JP2008076717A - Display data transmission device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display data transmission device whose power consumption and heat generation can be reduced without misdetecting consumption of a power source supplying electric power to the whole device. <P>SOLUTION: The display data transmission device transmits a synchronizing signal (a) and display data (b) to a display device and also performs generation processing of display data in a period (d) wherein the display data (b) are not transmitted. For example, generation processing for display data for a scan 2A is performed in the period 30 from the completion of transmission of the display data for a scan 1A of a display device till the start of transmission of the display data for the scan 2A. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a display data transmitting apparatus that transmits display data to be displayed on a display device.

  As shown in FIG. 5, a conventional display data transmitting apparatus includes a data generation unit 90 that generates display data, a data holding unit 91 that holds display data, and the held display data together with a synchronization signal and a strobe signal. A device including a data transmission unit 93 that transmits to a display device 92 is known.

Further, as a conventional display data transmission apparatus, a display data compression circuit for compressing display data to be displayed on a display device and a transmission circuit for transmitting compressed display data are provided, and a display data compression circuit is provided. In some cases, power consumption and heat generation are reduced by stopping the supply of power for transmission and reception of display data during a period when there is no display data generated (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 4-330489

  However, the conventional display data transmission apparatus shown in FIG. 5 performs a synchronization process such as a display data generation process that needs to be performed in accordance with a synchronization signal in addition to the display data transmission. Since the required period varies depending on the size of the display data, etc., power consumption varies between the period when synchronization processing is performed and the period when it is not performed, and the power consumption of the battery that supplies power to the entire device is exhausted. There was a problem that it was erroneously detected as.

  Moreover, although what was described in patent document 1 has the effect of reducing power consumption, since the improvement about the fluctuation | variation of power consumption is not made, like the conventional display data transmitter shown in FIG. There was a problem that it was erroneously detected as power consumption.

  The present invention has been made to solve the conventional problems, and provides a display data transmission device that can reduce power consumption and heat generation without erroneously detecting consumption of a power source that supplies power to the entire device. The purpose is to do.

  The display data transmission apparatus of the present invention includes a data compression unit that compresses display data to be displayed on a display device, a data transmission unit that transmits display data compressed by the data compression unit together with a synchronization signal to the display device, A synchronization processing unit that performs a synchronization process other than the display data transmission process that needs to be performed in synchronization with the synchronization signal during a period in which the data transmission unit does not transmit the display data compressed by the data compression unit. It has a configuration.

  With this configuration, the display data transmission apparatus of the present invention performs a synchronization process during a period in which display data is not transmitted to the display device, thereby suppressing the power consumption peak, thereby depleting the power supply for supplying power to the entire apparatus. The power consumption and heat generation can be reduced without erroneously detecting.

  The synchronization processing unit may execute the process for generating the display data as the synchronization process.

  With this configuration, the display data transmitting apparatus of the present invention can suppress the peak of power consumption by executing the process of generating display data during a period in which display data is not transmitted to the display device.

  The synchronization processing unit may execute a process of transmitting display data to be displayed on another display device different from the display device as the synchronization process.

  With this configuration, the display data transmitting apparatus of the present invention suppresses the peak of power consumption by executing a process of transmitting display data to be displayed on another display device during a period in which the display data is not transmitted to the display device. Can do.

  Furthermore, since the display data transmitting apparatus of the present invention can transmit display data to be transmitted to each of a plurality of display devices through one path, the number of terminals of the integrated circuit when the apparatus is configured by an integrated circuit. Can be reduced, and the device can be miniaturized.

  In addition, the display system of the present invention includes a display device having a display device, and a display data transmission device that transmits display data to be displayed on the display device, the display data transmission device compressing the display data. A compression unit, a data transmission unit that transmits display data compressed by the data compression unit together with a synchronization signal to the display device, and a period in which the data transmission unit does not transmit display data compressed by the data compression unit. A synchronization processing unit that performs a synchronization process other than the display data transmission process that needs to be performed in synchronization with a synchronization signal, and the display device decompresses the display data transmitted by the data transmission unit It has a data decompression unit.

  With this configuration, the display system of the present invention performs synchronization processing during a period in which the display data transmission device does not transmit display data to the display device, thereby suppressing power consumption peaks. Power consumption and heat generation can be reduced without erroneously detecting consumption of a power supply for supplying power.

  The present invention can provide a display data transmitting apparatus having an effect that power consumption and heat generation can be reduced without erroneously detecting consumption of a power supply for supplying power to the entire apparatus.

  Embodiments of the present invention will be described below with reference to the drawings. In the following description, an example in which the display system of the present invention is applied to a mobile device such as a mobile phone will be described.

(First embodiment)
A portable device according to a first embodiment of the present invention is shown in FIG.

  As shown in FIG. 1, the mobile device 1 includes a display device 2 and a display data transmission device 3 that transmits display data to be displayed on the display device 2.

  The display data transmitting device 3 includes a data generating unit 10 that generates display data, a data holding unit 11 that holds display data, a data compression unit 12 that compresses display data, and compressed display data to the display device 2. A data transmission unit 13 for transmission and an operation control unit 14 for controlling the operation timing of the data generation unit 10 are provided.

