KR20210032857A - Display apparatus and control method thereof - Google Patents

Abstract

Disclosed is an electronic device. The electronic device communicating with an external display device including a plurality of display modules comprises: a communication interface; and a processor generating resolution information of the display device based on received layout information when the layout information of the plurality of display modules is received from the display device through a communication interface, transmitting the generated resolution information to a source device, and controlling the communication interface to transmit a received image signal to the display device when the image signal processed based on the resolution information is received from the source device.

Description

Electronic device and its control method TECHNICAL FIELD OF THE INVENTION

The present disclosure relates to an electronic device for transmitting an image signal to a display device and a method for controlling the same.

With the recent development of electronic technology, various electronic devices that meet the needs of consumers are being developed. In particular, in recent years, a large display device in which a plurality of display modules are connected has been developed.

Meanwhile, a native resolution of the display device is determined according to the number and arrangement state of display modules included in the display device.

However, when the native resolution of such a display device is determined to be a non-standard resolution according to the configuration of the display module, conventionally, an electronic device receives an image corresponding to the standard resolution from a source device (or input device) to obtain a native resolution of the display device. The image was upscaled or downscaled to correspond to.

When the up-scaled or down-scaled image is output from the display device, a picture quality deterioration problem occurs.

The present disclosure is in accordance with the above-described necessity, and an object of the present disclosure is to generate resolution information corresponding to a non-standard resolution, receive a non-standard resolution image from a source device, and perform a separate Upscale/Downscale display device. It is to provide an electronic device that transmits an input image to a control method thereof.

According to an embodiment of the present disclosure for achieving the above object, an electronic device communicating with an external display device including a plurality of display modules includes a communication interface and a communication interface of the plurality of display modules through the communication interface from the external display device. When the layout information is received, the resolution information of the external display device is generated based on the received layout information, the generated resolution information is transmitted to an external source device, and processed based on the resolution information from the source device. When an image signal is received, a processor for controlling the communication interface to transmit the received image signal to the external display device may be included.

The electronic device further includes a memory for storing layout information corresponding to standard resolution information, and the processor further includes, when the resolution information of the external display device is not identified from the memory based on the received layout information, the The resolution information is generated based on the received layout information, and the received layout information may include resolution information and arrangement state information of each of the plurality of display modules.

Some of the plurality of display modules are connected in a first daisy chain method, the rest of the plurality of display modules are connected in a second daisy chain method, and the processor includes a first Receives first layout information for some of the plurality of display modules from a master module, and receives second layout information for the remainder of the plurality of display modules from a second master module included in the rest of the plurality of display modules And, the resolution information may be generated based on the first layout information and the second layout information.

When an image signal processed based on the resolution information is received from the source device, the processor may control the communication interface to transmit the received image signal to the external display device without further processing.

The resolution information generated based on the received layout information may be non-standard resolution information.

In the image signal processed based on the non-standard resolution information, some regions of the image frames having a standard resolution size may include a content image, and the remaining regions may include a black image.

When the non-standard resolution information is greater than the standard resolution information that can be processed by the source device, the image signal processed based on the non-standard resolution information is a first image frame of the standard resolution size including a content image And at least one second image frame having the standard resolution size including a content image in some regions and a black image in the remaining regions.

The processor, based on the layout information, adds identification information of a display module corresponding to the first image frame among the plurality of display modules to the first image frame, and the second image frame among the plurality of display modules Identification information of a display module corresponding to is added to the second image frame, and the first and second image frames to which the identification information is added may be transmitted to the external display device.

The electronic device may be an image processing device implemented as a source box, a media box, a control box, a sending box, or a set-top box.

Each of the plurality of display modules may be implemented as an LED cabinet including a plurality of LED (Light Emitting Diode) devices.

On the other hand, the control method of an electronic device communicating with an external display device including a plurality of display modules according to an embodiment of the present disclosure for achieving the above object includes: layout information of the plurality of display modules from the external display device. Is received, generating resolution information of the external display device based on the received layout information, transmitting the generated resolution information to an external source device, and processed based on the resolution information from the source device. When an image signal is received, transmitting the received image signal to the external display device.

The generating of the resolution information may include, if the resolution information of the external display device is not identified from the stored layout information corresponding to the standard resolution information based on the received layout information, the resolution information is based on the received layout information. Information is generated, and the received layout information may include resolution information and arrangement state information of each of the plurality of display modules.

Some of the plurality of display modules are connected in a first daisy chain method, the rest of the plurality of display modules are connected in a second daisy chain method, and the step of generating the resolution information includes some of the plurality of display modules Receives first layout information on some of the plurality of display modules from a first master module included in, and provides information on the rest of the plurality of display modules from a second master module included in the remainder of the plurality of display modules. 2 The layout information may be received, and the resolution information may be generated based on the first layout information and the second layout information.

In the transmitting of the external display device, when an image signal processed based on the resolution information is received from the source device, the received image signal may be transmitted to the external display device without further processing.

The resolution information generated based on the received layout information may be non-standard resolution information.

In the image signal processed based on the non-standard resolution information, some regions of the image frames having a standard resolution size may include a content image, and the remaining regions may include a black image.

When the non-standard resolution information is greater than the standard resolution information that can be processed by the source device, the image signal processed based on the non-standard resolution information is a first image frame of the standard resolution size including a content image And at least one second image frame having the standard resolution size including a content image in some regions and a black image in the remaining regions.

In the transmitting of the external display device, identification information of a display module corresponding to the first image frame among the plurality of display modules is added to the first image frame based on the layout information, and the plurality of display modules The identification information of the display module corresponding to the second image frame may be added to the second image frame, and the first and second image frames to which the identification information is added may be transmitted to the external display device.

The electronic device may be an image processing device implemented as a source box, a media box, a control box, a sending box, or a set-top box.

Each of the plurality of display modules may be implemented as an LED cabinet including a plurality of LED (Light Emitting Diode) devices.

