JP2011160240A - Television set - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a television set which is capable of displaying a video image of contents at high speed when switching a video signal. <P>SOLUTION: A liquid crystal television 100 (television set) includes: HDMI connection units 32a-32d each of which is capable of inputting a digital video signal; a main control unit 10 which is capable of switching and controlling a video image to be displayed on a video display unit 13; and sub control units 33a-33d each configured to perform authentication processing of a digital video signal input to the HDMI connection units 32a-32d beforehand and to perform image data processing of the input digital video signal beforehand. The main control unit 10 is configured to output, to the video display unit 13, the video image on which the authentication processing has been performed by the sub control units 33a-33d beforehand and the image data processing has been performed, based on a switching operation for switching the video image to be displayed on the video display unit 13 to the video image input to the HDMI connection units 32a-32d. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a television apparatus, and more particularly to a television apparatus that displays a video signal input from an external device.

  Conventionally, a television apparatus that displays a video signal input from an external device is known (see, for example, Patent Documents 1 and 2).

  In Patent Document 1, an MPU (main control unit) that performs image data processing of a video signal input from an external device and a video signal in which a copyright protection function that prevents unauthorized copying is output are output. A digital broadcast receiver (television device) provided with an authentication IC (sub-control unit) that performs in advance an authentication process for canceling the copyright protection function of a video signal output from an external device when the external device is recognized Has been. In addition, the MPU of the digital broadcast receiver according to Patent Document 1 is configured to perform image data processing of a video signal when operated to switch to a video signal whose copyright protection function has been canceled by an authentication IC. Has been.

  In Patent Document 2, the current resolution of the video signal of the video displayed on the display unit of the television device is acquired, and when connected to the television device, the display unit of the television device is displayed. An AV device that outputs an operation screen to a connected television apparatus at the same resolution as the resolution of a displayed video (video signal) is disclosed. In the AV device according to Patent Document 2, the video signal of the operation screen is output at the same resolution as the resolution of the video (video signal) displayed on the display unit of the television device, so that the display of the television device is the AV device. When switched to, it is configured to output images at high speed. After that, when the user selects playback of the content (movie or the like) of the AV device, the video signal is re-authenticated or image data processed (resolution conversion processing) to output the video signal at the resolution of the content. The video signal is output at the resolution of the content.

JP 2008-306232 A JP 2007-89013 A

  However, in the digital broadcast receiver (television device) described in Patent Document 1, authentication processing for canceling the copyright protection function of the video signal output from the external device is performed in advance by the authentication IC (sub-control unit). On the other hand, image data processing of the video signal after the copyright protection function is canceled by the authentication IC is performed by the MPU (main control unit). For this reason, when the authentication IC is operated to switch to a video signal for which the copyright protection function has been released, the MPU (main control unit) performs image data processing of the video signal, so that the television apparatus side can operate at high speed. There is a problem that video cannot be displayed.

  Further, in the AV device described in Patent Document 2, when the display of the television device is switched to the AV device, the operation screen is displayed with the same resolution as the resolution of the video signal displayed on the display unit of the television device. Since the video signal is output to the television apparatus, it is possible to perform high-speed image output when the external device (AV device) is switched. On the other hand, when switching the video signal from the operation screen to the content video, after performing the video signal re-authentication processing and image data processing (resolution conversion processing) to output the video signal at the resolution of the content Because it is necessary to output the video signal at the resolution of the content, the video of the content cannot be displayed at a high speed because the re-authentication processing of the video signal and the image data processing (resolution conversion processing) of the video signal are performed. There is a problem.

  The present invention has been made to solve the above-described problems, and one object of the present invention is a television device capable of displaying content video at high speed when switching video signals. Is to provide.

Means for Solving the Problems and Effects of the Invention

  A television device according to one aspect of the present invention switches a display unit capable of displaying video, an external connection unit capable of inputting a video signal of a video displayed on the display unit from an external device, and a video displayed on the display unit. A controllable main control unit, a sub-control unit configured to perform authentication processing of the video signal input to the external connection unit in advance and to perform image data processing of the video signal input to the external connection unit in advance And the main control unit performs authentication processing and image data previously performed by the sub-control unit based on a switching operation for switching the video displayed on the display unit to a video corresponding to the video signal input to the external connection unit. The processed video is output to the display unit.

  In the television apparatus according to this aspect, as described above, the authentication processing of the video signal input to the external connection unit is performed in advance, and the image data processing of the video signal input to the external connection unit is performed in advance. The sub-control unit configured is provided, and the main control unit is performed in advance by the sub-control unit based on a switching operation for switching the video displayed on the display unit to the video corresponding to the video signal input to the external connection unit. By switching the video displayed on the display unit to the video corresponding to the video signal input to the external connection unit by the configuration in which the video that has undergone the authentication processing and the image data processing is output to the display unit. Even in such a case, since the video signal authentication process and the image data process are performed in advance by the sub control unit, the main control unit side after the switching operation It is possible to reduce the amount of processing related to image signals. Thus, since the video signal authentication process and the image data process are not performed after the switching operation, the time for switching the video signal can be shortened. The content video can be displayed at high speed.

