hkc lcd panel free sample

A wide variety of hkc options are available to you, such as others, call center and on-line technical support and return and replacement.You can also choose from led, lcd and widescreen hkc,As well as from new, {2}, and {3}. and whether hkc is curved, not curved, or dual screens.

In a current color correction method for a display device such as a liquid crystal display (LCD), color correction is performed by adjusting gamma curves of three primary colors, red, green, and blue (R, G, B), of an LCD panel. Generally, there are mainly two conventional methods for performing color correction of an LCD panel by adjusting gamma curves of R, G, B, of the LCD panel. A first conventional color correction method is using human eyes to separately adjust, according to feelings and experience thereof, a gamma curves of R, G, B of a target LCD panel whose colors need to be corrected, to correct color characteristics of the target LCD panel. However, this method obviously requires a large amount of labor and time and would easily produce errors. In this way, a quality of a color correction result is very unstable.

A second color correction method is separately inputting gray-scale input signals of three primary colors, red, green, and blue, with a plurality of scales (for example, 256 scales) into a reference LCD panel used as a golden sample, so as to output a plurality of reference patterns in the reference LCD panel, then measuring the plurality of reference patterns by using a colorimeter to produce a plurality of groups of first chrominance coordinate values corresponding to CIE-xyY color space, and then separately changing gamma curves of R, G, B of the target LCD panel in a trial and error manner to try to generate a plurality of groups of second chrominance coordinate values close to or the same as the plurality of groups of first chrominance coordinate values.

However, because chrominance coordinate values of the CIE-xyY color space are linear dependent, when the gamma curves of R, G, B meeting color characteristics of the reference LCD panel are found in a conventional trial and error manner, a large amount of measurement data is needs, and three colors, red, green, blue, are separately measured (that is, 256*1024*3 pieces of data are needed). In other words, the conventional color correction method takes very long time to adjust the gamma curves of R, G, B of the target LCD panel, so that color characteristics of the target LCD panel are substantially equal to color characteristics of the reference LCD panel.

A gamma curve is a most important photoelectric curve in a television. Generally, a gamma curve of a television is designed as a gamma 2.2 curve so as to effectively compensate an existing display system and make human eyes obtain optimal display effects. However, management and control of a gamma curve by a display manufacturer is very difficult, and many process factors affect gamma curve characteristics of a display. To increase a qualification rate of products meeting a gamma curve, panel factories have stricter management and control on a process of an LCD panel. Therefore, a product yield rate may be affected, and competitiveness of the product is endangered. Therefore, a good and fast gamma curve verification method is very important for improvement of gamma curve characteristics of a display.

A gamma curve of a display needs to be progressively measured in a sequential manner. It takes approximately 256 seconds to measure a group of 8-bit gamma curves. If each flat product needs to be measured for 256 seconds, a throughput of an entire production line is seriously affects. Therefore, it is necessary to develop a fast and accurate gamma curve verification method in production of a high-quality liquid crystal panel.

To resolve the foregoing technical problem, an objective of this application is to provide a method for detecting a display panel, and in particular, a measurement method for measuring a display panel and an apparatus thereof, so as to fast measure and verify a gamma curve.

The objective of this application is achieved and the technical problem of this application is resolved by using the following technical solutions. A measurement method for measuring a display panel proposed according to this application comprises: correcting a measurement picture of a display panel; obtaining, by using a measurement apparatus, a picture to be measured; setting a shooting instrument to complete a shooting parameter under a measurement environment; shooting and correcting system measurement data by using the shooting parameter; replacing a display panel to be measured; measuring a gamma curve; and outputting a gamma curve, where the display panel needs to be corrected only once, and a gamma curve of a next display panel continues to be measured.