As described above, according to various embodiments of the present disclosure, the electronic device generates resolution information corresponding to non-standard resolution and transmits it to the source device, so that the source device may generate an image corresponding to the non-standard resolution information.

Accordingly, as the electronic device transmits an input image to the display device without performing separate Upscale/Downscale, image quality deterioration caused by the electronic device performing Upscale/Downscale may be reduced.

1 is a diagram schematically illustrating a configuration of an electronic system according to an embodiment of the present invention.
2 is a block diagram illustrating an operation of an electronic device according to an embodiment of the present disclosure.
3 is a block diagram illustrating a detailed configuration of an electronic device.
4 is a diagram for describing non-standard resolution information according to an embodiment of the present disclosure.
5 is a diagram for describing a case in which an electronic device generates resolution information according to an embodiment of the present disclosure.
6 is a diagram illustrating a case in which a setting device according to another embodiment of the present disclosure generates resolution information.
7 is a diagram for describing a case in which basic resolution information of a display device according to an embodiment of the present disclosure is greater than standard resolution information that can be processed by a source device.
8 is a flowchart illustrating a method of controlling an electronic device communicating with a display device including a plurality of display modules according to an exemplary embodiment of the present disclosure.

Hereinafter, the present disclosure will be described in detail with reference to the accompanying drawings.

The terms used in the present specification will be briefly described, and the present disclosure will be described in detail.

Terms used in the embodiments of the present disclosure have selected general terms that are currently widely used as possible while considering functions in the present disclosure, but this may vary according to the intention or precedent of a technician working in the field, the emergence of new technologies, etc. . In addition, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding disclosure. Therefore, the terms used in the present disclosure should be defined based on the meaning of the term and the overall contents of the present disclosure, not a simple name of the term.

Since the embodiments of the present disclosure may apply various transformations and may have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the scope of the specific embodiment, it is to be understood to include all conversions, equivalents, or substitutes included in the disclosed spirit and technical scope. In describing the embodiments, if it is determined that a detailed description of a related known technology may obscure the subject matter, a detailed description thereof will be omitted.

Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "consist" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other It is to be understood that the presence or addition of features, numbers, steps, actions, components, parts, or combinations thereof, does not preclude the possibility of preliminary exclusion.

The expression at least one of A and/or B is to be understood as representing either “A” or “B” or “A and B”.

Expressions such as "first," "second," "first," or "second," as used herein may modify various elements regardless of order and/or importance, and It is used to distinguish it from other components and does not limit the components.

Some component (eg, the first component) is “(functionally or communicatively) coupled with/to)” to another component (eg, the second component) or “ When referred to as "connected to", it should be understood that a component can be directly connected to another component, or can be connected through another component (eg, a third component).

In the present disclosure, a "module" or "unit" performs at least one function or operation, and may be implemented as hardware or software, or a combination of hardware and software. In addition, a plurality of "modules" or a plurality of "units" are integrated into at least one module except for the "module" or "unit" that needs to be implemented with specific hardware and implemented as at least one processor (not shown). Can be. In the present specification, the term user may refer to a person using an electronic device (or an electronic device) or a device using the electronic device (eg, an artificial intelligence electronic device).

Hereinafter, exemplary embodiments of the present disclosure will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present disclosure. However, the present disclosure may be implemented in various different forms and is not limited to the embodiments described herein. In addition, in the drawings, parts irrelevant to the description are omitted in order to clearly describe the present disclosure, and similar reference numerals are attached to similar parts throughout the specification.

Hereinafter, an exemplary embodiment of the present disclosure will be described in more detail with reference to the accompanying drawings.

1 is a diagram schematically illustrating a configuration of an electronic system according to an embodiment of the present invention.

Referring to FIG. 1, an electronic system 1000 according to an embodiment of the present invention includes an electronic device 100, a display device 200, and a source device 300.

The electronic device 100 may be an image processing device that receives an image signal from the source device 300, processes the received image signal as necessary, and provides it to the display device 200. For example, the electronic device 100 may be implemented as a source box, a media box, a control box, a sending box, a set-top box, or the like.

The display device 200 includes a plurality of display modules 200-1, 200-2, 200-3, 200-4.... 200-n, and each of the plurality of display modules is By outputting an image corresponding to the received image signal, the display apparatus 200 may output the entire image.

The display apparatus 200 according to an exemplary embodiment of the present disclosure is a display in which a plurality of display modules 200-1, 200-2, 200-3, 200-4.... 200-n are physically connected. It can be implemented as a device. Here, each of the plurality of display modules 200-1, 200-2, 200-3, 200-4.... 200-n may include a plurality of LED pixels arranged in a matrix form.

In addition, each of the plurality of display modules 200-1, 200-2, 200-3, 200-4.... 200-n is an LED cabinet including a plurality of LED (Light Emitting Diode) elements. It can be implemented as Here, the LED device may be implemented as an RGB LED, and the RGB LED may include a RED LED, a GREEN LED, and a BLUE LED. In addition, the LED device may additionally include a white LED in addition to the RGB LED.

In addition, the LED device may be implemented as a micro LED (micro LED) as a self-luminous device. Here, the micro LED is an LED having a size of about 5 to 100 micrometers, and is a micro-light emitting device that emits light without a color filter.

Meanwhile, the display device 200 may be implemented as a TV, but is not limited thereto, and a video wall, a large format display (LFD), a digital signage (digital signage), a digital information display (DID), a projector display Any device having a display function, such as such as, is not limited and can be applied. In addition, the display device 200 includes a liquid crystal display (LCD), an organic light-emitting diode (OLED), a liquid crystal on silicon (LCoS), digital light processing (DLP), a quantum dot (QD) display panel, and a quantum dot (QLED) display panel. It can be implemented in various types of displays such as dot light-emitting diodes) and micro light-emitting diodes (LEDs).

The source device 300 is a device that scales a source image to correspond to resolution information and provides it to the electronic device 100. The source device 300 may be implemented as a videowall processor, a multi-video output PC, a matrix switcher, a server, or the like.

