CN111405330A - Display method of high-definition television and high-definition television - Google Patents

Abstract

The invention discloses a display method of a high-definition television and the high-definition television, wherein a core module controls a 5G communication module to access a 5G network and receive streaming media signals of high-definition video streaming media resources on the Internet, and 8K signals in the streaming media signals are sent to an FPGA logic board by the 5G communication module; and further, the FPGA logic board sequentially decodes and displays the 8K signals, and sends the 8K signals after display driving to a display screen for synchronous playing. Therefore, the 8K television is separated from an external signal source to play and display 8K ultra-high definition network resources in a mode of 5G network access and 8K FPGA logic boards, and application diversity of the television is enhanced.

Description

Display method of high-definition television and high-definition television

Technical Field

The invention relates to the technical field of televisions, in particular to a display method of a high-definition television and the high-definition television.

Background

The super-large-sized products in the color and television industry have been popularized with 4K (4096 × 2160 pixels) Display resolution, and at present, 8K (7680 × 4320 pixels) ultra-high definition resolution is advancing, upstream Display panel manufacturers such as BOE (beijing east), L G and the like have issued and mass-produced L CD (short for L acquisition Crystal Display) and O L ED (Organic L light-emissive diode) screen panels with 8K resolution, and in the future, with the development of Micro-L ED and the business support of 5G technology, the 8K ultra-high definition Display industry will enter a development peak.

And the current 8K television realizes the playing of 8K ultra-high-definition video stream through DP1.4 or HDMI2.1 interface based on FPGA scheme. If the application of the network side resources is required to be realized, such as functions of cloud side video playing and the like, the 8K ultra-high definition resources on the network are required to be pushed to the television side through the DP or HDMI interface to be played after the computer is accessed into the network.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The present invention provides a display method for a high definition television and a high definition television, aiming at overcoming the defect that the existing television needs to push streams by means of a computer when playing 8K ultra high definition video resources of a network.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a display method of a high-definition television set comprises the following steps:

the machine core module controls the 5G communication module to receive streaming media signals of high-definition video streaming media resources on the Internet, and 8K signals in the streaming media signals are sent to the FPGA logic board by the 5G communication module;

and the FPGA logic board decodes and displays the 8K signals in sequence, and sends the 8K signals after display driving to a display screen for synchronous playing.

Further, the display method of the high definition television, wherein the FPGA logic board decodes and displays the 8K signal in sequence, and sends the 8K signal after the display driving to the display screen for synchronous playing, further includes:

and the display screen matches the 8K signals after the display driving into a display picture corresponding to the display resolution ratio for synchronous playing.

Further, the display method of the high-definition television set, wherein the step of controlling the 5G communication module by the core module to receive the streaming media signal of the high-definition video streaming media resource on the internet and sending the 8K signal in the streaming media signal from the 5G communication module to the FPGA logic board further includes:

the core module decodes the non-8K signals in the streaming media signals and sends the decoded non-8K signals to the FPGA logic board;

and the FPGA logic board displays and drives the non-8K signal and sends the non-8K signal after display driving to a display screen for synchronous playing.

Further, the display method of the high definition television, wherein the FPGA logic board performs display driving on the non-8K signal, and sends the non-8K signal after the display driving to a display screen for synchronous playing, further includes:

and the display screen matches the non-8K signals after the display driving into a display picture corresponding to the display resolution ratio for synchronous playing.

A high-definition television comprises a main control board, an FPGA logic board and a display screen which are sequentially connected, wherein the main control board comprises a core module and a 5G communication module which are mutually connected;

the machine core module is used for controlling the 5G communication module to receive streaming media signals of high-definition video streaming media resources on the Internet and sending 8K signals in the streaming media signals to the FPGA logic board through the 5G communication module;

the FPGA logic board is used for decoding and displaying the 8K signal, and sending the decoded 8K signal to the display screen for synchronous playing;

and the display screen is used for matching the display-driven 8K signals into a display picture corresponding to the display resolution ratio for synchronous playing.