  In the television device according to the above aspect, preferably, a plurality of external connection units are provided, and a plurality of sub-control units are provided corresponding to each of the plurality of external connection units. The control unit is configured to perform in advance video signal authentication processing and image data processing in parallel with respect to a plurality of external connection units to which video signals are input. With this configuration, even when the user performs a switching operation to switch the video displayed on the display unit to the video corresponding to the external connection unit to which the video signal is input, the video signal authentication processing and the image data processing are performed. Are performed in parallel, the time for switching the video signal can be easily reduced.

  In the television device according to the above aspect, the sub-control unit is preferably configured to perform image data processing of the video signal in advance by adjusting the video signal input from the external connection unit to a predetermined resolution. ing. With this configuration, it is not necessary to perform resolution adjustment that requires a relatively long processing time in the image data processing after the switching operation. Therefore, it is possible to effectively shorten the time for switching the video signal. .

  In the configuration in which image data processing for adjusting to the predetermined resolution is performed in advance, preferably, a plurality of external connection units are provided, and a plurality of sub-control units are provided to correspond to the plurality of external connection units. Each of the plurality of sub-control units is configured to perform image data processing of the video signal in advance by adjusting the video signal input from the corresponding plurality of external connection units to the same predetermined resolution. . With this configuration, it is possible to unify the resolution of the video signal transmitted from the sub control unit to the main control unit, so that the processing of the video signal by the main control unit after the image data processing by the sub control unit is simplified. Can be Thereby, since the time for switching the video signal can be further shortened, the video of the content can be displayed at high speed on the main control unit side when switching the video signal.

  In the configuration in which the image data processing for adjusting to the predetermined resolution is performed in advance, the sub-control unit preferably acquires the resolution of the video signal that can be processed by the main control unit from the main control unit and is input from the external connection unit. By adjusting the video signal to the resolution of the video signal that can be processed by the main control unit, image data processing of the video signal is performed in advance. According to this configuration, the video data processing by the main control unit after the image data processing by the sub control unit is further performed by the amount of image data processing performed by the sub control unit so that the resolution can be processed by the main control unit. It can be simplified. Thereby, since the time for switching the video signal can be further shortened, the video of the content can be displayed at high speed on the main control unit side when switching the video signal.

  In this case, preferably, the sub-control unit is configured to obtain the highest resolution from among the resolutions of the video signal that can be processed by the main control unit from the main control unit. If comprised in this way, the image | video of a content can be displayed on a display part with the highest resolution in a main control part (television apparatus), shortening the time at the time of switching a video signal more.

  In the configuration in which the image data processing for adjusting to the predetermined resolution is performed in advance, the sub-control unit preferably notifies the main control unit of the resolution of the video signal input to the external connection unit. Image data processing of a video signal input to the external connection unit is performed in advance at the same resolution as the resolution. With this configuration, even when a video signal having a different resolution is input to each external connection unit, the resolution of the video signal input to the external connection unit is notified in advance to the main control unit, and thus input. Display processing for the display unit for performing display at the resolution of the video signal can be quickly performed on the main control unit side. As a result, the display processing when the resolution of the video signal is changed (a video signal with a different resolution is input) can be speeded up, so that the time for switching the video signal can be further shortened. .

  In the television device according to the above aspect, the external connection unit is preferably an external connection unit capable of receiving a digital video signal from the outside. With this configuration, even if a digital video signal requires time for video signal authentication processing and image data processing, the digital video signal authentication processing and image data processing are not performed after the switching operation. The time for switching the signal can be shortened.

  In this case, preferably, the external connection unit includes an HDMI (registered trademark) connection unit capable of receiving a digital video signal from the outside. With this configuration, even when the television apparatus has an HDMI connection unit, it is possible to easily shorten the time for switching the digital video signal.

It is the block diagram which showed the circuit structure of the liquid crystal television by 1st Embodiment of this invention. It is a figure for demonstrating the process of the digital video signal of the liquid crystal television by 1st Embodiment shown in FIG. 3 is a flowchart for explaining a processing flow of a digital video signal in the liquid crystal television according to the first embodiment shown in FIG. 1. It is a figure for demonstrating the process of the digital video signal of the liquid crystal television by 2nd Embodiment of this invention. It is a flowchart for demonstrating the processing flow of the digital video signal in the liquid crystal television by 2nd Embodiment of this invention.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments embodying the present invention will be described below with reference to the drawings.

