t370hw01 lcd panel quotation

A T-con board — short for “timing control board” or “timing controller” — is found in LED and LCD TVs. This board converts the video signal from the main board and sends it directly to the screen to display the signal in the correct order and at the correct spot on the screen.

A T-con board — short for “timing control board” or “timing controller” — is found in LED and LCD TVs. This board converts the video signal from the main board and sends it directly to the screen to display the signal in the correct order and at the correct spot on the screen.

T370HW01 V1 (Alias: T370HW01 V.1) is a 37 inch diagonal a-Si TFT-LCD display screen product from AUO, with a built-in CCFL backlight, With Inverter, without touch screen. On the basis of latest version datasheet Ver1.0 which was released out on 10 1 2005, T370HW01 V1 supports display1920(RGB)×1080 (FHD) with aspect ratio of 16:9 (W:H), whose pixels are arranged in RGB Vertical Stripe. As for mechanical detail, it features active area of 819.36(W)×460.89(H) mm, outline size of 894.8(W)×527.4(H) mm, viewing area size of 827.8(W)×470.8(H) mm, with surface treament of Antiglare, Hard coating (3H), Reflection 2.0% (Max.), net weight of 9.50Kgs (Typ.). As a Normally Black, Transmissive LCM product, T370HW01 V1 can provides 550 cd/m² display brightness 800:1 transimissive contrast ratio, 85/85/85/85 (Typ.)(CR≥10) (L/R/U/D) viewing angle, best view direction on Symmetry , and response time of 15/6 (Typ.)(Tr/Td); 8 (Typ.)(G to G) ms. Gray scale or the brightness of the sub-pixel is determined with a 8-bit gray scale signal for each dot, thus presenting a palette of 16.7M colors, also with performance of color gamut 73% (NTSC). This product adopted CCFL as it"s backlight systerm which was placed as Direct light type and have a working life time of 60K hours, With Inverter. T370HW01 V1 utilizes LVDS (2 ch, 8-bit) as it"s signal inputting systerm, which connected by 41 pins Connector with power supply voltage of 12.0V (Typ.). It"s typical vertical frame rate (Fv) is 60Hz. For more latest product detail of T370HW01 V1 we strongly recommend that you should refer to datasheet listed on Panelook.com or contact with AUO.

T370HW01 V2 (Alias: T370HW01 V.2) is a 37" diagonal a-Si TFT-LCD display panel product from AU Optronics Corp. (hereafter called AUO), with an integral CCFL backlight system, With Inverter , without touch screen. It features an operating temperature range of 0 ~ 50°C , a storage temperature range of -20 ~ 60°C . It"s general features are summarized by Panelook in the following: sRGB, Hight Brightness, With Inverter, Matte . Based on its features, Panelook recommend that this model be applied to TV Sets etc. According to the information stored in Panelook this model mass production on Q3, 2005, Now this model is discontinued. There are 0 items stock and 0 suppliers of this model on Panelook. We inputted this model"s specification on Jan 5 2011 for the first time, and the latest update on Dec 10 2019. If you want to embed the LCM in your future product, Panelook strongly recommend that you should contact with AUO or it"s agent to learn lateast production and specification detail of T370HW01 V2. The production status marked on Panelook.com is for reference only and should not be used as the basis for the user"s decision making. All specification details are inputted by Panelook engineers according to datasheet, but mistakes maybe made during inputting.

Para sa AUO T370HW01 V0 pdf datasheet o detalyadong pagtutukoy ng AUO T370HW01 V0 o iba pang AUO LCDs, mangyaring mag-email sa amin, magiging masaya kaming magbigay ng isa.

Abstract: F1-WE31P-HF connector SAMSUNG 30 PIN 37 pin TFT display Jae 50 pin lcd samsung backlight inverter 95 160 LTM240W1-L01 F1-WE31S-HF datasheets twisted pair

Text: HR I12L20002 INVERTER ORIGINAL REFER. EQUIVAL. GH151A GH214A BN44-00136A Dimensiones / size : 272mm x 95mm 1 24V 2 24V 3 24V 4 24V Conector Control / Control Connector 5 6 7 8 9 10 11 12 13 14 24V GND GND GND GND GND N.C. on-off Br.A Pwm LCD panel manuf. LCD Panel cod. SAMSUNG LTA240M1-L02 LM240M2-L01/02 Marca / Brand SAMSUNG Model Observaciones / Remarks -