Meanwhile, the electronic device 100 transmits, to the source device 300, native resolution information of the display device 200 generated based on the layout information obtained from the display device 200, and ) May scale the source image based on the transmitted basic resolution information. Here, the basic resolution refers to a resolution determined according to the resolution, number, and arrangement state of a plurality of display modules included in the display apparatus 200, and refers to an actual resolution of the display apparatus 200, not the resolution of an image signal.

Conventionally, when such a native resolution corresponds to a non-standard resolution, the source device 300 selects a standard resolution similar to the native resolution, scales the source image accordingly, and transmits the source image to the electronic device 100, and the electronic device 100 The image scaled according to the standard resolution was re-scaled according to the native resolution. Here, the standard resolution is the number of normalized horizontal and vertical pixels corresponding to a preset horizontal and vertical ratio, and the non-standard resolution means a resolution other than the standard resolution.

When the image on which the plurality of scaling operations have been performed is output from the display apparatus 200, the image quality deteriorates.

Accordingly, according to various embodiments of the present disclosure, the electronic device 100 generates resolution information corresponding to the native resolution even if the native resolution is a non-standard resolution, and transmits it to the source device 300, and the source device 300 An embodiment of generating a source image so as to correspond will be described in detail below.

2 is a block diagram illustrating an operation of an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 2, the electronic device 100 includes a communication interface 110 and a processor 120.

The communication interface 110 includes a circuit and is a component capable of communicating with the external display device 200 and the source device 300.

The communication interface 110 may communicate with the external display device 200 and the source device 300 based on a wired or wireless communication method.

According to an embodiment, when the communication interface 110 uses wired communication, the communication interface 110 may include an interface physically connected to a master display module among a plurality of display modules through a cable. Here, the master display module is one of a plurality of display modules connected in a daisy chain method, and may be a module that transmits an image signal received from the electronic device 100 to the remaining slave display modules. The daisy chain method is a method in which a plurality of display modules are connected in series, and data such as an image signal is sequentially transmitted.

Meanwhile, the communication interface 110 may be implemented as a port provided in the electronic device 100. Under the control of the processor 120, the communication interface 110 may transmit an image signal to the master display module in an Ethernet communication method. Here, the cables are HDMI (High Definition Multimedia Interface) cable, LVDS (Low Voltage Differential Signals) cable, DVI (Digital Visual Interface) cable, D-SUB (D-subminiature) cable, VGA (Video Graphics Array) cable, V- By-One cable or optical cable may be used.

According to another embodiment, the communication interface 110 may transmit control data to the external display device 200 through wireless communication. In this case, the communication interface 110 may include a Wi-Fi module (not shown), a Bluetooth module (not shown), an IR (infrared) module, a local area network (LAN) module, an Ethernet module, and the like. Here, each communication module may be implemented in the form of at least one hardware chip. In addition to the above-described communication methods, the wireless communication module includes zigbee, Universal Serial Bus (USB), Mobile Industry Processor Interface Camera Serial Interface (MIPI CSI), 3rd Generation (3G), 3rd Generation Partnership Project (3GPP), and Long-Term LTE (LTE). Term Evolution), LTE-A (LTE Advanced), 4G (4th Generation), 5G (5th Generation), and the like. However, this is only an example, and the communication interface 110 may use at least one communication module among various communication modules.

Also, the communication interface 110 may transmit resolution information to the external source device 300 and receive an image signal from the external source device 300. This will be described in more detail below.

The processor 120 is electrically connected to a memory (not shown) and controls the overall operation of the electronic device 100.

According to an embodiment of the present disclosure, the processor 120 may be implemented as a digital signal processor (DSP), a microprocessor, or a time controller (TCON) that processes digital signals. It is not limited to a central processing unit (CPU), a micro controller unit (MCU), a micro processing unit (MPU), a controller, an application processor (AP), or a communication processor ( Communication processor (CP)), an ARM processor, or AI (Artificial Intelligence) processor, or may be defined as a corresponding term In addition, the processor 120 is a system on chip (SoC) with a built-in processing algorithm. ), LSI (large scale integration), or FPGA (Field Programmable Gate Array) form. Processor 120 is a computer executable instructions stored in a memory (not shown). It can perform various functions by executing.

The processor 120 according to an embodiment may receive layout information of a plurality of display modules from the external display device 200 through the communication interface 110. Here, the layout information may include resolution information and arrangement state information of each of the plurality of display modules. The arrangement state information may include information on the number of display modules.

Specifically, the processor 120 periodically transmits a signal for requesting layout information to the external display device 200 or the external display device 200 periodically transmits the layout information to the electronic device even if there is no request signal from the electronic device 100. Can be transmitted to (100). Alternatively, when a preset event occurs, such as when at least one of the electronic device 100 and the external display device 200 is turned on/off when the electronic device 100 and the external display device 200 are connected, the processor The 120 may receive layout information from the external display device 200.

The processor 120 may receive resolution information and arrangement state information of each module from a master display module among a plurality of display modules connected in a daisy chain.

For example, it is assumed that four groups of 3x1 display modules connected in a daisy chain are combined to form one display device as shown in FIG. 1. In this case, among the display modules of the 3×1 type connected in a daisy chain, the master display module transmits resolution information of 960×540 for each display module and the arrangement status information indicating that three display modules of the 3×1 type are connected to the processor 120. ).

The processor 120 may receive resolution information of 960×540 and arrangement state information indicating that each display module is connected in a 3×1 format from each master display module included in a group of four display modules.

Meanwhile, the processor 120 may generate resolution information of the external display device 200 based on the received layout information.

According to an embodiment, the electronic device 100 may include a memory (not shown) that stores layout information corresponding to standard resolution information.

The processor 120 may determine whether resolution information of the external display device 200 is identified from the memory based on the received layout information.

Here, the standard resolution information may be information on the number of normalized horizontal pixels and the number of vertical pixels corresponding to a preset horizontal and vertical ratio.