(First embodiment)
With reference to FIG. 1 and FIG. 2, the structure of the liquid crystal television 100 by 1st Embodiment of this invention is demonstrated. In the first embodiment, a case where the present invention is applied to a liquid crystal television 100 which is an example of a television device will be described.

  As shown in FIG. 1, the liquid crystal television 100 according to the first embodiment of the present invention includes a main control unit (main microcomputer) 10 that controls the entire liquid crystal television 100, a main power supply 11, and a main control unit 10. A connected storage unit 12, a video display unit 13 that can display video, a voice output unit (speaker) 14 that can output audio, and a remote control reception unit 15 that receives an operation signal from the remote control device 200 are provided. ing. The video display unit 13 is an example of the “display unit” in the present invention.

  The main power supply 11 is connected to the main control unit 10 and is configured to be able to supply power to each part of the liquid crystal television 100 via the main control unit 10. The storage unit 12 has a function of storing setting information (such as resolution) of the main control unit 10 to be described later. Further, the remote control receiving unit 15 has a function of giving a command to the main control unit 10 based on the received operation signal from the remote control device 200. The configuration of the main control unit 10 will be described in detail later.

  In addition to the above-described components, the liquid crystal television 100 includes a built-in TV tuner unit 31, four HDMI (registered trademark) connection units 32a, 32b, 32c, and 32d, and four sub-control units (sub-microcomputers) 33a. , 33b, 33c and 33d, and an input switching button 34. The HDMI connection units 32a to 32d are examples of the “external connection unit” in the present invention.

  The built-in TV tuner unit 31 has a function of receiving broadcast signal waves of television broadcasting via the antenna 20.

  Each of the HDMI connection units 32a, 32b, 32c, and 32d is configured to be connectable to an external device such as a Blu-ray recorder, and has a function of inputting a digital video signal output from the external device to the sub-control unit 33. In the first embodiment, an example in which the Blu-ray recorders 41a, 41b, 41c, and 41d are connected to the HDMI connection units 32a, 32b, 32c, and 32d, respectively, will be described as an example when explaining the present invention. The Blu-ray recorders 41a, 41b, 41c and 41d are examples of the “external device” in the present invention.

  Here, in the first embodiment, the sub-control units 33a, 33b, 33c, and 33d, when digital video signals are input through the corresponding HDMI connection units 32a, 32b, 32c, and 32d, respectively, It is configured to decode the signal. Each of these sub-control units 33a to 33d is configured to perform image data processing of a digital video signal in advance. Also, high-resolution digital video signals are illegally copied to digital video signals output from external devices (such as Blu-ray recorders 41a, 41b, 41c and 41d) connected to the HDMI connection units 32a to 32d. An encryption signal using HDCP (High-bandwidth Digital Content Protection System) technology as a copyright protection function for preventing the image is included. For this reason, the sub-control units 33a, 33b, 33c and 33d, respectively, prior to the decoding process (image data processing) of the digital video signals input via the corresponding HDMI connection units 32a, 32b, 32c and 32d, The HDCP authentication units 330a, 330b, 330c, and 330d (see FIG. 2) are configured to perform an authentication process for canceling an encrypted signal using the HDCP technology.

  In the first embodiment, the sub-control units 33a, 33b, 33c, and 33d are provided when a digital video signal is input to any of the HDMI connection units 32a, 32b, 32c, and 32d as the external input connection unit. The image data processing units 331a, 331b, 331c, and 331d (see FIG. 2) are configured to perform the authentication processing and image data processing of the digital video signal in parallel in advance (perform constantly). That is, the sub-control unit 33 performs not only authentication processing and image data processing of the video currently displayed on the video display unit 13 but also processing other than authentication processing and image data processing of the video currently displayed on the video display unit 13. The digital video signal authentication process and the image data process are also performed in advance (always performed).

  In the first embodiment, as shown in FIG. 2, the sub-control units 33 a to 33 d adjust the digital video signal input from the HDMI connection units 32 a to 32 d to a predetermined resolution D (1080i). Image data processing of the digital video signal is performed in advance. Resolution A (480p), resolution B (720p), and resolution C (resolution of the digital video signal input to the HDMI connection units 32a to 32d corresponding to each of the sub-control units 33a to 33d is smaller than the resolution D (1080i). 720i), the input digital video signal is configured to be upscaled (adjusted) to the same predetermined resolution D (1080i).