Another objective of this application is a measurement method for measuring a display panel, comprising: correcting a measurement picture of a display panel; obtaining, by using a measurement apparatus, a picture to be measured; setting a shooting instrument to complete a shooting parameter under a measurement environment; shooting and correcting system measurement data by using the shooting parameter; replacing a display panel to be measured; measuring a gamma curve; and outputting a gamma curve, where the display panel needs to be corrected only once, and a gamma curve of a next display panel continues to be measured; an interpolation operation is performed on gray-scale values on the isoluminance spatial planes, to obtain brightness distribution of entire brightness space; the interpolation operation is a linear interpolation operation or a non-linear interpolation operation; the interpolation operation comprises: collecting brightness information of points on an isoluminance spatial plane, under each (x,y) coordinate, obtaining brightness distribution L(x,y) at the position, and defining N different (x,y) position coordinates represent different brightness images, and obtaining, by using an interpolation method from brightness messages shot under different (x,y) coordinates, corresponding brightness by means of an interpolation operation, and consequently, obtaining brightness under N different gray-scales in gamma curve distribution, N being a positive number; and the measurement apparatus may be a photosensitive coupling component or a complementary metal-oxide semiconductor.

Still another objective of this application is a measurement apparatus for measuring a display panel, comprising: a display panel; a measurement picture unit, electrically connected to the display panel and configured to correct a measurement picture of a display panel; a picture capturing unit, electrically connected to the display panel and configured to obtain a picture to be measured; a shooting instrument unit, electrically connected to the display panel and configured to complete a shooting parameter under a measurement environment and shoot and correct system measurement data by using the shooting parameter; and a gamma curve measurement unit, electrically connected to the display panel and configured to output a gamma curve, where the display panel needs to be corrected only once, and a gamma curve of a next display panel continues to be measured.

In an embodiment of this application, the measurement apparatus is a photoelectric conversion component; the step of obtaining, by using a measurement apparatus, a picture to be measured comprises: converting information of each unit pixel of the panel and obtaining an image having brightness space distribution.

In an embodiment of this application, color gray-scale values on the isoluminance spatial plane comprise: a chrominance and brightness message of a first color panel unit pixel, a chrominance and brightness message of a second color panel unit pixel, a chrominance and brightness message of a third color panel unit pixel, a chrominance and brightness message of a fourth color panel unit pixel, and a chrominance and brightness message of a fifth color panel unit pixel and are used to edit and configure a measurement picture needed by measurement of the measurement apparatus.

In the accompanying drawings, for clarity, thicknesses of a layer, a film, a panel, an area, and the like are enlarged. In the accompanying drawings, for understanding and ease of description, thicknesses of some layers and areas are enlarged. It should be understood that when a component such as a layer, a film, an area, or a base is described to be “on” “another component”, the component may be directly on the another component, or there may be an intermediate component.

To further describe the technical means used in this application to achieve the application objective and effects thereof, specific implementations, structures, features, and effects of a measurement method for measuring a display panel and an apparatus thereof provided according to this application are described in detail below with reference to the drawings and preferred embodiments.

A display panel of this application may include an LCD panel, an organic light-emitting diode (OLED) panel, a quantum dots light-emitting diode (QLED) panel, or other display panels. Using the LCD panel as an example, the LCD panel may include: a switch array ((thin film transistor, TFT) substrate, a color filter (CF) substrate, and a liquid crystal layer formed between two substrates. The active array (TFT) and the CF may be formed on a same substrate.

FIG. 1 is a schematic diagram of an exemplary gamma curve, and FIG. 2 is a schematic diagram of an exemplary gamma curve instrument for measuring a display panel. Referring to FIG. 1, a gamma curve 100 has a compensation-display system capable of obtaining optimal display effects.

Referring to FIG. 2, a gamma curve instrument 200 for measuring a display panel needs to progressively measure a gamma curve on a display. It takes approximately 256 seconds to measure a group of 8-bit gamma curves.

