阅读说明：本技术 一种超高清电视区域调光系统及方法 (Regional dimming system and method for ultra-high-definition television ) 是由 朱锐 于 2020-07-08 设计创作，主要内容包括：本发明公开了一种超高清电视区域调光系统及方法,所述系统包括：电视信号源,用于输出各类电视信号源；电视主板,用于接收电视信号源输出的信号源,并进行信号处理得到整个画面的区域亮暗信息数据；背光数据处理单元,用于接收电视主板发送的所述区域亮暗信息数据,并将处理后的所述区域亮暗信息数据发送给各个Mini LED灯板的驱动芯片中；Mini LED灯板,用于通过驱动芯片根据处理后的所述区域亮暗信息数据控制Mini LED灯点亮。本发明通过整个Mini LED背光灯分区域控制,有效提高背光使用效率和提升显示画质,有效提升产品亮度和对比度,在保证安全的前提下,进一步提高Mini LED灯板的可靠性与使用时间。(The invention discloses a regional dimming system and a regional dimming method for an ultra-high definition television, wherein the system comprises the following steps: the television signal source is used for outputting various television signal sources; the television mainboard is used for receiving a signal source output by a television signal source and carrying out signal processing to obtain regional brightness information data of the whole picture; the backlight data processing unit is used for receiving the regional brightness information data sent by the television main board and sending the processed regional brightness information data to the driving chips of the Mini LED lamp panels; and the Mini LED lamp panel is used for controlling the Mini LED lamp to be turned on through the driving chip according to the processed regional brightness information data. According to the invention, through regional control of the whole Mini LED backlight lamp, the backlight use efficiency and the display image quality are effectively improved, the brightness and the contrast of a product are effectively improved, and the reliability and the use time of the Mini LED lamp panel are further improved on the premise of ensuring the safety.)

1. An ultra high definition television local dimming system, comprising:

the television signal source is used for outputting various television signal sources;

the television mainboard is used for receiving the signal source output by the television signal source and carrying out signal processing to obtain the regional brightness information data of the whole picture;

the backlight data processing unit is used for receiving the regional brightness information data sent by the television mainboard and sending the processed regional brightness information data to the driving chips of the Mini LED lamp panels;

and the Mini LED lamp panel is used for controlling the Mini LED lamp to be turned on through the driving chip according to the processed regional brightness information data.

2. The ultra high definition television local dimming system of claim 1, further comprising:

and the power panel is used for providing 12V direct current for the television mainboard and the backlight data processing unit and providing 26V/1A power supply for each Mini LED lamp panel through the power distribution board.

3. The regional dimming system for ultra-high definition televisions according to claim 2, wherein the television main board is connected with the television signal source, the backlight data processing unit and the power board respectively; the backlight data processing unit is connected with the Mini LED lamp panel; the power panel is connected with each Mini LED lamp panel through the power distribution plate.

4. The regional dimming system for ultra-high definition televisions according to claim 1, wherein each Mini LED lamp panel comprises 4 driving chips, a power management unit and a plurality of Mini LED lamps; the 4 driving chips are connected in series through the SPI signal channel in sequence; 4 driving chips connected in series control Mini LED lamps in 128 subareas; the power management unit is used for respectively supplying power to the driving chip and the Mini LED lamp;

the Mini LED lamp panel controls 128 subarea backlight control for 1 piece, and 2048 subarea controls are formed in the backlight of the whole television; one path of signal of the driving chip controls one partition, and one driving chip controls 32 paths of partition signals.

5. The ultra high definition television local dimming system of claim 1, wherein the television signal source comprises: blu-ray DVD, HDMI, DP, USB, and network interface.

6. The regional dimming system for ultra-high-definition televisions according to claim 1, wherein the main chip of the television main board comprises: hi3751V811 and MSD6a 838.

7. The ultra high definition television zone dimming system of claim 1, wherein the backlight data processing unit is an MCU or an FPGA, the MCU model comprises STM32F411, and the FPGA model comprises GW1N-LV4QN48C 6/I5.