  The predetermined resolution D (1080i) is the highest resolution among the resolutions of the digital video signal that can be processed by the main control unit 10, and the sub-control units 33a to 33d each receive setting information (main information) from the main control unit 10 in advance. The resolution of the digital video signal that can be processed by the control unit 10 is acquired. In this way, the sub-control units 33a to 33d are digital images that can be processed by the main control unit 10 based on the setting information acquired in advance from the main control unit 10, respectively, from the digital video signals input from the HDMI connection units 32a to 32d. By adjusting the signal resolution D (1080i), image data processing of the digital video signal is performed in advance. In addition, as described above, the resolution D (1080i) (setting information) of the digital video signal that can be processed by the main control unit 10 is stored in the storage unit 12. In this way, by adjusting the resolution of the digital video signal output from the sub-control units 33a to 33d to the main control unit 10 to the common resolution D (1080i), the main control unit 10 is connected to the external input (HDMI connection unit 32a). -32d), it is only necessary to perform display processing with the same resolution (resolution D) on the video display unit 13 even when switching is performed.

  In the first embodiment, as shown in FIG. 1, the main control unit 10 is connected to each of the sub-control units 33a to 33d, and can receive the digital video signal processed by the sub-control units 33a to 33d. It is configured. Specifically, when the user presses the input switching button 34 (or operates the remote control device 200), the main control unit 10 is configured to select one of the sub-control units 33a to 33d. . The main control unit 10 receives the digital video signal processed by the selected sub control unit (any one of the sub control units 33a to 33d) and causes the video display unit 13 to display the received digital video signal. It is configured as follows. That is, the main control unit 10 performs sub-control based on a switching operation for switching the video displayed on the video display unit 13 to a video corresponding to the digital video signal input to the external input connection unit (HDMI connection units 32a to 32d). The video display unit 13 is configured to output video that has been subjected to authentication processing and image data processing performed in advance by the units 33a to 33d.

  Next, a processing flow of a digital video signal in the liquid crystal television 100 according to the first embodiment will be described with reference to FIGS. In the first embodiment, a processing flow between the main control unit 10 and the sub control unit 33a will be described as an example when a digital video signal is processed by the main control unit 10 and the sub control units 33a to 33d.

  First, as shown in FIG. 3, in step S1, setting information (such as the resolution D (1080i) of the digital video signal) set in the main control unit 10 by the main control unit 10 (see FIG. 1) is sub-control unit. 33a. Thereby, in step S11, the setting information (resolution D (1080i) of the digital video signal) set in the main control unit 10 is acquired by the sub control unit 33a (see FIG. 1).

  Thereafter, in step S12, the sub-control unit 33a determines whether or not a digital video signal is input from the corresponding HDMI connection unit 32a. That is, it is determined whether or not the Blu-ray recorder 41a is connected to the HDMI connection unit 32a in a state where the digital video signal can be output. In step S12, if the sub control unit 33a determines that the digital video signal is input from the HDMI connection unit 32a, the process proceeds to step S13. In step S12, this operation is repeated until it is determined that a digital video signal is input from the HDMI connection unit 32a.

  Thereafter, in step S13, the sub-control unit 33a performs authentication processing of the digital video signal input from the HDMI connection unit 32a. Specifically, the HDCP authentication unit 330a (see FIG. 2) of the sub-control unit 33a performs an authentication process for canceling the encryption signal using the HDCP technology for the digital video signal input from the HDMI connection unit 32a. Accordingly, it is possible to protect the copyright of the digital video signal by preventing the digital video signal from being copied.

  In step S14, the image data processing unit 331a of the sub-control unit 33a performs processing for converting the resolution A (480p) of the digital video signal authenticated by the HDCP authentication unit 330a into resolution D (1080i). In other words, the digital video signal input from the HDMI connection unit 32a by the image data processing unit 331a of the sub-control unit 33a is the setting information transmitted from the main control unit 10 (information on the resolution D (1080i) of the digital video signal). Is upscaled (super-resolution) to a resolution D (1080i).

  Thereafter, in step S15, the image data processing unit 331a of the sub-control unit 33a performs image processing of the digital video signal. For example, in step S15, the number of bits of the digital video signal is converted to a predetermined number of bits based on the setting information transmitted from the main control unit 10 by the image data processing unit 331a, and the color signal is converted from the YCrCb signal to the RGB signal. Is converted to As described above, the image data processing of the digital video signal input from the HDMI connection unit 32a is performed in advance by the processing by the sub-control unit 33a in steps S13 to S15. Further, the processing in steps S13 to S15 allows the main control unit 10 to smoothly output a video after the video output to the main control unit 10 in step S17 described later.

  Thereafter, in step S16, it is determined whether or not the sub control unit 33a has instructed the main control unit 10 to output a digital video signal to the main control unit 10. In step S16, when the sub control unit 33a receives an output command from the main control unit 10 in step S3 described later, the process proceeds to step S17. In step S17, the digital video signal is output to the main control unit 10, and the processing of the digital video signal by the sub control unit 33a is terminated. In step S16, the above determination is repeated until the sub control unit 33a receives an output command from the main control unit 10.