For example, if the resolution of the display module included in the display device 200 is 960×540 and is configured in a 2×2 format, the basic resolution of the display device 200 is 1920×1080 (Full HD), which is a standard resolution. It may be identified resolution information.

Examples of standard resolution information are shown in Table 1 below.

However, this is only an example, and resolution information other than the resolution described in [Table 1] may be standard resolution information.

However, when resolution information of the external display device 200 is not identified from the memory, the processor 120 may generate the resolution information based on the layout information received from the external display device 200.

In other words, the resolution information generated based on the received layout information because the resolution information of the external display device 200 is not identified from the memory may be non-standard resolution information.

For example, the processor 120 may receive resolution information of 960×540 and arrangement state information indicating that each display module is connected in a 3×1 format from four master display modules. In this case, when the resolution information corresponding to the above-described layout information is not identified from the memory, the processor 120 may generate the resolution information of the external display device 200 based on the resolution information and the arrangement state information of each display module. I can.

The processor 120 may generate basic resolution information of the external display device 200 as resolution information corresponding to 3840×1620 based on information in which a display module having a resolution of 960×540 is arranged in a 3×4 format. .

The processor 120 may store the generated resolution information as basic resolution information of the currently connected display device 200 in a memory.

Thereafter, the processor 120 may transmit the generated resolution information to the external source device 300.

The external source device 300 receiving resolution information from the electronic device 100 may process the source image based on the received resolution information. Specifically, the external source device 300 may generate custom timing information used to scale the source image based on the received resolution information. Here, the timing information means information on a pixel clock frequency of an image, and the pixel clock frequency is a frequency calculated based on the horizontal resolution and the vertical resolution of the image. In addition, the custom timing information is frequency information generated and set by the source device 300 to convert a source image based on the received non-standard resolution information. The source device 300 stores timing information corresponding to the standard resolution information, and when non-standard resolution information is received from the electronic device 100, it may generate and store custom timing information corresponding to the non-standard resolution information.

Accordingly, the video processor (not shown) of the external source device 300 may scale the source image based on the custom timing information corresponding to the received resolution information.

For example, the video processor of the external source device 300 may scale the resolution of the input image to 3840×1620 corresponding to the resolution information of the external display device 200. That is, the video processor may scale the resolution of the source image to correspond to the basic resolution of the display apparatus 200.

Thereafter, the external source device 300 may transmit an image signal including a source image processed according to custom timing information based on the resolution information to the electronic device 100.

However, since timing information corresponds to resolution information in a broad sense, it may be referred to as resolution information.

When an image signal processed based on resolution information is received from the source device 300, the processor 120 may control the communication interface 110 to transmit the received image signal to the external display device 200.

Specifically, the processor 120 may control the communication interface 110 to transmit the received image signal to the external display device 200 without additional processing. As described above, the source device 300 may generate custom timing information based on the resolution information received from the processor 120 and may scale the source image based on the custom timing information. Accordingly, since the scaled source image matches basic resolution information of the external display device 200, the processor 120 may transmit an image signal for the received source image to the external display device 200 without additional scaling. Since the scaling operation on the source image is performed by the source device 300, unnecessary scaling operations are not separately performed by the electronic device 100, so that deterioration in image quality occurring in the external display device 200 may be reduced.

Meanwhile, in the image signal processed by the source device 300 based on the non-standard resolution information, some regions of the image frames having a standard resolution size may include a content image, and the remaining regions may include a black image. For example, the processor 120 assumes that the resolution information generated based on the layout information received from the external display device 200 is 3840×1620, which is non-standard resolution information.

In this case, the source device 300 may identify standard resolution information in which the resolution information generated by the processor 120 and the horizontal pixel value or the vertical pixel value are the same or similar. For example, the source device 300 may identify 3840×2160, which is standard resolution information in which the 3840×1620 resolution information and the horizontal pixel value are the same. Thereafter, the source device 300 includes a content image corresponding to the source image in some areas of the 3840×2160 image frames based on timing information corresponding to the resolution information of 3840×2160, and displays a black image in the remaining areas. It is possible to generate an included image signal. Thereafter, the source device 300 may transmit the generated image signal to the electronic device 100.

The processor 120 may receive an image signal including a content image in a portion of the area and a black image in the remaining area from the source device 300, and transmit it to the external display device 200. Each display module included in the external display device 200 acquires and outputs a partial image of a corresponding content image, and since there is no display module corresponding to the black image, the external display device 200 corresponds to the basic resolution information. Only content images can be output.

Meanwhile, it is assumed that the non-standard resolution information is larger than the standard resolution information that can be processed by the source device 300. In this case, the image signal processed based on the non-standard resolution information includes a first image frame having a standard resolution size in which the entire area includes a content image, and some areas include a content image, and the rest area includes a black image. It may include at least one second image frame having a resolution size. This will be described in more detail in FIG. 7.

7 is a diagram for describing a case in which basic resolution information of a display device according to an embodiment of the present disclosure is greater than standard resolution information that can be processed by a source device.

For example, it is assumed that the maximum standard resolution information that can be processed by the source device 300 is 3840×2160, and the basic resolution information of the external display device 200 is 4800×3240, which is non-standard resolution information.

In this case, the source device 300 may include the content image 710 in a first image frame having a size of 3840×2160 corresponding to the maximum standard resolution information that can be processed.

In addition, the source device 300 includes a content image 720 having a size of 960 × 2160 in a 2-1 image frame having a size of 3840 × 2160 corresponding to the maximum standard resolution information that can be processed, and the remaining area includes a black image. can do.

Similarly, the source device 300 includes a content image 730 having a size of 960×1080 in a 2-2 image frame having a size of 3840×2160, and the remaining area includes a black image, and includes a second image frame having a size of 3840×2160. 3 The image frame may include a content image 740 having a size of 3840×1080, and the remaining area may include a black image.