8. An ultra high definition television local dimming method based on the ultra high definition television local dimming system of any one of claims 1 to 7, wherein the ultra high definition television local dimming method comprises the following steps:

when the television receives a starting signal, the television mainboard starts to work and outputs a Mini LED backlight starting control signal to the backlight data processing unit;

the backlight data processing unit starts to work and sends control instructions to all the driving chips to complete the initialization of the whole backlight regional dimming circuit;

each driving chip feeds back an initialization state to the backlight data processing unit through the SPI, and the backlight data processing unit feeds back feedback signals of all chip states to the television mainboard;

and after the television main board acquires the information that the Mini LED lamp works normally in backlight, the television main board outputs image information to the liquid crystal glass to control the television to work normally.

9. The regional dimming method for ultra high definition televisions according to claim 8, wherein the normal operating state of the televisions comprises: turning off the local dimming function and turning on the local dimming function;

when the regional dimming function is turned off, the television mainboard outputs fixed value data to the backlight data processing unit through the SPI, and the backlight data processing unit processes the fixed value data and then distributes the processed fixed value data to the driving chips of the Mini LED lamp panels to complete the fixed backlight brightness display function;

when the regional dimming function is turned on, the television main board decompresses and decodes an input video source to obtain the brightness information of each pixel to obtain backlight brightness data of each 2048 subarea region, the backlight brightness data is transmitted to the backlight data processing unit through an SPI (serial peripheral interface), after the backlight data processing unit obtains the backlight brightness data of each subarea, data distribution is carried out through an SPI (serial peripheral interface) channel according to 16 Mini LED lamp panel subareas, and each frame image picture displayed by the television is controlled to be matched with the backlight brightness of each frame by taking a VSYNC (vertical synchronous channel) field synchronous signal given by the television main board as a reference.

10. The ultra high definition television local dimming method according to claim 8, further comprising:

when the Mini LED lamp of a certain subarea is abnormal in current or voltage state, the driving chip positions the abnormal Mini LED lamp and feeds information back to the backlight data processing unit in time, the backlight data processing unit feeds the information back to the television main board, and the television main board records faults and prompts a user to perform maintenance or automatic repair selection at the background.

Technical Field

The invention relates to the technical field of ultra-high definition television backlight, in particular to a regional dimming system and method for an ultra-high definition television.

Background

The ultra-high-definition Mini LED television is a liquid crystal television with a Mini LED as a backlight source, and compared with the traditional side backlight or direct type backlight, the advantage of the Mini LED is very obvious. Mini LED lamp pearl is littleer, can realize more accurate dynamic backlight effect, when effectively improving screen brightness and contrast, can also restrain the glare phenomenon that adopts traditional big LED lamp dynamic backlight to cause between the bright dark zone of screen. Meanwhile, the Mini LED backlight technology also has the characteristics of lightness, thinness, high image quality, low power consumption and the like, the performance level is close to that of an OLED, and the Mini LED backlight technology is superior to that of the OLED in the aspects of brightness, color development and the like. Especially, Mini LED backlight combines with fine Local Dimming (Local Dimming can make the screen locally dim, and simultaneously make the bright part of the screen keep bright, can really improve contrast, thereby generating better image), can control the switch and brightness adjustment of the corresponding backlight area in real time according to the bright and dark fields at each position of the picture in the television signal, can make the black display area darker, present high contrast, and have more colorful color.

The ultra-high-definition liquid crystal television generally adopts a common LED lamp as a backlight source of a liquid crystal module, single-point heating is large, and brightness is not uniform enough. Meanwhile, when the Mini LED is used as a backlight source, problems can occur inevitably due to the fact that the number of the used LEDs is large, the use of a user is affected by the change of local brightness, and more seriously, after a circuit breaks down, the potential safety hazard of the use of the user can be brought, and the safety of products is reduced.

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

Disclosure of Invention

The invention mainly aims to provide an ultra-high-definition television regional dimming system and a method, and aims to solve the problem that local brightness change affects user use and circuit faults due to the fact that a large number of Mini LEDs are used as backlight sources in the prior art.

In order to achieve the above object, the present invention provides an ultra high definition tv local dimming system, which includes:

the television signal source is used for outputting various television signal sources;

the television mainboard is used for receiving the signal source output by the television signal source and carrying out signal processing to obtain the regional brightness information data of the whole picture;

the backlight data processing unit is used for receiving the regional brightness information data sent by the television mainboard and sending the processed regional brightness information data to the driving chips of the Mini LED lamp panels;

and the Mini LED lamp panel is used for controlling the Mini LED lamp to be turned on through the driving chip according to the processed regional brightness information data.