  In step S2, the main control unit 10 determines whether or not the HDMI connection unit 32a is selected based on the switching operation of the input switching button 34 by the user. In step S2, the determination is repeated until the main control unit 10 selects the HDMI connection unit 32a. In step S2, if the main control unit 10 determines that the HDMI connection unit 32a has been selected, the process proceeds to step S3. In step S3, the main control unit 10 transmits a digital video signal output command to the sub control unit 33a corresponding to the HDMI connection unit 32a.

  Thereafter, in step S4, the main control unit 10 determines whether or not a digital video signal is input from the sub control unit 33a. That is, in step S4, it is determined whether or not the digital video signal transmitted in step S17 described above is input. In step S4, the above determination is repeated until the main control unit 10 determines that the digital video signal has been input by the sub-control unit 33a. If the main control unit 10 determines in step S4 that the digital video signal has been input by the sub-control unit 33a, the process proceeds to step S5.

  In step S5, the main control unit 10 displays a video on the video display unit 13 based on the digital video signal transmitted by the sub control unit 33a. In this case, since the authentication process and the image data process of the digital video signal are performed in steps S13 to S15 described above, the video corresponding to the digital video signal transmitted from the sub-control unit 33a is immediately displayed on the video display unit 13. It can be displayed.

  In the first embodiment, as described above, authentication processing of digital video signals input to the HDMI connection units 32a to 32d is performed in advance, and image data processing of digital video signals input to the HDMI connection units 32a to 32d is performed. Sub-control units 33a to 33d configured in advance are provided, and the main control unit 10 switches the video displayed on the video display unit 13 to a video corresponding to the digital video signal input to the HDMI connection units 32a to 32d. Based on the switching operation, the video display unit 13 is configured to output the video that has been subjected to the authentication processing and the image data processing performed in advance by the sub-control units 33 a to 33 d to the video display unit 13. To switch the video to be played back to the video corresponding to the digital video signal input to the HDMI connection unit 32a to 32d Even when there is an operation, authentication processing and image data processing of the digital video signal are performed in advance by the sub-control units 33a to 33d, so that processing related to the digital video signal on the main control unit 10 side after the switching operation is performed. The amount can be reduced. Accordingly, since the digital video signal authentication process and the image data process are not performed after the switching operation, the time for switching the digital video signal can be shortened. Therefore, when switching the video signal, the main control unit The content video can be displayed at high speed on the 10 side.

  In the first embodiment, as described above, the sub-control units 33a to 33d perform digital video signal authentication processing and image data processing on the HDMI connection units 32a to 32d to which the digital video signal is input. When the user performs a switching operation to switch the video displayed on the video display unit 13 to the video corresponding to the HDMI connection unit 32a to 32d to which the digital video signal is input by performing the configuration in advance in parallel. In addition, since the digital video signal authentication process and the image data process are performed in advance, the time for switching the digital video signal can be easily reduced.

  In the first embodiment, as described above, the sub-control units 33a to 33d adjust the digital video signal input from the HDMI connection units 32a to 32d to a predetermined resolution D (1080i), thereby enabling the digital video. By configuring the image data processing of the signal in advance, it is not necessary to adjust the resolution that requires a relatively long processing time in the image data processing after the switching operation. It can be shortened effectively.

  In the first embodiment, as described above, the sub-control units 33a to 33d adjust the digital video signals input from the corresponding HDMI connection units 32a to 32d to the same predetermined resolution D (1080i). Thus, by configuring the image data processing of the digital video signal in advance, it is possible to unify the resolution of the digital video signal transmitted from the sub control units 33a to 33d to the main control unit 10, so that the sub control unit The processing of the digital video signal by the main control unit 10 after the image data processing by 33a to 33d can be further simplified. Thereby, since the time for switching the digital video signal can be further shortened, the content video can be displayed at high speed on the liquid crystal television 100 side when the video signal is switched.

  In the first embodiment, as described above, the sub-control units 33a to 33d acquire the resolution D (1080i) of the digital video signal that can be processed by the main control unit 10 from the main control unit 10 and HDMI connection. By adjusting the digital video signal input from the units 32a to 32d to the resolution D of the digital video signal that can be processed by the main control unit 10, the image data processing of the digital video signal is performed in advance. The processing of the digital video signal by the main control unit 10 after the image data processing by the sub-control units 33a to 33d is performed as much as the image data processing is performed by the control units 33a to 33d so that the resolution D can be processed by the main control unit 10. Can be further simplified. Thereby, since the time for switching the digital video signal can be further shortened, the video of the content can be displayed at high speed on the main control unit 10 side when switching the video signal.

  In the first embodiment, as described above, the sub-control units 33 a to 33 d obtain from the main control unit 10 the highest resolution D (1080i) among the resolutions of the digital video signals that can be processed by the main control unit 10. With this configuration, it is possible to display the content video on the video display unit 13 with the highest resolution in the main control unit 10 (the liquid crystal television 100) while further reducing the time for switching the digital video signal. it can.

