of video signals after processing. The video integrated circuit and the video processing apparatus displaying the plurality of images in one single chip decrease the cost and the size of products.

Description:
CROSS-REFERENCES TO RELATED APPLICATIONS  
       [0001]     This application claims priority to Taiwan Patent Application No. 094216006 filed on Sep. 16, 2005.  
       BACKGROUND OF THE INVENTION  
       [0002]     1. Field of the Invention  
         [0003]     The present invention relates to a video integrated circuit and a video processing apparatus thereof; more particularly, relates to a video integrated circuit and a video processing apparatus thereof for processing and for displaying a plurality of video signals.  
         [0004]     2. Descriptions of the Related Art  
         [0005]     The technology is progressing nowadays, the technology of processing image develops rapidly, and a video display apparatus is a product closely related to people&#39;s daily life. However, a conventional video display apparatus merely displaying a single image will be unable to match the need of receiving more information in a short time. For this reason, a video display apparatus offers picture-in-picture (PEP) display or picture-on-picture (POP) display is thus invented.  
         [0006]     A conventional video display apparatus for processing a plurality of images comprises a plurality of integrated circuits. For instance, when processing a plurality of inputting digital video signals and generating a corresponding image, many kinds of integrated circuits, such as a processor, a video output/input port unit, a motion picture experts group (MPEG) codec, an integrated drive electronics (IDE) controller, etc., are required for cooperative operation. Owing to the combination of the integrated circuits, the size of the product is large, the cost is too much, and the dimensions of the product cannot reach the product requirement of light-weight, thin, short, and small in the present day. Therefore, a video integrated circuit for processing a plurality of video signals with a single integrated circuit and a video processing apparatus thereof are urgently required.  
       SUMMARY OF THE INVENTION  
       [0007]     An object of this invention is to provide a video integrated circuit connected to a memory and a video display apparatus. The video integrated circuit comprises a processor, a video capture unit, a motion picture experts group (MPEG) codec, a memory control unit, and a video output unit. The video capture unit receives a plurality of digital video signals in response to a first signal from the processor and generates a processing signal. The MPEG codec receives and compresses the processing signal in response to a second signal from the processor. The memory control unit stores the processing signal in the memory in response to a third signal from the processor. The video output unit captures the processing signal from the memory via the memory control unit in response to a fourth signal from the processor and outputs the processing signal to the video display apparatus. The aforementioned first, second, third, fourth signals being accorded to the video capture unit, the MPEG codec, the memory control unit, and the video output unit are not limited to be the same signal.  
         [0008]     The video integrated circuit may be further connected to a video graphics array (VGA) display apparatus. More significantly, the video integrated circuit may further comprise a VGA encoder for encoding the processing signal from the video output unit and for outputting the encoded processing signal to the VGA display apparatus.  
         [0009]     The video integrated circuit may be further connected to a hardware storage device. More significantly, the video integrated circuit may further comprise an integrated drive electronics (IDE) controller for storing the processing signal in the hardware storage device in response to a fifth signal from the processor.  
         [0010]     The video integrated circuit may be further connected to a peripheral controller interface (PCD bus. More significantly, the video integrated circuit may further comprise a PCI unit for outputting the processing signal to the PCI bus in response to a sixth signal from the processor.  
         [0011]     The video integrated circuit may be further connected to a universal serial bus (USB) port. More significantly, the video integrated circuit may further comprise a USB unit for outputting the processing signal to the USB port in response to a seventh signal from the processor.  
         [0012]     The video integrated circuit may be further connected to an Ethernet physical layer. More significantly, the video integrated circuit may further comprise an Ethernet medium access control layer for outputting the processing signal to the Ethernet physical layer in response to an eighth signal from the processor.  
         [0013]     Another object of this invention is to provide a video processing apparatus connected to a memory and a video display apparatus. The video processing apparatus comprises a first video integrated circuit and a second integrated circuit. Each of the first video integrated circuit and the second integrated circuit comprises a processor, a video capture unit, a motion picture experts group (MPEG) codec, a memory control unit, a video output unit. The processor, the MPEG codec, and the memory control unit are the same as the aforementioned processor, MPEG codee, and memory control unit. The video capture unit comprises a first input node and a second input node. The video capture unit receives a plurality of digital video signals via the first input node in response to a first signal from the processor and generates a processing signal. The video output unit comprises a first output node and a second output node. The video output unit captures the processing signal from the memory via the memory control unit in response to a fourth signal from the processor and outputs the processing signal to the video display apparatus via the first output node. Wherein the second output node of the video output unit of the first integrated circuit is connected to the second input node of the video capture unit of the second integrated circuit, and the processing signal of the first video integrated circuit is transmitted to the second video integrated circuit. The signals being accorded to the aforementioned units are not limited to be the same signal as well.  