Abstract: TV LCD SERVICE TRAINING LCD Module samsung mobile phones LTE430WQ LTA700 samsung lcd television sony LCD display LTA400 LTN141W samsung ltn154

Black level (darkness of the color black)LCDs require a source of light to display an image. Most today use cold cathode fluorescent lights (CCFLs), while more expensive ones use LED. With either technology, the crystals have a hard time blocking the light. How well they can do this is quantized by the black level. This measures how many nits (candelas per square meter) are emitted when black is displayed. Lower the better for black. For white, you"d want the highest value possible. The low black and the high white brightness values will produce a high-contrast display, and that"s what you"re looking for in terms of colors.

Response timeResponse time measures how long it takes for one crystal cell to change its state from on to off. Some types of panels are faster than others in this category. The lower value of time (usually milliseconds) means a quicker change. A high response time can cause blurry/streaky effects in motion. A technology called ODC (overdriving circuit) can assist in reducing these effects.

Viewing angleThe viewing angle measurement denotes how far to each side it is that you can still make out an undistorted image. This varies among panels as well, as do all of the above. On TN panels, the colors will invert when viewed at an extreme angle. VAs will generally just decrease in brightness with little color shift. IPS panels exhibit the fewest effects when viewing from a different angle.

Input versatilityMany monitors come with both a DVI (Digital Visual Interface) and VGA (Video Graphics Array) interface. DVI will deliver a perfect pictures in terms of geometry due to its digital nature. VGA, analog, can sometimes be noisy or blurry. Generally the difference is insignificant on LCDs 17" or smaller.

ErgonomicsLCDs can be very flexible with physical adjustments. These may include height adjustment, tilt, swivel, pivot, and rotate (portrait/landscape).It shouldn"t come as a surprise all measurements are biased when it comes to manufacturers" specifications.------------------------------

(Please note that no guarantees are made regarding the accuracy of the scientific details on these panels.)TN (Twisted Nematic): Without an ODC (overdriving circuit), this type of panel offers the fastest pixel response time. This does however come at the expensive of viewing angles and color fidelity. Out of all TFT-LCD panels, the TN type has the lowest contrast. It is also a 6-bit color depth panel, meaning dithering or frame rate control (FRC) must be employed to reach close to a full 8-bit depth. Pixels in their active state on a TN are black, while in their inactive, white.(P-)MVA ({Premium} Multidomain Vertical Alignment): The liquid crystal (LC) cells on MVA panels are in their active state white, and in inactive black and are separated into four domains. This slightly improves viewing angle over TN-type displays (MVAs provide ~45 degrees). MVA panels also provide a high contrast ratio. Grayscale inversion is minimal on these displays. Response time is the second slowest in the industry without ODCs.PVA (Patterned-ITO Vertical Alignment): Developed by Samsung, PVA is very similar to MVA. Viewing angles are very similar and inversion is minimal at wide viewing angles. Samsung is not clear on the true color depth of these panels. These panels deliver the slowest response time.S-PVA (Super Patterned-ITO Vertical Alignment): These types of panels deliver a full 8-bit color depth and have a structure split into eight domains. At wide viewing angles, they have less color shift and a lower black level than MVAs. According to Samsung, they have a higher contrast ratio and better response time than MVAs as well.S-MVA (Super Multidomain Vertical Alignment): Likely similar to P-MVA from AU Optronics, Chi Mei Optoelectronics has developed the S-MVA type of panel. These also include multidomain, vertically-aligned liquid crystals so that the cells stay in the same shape at different positions, increasing brightness at wide viewing angles. According to CMO, S-MVA improves viewing angles from conventional MVA types to 80 degrees in all angles. Like other types of panels, response time has gradually improved on these as well.IPS (In-Plane Switching): The IPS panel was pioneered by Hitachi to fix the problems that plague the VA and TN types. Like TN, most IPSes contain only a single domain, although DD-IPS (dual domain IPS) does exist. This technology sports the least distortion at wide viewing angles. Two transistors per each pixel are needed, so brighter backlighting is crucial and power consumption is higher than competing technologies, but response time benefits greatly from this. Color depth varies. One disadvantage is that a purple-black is now introduced in black colors at different viewing angles.S-IPS (Super In-Plane Switching): LG Philips LCD improved on IPS with their S-IPS technology, which uses multiple domains of cells in its structure. These offer a lower black level, higher contrast ratio, lower response time, and a wider viewing angle than traditional IPS technology. Color depth on S-IPS panels is 8-bit. The purple-black still applies to wide viewing angles, but orange and red hues are greatly reduced versus other technologies at wider viewing angles.AS-IPS (Advanced/Enhanced Super In-Plane Switching): These type of panels are LG Philips LCD"s third generation of IPS technology. This is mainly just a wieldy moniker for improvements in the front-end driving electronics, including ODC to reduce response time, and a dynamic contrast ratio technology, raising contrast up to 1600:1. The diagonal viewing angle is also increased to 178 degrees, from 170 on S-IPS panels. AS-IPS panels very often include much brighter backlights than S-IPS types.A-MVA (Advanced Multidomain Vertical Alignment): This is a new panel from AU Optronics promising contrast ratio and viewing angle performance comparable to Samsung"s 8-domain S-PVA panels. These should be capable of true 8-bit color. Still, it is unknown if ODC will force them to dither.----------------------------------------------------