FIG. 3 is a flowchart of a measurement method for measuring a display panel according to an embodiment of this application; FIG. 4 is a schematic diagram of a picture measured by using a photoelectric conversion component according to an embodiment of this application; FIG. 5ais a schematic diagram of a coordinate of an isoluminance spatial plane according to an embodiment of this application; FIG. 5bis a schematic diagram of a coordinate of an isoluminance spatial plane according to another embodiment of this application; and FIG. 6 is a schematic diagram of distribution of a gamma curve having 256 different gray-scale values. Referring to FIG. 3, in an embodiment of this application, a measurement method for measuring a display panel includes: correcting a measurement picture of a display panel; obtaining, by using a measurement apparatus, a picture to be measured; setting a shooting instrument to complete a shooting parameter under a measurement environment; shooting and correcting system measurement data by using the shooting parameter; replacing a display panel to be measured; measuring a gamma curve; and outputting a gamma curve, where the display panel needs to be corrected only once, and a gamma curve of a next display panel continues to be measured.

In an embodiment, the step of obtaining, by using a measurement apparatus, a picture to be measured includes: converting information of each unit pixel of the panel and obtaining an image having brightness space distribution.

Referring to FIG. 4, in an embodiment, color gray-scale values on the isoluminance spatial plane include: a chrominance and brightness message of a first color (white) 410 (red/green/blue=255/255/255), 420 (red/green/blue=128/128/128), 430 (red/green/blue=16/16/16) panel unit pixel, a chrominance and brightness message of a second color (red) 412 (red/green/blue=255/0/0), 422 (red/green/blue=128/0/0), 432 (red/green/blue=16/0/0) panel unit pixel, a chrominance and brightness message of a third color (green) 414 (red/green/blue=0/255/0), 424 (red/green/blue=0/128/0), 434 (red/green/blue=0/16/0) panel unit pixel, a chrominance and brightness message of fourth color (blue) 416 (red/green/blue=0/0/255), 426 (red/green/blue=0/0/128), 436 (red/green/blue=0/0/16) panel unit pixel, and a chrominance and brightness message of a fifth color (black) 440(red/green/blue=0/0/0) panel unit pixel and are used to edit and configure a measurement picture needed by measurement of the measurement apparatus.

Referring to FIG. 3, in an embodiment, a measurement method for measuring a display panel may be accelerated by approximately 256 times for an 8-bit output panel, greatly improving a production throughput.

Referring to FIG. 3, in an embodiment, a measurement method for measuring a display panel may be accelerated by approximately 1024 times for a 10-bit output panel, greatly improving a production throughput.

Referring to FIG. 3, in an embodiment, in a measurement method for measuring a display panel, 10-bit and 1024-gray-scale gamma curve information or a gamma curve of different RGB colors may be obtained.

In an embodiment of this application, a method for detecting a process of a display device includes a numerical value applying an interpolation method, and further includes the measurement method for measuring a display panel.

FIG. 7 is a block diagram of an apparatus for measuring a display panel according to an embodiment of this application. In an embodiment of this application, a measurement apparatus 700 for measuring a display panel, including: a display panel 710; a measurement picture unit 720, electrically connected to the display panel 710 and configured to correct a measurement picture of a display panel 710; a picture capturing unit 730, electrically connected to the display panel 720 and configured to obtain a picture to be measured; a shooting instrument unit 740, electrically connected to the display panel 710 and configured to complete a shooting parameter under a measurement environment and shoot and correct system measurement data by using the shooting parameter; and a gamma curve measurement unit 750, electrically connected to the display panel 710 and configured to output a gamma curve, where the display panel 710 needs to be corrected only once, and a gamma curve of a next display panel continues to be measured.

2019 will be a crucial year for China’s panel industry to hit the high-end market. Domestic panel companies have been actively researching and developing high-end panel technologies to compete for more market shares and consolidate their position in the industry.

On June 26, the DISPLAY CHINA 2019, jointly organized by the liquid crystal branch of CHINA optical optoelectronics industry association (CODA) and Reed Exhibitions Kuozhan of Shanghai, formally opened in Shanghai new international expo center. Visionox, BOE, Tianma, HKC, Mantix, and other domestic and foreign well-known panel makers still appeared in this exhibition, the reporter noticed that this time they show a lot of new display technology and innovation of enterprise products, among which car display products are more eye-catching.