Optionally, the ultra high definition television regional dimming system, wherein the ultra high definition television regional dimming system further includes:

and the power panel is used for providing 12V direct current for the television mainboard and the backlight data processing unit and providing 26V/1A power supply for each Mini LED lamp panel through the power distribution board.

Optionally, in the regional dimming system for ultra-high definition televisions, the television main board is connected to the television signal source, the backlight data processing unit, and the power board respectively; the backlight data processing unit is connected with the MiniLED lamp panel; the power panel is connected with each Mini LED lamp panel through the power distribution plate.

Optionally, in the regional dimming system for ultra-high definition televisions, each Mini LED lamp panel includes 4 driving chips, a power management unit, and a plurality of Mini LED lamps; the 4 driving chips are connected in series through the SPI signal channel in sequence; 4 driving chips connected in series control Mini LED lamps in 128 subareas; the power management unit is used for respectively supplying power to the driving chip and the Mini LED lamp;

the Mini LED lamp panel controls 128 subarea backlight control for 1 piece, and 2048 subarea controls are formed in the backlight of the whole television; one path of signal of the driving chip controls one partition, and one driving chip controls 32 paths of partition signals.

Optionally, the ultra high definition television local dimming system, wherein the television signal source includes: blu-ray DVD, HDMI, DP, USB, and network interface.

Optionally, the local dimming system for the ultra-high definition television, wherein the main chip of the television main board includes: hi3751V811 and MSD6a 838.

Optionally, in the regional dimming system for ultra-high definition televisions, the backlight data processing unit is an MCU or an FPGA, the MCU includes an STM32F411 in model, and the FPGA includes GW1N-LV4QN48C6/I5 in model.

In order to achieve the above object, the present invention provides a local dimming method for an ultra-high definition television, including the following steps:

when the television receives a starting signal, the television mainboard starts to work and outputs a Mini LED backlight starting control signal to the backlight data processing unit;

the backlight data processing unit starts to work and sends control instructions to all the driving chips to complete the initialization of the whole backlight regional dimming circuit;

each driving chip feeds back an initialization state to the backlight data processing unit through the SPI, and the backlight data processing unit feeds back feedback signals of all chip states to the television mainboard;

and after the television main board acquires the information that the Mini LED lamp works normally in backlight, the television main board outputs image information to the liquid crystal glass to control the television to work normally.

Optionally, the local dimming method for the ultra-high definition television, wherein the normal operating state of the television includes: turning off the local dimming function and turning on the local dimming function;

when the local dimming function is turned off, the television main board outputs fixed value data to the backlight data processing unit through the SPI, and the backlight data processing unit processes the fixed value data and then distributes the processed fixed value data to the driving chips of the Mini LED lamp panels to complete the fixed backlight brightness display function;

when the regional dimming function is turned on, the television main board decompresses and decodes an input video source to obtain the brightness information of each pixel to obtain backlight brightness data of each 2048 subarea region, the backlight brightness data is transmitted to the backlight data processing unit through an SPI (serial peripheral interface), after the backlight data processing unit obtains the backlight brightness data of each subarea, data distribution is carried out through an SPI (serial peripheral interface) channel according to 16 Mini LED lamp panel subareas, and each frame image picture displayed by the television is controlled to be matched with the backlight brightness of each frame by taking a VSYNC (vertical synchronous Circuit) field synchronizing signal given by the television main board as a reference.

Optionally, the regional dimming method for ultra high definition televisions comprises:

when the current or voltage state of the Mini LED lamp of a certain partition is abnormal, the driving chip positions the abnormal Mini LED lamp and feeds information back to the backlight data processing unit in time, the backlight data processing unit feeds the information back to the television main board, and the television main board records faults and prompts a user to perform maintenance or automatic repair selection at the background.

In the invention, the regional dimming system of the ultra-high definition television comprises: the television signal source is used for outputting various television signal sources; the television mainboard is used for receiving the signal source output by the television signal source and carrying out signal processing to obtain the regional brightness information data of the whole picture; the backlight data processing unit is used for receiving the regional brightness information data sent by the television mainboard and sending the processed regional brightness information data to the driving chips of the Mini LED lamp panels; and the Mini LED lamp panel is used for controlling the Mini LED lamp to be turned on through the driving chip according to the processed regional brightness information data. According to the invention, the brightness information is obtained by carrying out data processing on the input video signal and is supplied to the backlight data processing unit to control the whole Mini LED backlight to be controlled in different areas, so that the backlight use efficiency can be effectively improved, the display image quality can be effectively improved, the product brightness and contrast can be effectively improved, and the reliability and the use time of the Mini LED lamp panel can be further improved on the premise of ensuring the safety.