3.Aspect Ratios and Resolutions----------------------------------------------------Aspect ratio is a proportion representing width divided by height. Common aspect ratios are listed below.5:4 (1280x1024 for 17" and 19"): Squarest of all the listed, thus maximum area.4:3 (1600x1200 for 20.1")16:10 (1680x1050 for 20.1", 1920x1200 for 24"): Resolution of most "widescreen" monitors16:9 (1280x720, 1920x1080): True widescreen. No LCD monitors that I know of incorporate this HDTV resolution with one exception, this Westinghouse 37", but this is more of a TV due to its size. 16:10 is the commonly used one for monitors because it"s a good compromise between productivity (Word documents anyone?) and movie watching.

4.Technologies--------------------------Overdrive (Response Time Accelerator)Most commonly called ClearMotiv (ViewSonic), MagicSpeed (Samsung), Over Driving Circuit (LG.Philips LCD), and Response Time Compensation (X-Bit Labs). All of the above technologies bump the voltage to increase the speed of the transition (among other things in the case of ClearMotiv). When it goes too far (an overshoot, rated as unsafe under "ADCC" under recommendations), there can be noise, especially noticeable in subtle transitions or the dithering of TN panels. Tom"s Hardware Guide does however have a rating for this overshoot phenomenon. X-Bit Labs has also *****ed down on it in their recent reviews.

"Widescreen" (16:10 AR)Usually widescreen means 16:9, but LCD monitor manufacturers use the moniker widescreen to refer to a 16:10 ratio instead, a compromise between desktop real estate and movie watching. While it may sound great at first, there are a lot of things to consider. Is widescreen all it"s *****ed up to be?

The main problem with widescreen is the resolution itself. As you may know, LCDs can not change their resolution without a loss of quality, and most of the time it"s a significant loss of clarity. CRTs can do this much better because they inherently have a Gaussian distribution of the pixels, and in the end it yields much better quality. Think of it like analog zoom vs. digital zoom.

This means in order to get a good image on a widescreen monitor, you must run it at its native resolution, or deal with black bars on the edges. I"d say 75% of today"s games still require you to edit a configuration file manually to achieve the widescreen resolution. Fortunately, many people have already done the grunt work for you. Here"s a site that will help you configure your game to work with your widescreen LCD: Widescreen Gaming Forum

X-Brite/OptiClear/Acer CrystalBriteThese are special contrast-increasing coatings. Note, Samsung"s MagicBright/MagicColor and BenQ"s SensEye are not necessarily related to these, they are internal panel technologies. Anyhow, many people prefer the higher contrast of these coatings and say they look beautiful. One small note of concern is they could increase glare, but that"ll depend on your light. It probably still won"t be as bad as a CRT in that regard (glare).

5."Ghosting"----------------------Maybe you"ve looked at LCDs before, and find the colors great, the viewing angles good, but one thing you are especially worried about with your future purchase is the response time. There"s a fundamental problem in explaining how good or bad the level of ghosting is. This may be the only way I can relate it to you: if you"ve ever used an aperture grille CRT and seen its faint lines but still love it regardless, the same thing will probably happen to you with response time.