Data from the car display market is also doing well. According to the statistics of IHS, the market research institute, the global vehicle panel shipments in 2018 were 161 million, an annual increase of 9.4%, among which, the central control display panel is the largest application market, with shipments of 78.3 million, 60.8 million and 22.4 million for other applications.

Tianma’s 8.8-inch e-mirror adopts a new panel design, featuring ultra-narrow frame, -40℃-95℃ wide temperature, high brightness display, etc. Meanwhile, depending on dimming glass, it can switch between rearview Mirror and streaming media function freely.

It is said that this is a rare metal oxide small size LCD product in China, which has been mass-produced this year and is very power-saving and may be able to solve the problem of insufficient battery life in the future.

Although LCD technology has been widely used, it is still in the process of further innovation. At present, improving resolution and high-cost performance ratio is the inevitable direction of display industry development. More exquisite picture quality and clearer details can bring more real visual experience to the audience. In addition to high-cost performance ratio, LCD products are still the best choice for ordinary consumers. At present, 4K TV has replaced most 2K TV and become the mainstream product of the Chinese color TV market. In recent years, the UHD TV video industry has been booming. 4K/8K TV is welcoming the popularity tide. Meanwhile, 8K(7680×4320) UHD TV is surging, becoming an important development trend of the color TV industry.

This time BOE introduced a BD Cell display, which is said to be a new breakthrough in TFT-LCD technology, comparable to OLED, a key technology of BOE this year.

By adopting the black and white and color two-layer Cell design, as well as pixel partitioning technology and micron ultra-fine light control technology, BD Cell LCD display can achieve the contrast of millions of levels, dark tone performance is more profound. Compared with the OLED display next to it, the BD Cell LCD display has rich details of the low-grayscale screen, and its power consumption is 40% lower than that of OLED display of the same size, with extremely powerful color performance and ultra-HD HDR experience.

HKC that does not exhibit easily all along also brought display technology and innovation products this time. The first one is Fission Cell display technology, which will truly achieve double resolution, color saturation, color depth, and dynamic response rate.

In order to make the LCD liquid crystal display performance reach the performance level of OLED self-luminous display, the Fission Cell technology not only has the contrast beyond the current OLED (500000:1), but its color performance is also improved compared with the current OLED display, and it can be combined with the dual-screen hybrid black insertion technology. Improving the low LCD display response rate to the same level as OLED’s, and its cost is much lower than the same size OLED display, can become a cost-effective market choice.

Another product that HKC showed is Wallpaper TV. With a thickness of only 6.9mm, this wallpaper has a narrow bezel design and an ultra-lightweight module design, which gives the product a minimalist concept and a 4K ultra-clear display for a highly reproducible viewing experience. Whether as a live wallpaper display or a home TV, it gives an unparalleled aesthetic.

In addition, HKC also displayed a variety of touch-sensitive commercial products such as a 65-inch conference machine, a 75-inch educational machine, and a 58-inch all-in-one.

The HKC P776A is one of several tablets offered by HKC. The tablet features 8GB of storage, a 7" 1024x600 display, a 1.5 GHz Dual Core processor, and 1GB of RAM.

To identify which HKC tablet you have, look on the back of the tablet for the model number, located in the bottom left corner. For example, the HKC P776A has a model number of P776A-XX, where XX is the color of the tablet. Because the HKC models have different screen resolutions, it is important to distinguish which model you have. The amount of storage on the device is also located on the back of the tablet to the right of the model number.