  In the present embodiment, the data generation unit 10, the data compression unit 12, the data transmission unit 13, and the operation control unit 14 are integrally configured by an integrated circuit or a processor such as a programmed DSP (Digital Signal Processor).

  The data generation unit 10 acquires video data from a communication module or storage medium (not shown), and decodes the acquired video data to generate display data. In the present embodiment, the data generation unit 10 and the operation control unit 14 constitute the synchronization processing unit 4 in the present invention.

  The data holding unit 11 is configured by a storage medium such as a VRAM (Video Random Access Memory), and holds display data generated by the data generation unit 10.

  The data compression unit 12 compresses display data held in the data holding unit 11. The data compression unit 12 may compress the display data for each frame, or may compress the display data by taking a difference or correlation between the frames.

  The data transmission unit 13 generates a synchronization signal that represents the display timing of each scan in the display device 2 and a strobe signal that represents the transmission timing of display data, and is compressed by the data compression unit 12 together with the generated synchronization signal and strobe signal. The displayed data is transmitted to the display device 2.

  The operation control unit 14 sets a period during which the data transmission unit 13 does not transmit display data, for example, a period from when the data transmission unit 13 completes transmission of display data to when transmission of display data for the next scan starts. A processing timing signal to be expressed is output to the data generation unit 10.

  The data generation unit 10 generates display data during the period indicated by the processing timing signal.

  The display device 2 includes a data reception unit 20 that receives the synchronization signal, strobe signal, and display data transmitted by the data transmission unit 13 of the display data transmission device 3, a data decompression unit 21 that decompresses the display data, and a decompression. And a display device 22 that displays the video represented by the display data in synchronization with the synchronization signal.

  The operation of the portable device 1 configured as described above will be described with reference to FIG.

  In FIG. 2, the synchronization signal (a) and display data (b) transmitted from the data transmission unit 13 of the display data transmission device 3 to the data reception unit 20 of the display device 2 and the operation control unit 14 of the display data transmission device 3 are illustrated. A processing timing signal (c) output from the data to the data generation unit 10 is shown.

  In FIG. 2, the display data generation process by the data generation unit 10 is executed during the synchronization process execution period (d). For example, the display data generation processing for the scan 2A among the scans 1A to 4A of the display device 22 by the data generation unit 10 is executed in the period 30.

  In the portable device 1 according to the first embodiment of the present invention, the display data transmission device 3 performs a process of generating display data during a period in which the display data is not transmitted to the display device 2, thereby reducing power consumption. In order to suppress the peak, it is possible to reduce power consumption and heat generation without erroneously detecting consumption of a power source that supplies power to the mobile device 1.

  In the present embodiment, the example in which the synchronization processing unit 4 according to the present invention is configured by the data generation unit 10 and the operation control unit 14 has been described. However, the synchronization processing unit 4 is configured by performing other synchronization processing. May be.

  For example, the portable device 1 is configured to provide the portable device 1 with a voice data generation unit that generates voice data based on the processing timing signal, and to output the voice data to a voice output device such as a speaker in synchronization with the display data. The data generation unit 10, the operation control unit 14, and the audio data generation unit may constitute the synchronization processing unit 4 in the present invention.

  In the present embodiment, when the power required for the synchronization process such as the display data generation process by the data generation unit 10 is higher than the power required for the display data transmission by the data transmission unit 13, the display data transmission device 3. The data transmission unit 13 transmits the display data and the strobe signal to the data reception unit 20 of the display device 2 at a high transfer rate, and the data generation unit 10 executes display data generation processing at a low speed so that the portable device The power consumption of 1 may be further smoothed.

(Second Embodiment)
A portable device according to a second embodiment of the present invention is shown in FIG.

  As shown in FIG. 3, the portable device 51 includes a display device 52 and a display data transmission device 53 that transmits display data to be displayed on the display device 52.

  The display data transmission device 53 includes a data generation unit 60a that generates first display data, a data generation unit 60b that generates second display data, and a data holding unit 61 that holds first and second display data. A data compression unit 62 that compresses each of the first and second display data, a data transmission unit 63 that transmits the compressed first and second display data to the display device 52, and compression by the data compression unit 62 And a parameter adjusting unit 64 for adjusting the parameters.

  In the present embodiment, the data generation units 60a and 60b, the data compression unit 62, the data transmission unit 63, and the parameter adjustment unit 64 are integrally configured by an integrated circuit or a processor such as a programmed DSP.

  The data generators 60a and 60b acquire video data from a communication module or storage medium (not shown), decode the acquired video data, and generate first and second display data, respectively.

  The data holding unit 61 is configured by a storage medium such as a VRAM and holds the first and second display data generated by the data generation units 60a and 60b, respectively.

  The data compression unit 62 compresses the first and second display data held in the data holding unit 11. The data compression unit 62 may compress the display data for each frame, or may compress the display data by taking a difference or correlation between the frames.