The source device 300 may transmit a plurality of image signals including each of the first image frame and the second image frame including the 2-1 to 2-3 image frames to the electronic device 100. The processor 120 may transmit a plurality of received image signals to the external display device 200, and the external display device 200 may output an image corresponding to 4800×3240 resolution information.

In this case, the processor 120 adds identification information of the display module corresponding to the first image frame among the plurality of display modules to the first image frame, and corresponds to the second image frame among the plurality of display modules, based on the layout information. The identification information of the displayed display module may be added to the second image frame, and the first image frame and the second image frame to which the identification information is added may be transmitted to the external display device 200.

Specifically, the processor 120 includes identification information of the display module corresponding to each of the image signal including the first image frame and the image signal including the second image frame, and the display module displays an image from the corresponding image signal. Can be obtained. For example, an image signal including a first image frame includes identification information of a display module corresponding to 4×4 in the upper left, and a display module corresponding to 4×1 in the upper right in a 2-1 image frame The identification information of may be included.

Here, the identification information may be IP address information of the display module, but is not limited thereto.

Meanwhile, in FIG. 7, a content image 710 having a size of 3840×2160 has been described above as being displayed on the upper left of the display. However, the location of the content image 710 varies depending on the user setting, such as the lower left, upper right, and center Of course, it can be changed and displayed. Similarly, the display position of the content images 720, 730, and 740 of different sizes may also be changed according to user settings.

In addition, a content image 710 having a size of 3840×2160 is displayed in various locations as described above, and the processor 120 displays the content in the area (hereinafter, the remaining area) in which the remaining content images 720, 730, and 740 are displayed. Additional information on the image 710 may be displayed.

For example, electronic program guide (EPG) information may be displayed in at least one of the remaining areas. Alternatively, when the content image 710 is a drama or a movie, information on the plot or actor is displayed in at least one of the remaining areas, and when the content image 710 is a home shopping image, product information, price information, etc. are the remaining areas. It may be displayed in at least one of. Alternatively, a black image may be displayed in the remaining area.

In addition, when a plurality of electronic devices 100 are connected to the display device 200, different content may be displayed at a user-set position, such as a multi-view.

Returning to FIG. 2 again, according to another embodiment, the processor 120 provides the layout information received from the external display device 200 to a setting device (not shown), and the setting device provides an external device based on the received layout information. Resolution information of the display device 200 may be generated.

Specifically, when the resolution information of the external display device 200 is not identified from the memory, the processor 120 may transmit the received layout information to the setting device.

The setting device may generate resolution information of the external display device 200 based on resolution information and arrangement state information of each display module included in the layout information. Thereafter, the setting device may transmit the generated resolution information to the electronic device 100.

When the resolution information is received from the setting device, the processor 120 may store the received resolution information in a memory and transmit the stored resolution information to the source device 300.

Meanwhile, the electronic device 100 may be implemented by being included in the display device 200.

3 is a block diagram illustrating a detailed configuration of an electronic device.

Referring to FIG. 3, the electronic device 100 includes a communication interface 110, a processor 120, a memory 130, and a user input unit 140. A detailed description of a portion of the configuration illustrated in FIG. 3 that overlaps with the configuration illustrated in FIG. 2 will be omitted.

The processor 120 overall controls the operation of the electronic device 100 using various programs stored in the memory 130. The processor 120 may include a graphic processing unit 122 for processing a graphic corresponding to an image. The processor 120 may be implemented as a system on chip (SoC) including a core (not shown) and the GPU 122. The processor 120 may include a single core, a dual core, a triple core, a quad core, and a multiple of cores.

Meanwhile, the processor 120 includes a main CPU 121, a GPU 122, and an NPU 123.

The main CPU 121 accesses the memory 130 and performs booting using the O/S stored in the memory 130. In addition, various operations are performed using various programs and content data stored in the memory 130. In particular, according to an embodiment, the main CPU 121 may copy a program to the RAM in the memory 130 according to an instruction stored in the ROM, and access the RAM to execute the program.

The GPU 122 may correspond to a high-performance processing device for graphic processing, and may be a specialized electronic circuit designed to accelerate the generation of an image in a frame buffer to be output to a screen by rapidly processing and changing a memory. In addition, the GPU 122 may refer to a Visual Processing Unit (VPU).

The NPU 123 may correspond to an AI chipset (or AI processor) and may be an AI accelerator. The NPU 123 may correspond to a processor chip optimized for performing a deep neural network. Meanwhile, the NPU 123 may correspond to a processing unit that executes a deep learning model on behalf of the GPU 122, and the NPU 123 may correspond to a processing unit that executes a deep learning model together with the GPU 122. May be.

The memory 130 is electrically connected to the processor 120 and may store data necessary for various embodiments of the present disclosure.

The memory 130 may be implemented in a form of a memory embedded in the electronic device 100 or may be implemented in a form of a memory that is detachable to the electronic device 100 according to a data storage purpose. For example, in the case of data for driving the electronic device 100, it is stored in a memory embedded in the electronic device 100, and in the case of data for an extended function of the electronic device 100, the electronic device 100 is detachable. It can be stored in memory whenever possible. Meanwhile, in the case of a memory embedded in the electronic device 100, a volatile memory (eg, dynamic RAM (DRAM), static RAM (SRAM), synchronous dynamic RAM (SDRAM), etc.)), a non-volatile memory ( Examples: OTPROM (one time programmable ROM), PROM (programmable ROM), EPROM (erasable and programmable ROM), EEPROM (electrically erasable and programmable ROM), mask ROM, flash ROM, flash memory (e.g. NAND flash or NOR flash, etc.) ), a hard drive, or a solid state drive (SSD), and in the case of a memory that is detachable to the electronic device 100, a memory card (for example, compact flash (CF), SD ( secure digital), Micro-SD (micro secure digital), Mini-SD (mini secure digital), xD (extreme digital), MMC (multi-media card), etc.), external memory that can be connected to a USB port (e.g., USB memory) or the like.