  In the first embodiment, as described above, the HDMI connection units 32a to 32d capable of receiving digital video signals from the outside are applied to the external input connection units (HDMI connection units 32a to 32d), thereby performing authentication processing. Even for digital video signals that require time for image data processing, the time required for switching digital video signals can be shortened by the fact that digital video signal authentication processing and image data processing are not performed after the switching operation. it can.

  In the first embodiment, as described above, the HDMI connection units 32a to 32d capable of receiving digital video signals from the outside are applied to the external input connection units (HDMI connection units 32a to 32d), thereby providing an HDMI connection. Even in the case of the liquid crystal television 100 having the units 32a to 32d, the time for switching the digital video signal can be easily shortened.

(Second Embodiment)
Next, a liquid crystal television 300 according to a second embodiment of the present invention will be described with reference to FIG. In the second embodiment, unlike the first embodiment in which the resolutions A to C of the digital video signals input from the HDMI connection units 32a to 32d are adjusted to the same predetermined resolution D (1080i), the HDMI connection unit An example in which the resolution of the digital video signal input from 32a to 32d is notified to the main control unit 110, and image data processing is performed so that the resolution is the same as the resolution notified of the resolution of the digital video signal will be described.

  In the liquid crystal television according to the second embodiment, as shown in FIG. 4, the sub-control units 133a to 133d adjust the digital video signals input from the corresponding HDMI connection units 32a to 32d to a predetermined resolution, respectively. The image data processing of the digital video signal is performed in advance. The sub-control units 133a to 133d are configured to be able to recognize the resolution of the input digital video signal when acquiring the digital video signal input to the corresponding HDMI connection unit 32a to HDMI connection unit 32d. Yes. The sub-control units 133a to 133d are each connected to the main control unit 110 and configured to notify the main control unit 110 of the resolution of the input digital video signal. Further, the resolutions of the digital video signals notified to the main control unit 110 are stored in the storage unit 12 respectively.

  For example, in the case of the second embodiment, the sub control unit 133a notifies the main control unit 110 of the resolution A (480p) of the digital video signal input to the sub control unit 133a (HDMI connection unit 32a). It is configured. Further, the sub control unit 133b is configured to notify the main control unit 110 of the resolution B (720p) of the digital video signal input to the sub control unit 133b (HDMI connection unit 32b). The sub-control unit 133c is configured to notify the main control unit 110 of the resolution C (720i) of the digital video signal input to the sub-control unit 133c (HDMI connection unit 32c). In addition, the sub control unit 133d is configured to notify the main control unit 110 of the resolution E (resolution exceeding 1080i) of the digital video signal input to the sub control unit 133d (HDMI connection unit 32d). Note that the resolution E is a resolution that exceeds the resolution D (1080i) of the digital video signal that can be processed by the main control unit 110, and the main control unit 110 cannot display an image on the video display unit 13 at the resolution E. .

  The sub-control units 133a to 133d are configured to perform image data processing so that the resolution of the input digital video signal is the same as the resolution notified to the main control unit 110. For example, in the case of the second embodiment, the image data processing unit 333a of the sub control unit 133a has the same resolution A (480p) as the resolution A (480p) of the digital video signal input from the HDMI connection unit 32a. In addition, it is configured to perform image data processing. Further, the image data processing unit 333b of the sub-control unit 133b performs image data processing so that the resolution B (720p) is the same as the resolution B (720p) of the digital video signal input from the HDMI connection unit 32b. It is configured. Further, the image data processing unit 333c of the sub control unit 133c performs image data processing so that the resolution C (720i) is the same as the resolution C (720i) of the digital video signal input from the HDMI connection unit 32c. It is configured.

  As described above, the main control unit 110 cannot perform display processing with the resolution E (over 1080i) of the digital video signal input from the HDMI connection unit 32d. For this reason, the image data processing unit 333d of the sub control unit 133d has a resolution D (the highest resolution that the main control unit 110 can process the resolution E (over 1080i) of the digital video signal input from the HDMI connection unit 32d. 1080i) is configured to perform image data processing.

  In addition, the other structure of 2nd Embodiment is the same as that of the said 1st Embodiment.

  Next, a processing flow of a digital video signal in the liquid crystal television according to the second embodiment will be described with reference to FIGS. In the second embodiment, as in the first embodiment, the main control unit 110 and the sub control are used as an example when the digital video signal is processed by the main control unit 110 and each of the sub control units 133a to 133d. A processing flow with the unit 133a will be described.