Drawings

Fig. 1 is a schematic diagram of a preferred embodiment of the local dimming system of ultra-high definition television according to the present invention;

fig. 2 is a schematic structural diagram of a Mini LED lamp panel in a preferred embodiment of the regional dimming system for ultra-high definition televisions of the present invention;

fig. 3 is a flow chart of a preferred embodiment of the local dimming method of the ultra-high definition television according to the present invention;

fig. 4 is a flow chart of local dimming in the preferred embodiment of the local dimming method for ultra-high definition television according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages 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.

As shown in fig. 1, the regional dimming system for ultra-high definition televisions according to the preferred embodiment of the present invention includes:

the television signal source is used for outputting various television signal sources; the television mainboard is used for receiving the signal source output by the television signal source and carrying out signal processing to obtain the regional brightness information data of the whole picture; a backlight data processing unit, configured to receive the area brightness information data sent by the television main board (i.e., the brightness data of the backlight LED lamp in each area of the picture, and a driving chip IW7039 may light the LED lamp according to the received data to send out different brightness), and send the processed area brightness information data to the driving chips of the Mini LED lamp panels (the television main board transmits the backlight LED brightness data of the whole picture to the backlight data processing unit through SPI, and after receiving the backlight LED data of the whole picture, the backlight data processing unit decodes a data packet, extracts corresponding partial data according to four parts, namely, an upper left part, an upper right part, a lower left part, and a lower right part, and then packs the data respectively, and transmits the data to the four parts through 4 paths of SPI to light the backlight LED of the corresponding part); the Mini LED lamp plate is used for lighting the area bright and dark information data control Mini LED lamp through the driving chip, the Mini LED lamp plate comprises a left Mini LED lamp plate and a right Mini LED lamp plate in the left part and the right Mini LED lamp plate in the left part in fig. 1, each Mini LED lamp plate comprises 8 lamp plates, for example, the left Mini LED lamp plate comprises the lamp plate 1, the lamp plate 2, the lamp plate 3, the lamp plate 4, the lamp plate 9, the lamp plate 10, the lamp plate 11 and the lamp plate 12, and the right Mini LED lamp plate comprises the lamp plate 5, the lamp plate 6, the lamp plate 7, the lamp plate 8, the lamp plate 13, the lamp plate 14, the lamp plate 15.

In addition, the regional dimming system for ultra-high definition television further comprises: and the power panel is used for providing 12V direct current for the television main board and the backlight data processing unit and providing 26V/1A power for each Mini LED lamp panel through the power distribution plates, namely the power panel provides 26V/16A power for each Mini LED lamp panel through the two power distribution plates, and the power of 26V/1A power is provided for each Mini LED lamp panel respectively, so that the use of the Mini LED lamps and the driving circuit on the 16 lamp panels is met.

The television mainboard is respectively connected with the television signal source, the backlight data processing unit and the power panel; the backlight data processing unit is connected with the Mini LED lamp panel; the power panel is connected with each Mini LED lamp panel through the power distribution plate.

The main chip of the television mainboard can be Hi3751V811 or MSD6A 838; various television signal sources comprise blue-ray DVD, HDMI, DP, USB, network interfaces and the like; the main chip of the backlight data processing unit can be MCU (model: STM32F411) or FPGA (model: GW1N-LV4QN48C 6/I5).

Further, as shown in fig. 2, each Mini LED lamp panel includes 4 driving chips (i.e., driving chip 1, driving chip 2, driving chip 3, and driving chip 4 in fig. 2), a power management unit, and a plurality of Mini LED lamps; the 4 driving chips are sequentially connected in series through the SPI signal channel, wherein the driving chip can be IW-7039; 4 driving chips connected in series control Mini LED lamps in 128 subareas; the power management unit is used for respectively supplying power to the driving chip and the Mini LED lamp; the Mini LED lamp panel controls 128 subarea backlight control for 1 piece, and 2048 subarea controls are formed in the backlight of the whole television; one path of signal of the driving chip controls one partition, and one driving chip controls 32 paths of partition signals.