Flat-panel displays are thin panels of glass or plastic used for electronically displaying text, images, or video. Liquid crystal displays (LCD), OLED (organic light emitting diode) and microLED displays are not quite the same; since LCD uses a liquid crystal that reacts to an electric current blocking light or allowing it to pass through the panel, whereas OLED/microLED displays consist of electroluminescent organic/inorganic materials that generate light when a current is passed through the material. LCD, OLED and microLED displays are driven using LTPS, IGZO, LTPO, and A-Si TFT transistor technologies as their backplane using ITO to supply current to the transistors and in turn to the liquid crystal or electroluminescent material. Segment and passive OLED and LCD displays do not use a backplane but use indium tin oxide (ITO), a transparent conductive material, to pass current to the electroluminescent material or liquid crystal. In LCDs, there is an even layer of liquid crystal throughout the panel whereas an OLED display has the electroluminescent material only where it is meant to light up. OLEDs, LCDs and microLEDs can be made flexible and transparent, but LCDs require a backlight because they cannot emit light on their own like OLEDs and microLEDs.

Liquid-crystal display (or LCD) is a thin, flat panel used for electronically displaying information such as text, images, and moving pictures. They are usually made of glass but they can also be made out of plastic. Some manufacturers make transparent LCD panels and special sequential color segment LCDs that have higher than usual refresh rates and an RGB backlight. The backlight is synchronized with the display so that the colors will show up as needed. The list of LCD manufacturers:

Organic light emitting diode (or OLED displays) is a thin, flat panel made of glass or plastic used for electronically displaying information such as text, images, and moving pictures. OLED panels can also take the shape of a light panel, where red, green and blue light emitting materials are stacked to create a white light panel. OLED displays can also be made transparent and/or flexible and these transparent panels are available on the market and are widely used in smartphones with under-display optical fingerprint sensors. LCD and OLED displays are available in different shapes, the most prominent of which is a circular display, which is used in smartwatches. The list of OLED display manufacturers:

MicroLED displays is an emerging flat-panel display technology consisting of arrays of microscopic LEDs forming the individual pixel elements. Like OLED, microLED offers infinite contrast ratio, but unlike OLED, microLED is immune to screen burn-in, and consumes less power while having higher light output, as it uses LEDs instead of organic electroluminescent materials, The list of MicroLED display manufacturers:

LCDs are made in a glass substrate. For OLED, the substrate can also be plastic. The size of the substrates are specified in generations, with each generation using a larger substrate. For example, a 4th generation substrate is larger in size than a 3rd generation substrate. A larger substrate allows for more panels to be cut from a single substrate, or for larger panels to be made, akin to increasing wafer sizes in the semiconductor industry.

"Samsung Display has halted local Gen-8 LCD lines: sources". THE ELEC, Korea Electronics Industry Media. August 16, 2019. Archived from the original on April 3, 2020. Retrieved December 18, 2019.

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"TCL"s Panel Manufacturer CSOT Commences Production of High Generation Panel Modules". www.businesswire.com. June 14, 2018. Archived from the original on June 30, 2019. Retrieved June 30, 2019.

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I"ve always wanted to try out those monitors from "unknown" China brands so when Gearbest contacted me to ask if I would like to review something from them, I said yes of course. Gearbest is an online store that sells consumer electronics. They stock mostly China and Chinese brands. I tried looking for monitors that support Adobe RGB and the only ones that showed up were from this company called HKC. HKC T7000 monitor is marketed to have good colour accuracy so that"s what I picked.

HKC is one of top 3 display manufacturers in China according to marketing material. I wasn"t able to find much information online regarding the monitor. This product was not even listed on their company"s, probably outdated, website. There wasn"t many credible reviews as well. So yeah, this definitely meets my criteria of an "unknown" brand monitor from China.

The design of the monitor looks good. The build quality seems solid enough for a monitor that"s currently priced at US$430. Build quality is comparable to Dell and BenQ based on the looks, but only time will tell about the true durability. Generally speaking, monitors nowadays last quite long. I work in an office environment with lots of monitors and have never heard of anyone with monitor issues. I did have an issue with my Dell LCD screen from many years ago. There was some LCD leaking after the third or fifth year.

I love the small footprint of the stand. All my previous monitors have stands with large footprint so this HKC stand is considered very minimal. I was able to reclaim back precious table space. The stand is also quite sturdy.