According to an embodiment, the memory 130 may store resolution information and arrangement state information of each of a plurality of display modules. In addition, the memory 130 may store layout information corresponding to standard resolution information.

Meanwhile, the memory 130 may store resolution information generated by the processor 120 or the setting device as non-standard resolution information.

The memory 130 may store identification information of a plurality of display modules. For example, the memory 130 may receive and store identification information of the remaining display modules connected in a daisy chain method from the first display module corresponding to the master module.

The user input unit 140 is a component for receiving various user commands and information. The processor 120 may execute a function corresponding to a user command input through the user input unit 140 or may store information input through the user input unit 140 in the memory 130.

For example, the processor 120 may receive resolution information of the display apparatus 200 from a user through the user input unit 140 and store the information in the memory 130.

The user input unit 140 may include a microphone (not shown) to receive a user command in the form of a voice, or may be implemented as a display (touch screen) for receiving a user command by a touch.

The display may be implemented in the form of a touch screen forming a layer structure with a touch pad. Here, the touch screen may be configured to detect not only the touch input location and area, but also the touch input pressure.

In addition, the user input unit 140 may receive a signal including information on a user command or task from a separate control device (not shown) for controlling the electronic device 100.

Meanwhile, the electronic device 100 may additionally include a display (not shown).

4 is a diagram for describing non-standard resolution information according to an embodiment of the present disclosure.

According to FIG. 4, it is assumed that each display module has resolution information of 960×540. When such a display module constitutes the display device 410 connected in a 4x4 format, the resolution information of the display device is 3840x2160 corresponding to the standard resolution.

However, if the implemented display device 420 is connected to a 3x4 type display module, the resolution information of the display device is 3840x1620 corresponding to non-standard resolution information.

The non-standard resolution information of 3840×1620 is information that is not stored in the memory 130 of the electronic device 100 and the memory (not shown) of the source device 300, and in order to generate an image corresponding to the non-standard resolution information Non-standard resolution information needs to be generated. This is because the source device 300 generates custom timing information corresponding to the generated non-standard resolution information, and the generated custom timing information is used to scale the source image.

Accordingly, the processor 120 may generate non-standard resolution information corresponding to the display device 200 based on resolution information and arrangement state information of each display module included in the display device 200. According to another embodiment, the setting device may generate resolution information of the display device 200 based on layout information of the display device 200 transmitted from the electronic device 100.

5 is a diagram for describing a case in which an electronic device generates resolution information according to an embodiment of the present disclosure.

The processor 120 may request layout information from a master display module included in the display device 200. Here, the master display module is one of a plurality of display modules connected in a daisy chain method, and when the display device 200 is implemented by combining a plurality of groups of display modules connected in a daisy chain method, the display device 200 It may include a master display module. In this case, the processor 120 may request layout information from each of the plurality of display modules.

Alternatively, when all of the plurality of display modules included in the display apparatus 200 are connected by one daisy chain, the processor 120 may request layout information from one master display module.

The master display module may transmit resolution information and arrangement state information of each display module included in a plurality of display module groups connected in a daisy chain to the electronic device 100.

For example, when a 3×1 type display module is connected in a daisy chain to form one group, and these four groups are combined to form one display device, a master display module is provided in each of the four groups. exist.

In this case, the processor 120 may receive information indicating that the resolution information of the display module is 960×540 from each master display module, and information about the arrangement state indicating that one group is configured in a 3×1 format. The arrangement state information may include identification information of each display module.

The processor 120 may identify whether resolution information corresponding to a case in which each display module having resolution information of 960×540 is connected in a 3×4 format is stored in the memory 130. When it is identified that the corresponding resolution information is not included in the memory 130, the processor 120 displays a resolution of 3840×1620 corresponding to the case where each display module having the resolution information of 960×540 is connected in a 3×4 format. Can generate information.

The processor 120 may transmit the generated resolution information to the source device 300 through the communication interface 110.

Since the resolution information generated by the processor 120 is non-standard resolution information, the memory 330 of the source device 300 may not include resolution information or timing information corresponding to the display device 200. The source device 300 receives resolution information from the electronic device 100 through the communication interface 310, and the processor 320 generates custom timing information corresponding to the received resolution information, and the generated custom timing information or reception The determined resolution information may be added to the memory 330. Thereafter, the processor 320 may scale the source image based on the custom timing information. In other words, the source device 300 may scale the source image to correspond to the resolution information of 3840×1620.

Thereafter, the source device 300 may transmit an image signal including the source image scaled to 3840×1620 to the electronic device 100. The processor 120 may transmit an image signal including a source image that has already been scaled to correspond to the display device 200 to the master display module of the display device 200 without additional scaling.

Thereafter, the display apparatus 200 may output an image signal corresponding to the received image signal to output an image corresponding to the resolution of the display apparatus 200.

6 is a diagram illustrating a case in which a setting device according to another embodiment of the present disclosure generates resolution information.

Detailed descriptions of parts that overlap with FIG. 5 will be omitted.

Referring to FIG. 6, resolution information of the display device 200 may be generated by the setting device 400. Here, the setting device 400 may be implemented as a user PC (Personal Computer) or the like.

Specifically, as shown in FIG. 5, the processor 120 requests layout information from the master display module included in the display device 200 and displays basic resolution information of the display device 200 in the memory 130 based on the received layout information. It can be identified whether or not is included. However, unlike the embodiment illustrated in FIG. 5, when the memory 130 does not include the basic resolution information of the display device 200, the processor 120 sets the received layout information of the display device 200 to the setting device. It can be transferred to 400. In other words, when the native resolution of the display device 200 is a non-standard resolution, the processor 120 may transmit layout information to the setting device 400.

In this case, the setting device 400 may generate (or set) resolution information of the display device 200 based on the received layout information. That is, the setting device 400 may generate resolution information of the display device 200 based on resolution information and arrangement state information of each display module included in the layout information.