         [0014]     The detailed technology and preferred embodiments implemented for the subject invention are described in the following paragraphs accompanying the appended drawings for people skilled in this field to well appreciate the features of the claimed invention.  
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0015]      FIG. 1  shows a first embodiment of a video integrated circuit in accordance with the present invention;  
         [0016]      FIG. 2  shows a first embodiment of a video integrated circuit in accordance with the present invention; and  
         [0017]      FIG. 3  shows an embodiment of a video processing apparatus in accordance with the present invention. 
     
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT  
       [0018]     A first embodiment of the present invention is a video integrated circuit  1  for processing a plurality of digital video signals and for outputting the processed plurality of digital signals to a display, as shown in  FIG. 1 .  
         [0019]     The video integrated circuit  1  is electrically connected to a memory  101  and a video display apparatus  103 . The video integrated circuit  1  comprises a processor  105 , a video capture unit  107 , a motion picture experts group (MPEG) codec  109 , a memory control unit  111 , and a video output unit  113 . The processor  105  outputs signals via a line  161  and a bus  115  to other units of the video integrated circuit  1 . The video capture unit  107  receives a first signal  122  outputted from the processor  105  via the line  161  and the bus  115 , receives a plurality of digital video signals  102  in response to the first signal  122 , and generates a processing signal  104 . The processing signal  104  is then transmitted to the bus  115 . In this embodiment, the bus  115  is an advanced high performance bus (AHB), and the plurality of digital video signals  102  are four composite signals.  
         [0020]     After receiving a second signal  124  outputted from the processor  105  via the line  161  and the bus  115 , the MPEG codec  109  receives and compresses the processing signal  104  in response to the second signal  124 , wherein the MPEG codec performs the compression in an MPEG-4 format. After receiving a third signal  126  outputted from the processor  105  via the line  161  and the bus  115 , the memory control unit  111  stores the processing signal  104  in the memory  101  in response to the third signal  126 . The processing signal  104  is stored in the memory  101  thereby, and the memory  101  is a synchronous dynamic random access memory (SDRAM). When the processing signal  104  is needed to be captured, the processor  105  transmits a fourth signal  128  via the line  161  and the bus  115  to the video output unit  113 . The video output unit  113  requests the memory control unit  111  to capture the processing signal  104  from the memory  101 , and outputs the processing signal  104  to the video display apparatus  103  directly or via a LCD controller (not shown) for displaying an image. The video output unit  103  may be a liquid crystal display (LCD) or a projector.  
         [0021]     The video integrated circuit  1  further connected to a video graphics array (VGA) display apparatus  117 . The video integrated circuit  1  further comprises a VGA encoder  119  for encoding the processing signal  104  from the video output unit  113  and for outputting the encoded processing signal to the VGA display apparatus  117 . Therefore, the video integrated circuit  1  may generate a VGA signal directly to a display apparatus. In this embodiment, the VGA display apparatus  117  is a television.  
         [0022]     The video integrated circuit  1  is further connected to a hardware storage device  121 . The video integrated circuit  1  further comprises an integrated drive electronics (IDE) controller  123  for storing the processing signal  104  generated by the video capture unit  107  in the hardware storage device  121  after receiving a fifth signal  130  from the processor  105  via the line  161  and the bus  115 . Since the hardware storage device  121  is able to store a great deal of data, the processing signal  104  would be preserved for a long time. The processing signal  140  is read from the hardware storage device  121  for displaying or for further processing when it is needed some day.  
         [0023]     The video integrated circuit  1  is further connected to a peripheral controller interface (PCI) bus  125 . The video integrated circuit  1  further comprises a PCI unit  127  for outputting the processing signal  104  generated by the video capture unit  107  to the PCI bus  125  in response to a sixth signal  132  after receiving the sixth signal  132  from the processor  105  via the line  161  and the bus  115 . The PCI bus  125  is a standard interface for data transmission of a computer, and the processing signal  104  may be transmitted to be displayed on the computer or further processed via the PCI bus  125 .  
         [0024]     The video integrated circuit  1  is further connected to a universal serial bus (USB) port  129 . The video integrated circuit  1  further comprises a USB unit  131  for outputting the processing signal  104  generated by the video capture unit  107  to the USB port  129  in response to a seventh signal  134  after receiving the seventh signal  134  from the processor  105  via the line  161  and the bus  115 . The USB port  129  is also an interface connected to a host, and the processing signal  104  may be transmitted to be displayed on the computer or further processed via the USB port  129 .  
         [0025]     The video integrated circuit  1  is further connected to an Ethernet physical layer  133 . The video integrated circuit  1  further comprises an Ethernet medium access control layer  135  for outputting the processing signal  104  generated by the video capture unit  107  to the Ethernet physical layer  133  in response to an eighth signal  136  after receiving the eighth signal  136  from the processor  105  via the line  161  and the bus  115 . The processing signal  104  may be transmitted to Internet via the Ethernet physical layer  133 .  