According to the invention, regional dimming of the maximum 2048 partition is realized, various television signal sources are input to the television main board for signal processing to obtain regional brightness information data of the whole picture, the television main board transmits the data to the backlight data processing unit, the backlight data processing unit distributes the data to the driving chips of the Mini LED lamp panels after processing, and the driving chips control the Mini LED lamps to be lightened according to the data.

Further, as shown in fig. 3, the regional dimming method for ultra-high definition television according to the preferred embodiment of the present invention includes the following steps:

step S10, when the television receives the starting signal, the television mainboard starts to work and outputs a Mini LED backlight starting control signal to the backlight data processing unit;

step S20, the backlight data processing unit starts working and sends out control instructions to all the driving chips to complete the initialization of the whole backlight regional dimming circuit;

step S30, each driving chip feeds back an initialization state to the backlight data processing unit through the SPI, and the backlight data processing unit feeds back feedback signals of all chip states to the television mainboard;

and step S40, after the television main board obtains the information that the backlight of the Mini LED lamp works normally, outputting image information to the liquid crystal glass, and controlling the television to work normally.

Specifically, after the television receives a start signal, the television main board starts to work, and outputs a Mini LED backlight enable signal BL-EN (i.e., a backlight start control signal) to the backlight data processing unit, and at this time, the backlight data processing unit works and sends a control instruction to all the driving chips to complete initialization of the whole backlight local dimming circuit; each driving chip feeds back an initialization state to the backlight data processing unit through the SPI, the backlight data processing unit feeds back all chip state feedback signals (namely FB signals, feedback, which contain the working information of each driving chip) to the television main board, and the television main board outputs image information to liquid crystal glass after acquiring the information that the Mini LED lamp works normally in backlight, so that the television works normally.

Wherein, the normal working state of the television comprises the following steps: turning off the local dimming function and turning on the local dimming function; when the regional dimming function is turned off, the television mainboard outputs fixed value data to the backlight data processing unit through the SPI, and the backlight data processing unit processes the fixed value data and then distributes the processed fixed value data to the driving chips of the Mini LED lamp panels to complete the fixed backlight brightness display function; when the regional dimming function is turned on, the television main board decompresses and decodes an input video source to obtain the brightness information of each pixel to obtain backlight brightness data of each region divided by 2048, the backlight brightness data is transmitted to the backlight data processing unit through an SPI (serial peripheral interface), after the backlight data processing unit obtains the backlight brightness data of each region, data distribution is carried out through an SPI (serial peripheral interface) channel according to 16 Mini LED lamp panel regions, and VSYNC field synchronizing signals given by the television main board (after receiving the brightness information of backlight LED lamps, a driving chip IW7039 can be used for lighting related backlight LEDs and the like, meanwhile, due to the delay in the transmission process and the signal processing process, the backlight signals can not be guaranteed to be simultaneously lighted, so that the LED lamps can be lighted through VSYNC field synchronizing signals, and the VSYNC field synchronizing signals can be simultaneously lighted when being received, and after the next VSYNC field synchronous signal arrives, the LED lamps are simultaneously lightened according to the next group of backlight data, the condition that the LED lamps in all parts are on and off in the same frame is ensured, and the backlight and the image displayed in the liquid crystal are in the same frame) is taken as the criterion, and each frame of image displayed by the television is controlled to be matched with the backlight brightness of each frame.

As shown in fig. 2, each Mini LED lamp panel has 4 driver chips, the driver chips are connected in series through SPI signal channels, each upper left, upper right, lower left, and lower right is composed of 4 lamp panels, and SPI signals are also connected in series between the lamp panels in each area. The 9 Mini LED lamps are connected in series to form a square subarea, namely, the backlight control of the 128 subareas is controlled by 1 lamp panel, and the backlight of the whole television forms 2048 subarea controls. One path of signal of the driving chip controls one subarea, and one driving chip controls 32 paths of subarea signals, so that the driving chip can not only control the backlight brightness of each subarea, but also monitor the working state of the Mini LED lamp and position the subarea where each Mini LED lamp is located.