  First, as shown in FIG. 5, in step S21, the sub-control unit 133a determines whether or not a digital video signal is input from the corresponding HDMI connection unit 32a. That is, it is determined whether or not the Blu-ray recorder 41a is connected to the HDMI connection unit 32a in a state where the digital video signal can be output. In step S21, if the sub control unit 133a determines that a digital video signal is input from the corresponding HDMI connection unit 32a, the process proceeds to step S22. In step S21, this operation is repeated until it is determined that a digital video signal is input from the corresponding HDMI connection unit 32a.

  Thereafter, in step S22, the sub-control unit 133a performs an authentication process on the digital video signal input from the HDMI connection unit 32a. Specifically, the HDCP authentication unit 330a (see FIG. 4) of the sub-control unit 133a performs an authentication process on the digital video signal input from the HDMI connection unit 32a to release the encryption signal using the HDCP technology. Accordingly, it is possible to protect the copyright of the digital video signal by preventing the digital video signal from being copied.

  In step S23, the image data processing unit 333a of the sub-control unit 133a performs resolution processing of the digital video signal that has been authenticated by the HDCP authentication unit 330a. That is, in the second embodiment, resolution processing is performed so that the resolution is the same as the resolution of the digital video signal input to the sub-control unit 133a. In the second embodiment, only when the resolution E (over 1080i) exceeding the resolution D (1080i) that can be processed by the main control unit 110 is input to the sub control units 133a to 133d, the sub control units 133a to 133d Then, a process of converting to a resolution D (1080i) that can be processed by the main control unit 110 is performed.

  Thereafter, in step S24, the image data processing unit 333a of the sub control unit 133a performs image processing of the digital video signal. As described above, the image data processing of the digital video signal input from the HDMI connection unit 32a is performed in advance by the processing by the sub-control unit 133a in steps S22 to S24. Further, the processing of steps S22 to S24 allows the main control unit 110 to smoothly output a video after the video output to the main control unit 110 in step S27 described later.

  Thereafter, in step S25, it is determined whether or not the sub control unit 133a has instructed the main control unit 110 to output a digital video signal to the main control unit 110.

  Specifically, in step S31, the main control unit 110 determines whether or not the HDMI connection unit 32a is selected from the HDMI connection units 32a to 32d based on the switching operation of the input switching button 34 by the user. In step S31, the determination is repeated until the main control unit 110 selects the HDMI connection unit 32a. If the main control unit 110 determines in step S31 that the HDMI connection unit 32a has been selected, the process proceeds to step S32. In step S32, the main control unit 110 transmits a digital video signal output command to the sub control unit 133a corresponding to the HDMI connection unit 32a.

  When the sub control unit 133a receives an output command from the main control unit 110 in response to the transmission of the output command from the main control unit 110 in step S25, the process proceeds to step S26. In step S25, the determination is repeated until the sub control unit 133a receives an output command from the main control unit 110.

  Thereafter, in step S26, the sub control unit 133a transmits (notifies) the resolution of the digital video signal to the main control unit 110. In step S27, the digital video signal is output to the main control unit 110, and the processing of the digital video signal by the sub control unit 133a is terminated.

  In step S33, the main control unit 110 acquires and acquires the resolution of the digital video signal input from the HDMI connection unit 32a based on the transmission (notification) of the resolution of the digital video signal in step S26. The resolution is stored in the storage unit 12.

  Thereafter, in step S34, the main control unit 110 determines whether or not a digital video signal is input from the sub control unit 133a. That is, in step S34, it is determined whether or not the digital video signal transmitted in step S27 described above is input. In step S34, the determination is repeated until the main control unit 110 determines that the digital video signal has been input by the sub-control unit 133a. If the main control unit 110 determines in step S34 that the digital video signal has been input by the sub control unit 133a, the process proceeds to step S35.

  In step S35, the main control unit 110 displays an image on the image display unit 13 based on the digital image signal transmitted by the sub-control unit 133a. In this case, since the authentication process and the image data process of the digital video signal are performed in steps S22 to S24 described above, the video corresponding to the digital video signal transmitted from the sub control unit 133a is immediately displayed on the video display unit 13. It can be displayed.

  In the second embodiment, as described above, the sub-control units 133a to 133d notify the resolution of the digital video signal input to the HDMI connection units 32a to 32d to the main control unit 110 and also notify the main control unit 110. By configuring the digital video signal input to the HDMI connection units 32a to 32d in advance so that the resolution is the same as the resolution, the digital video having a different resolution for each HDMI connection unit 32a to 32d. Even when a signal is input, the resolution of the digital video signal input to the HDMI connection units 32a to 32d is notified to the main control unit 110 in advance, so that display is performed with the resolution of the input digital video signal. Display processing for the video display unit 13 can be quickly performed on the main control unit 10 side. As a result, the display processing when the resolution of the digital video signal is changed (a video signal with a different resolution is input) can be speeded up, so that the time for switching the digital video signal can be further shortened. Can do.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

  For example, in the first and second embodiments, the example in which the television apparatus of the present invention is applied to a liquid crystal television is shown, but the present invention is not limited to this. For example, the television apparatus of the present invention may be applied to a television apparatus having a display screen other than liquid crystal, such as a plasma television having a plasma display screen.