         [0026]     A second embodiment of the present invention is shown in  FIG. 2 . A video integrated circuit  2  is also electrically connected to a memory  201  and a video display apparatus  203 . The video integrated circuit  2  also comprises a processor  205 , a video capture unit  207 , a MPEG codec  209 , a memory control unit  211 , a video output unit  213 , and a first bus  215 . The functions of the aforementioned units are the same as the functions of the corresponding units in the first embodiment, and are not depicts here.  
         [0027]     The video integrated circuit  2  differs from the video integrated circuit  1  in further comprising a second bus  239  and a bus bridge  241 , wherein the second bus  239  is an advanced peripheral bus (APB), and the bus bridge  241  is an AHB-APB bridge for connecting the first bus  215  and the second bus  239 . The second bus  239  is further connected to an I 2 C bus  243 , an IRDA interface  245 , a storage card interface  247 , a GPIO port  249 , an audio interface  251 , a keyboard/mouse interface  253 , a UART interface  255 , and an interrupt controller  257 . The second bus  239  transmits signals to the first bus  215  via the bus bridge  241 . Therefore, any signal generated by the processor  205 , the video capture unit  207 , the MPEG codec  209 , the memory control unit  211 , or the video output unit  213  may be transmitted via the aforementioned interfaces  243 ,  245 ,  247 ,  249 ,  251 ,  253 ,  255 , and  257 , and a user may inputs a control signal or a datum to the video integrated circuit  2  via the aforementioned interfaces  243 ,  245 ,  247 ,  249 ,  251 ,  253 ,  255 , and  257 .  
         [0028]     Both the video integrated circuit  1  and the video integrated circuit  2  receives four video signals, at least four images would be processed and displayed simultaneously thereby. The prior art requires many apparatuses for processing a plurality of video signals, and brings about a high cost and a large space necessity. The video integrated circuit of the present invention integrates the functions of many conventional integrated circuit chips on a single integrated circuit chip. The integration of the present invention decreases the area for the layout, and further saves the cost and minimizes the dimensions of the product.  
         [0029]     The present invention further provides a video processing apparatus, and the embodiment thereof is illustrated in  FIG. 3 . The video processing apparatus  3  processes and controls a plurality of digital video signals and then displays the processed and controlled plurality of digital video signals to displays, such as a LCD, a TV, a monitor, a projector, etc. The video processing apparatus  3  enables a signal display to display a plurality of images at the same time.  
         [0030]     The video processing apparatus  3  comprises a first video integrated circuit  31  and a second video integrated circuit  33 . The units in the first video integrated circuit  31  and the second video integrated circuit  33  are identical to the video integrated circuits of the first embodiment and the second embodiment. The video capture unit  307  of the first video integrated circuit  31  and the second video integrated circuit  33  further comprises a first input node  361  and a second input node  363 . The first input node  361  is configured to receive a plurality of digital video signals  302  and to generate the aforementioned processing signal. The second input node  363  is connected to a video output unit  313  of a front end video integrated circuit. The video output unit  313  of the first video integrated circuit  31  and the second video integrated circuit  33  further comprises a first output node  365  and a second output node  367 . The first output node  365  outputs the processing signal to a video display apparatus  303 , and the second output node  367  is connected to the second input node  363  of the video capture unit  307  of a back end video integrated circuit. In this embodiment, the second output node  367  of the video output unit  313  of the first video integrated circuit  31  is connected to the second input node  363  of the video capture unit  307  of the second video integrated circuit  33 , and the processing signal of the first video integrated circuit  31  would be inputted into the second video integrated circuit  33 .  
         [0031]     If both the video integrated circuit  1  and the video integrated circuit  2  can process four video signals, then the first output node  365  and the second output node  367  of the video output unit  313  of the second video integrated circuit  33  can output eight images respectively, wherein four images of the eight images are generated from the digital video signal  302  of the first input node  361  of the video capture unit  307  of the first video integrated circuit  33 , and the other four images are generated from the digital video signal  304  of the first input node  361  of the video capture unit  307  of the first video integrated circuit  33 . The second video integrated circuit  33  enables the eight images to be displayed simultaneously on the video display apparatus  303  via the first output node  365 .  
         [0032]     Though the embodiment is illustrated with the video processing apparatus comprising two video integrated circuits, people skilled in this field may proceed with a variety of modifications having the video processing apparatus with more than two video integrated circuits. The video processing apparatus comprising four video integrated circuits, for example, may display sixteen images at the same time.  
         [0033]     The above disclosure is related to the detailed technical contents and inventive features of the subject invention. People skilled in this field may proceed with a variety of modifications and replacements based on the disclosures and suggestions of the invention as described without departing from the characteristics thereof. Nevertheless, although such modifications and replacements are not fully disclosed in the above descriptions, they have substantially been covered in the following claims as appended.