That is to say, when the Mini LED lamp of a certain partition is abnormal in current or voltage state, the driving chip can quickly locate the abnormal Mini LED lamp and feed back information to the backlight data processing unit in time, the backlight data processing unit further feeds back the information to the television main board, and the television main board records the fault and prompts a user to perform maintenance or automatic repair selection in the background. If the user selects maintenance, then the trouble information of TV mainboard record can make things convenient for maintenance personal to fix a position the Mini LED lamp that goes wrong fast, promotes maintenance efficiency.

If the user selects automatic repair, the processing procedure is as shown in fig. 3, after the television is started, the default setting is firstly to turn off the local dimming function, at this time, the television main board outputs a fixed value data to the backlight data processing unit through the SPI interface, and then the fixed value data is further distributed to the driving chips of the Mini LED lamp panels to control the whole backlight lamp panel to emit a preset backlight value. If the regional dimming function is turned on, the television main board decompresses and decodes an input video source to obtain the brightness information of each pixel to obtain backlight brightness data of each 2048-partitioned region, and then transmits the data to the backlight data processing unit through the SPI (serial peripheral interface), at this moment, the backlight data processing unit firstly judges feedback information, the feedback information is obtained by a driving chip on each Mini LED lamp panel, whether the Mini LED lamp works normally can be judged, and if the feedback information is normal, the regional dimming function is started to transmit the backlight data of each partition to a corresponding lamp panel.

If the abnormal condition (such as the voltage and the current of the Mini LED lamp exceeding the rated value or the circuit is broken, short-circuited and the like) exists, the backlight data processing unit uploads the abnormal condition to the television main board, and the television main board records and reminds a user; on the other hand, the backlight data processing unit processes 2048 subarea backlight data transmitted from the television mainboard through an SPI channel, original data of an abnormal state subarea (for example, subarea 1) output through the SPI is deleted, and all data output to the abnormal state subarea are set to be 0, namely 9 Mini LED lamps of the subarea are not electrified and are in a closed state. Meanwhile, the backlight original data of 8 partitions surrounding the partition (or abnormal partitions are positioned at four corners, namely 3 partitions surrounding the partition, and abnormal partitions are positioned at four sides, namely, 5 partitions surrounding the partition, namely, the abnormal partitions depend on the position of the abnormal partition) are also deleted and replaced by a fixed preset value, namely, the regional dimming function of the partitions surrounding the abnormal partitions is closed, and the fixed preset value is transmitted to the corresponding partition through an SPI channel; the backlight data of other subareas are still unchanged, and the area dimming function is kept normal; through the processing of the backlight data processing unit, the use safety is ensured, the service life of the product is effectively prolonged, and the use influence on a user can be reduced to the maximum extent when the backlight of a certain subarea fails.

The invention provides a 2048-partition regional dimming circuit scheme for an ultra-high-definition liquid crystal television, obtains brightness information by performing data processing on an input video signal, provides the brightness information to a backlight data processing unit, controls the whole MiniLED backlight lamp to be controlled in a partition mode, can effectively improve the backlight use efficiency, effectively improves the display image quality, and effectively improves the parameters of the brightness, the contrast ratio and the like of a product. Meanwhile, the Mini LED lamp monitoring function provided by the invention can acquire the state of the Mini LED lamp in real time, turn off the abnormal display lamp and further improve the reliability and the service time of the Mini LED lamp panel. Finally, the invention provides a design of a Mini LED backlight lamp with a partial automatic repair function, when a Mini LED lamp is abnormal, the working state can be switched in time, so that the use safety is ensured, the use influence on a user is reduced to the maximum extent, and the service life of a product is prolonged.

In summary, the present invention provides a local dimming system and method for an ultra high definition television, wherein the system includes: the television signal source is used for outputting various television signal sources; the television mainboard is used for receiving the signal source output by the television signal source and carrying out signal processing to obtain the regional brightness information data of the whole picture; the backlight data processing unit is used for receiving the regional brightness information data sent by the television mainboard and sending the processed regional brightness information data to the driving chips of the Mini LED lamp panels; and the Mini LED lamp panel is used for controlling the Mini LED lamp to be turned on through the driving chip according to the processed regional brightness information data. According to the invention, the brightness information is obtained by carrying out data processing on the input video signal and is supplied to the backlight data processing unit to control the whole Mini LED backlight to be controlled in different areas, so that the backlight use efficiency can be effectively improved, the display image quality can be effectively improved, the product brightness and contrast can be effectively improved, and the reliability and the use time of the Mini LED lamp panel can be further improved on the premise of ensuring the safety.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.