Further, in the high-definition television, the core module is further configured to decode a non-8K signal in the streaming media signal, and send the decoded non-8K signal to the FPGA logic board;

the FPGA logic board is also used for carrying out display driving on the non-8K signals and sending the non-8K signals after the display driving to a display screen for synchronous playing;

the display screen is also used for matching the non-8K signals after the display driving into display pictures corresponding to the display resolution ratio for synchronous playing.

Further, the high definition television set, wherein, the FPGA logic board includes: the display device comprises an interface driving module, a first decoding module and a display driving module;

the interface driving module is used for receiving the decoded non-8K signal and sending the decoded non-8K signal to the display driving module;

the interface driving module is further configured to receive the 8K signal and send the 8K signal to the first decoding module;

the first decoding module is used for decoding the 8K signal and sending the decoded 8K signal to the display driving module;

the display driving module is used for carrying out display driving on the decoded non-8K signal or the decoded 8K signal and sending the non-8K signal or the 8K signal subjected to display driving to the display screen.

Further, the high-definition television set, wherein the interface driving module includes a VB0 interface and a PCI-E interface, the core module is connected with the FPGA logic board through a VB0 interface, and the 5G communication module is connected with the FPGA logic board through a PCI-E interface.

Further, the high-definition television set further comprises a power module, and the power module is respectively connected with the main control board, the FPGA logic board and the display screen.

Further, the high definition television set, wherein, the core module with the 5G communication module passes through USB interface connection.

Has the advantages that: the invention provides a display method of a high-definition television and the high-definition television, wherein a core module controls a 5G communication module to access a 5G network and receive streaming media signals of high-definition video streaming media resources on the Internet, and 8K signals in the streaming media signals are sent to an FPGA logic board by the 5G communication module; and further, the FPGA logic board sequentially decodes and displays the 8K signals, and sends the 8K signals after display driving to a display screen for synchronous playing. Therefore, the 8K television is separated from an external signal source to play and display 8K ultrahigh-definition network resources in a mode of adding an 8K FPGA logic board to 5G network access.

Drawings

FIG. 1 is a flow chart of a display method of a high definition television according to a preferred embodiment of the present invention;

fig. 2 is a block diagram of a high-definition television set according to the present invention.

In the figure: 100. a main control board; 200. an FPGA logic board; 300. a display screen; 400. a power supply module; 110. a movement module; 120. 5G communication module; 210. an interface driving module; 220. a first decoding module; 230. and a display driving module.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the embodiments and claims, the terms "a" and "an" can mean "one or more" unless the article is specifically limited.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Example (b):

fig. 1 is a flowchart illustrating a display method of a high definition television according to a preferred embodiment of the present invention.

S1, the movement module controls the 5G communication module to receive streaming media signals of high-definition video streaming media resources on the Internet, and 8K signals in the streaming media signals are sent to the FPGA logic board by the 5G communication module;

and S2, the FPGA logic board sequentially decodes and displays the 8K signals, and sends the 8K signals after display driving to a display screen for synchronous playing.

Further, the step S2 is followed by:

and S3, the display screen matches the display-driven 8K signals into a display picture with a corresponding display resolution ratio for synchronous playing.

In an embodiment of the present invention, the display method of the high definition television set according to the present invention is applied to a high definition television set, please refer to fig. 2, and fig. 2 is a structural block diagram of a high definition television set according to the present invention. The high-definition television comprises a main control board 100, an FPGA logic board 200 and a display screen 300 which are sequentially connected, wherein the main control board 100 comprises a core module 110 and a 5G communication module 120 which are mutually connected.