  The data transmission unit 63 generates a synchronization signal indicating the display timing of each scan in the display device 52 and a strobe signal indicating the transmission timing of display data, and is compressed by the data compression unit 62 together with the generated synchronization signal and strobe signal. The first and second display data are transmitted to the display device 52. In the present embodiment, the data transmission unit 63 constitutes the synchronization processing unit 54 in the present invention.

  The parameter adjustment unit 64 adjusts parameters related to compression by the data compression unit 62 according to the transmission status of the first and second display data by the data transmission unit 63.

  For example, when the time for transmitting the first and second display data is insufficient, the parameter adjustment unit 64 adjusts the parameters related to the compression by the data compression unit 62, and the first and second display data By skipping at least one frame or degrading the image quality represented by at least one of the first and second display data, the time for transmitting the first and second display data is shortened. Yes.

  The display device 52 includes a data reception unit 70 that receives the synchronization signal, the strobe signal, and the first and second display data transmitted by the data transmission unit 63 of the display data transmission device 53, and the first and second display data. The data decompression unit 71 for decompressing the video, the display device 72a for displaying the video represented by the decompressed first display data in synchronization with the synchronization signal, and the video for the decompressed second display data synchronized with the synchronization signal. Display device 72b for display.

  The operation of the portable device 51 configured as described above will be described with reference to FIG.

  FIG. 4 shows a synchronization signal (a), first and second display data (b), and a strobe signal (c) transmitted from the data transmission unit 63 of the display data transmission device 53 to the data reception unit 70 of the display device 52. )It is shown.

  In FIG. 4, the first display data for the scan 1A of the display device 72a, the second display data for the scan 1B of the display device 72b, and the scan 2A of the display device 72a between the next sync signals. The first display data for the display device 72b and the second display data for the scan 2B of the display device 72b, the second display data for the scan 3B of the display device 72b and the second display data for the scan 3B of the display device 72b Between the display signals, the next synchronization signal, the first display data for the scan 4A of the display device 72a and the second display data for the scan 4B of the display device 72b. The first and second display data for each scan is received by the data transmission unit 63. Sequentially transmitted to the section 70.

  The portable device 51 according to the second embodiment of the present invention transmits the second display data to the display device 52 during a period in which the display data transmission device 53 does not transmit the first display data to the display device 52. By executing the processing, it is possible to reduce power consumption and heat generation without erroneously detecting consumption of a power source that supplies power to the portable device 51 in order to suppress power consumption peaks.

  Furthermore, since the portable device 51 can transmit the first and second display data to be transmitted to the display devices 72a and 72b through one route, the number of terminals of the integrated circuit constituting the data transmission unit 63 and the like can be increased. The portable device 51 can be reduced in size.

  In the present embodiment, when the time for transmitting the first and second display data from the display data transmission device 53 to the display device 52 is insufficient, the parameter adjustment unit 64 performs compression by the data compression unit 62. However, the data transmission unit 63 may transmit the display data and the strobe signal to the data reception unit 70 at a high transfer rate.

  As described above, the display data transmission device according to the present invention has an effect that power consumption and heat generation can be reduced without erroneously detecting consumption of a power source for supplying power to the entire device, for example, The present invention is useful as a display data transmission device that transmits display data to be displayed on a display device.

The block diagram of the portable apparatus in the 1st Embodiment of this invention Timing diagram for explaining the operation of the portable device according to the first embodiment of the present invention. The block diagram of the portable apparatus in the 2nd Embodiment of this invention Timing diagram for explaining the operation of the portable device according to the second embodiment of the present invention Block diagram of a conventional display data transmitter

Explanation of symbols

1, 51 Portable device 2, 52, 92 Display device 3, 53 Display data transmission device 4, 54 Synchronization processing unit 10, 60a, 60b, 90 Data generation unit 11, 61, 91 Data holding unit 12, 62 Data compression unit 13 , 63, 93 Data transmission unit 14 Operation control unit 20, 70 Data reception unit 21, 71 Data decompression unit 22, 72a, 72b Display device 64 Parameter adjustment unit

Claims (4)

A data compression unit for compressing display data to be displayed on the display device;
A data transmission unit that transmits display data compressed by the data compression unit to the display device together with a synchronization signal;
A synchronization processing unit that performs a synchronization process other than the display data transmission process that needs to be performed in synchronization with the synchronization signal during a period in which the data transmission unit does not transmit the display data compressed by the data compression unit; Provided display data transmission device.   The display data transmitting apparatus according to claim 1, wherein the synchronization processing unit executes a process of generating the display data as the synchronization process.   The display data transmission apparatus according to claim 1, wherein the synchronization processing unit executes a process of transmitting display data to be displayed on another display device different from the display device as the synchronization process. A display device having a display device, and a display data transmission device for transmitting display data to be displayed on the display device,
The display data transmitting device includes a data compression unit that compresses the display data;
A data transmission unit for transmitting display data compressed by the data compression unit to the display device together with a synchronization signal;
A synchronization processing unit that performs a synchronization process other than the display data transmission process that needs to be performed in synchronization with the synchronization signal during a period in which the data transmission unit does not transmit the display data compressed by the data compression unit; Have
The display device includes a data expansion unit that expands display data transmitted by the data transmission unit.

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