For example, when resolution information of each display module is 960×540 and layout information in which each display module is configured in a 3×4 format is received, the setting device 400 may generate resolution information corresponding to 3840×1620. have. Thereafter, the setting device 400 may transmit the generated resolution information to the electronic device 100, and the processor 120 may store the received resolution information in the memory 130. Also, the processor 120 may transmit resolution information generated from the setting device 400 to the source device 300 through the communication interface 110.

Thereafter, the source device 300 receives the resolution information received from the electronic device 100 through the communication interface 310, and stores the received resolution information or custom timing information generated in response to the resolution information to the memory 330. The source image may be stored (or added to the resolution list), scaled based on custom timing information, and transmitted to the electronic device 100.

The processor 120 may transmit an image signal including a source image that has already been scaled to correspond to the display device 200 to the master display module of the display device 200 without additional scaling.

As the setting device 400 generates (or sets) resolution information corresponding to the basic resolution information of the display device 200, the amount of computation of the processor 120 may be reduced.

8 is a flowchart illustrating a method of controlling an electronic device communicating with a display device including a plurality of display modules according to an exemplary embodiment of the present disclosure.

When layout information of a plurality of display modules is received from the display device 200, the electronic device 100 may generate resolution information of the display device 200 based on the received layout information (S810 ).

Specifically, when the resolution information of the display device 200 is not identified from the stored layout information corresponding to the standard resolution information based on the received layout information, the electronic device 100 may determine the resolution information based on the received layout information. Can be generated. Here, the received layout information may include resolution information and arrangement state information of each of the plurality of display modules.

As an example, it is assumed that some of the plurality of display modules are connected in a first daisy chain method, and the rest of the plurality of display modules are connected in a second daisy chain method.

In this case, the electronic device 100 receives first layout information for some of the plurality of display modules from the first master module included in some of the plurality of display modules, and the second The second layout information for the rest of the plurality of display modules may be received from the master module, and resolution information may be generated based on the first layout information and the second layout information.

Here, the resolution information generated based on the received layout information may be non-standard resolution information.

The electronic device 100 may transmit the generated resolution information to the source device 300 (S820).

Specifically, when an image signal processed based on resolution information is received from the source device 300, the electronic device 100 may transmit the received image signal to the display device 200 without further processing.

Meanwhile, in the image signal processed based on the non-standard resolution information, some regions of the image frames having a standard resolution size may include a content image, and the remaining regions may include a black image.

As an example, when the non-standard resolution information is larger than the standard resolution information that can be processed by the source device 300, the image signal processed based on the non-standard resolution information is a first image having a standard resolution size including the content image. The frame and some regions may include a content image, and the remaining regions may include at least one second image frame having a standard resolution size including a black image.

When an image signal processed based on resolution information is received from the source device 300, the electronic device 100 may transmit the received image signal to the display device 200 (S830 ).

As described above, when the non-standard resolution information is greater than the standard resolution information that can be processed by the source device 300, the electronic device 100 may display a display module corresponding to a first image frame among a plurality of display modules based on the layout information. The identification information of is added to the first video frame, identification information of the display module corresponding to the second video frame among the plurality of display modules is added to the second video frame, and the first video frame and the second video frame to which the identification information is added The image frame may be transmitted to the display device 200.

Meanwhile, the electronic device 100 described above may be an image processing device implemented as a source box, a media box, a control box, a sending box, or a set-top box.

In addition, each of the plurality of display modules included in the display apparatus 200 may be implemented as an LED cabinet including a plurality of LED (Light Emitting Diode) elements.

Since detailed operations of each step have been described above, detailed descriptions will be omitted.

Meanwhile, the methods according to various embodiments of the present disclosure described above may be implemented in the form of an application that can be installed in an existing electronic device.

In addition, the above-described methods according to various embodiments of the present disclosure may be implemented only by software upgrade or hardware upgrade of an existing electronic device.

In addition, the various embodiments of the present disclosure described above may be performed through an embedded server provided in an electronic device or through at least one external server among electronic devices.

Meanwhile, according to an example of the present disclosure, the various embodiments described above may be implemented as software including instructions stored in a machine-readable storage media. The device is a device capable of calling a stored command from a storage medium and operating according to the called command, and may include an electronic device according to the disclosed embodiments. Alternatively, a function corresponding to an instruction may be performed using other components under the control of a processor, and the instruction may include a code generated or executed by a compiler or an interpreter. It may be provided in the form of a non-transitory storage medium. It does not distinguish that it is stored temporarily.

In addition, according to an embodiment of the present disclosure, the method according to various embodiments described above may be provided in a computer program product. Computer program products can be traded between sellers and buyers as commodities. The computer program product may be distributed online in the form of a device-readable storage medium (eg, compact disc read only memory (CD-ROM)) or through an application store (eg, Play StoreTM). In the case of online distribution, at least some of the computer program products may be temporarily stored or temporarily generated in a storage medium such as a server of a manufacturer, a server of an application store, or a memory of a relay server.

In addition, according to an embodiment of the present disclosure, various embodiments described above are in a recording medium that can be read by a computer or a similar device using software, hardware, or a combination thereof. Can be implemented in In some cases, the embodiments described herein may be implemented by the processor itself. According to software implementation, embodiments such as procedures and functions described in the present specification may be implemented as separate software modules. Each of the software modules may perform one or more functions and operations described herein.

Meanwhile, computer instructions for performing a processing operation of a device according to the various embodiments described above may be stored in a non-transitory computer-readable medium. When the computer instructions stored in the non-transitory computer-readable medium are executed by the processor of the specific device, the specific device causes the specific device to perform the processing operation in the device according to the above-described various embodiments.

The non-transitory computer-readable medium refers to a medium that stores data semi-permanently and can be read by a device, rather than a medium that stores data for a short moment, such as registers, caches, and memory. Specific examples of non-transitory computer-readable media may include CD, DVD, hard disk, Blu-ray disk, USB, memory card, ROM, and the like.