Specifically, when a user needs to watch a high-definition video, the user first needs to control and drive the 5G communication module 120 to access to the 5G mobile network through the core module in the main control board 100, search and select a high-definition video media resource on the internet through the 5G mobile network, and after selecting a corresponding high-definition media resource, the 5G communication module 120 receives a streaming media signal of the corresponding high-definition media resource and sends the streaming media signal to the core module 110. The core module 110 performs signal identification on the streaming media signal when receiving the streaming media signal, determines whether the streaming media signal is an 8K signal, and when the streaming media signal is determined to be the 8K signal, the core module 110 controls the 5G communication module to send the 8K signal to the FPGA logic board 200; when the FPGA logic board 200 receives the 8K signal, the 8K signal is sequentially decoded and display-driven, the 8K signal after the display-driving is sent to the display screen 300, the display screen 300 receives the 8K signal after the display-driving in real time, the 8K signal is matched into a display picture corresponding to the display resolution, and finally the synchronous playing is carried out. Therefore, the real-time playing of the 8K ultra-high definition resources on the network is realized through the 5G communication module 120.

Further, the step S1 further includes:

s11, the core module decodes the non-8K signal in the streaming media signal and sends the decoded non-8K signal to the FPGA logic board;

and S12, the FPGA logic board displays and drives the non-8K signal, and sends the non-8K signal after display driving to a display screen for synchronous playing.

Still further, step S12 is followed by:

and S13, the display screen matches the non-8K signals after the display driving to display pictures with corresponding display resolution ratio for synchronous playing.

In the embodiment of the present invention, when the core module 110 identifies that the streaming media signal is a non-8K signal, the non-8K signal is directly received, so that the core module 110 decodes the non-8K signal (audio/video decoding), and sends the decoded non-8K signal to the FPGA logic board 200, so that the FPGA logic board 200 drives the non-8K signal to display, and sends the non-8K signal after display driving to the display screen 300, and the display screen 300 receives the non-8K signal after display driving in real time, matches the non-8K signal into a display picture with a corresponding display resolution, and finally performs synchronous playing.

The non-8K signal is a signal having a format of 8K signal or less, for example, a 4K signal or a 2K signal.

In summary, the display method of the high definition television of the present invention can be divided into two modes: normal play mode (5G plus non-8K) and ultra high definition play mode (5G plus 8K). That is, when the 5G communication module 120 receives the non-8K signal, the core module 110 directly decodes the non-8K signal, and the decoded non-8K signal is sent to the display screen 300 for synchronous playing after being displayed and driven by the FPGA logic board 200, and at this time, the mode is the normal playing mode; when the 5G communication module 120 receives the 8K signal, the core module 110 controls the 5G communication module 120 to send the 8K signal to the FPGA logic board 200, the FPGA logic board 200 decodes the 8K signal, displays and drives the decoded 8K signal, and sends the signal to the display screen 300 for synchronous playing, and then the mode is the ultra high definition play mode. Therefore, the television can play the 8K ultra-high-definition media resources or the network cloud videos in real time under the condition of not adopting computer plug flow.

Based on the display method of the high-definition television set, the invention further provides a high-definition television set, please refer to fig. 2, and fig. 2 is a structural block diagram of the high-definition television set according to the invention.

Wherein, high definition TV set include: the intelligent control system comprises a main control board 100, an FPGA logic board 200 and a display screen 300 which are sequentially connected, wherein the main control board 100 comprises a movement module 110 and a 5G communication module 120 which are mutually connected. Further, the high-definition television further comprises a power module 400 for supplying power, and the power module 400 is respectively connected with the main control board 100, the FPGA logic board 200 and the display screen 300. Preferably, the movement module 110 and the 5G communication module 120 may be connected through a USB interface.

The core module 110 may be a Chip in an existing television, for example, an SOC (System-on-a-Chip) Chip in an existing 8K television, and therefore, a specific structure of the main control board 100 integrated therewith is not described herein. It should be understood that the 5G communication module is also the prior art, and is not described herein.