  In the first and second embodiments, the example in which the present invention is applied to the external input connection unit including the HDMI connection unit has been described. However, the present invention is not limited to this. The present invention is applied to an external input connection unit other than an HDMI connection unit, such as a DVI connection unit, as long as it is an external input connection unit capable of transmitting a digital video signal that requires digital video signal authentication processing and image data processing. May be.

  In the first and second embodiments, the example in which the external device of the present invention is applied to a Blu-ray (registered trademark) recorder has been described. However, the present invention is not limited to this. For example, an external device that can output a digital video signal, such as a Blu-ray (Blu-ray (registered trademark)) player and an external hard disk drive, can be connected to an external device other than a Blu-ray (Blu-ray (registered trademark)) recorder. The invention may be applied.

  In the first and second embodiments, the example in which the video that has been subjected to the authentication process and the image data has been displayed on the video display unit based on the switching operation of the digital video signal between the HDMI connection units has been described. The present invention is not limited to this. Based on the switching operation of the digital video signal between the HDMI connection unit and the built-in TV tuner unit, the video that has undergone the authentication processing and the image data processing may be displayed on the video display unit.

  In the first and second embodiments, an example in which four HDMI connection units are provided as external input connection units has been described. However, the present invention is not limited to this. For example, one to three HDMI connection units may be provided, or five or more HDMI connection units may be provided. Further, not only the HDMI connection unit but also the HDMI connection unit and the DVI connection unit may be provided together.

  In the first embodiment, the example in which the image data processing for unifying the digital video signal input from the external input connection unit to a predetermined resolution (1080i) is shown, but the present invention is not limited to this. In the present invention, image data processing may be performed to unify the digital video signal input from the external input connection unit to a resolution exceeding 1080i. Further, image data processing for unifying the digital video signal input from the external input connection unit to a resolution smaller than 1080i may be performed.

10, 110 Main control unit 13 Video display unit (display unit)
32a, 32b, 32c, 32d HDMI connection part (external connection part)
33a, 33b, 33c, 33d, 133a, 133b, 133c, 133d Sub-control unit 41a, 41b, 41c, 41d Blu-ray recorder (external input device)
100, 300 LCD television (television device)

Claims (9)

A display unit capable of displaying video;
An external connection unit capable of inputting an image signal of an image to be displayed on the display unit from an external device;
A main control unit capable of switching and controlling video to be displayed on the display unit;
A sub-control unit configured to perform authentication processing of the video signal input to the external connection unit in advance and perform image data processing of the video signal input to the external connection unit;
The main control unit has completed the authentication process performed in advance by the sub-control unit based on a switching operation for switching a video to be displayed on the display unit to a video corresponding to the video signal input to the external connection unit And a television device configured to output the image data processed video to the display unit. A plurality of the external connection portions are provided,
A plurality of the sub-control units are provided so as to correspond to each of the plurality of external connection units,
The plurality of sub-control units are configured to perform in advance authentication processing and image data processing of the video signal in parallel with respect to the plurality of external connection units to which a video signal is input. The television apparatus according to 1.   The sub-control unit is configured to perform image data processing of the video signal in advance by adjusting the video signal input from the external connection unit to a predetermined resolution. The television apparatus as described. A plurality of the external connection portions are provided,
A plurality of the sub-control units are provided to correspond to the plurality of external connection units,
The plurality of sub-control units are configured to perform image data processing of the video signal in advance by adjusting the video signals input from the corresponding plurality of external connection units to the same predetermined resolution, respectively. The television apparatus according to claim 3.   The sub control unit obtains the resolution of the video signal that can be processed by the main control unit from the main control unit, and the main control unit can process the video signal input from the external connection unit. The television apparatus according to claim 3 or 4, wherein image data processing of the video signal is performed in advance by adjusting to a resolution of the video signal.   The television apparatus according to claim 5, wherein the sub-control unit is configured to acquire, from the main control unit, the highest resolution among the resolutions of the video signal that can be processed by the main control unit.   The sub-control unit notifies the main control unit of the resolution of the video signal input to the external connection unit, and is input to the external connection unit at the same resolution as the resolution notified to the main control unit. The television apparatus according to claim 3, configured to perform image data processing of the video signal in advance.   The television apparatus according to claim 1, wherein the external connection unit is an external connection unit capable of receiving a digital video signal from the outside.   The television device according to claim 8, wherein the external connection unit includes an HDMI connection unit capable of receiving a digital video signal from the outside.

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