Viewing angles are not perfect. I could see some colour shift on the left and right sides. It"s very minor colour shift and does not affect my work. Just for comparison, the Dell UP2716D and BenQ SW2700PT shows colours consistently at all corners. On a scale of 1 to 10, the viewing angles here get a 9. The monitor that I"m using in my office (bought by my company) gets a 5/10 from me. TFT or TN panels get a 3 from me.

In the event that you do need servicing, you have to send the monitor back to Gearbest. You have to cover the shipping fees. After repair, Gearbest will mail back to you. The interesting thing here is you are not sending the monitor to HKC.

In terms of colour performance, it can definitely rival the more expensive Dell UP2716D and BenQ SW2700PT, both Adobe RGB monitors. But when you compare to the Dell and BenQ, the HKC T7000 does lack some features, for example, there are not USB ports and SD card reader. Note that the BenQ and Dell are at least US $100 to $200 more. Gearbest provide free shipping to certain countries. So pricing is really competitive.

There are various panel technologies. Each has its own specific features - viewing angles, color reproduction, response time, brightness/contrast, production cost, etc. The image quality depends directly on the type of the display panel used.VA

The most widely used panels are those with 6, 8, and 10 bits for each of the RGB components of the pixel. They provide 18-, 24-, and 30-bit color, respectively.8 bits (6 bits + FRC)

Frame Rate Control (FRC) is a method, which allows the pixels to show more color tones. With quick cyclic switching between different color tones, an illusion for a new intermediate color tone is created. For example, by using FRC, a 6-bit display panel is able to show 16.7 millioin colors, which are typical for 8-bit display panels, and not the standard 262200 colors, instead. There are different FRC algorithms.Yes

The maximum number of colors, which the display is able to reproduce, depends on the type of the panel in use and color enhancing technologies like FRC.16777216 colors

The backlight is the source of light of the LCD display panels. The type of backlight determines the image quality and the color space of the display. There are various backlights such as CCFL, LED, WLED, RGB-LED, and etc.W-LED

3. Trying to link up with Ottersor who lives in my city to come over to my place and have two sets of eyeballs to scrutinize the HKC X3 in further detail. - Could you guys recommend us on a list of tasks to do to further understand this monitor? I even have a displayport cable standing by (following malin"s suggestion)

4. I haven"t been able to use the HKC X3 for more than 10 hours in the last few weeks since I uploaded that video onto YouTube - reason being, some people are rushing to get their hands on a unit and are alright with taking away my own unit ("cuz you gotta wait for a week for it to arrive from the supplier in China to my doorstep in Kuala Lumpur). I really miss the depth of blacks and rich in contrast of this HKC monitor as compared to my Dell U2312HM IPS display, it"s just a whole different playing field.

5. Confirmed as far as I can tell: definitely the 144hz is consistent with the specs (citing one of my buyers who is coming from his 120hz Korean panel - Qnix 2710 I believe). Response time (GTG) is definitely 1ms and is worlds away better than my U2312HM"s 5ms. Makes a huge difference in Dota 2 gaming for me.

I believe (meaning no offense, what you guys are doing here is seriously great work), the discussions entailed in this thread, as the forum name suggests, is very very focused onto the hardware"s internal side of things. It seems to me that we have discovered a few minor spec inconsistencies (in regards to 3D-ready, bits). However, things like this to the everyday gamer (especially one who is finally getting his hands on a higher end graphics card thanks to Nvidia and AMD"s new line of cards making price/performance ratios awesome) it shouldn"t affect your decision much. Especially so when considering that spec-wise, this monitor still triumphs over the BenQ XL2411z that retails at USD300 (RM1200 roughly) over here. With the rival monitor that has a more comparable spec to the HKC X3 being priced at roughly 400 dollars (RM1600), this is really no-brainer case. Although of course, if you"re in the States or elsewhere like Danzo, having to pay 277 USD (though you"re still getting a superior VA panel for the price of a TN such as the XL2411Z) then perhaps more thought should be put into this to weigh the pros and cons of going through the trouble for the HKC display.

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