In the embodiment of the present invention, when a user needs to watch a high definition video, the 5G communication module 120 needs to be controlled to access to the 5G mobile network through the core module in the main control board 100, a high definition video media resource on the internet is searched and selected through the 5G mobile network, and after the corresponding high definition media resource is selected, the 5G communication module 120 receives a streaming media signal of the corresponding high definition media resource and sends the streaming media signal to the core module 110. The core module 110 performs signal identification on the streaming media signal when receiving the streaming media signal, determines whether the streaming media signal is an 8K signal, and when the streaming media signal is determined to be the 8K signal, the core module 110 controls the 5G communication module to send the 8K signal to the FPGA logic board 200; when the FPGA logic board 200 receives the 8K signal, the 8K signal is sequentially decoded and display-driven, the streaming media signal after the display drive is sent to the display screen 300, the display screen 300 receives the 8K signal after the display drive in real time, the 8K signal is matched into a display picture corresponding to the display resolution, and finally the synchronous playing is carried out. Therefore, the real-time playing of the 8K ultra-high definition resources on the network is realized through the 5G communication module 120.

Further, when the core module 110 identifies that the streaming media signal is a non-8K signal, the non-8K signal is directly received, so that the core module 110 decodes the non-8K signal (audio and video decoding), and sends the decoded non-8K signal to the FPGA logic board 200, so that the FPGA logic board 200 drives the non-8K signal to be displayed, and sends the non-8K signal after being driven to the display screen 300, and the display screen 300 receives the non-8K signal after being driven to be displayed in real time, matches the non-8K signal into a display picture corresponding to the display resolution, and finally performs synchronous playing.

As a further solution, the FPGA logic board 200 includes: an interface driving module 210, a first decoding module 220, and a display driving module 230.

Specifically, when the core module 100 sends the 8K signal to the FPGA logic board via the 5G communication module 120, the interface driving module 210 receives the 8K signal and sends the 8K signal to the first decoding module 220; the first decoding module 220 decodes the 8K signal, and sends the decoded 8K signal to the display driving module 230, the display driving module 230 displays and drives the decoded 8K signal, and sends the display-driven 8K signal to the display screen 300, so that the display screen 300 matches the display-driven 8K signal into a display picture with a corresponding display resolution to perform synchronous playing. Similarly, when the core module 110 sends the decoded non-8K signal to the FPGA logic board, the interface driving module 210 receives the decoded non-8K signal from the core module 110 and sends the decoded non-8K signal to the display driving module 230, the display driving module 230 displays and drives the decoded non-8K signal and sends the display-driven non-8K signal to the display screen 300, so that the display screen 300 matches the display-driven non-8K signal into a display picture with a corresponding display resolution to perform synchronous playing.

In order to distinguish the format of the streaming media signal (8K signal or non-8K signal) sent to the FPGA logic board 200, the interface driving module 210 includes a VB0 interface and a PCI-E (PCI-Express) interface, the core module 110 is connected to the FPGA logic board 200 through a VB0 interface, and the 5G communication module 120 is connected to the FPGA logic board 200 through a PCI-E interface.

The high-definition television provided by the invention can be connected to the external internet through the 5G communication module to obtain network media resources, when common media resources (not 8K, such as 4K or below) on a network need to be played, a core module on a television main control board decodes and transmits the media resources to the FPGA logic board, and the FPGA logic board only has a display driving function of the media resources; further, when the ultra-high-definition media resources on the network need to be played (8K), the FPGA logic board is used for decoding and displaying the driving function so as to achieve synchronous playing, and therefore the television can play the 8K ultra-high-definition media resources or the network cloud videos in real time without adopting computer plug flow.