In addition, each of the constituent elements (eg, a module or a program) according to the various embodiments described above may be composed of a singular or a plurality of entities, and some sub-elements among the above-described sub-elements are omitted, or other sub-elements are omitted. Components may be further included in various embodiments. Alternatively or additionally, some constituent elements (eg, a module or a program) may be integrated into a single entity, and functions performed by each corresponding constituent element prior to the consolidation may be performed identically or similarly. Operations performed by modules, programs, or other components according to various embodiments may be sequentially, parallel, repetitively or heuristically executed, or at least some operations may be executed in a different order, omitted, or other operations may be added. I can.

In the above, preferred embodiments of the present disclosure have been illustrated and described, but the present disclosure is not limited to the specific embodiments described above, and is generally used in the technical field belonging to the disclosure without departing from the gist of the disclosure claimed in the claims. Of course, various modifications may be made by those skilled in the art, and these modifications should not be understood individually from the technical idea or perspective of the present disclosure.

100: electronic device 110: communication interface
120: processor 130: memory
140: user input unit 200: display device
300: source device 1000: electronic system

Claims (20)

In an electronic device communicating with an external display device including a plurality of display modules,
Communication interface; And
When the layout information of the plurality of display modules is received from the external display device through the communication interface, resolution information of the external display device is generated based on the received layout information,
Transmits the generated resolution information to an external source device,
And a processor for controlling the communication interface to transmit the received image signal to the external display device when an image signal processed based on the resolution information is received from the source device. The method of claim 1,
Further comprising a; memory for storing layout information corresponding to the standard resolution information,
The processor,
When the resolution information of the external display device is not identified from the memory based on the received layout information, the resolution information is generated based on the received layout information,
The received layout information,
The electronic device comprising resolution information and arrangement state information of each of the plurality of display modules. The method of claim 1,
Some of the plurality of display modules are connected in a first daisy chain method,
The rest of the plurality of display modules are connected in a second daisy chain method,
The processor,
Receiving first layout information for some of the plurality of display modules from a first master module included in some of the plurality of display modules,
Receiving second layout information for the remainder of the plurality of display modules from a second master module included in the remainder of the plurality of display modules,
The electronic device that generates the resolution information based on the first layout information and the second layout information. The method of claim 1,
The processor,
When an image signal processed based on the resolution information is received from the source device, the electronic device controls the communication interface to transmit the received image signal to the external display device without further processing. The method of claim 1,
The electronic device, wherein the resolution information generated based on the received layout information is non-standard resolution information. The method of claim 5,
The video signal processed based on the non-standard resolution information,
An electronic device, wherein some regions of the image frame having a standard resolution size include a content image, and the remaining regions include a black image. The method of claim 6,
When the non-standard resolution information is greater than standard resolution information that can be processed by the source device,
The video signal processed based on the non-standard resolution information,
The entire area includes a first image frame of the standard resolution size including a content image, and a partial area includes a content image, and the remaining area includes at least one second image frame of the standard resolution size including a black image, Electronic device. The method of claim 7,
The processor,
Adds identification information of a display module corresponding to the first image frame among the plurality of display modules to the first image frame based on the layout information, and a display corresponding to the second image frame among the plurality of display modules Add the identification information of the module to the second video frame,
The electronic device that transmits the first and second image frames to which the identification information is added to the external display device. The method of claim 1,
The electronic device,
An electronic device that is an image processing device implemented as a source box, a media box, a control box, a sending box, or a set-top box. The method of claim 1,
Each of the plurality of display modules,
An electronic device implemented as an LED cabinet including a plurality of LED (Light Emitting Diode) elements. In the control method of an electronic device communicating with an external display device including a plurality of display modules,
When the layout information of the plurality of display modules is received from the external display device, generating resolution information of the external display device based on the received layout information;
Transmitting the generated resolution information to an external source device; And
And when an image signal processed based on the resolution information is received from the source device, transmitting the received image signal to the external display device. The method of claim 11,
The step of generating the resolution information,
When the resolution information of the external display device is not identified from the stored layout information corresponding to the standard resolution information based on the received layout information, the resolution information is generated based on the received layout information,
The received layout information,
A control method comprising resolution information and arrangement state information of each of the plurality of display modules. The method of claim 11,
Some of the plurality of display modules are connected in a first daisy chain method,
The rest of the plurality of display modules are connected in a second daisy chain method,
The step of generating the resolution information,
Receiving first layout information for some of the plurality of display modules from a first master module included in some of the plurality of display modules,
Receiving second layout information for the remainder of the plurality of display modules from a second master module included in the remainder of the plurality of display modules,
Generating the resolution information based on the first layout information and the second layout information. The method of claim 11,
Transmitting to the external display device,
When an image signal processed based on the resolution information is received from the source device, the received image signal is transmitted to the external display device without further processing. The method of claim 11,
The resolution information generated based on the received layout information is non-standard resolution information. The method of claim 15,
The video signal processed based on the non-standard resolution information,
A control method, wherein some areas of the image frames having a standard resolution size include a content image, and the remaining areas include a black image. The method of claim 16,
When the non-standard resolution information is greater than standard resolution information that can be processed by the source device,
The video signal processed based on the non-standard resolution information,
The entire area includes a first image frame of the standard resolution size including a content image, and a partial area includes a content image, and the remaining area includes at least one second image frame of the standard resolution size including a black image, Control method. The method of claim 17,
Transmitting to the external display device,
Adds identification information of a display module corresponding to the first image frame among the plurality of display modules to the first image frame based on the layout information, and a display corresponding to the second image frame among the plurality of display modules Add the identification information of the module to the second video frame,
And transmitting the first and second image frames to which the identification information is added to the external display device. The method of claim 11,
The electronic device,
An image processing device implemented as a source box, a media box, a control box, a sending box, or a set-top box, a control method. The method of claim 11,
Each of the plurality of display modules,
A control method that is implemented as an LED cabinet including a plurality of LED (Light Emitting Diode) devices.

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