In summary, the invention provides a display method of a high-definition television and the high-definition television, wherein a core module controls a 5G communication module to receive a streaming media signal, and sends an 8K signal in the streaming media signal to the FPGA logic board through the 5G communication module; and further, the FPGA logic board sequentially decodes and displays the 8K signals, and sends the 8K signals after display driving to a display screen for synchronous playing. Therefore, the 8K television is separated from an external signal source to play and display 8K ultrahigh-definition network resources in a mode of adding an 8K FPGA logic board to 5G network access.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This invention is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

Claims (10)

1. A display method of a high-definition television is characterized by comprising the following steps:

the machine core module controls the 5G communication module to receive streaming media signals of high-definition video streaming media resources on the Internet, and 8K signals in the streaming media signals are sent to the FPGA logic board by the 5G communication module;

and the FPGA logic board decodes and displays the 8K signals in sequence, and sends the 8K signals after display driving to a display screen for synchronous playing.

2. The display method of the high-definition television set according to claim 1, wherein the FPGA logic board sequentially decodes and display-drives the 8K signals, and sends the display-driven 8K signals to a display screen for synchronous playing, further comprising:

and the display screen matches the 8K signals after the display driving into a display picture corresponding to the display resolution ratio for synchronous playing.

3. The display method of a high-definition television set according to claim 1, wherein the step of the movement module controlling a 5G communication module to receive streaming media signals of high-definition video streaming media resources on the internet and sending 8K signals in the streaming media signals from the 5G communication module to the FPGA logic board further comprises:

the core module decodes the non-8K signals in the streaming media signals and sends the decoded non-8K signals to the FPGA logic board;

and the FPGA logic board displays and drives the non-8K signal and sends the non-8K signal after display driving to a display screen for synchronous playing.

4. The display method of the high-definition television set according to claim 3, wherein the FPGA logic board drives the non-8K signal for display, and sends the non-8K signal after the drive for display to a display screen for synchronous playing further comprises:

and the display screen matches the non-8K signals after the display driving into a display picture corresponding to the display resolution ratio for synchronous playing.

5. A high-definition television is characterized by comprising a main control board, an FPGA logic board and a display screen which are sequentially connected, wherein the main control board comprises a core module and a 5G communication module which are mutually connected;

the machine core module is used for controlling the 5G communication module to receive streaming media signals of high-definition video streaming media resources on the Internet and sending 8K signals in the streaming media signals to the FPGA logic board through the 5G communication module;

the FPGA logic board is used for decoding and displaying the 8K signal, and sending the decoded 8K signal to the display screen for synchronous playing;

and the display screen is used for matching the display-driven 8K signals into a display picture corresponding to the display resolution ratio for synchronous playing.

6. The high-definition television set according to claim 5, wherein the core module is further configured to decode a non-8K signal in the streaming media signal, and send the decoded non-8K signal to the FPGA logic board;

the FPGA logic board is also used for carrying out display driving on the non-8K signals and sending the non-8K signals after the display driving to a display screen for synchronous playing;

the display screen is also used for matching the non-8K signals after the display driving into display pictures corresponding to the display resolution ratio for synchronous playing.

7. The high definition television set according to claims 5 and 6, wherein the FPGA logic board comprises: the display device comprises an interface driving module, a first decoding module and a display driving module;

the interface driving module is used for receiving the decoded non-8K signal and sending the decoded non-8K signal to the display driving module;

the interface driving module is further configured to receive the 8K signal and send the 8K signal to the first decoding module;

the first decoding module is used for decoding the 8K signal and sending the decoded 8K signal to the display driving module;

the display driving module is used for carrying out display driving on the decoded non-8K signal or the decoded 8K signal and sending the non-8K signal or the 8K signal subjected to display driving to the display screen.

8. The high-definition television set according to claim 7, wherein the interface driving module comprises a VB0 interface and a PCI-E interface, the movement module is connected with the FPGA logic board through a VB0 interface, and the 5G communication module is connected with the FPGA logic board through the PCI-E interface.

9. The high-definition television set according to claim 5, further comprising a power module, wherein the power module is respectively connected with the main control board, the FPGA logic board and the display screen.

10. The high-definition television set according to claim 5, wherein the movement module is connected with the 5G communication module through a USB interface.

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