Obviously the first week you get it, that"s the first thing you"re going to look for, because for most gamers it"s the obvious disadvantage. So you bring your LCD home, plug it in and play some Battlefield 2 on it, then turn around a bit, and you can see some smearing. At that point, you"re probably already thinking of returning it and thinking you"ll never be able to live with it. In reality, once you take your focus off scrutinizing the ghosting and start playing your game, you will find it to be an extremely small obstruction, if it is any problem at all. In the end, that"s all that matters. It"s also worth noting some people may not even be able to see it if they look for it. Unless you have a panel with an atrocious response time like 25ms. (min), then it will be a minor issue. That said there are some people who may be especially sensitive to it.---------------------------------------------------

6.Backlight Uniformity/Leaking---------------------------------------------------Unfortunately, this can vary a lot per unit. If uniformity is bad, some places on the panel will be slightly brighter than others. This still occurs today, especially in cheaper monitors. However even more expensive ones have their share of duds, such as the VP191b/VP930b, which many users have had leaking issues with, along with some of the Dells. But like I said, this will vary per unit. The majority of the time, this is not a problem.---------------------------------------------

7.Common Misconceptions---------------------------------------------An IPS or VA panel is always 8-bitJust because the crystals themselves have the ability to twist that accurate does not necessarily mean the driving electronics can support it. Don"t rely on this. For instance, the Samsung 970P and ViewSonic VP930b use a form of dithering/FRC.

Viewing anglesAnother inflated spec. 160/160 can mean 80/80 up/down and 80/80 left/right or 40/120 up/down and 90/70 left/right. You can"t tell. Some manufacturers will list their method as CR>5 or CR>10, this means it maintains a contrast ratio>x at y angle. But there will still be immense distortion on some panels, particularly TN. It does not take that in to account.

Bigger is betterWhen you compare a 17" to a 19" which both have a 5:4 1280x1024 resolution, the 19" only has bigger dot pitch. This means your display will be grainier in general, though text will be bigger for the visually-impaired. Unfortunately, manufacturers are mostly only spending R&D on 19" panels nowadays, and some are even cheaper than their 17" counterparts.------------------------------------

8.Color Reproduction------------------------------------6-bit LCDs can truly only produce 262,144 colors ((2^6)^3). Thus they must implement a dithering or frame rate control technique to simulate up to 16.7 million colors. These techniques still don"t reproduce colors as good as 8-bit panels that don"t use the dithering. More primitive forms of dithering can only reach 16.2 million colors (253^3=16,194,277). True 8-bit PVA and IPS panel LCDs can produce 16,777,216 (16.7 million) real colors ((2^8)^3). And to recap: not all PVA and IPS panels are driven by "true" 8-bit electronics, so they could still use dithering! As another precaution, LCDs do tend to have problems reproducing skin/subtle tones vibrantly.----------------------------------

9.Recommendations----------------------------------Ranks are based on #1 being BEST LCD (in terms of the specified category), regardless of price. Below each section is a list of panels best suited for that purpose. A bracket indicates an optional feature (you will still be happy without the feature). Recommended LCDs have a strong foundation of favorable reviews.

Note: This is if you work professionally as a graphics designer, have a huge budget, and need picture-perfect colors. You do not need these by any means for casual off-and-on photo editing! For affordable consumer photo editing, look for other S-IPS/S-PVA panel LCDs.

10.Problem-prone LCD"s----------------------------------------Note: these issues (all of them AFAIK) may only apply for a certain batch or exist in rare quantities so it"s hard not to recommend them when there"s no suitable replacement.

General IssuesHyundai ImageQuest L90D+ - vertical line? here"s an account: Blue line going vertically down screen (There is more evidence than just that about this issue with the L90D+.)ViewSonic VX924/VP191B/VP930B - backlight leaking (I can definitely attest to that for the VP930b but in rare situations). Backlight usually forms X shape. In my personal experience, the VP930b has another glitch in it where it will show a "theft deterrent" message. A hard reset fixed it.cDell UltraSharp 2005FPW - Backlight leaking.Dell UltraSharp 2007FP/2007WFP - Bad gradient banding problems in earlier revisions.LCDs with bad Overdrive side effects

Well this is great, but how do you tell which kind of panel an LCD is, you ask? Well there are a number of helpful resources. I prefer the following:Google (search with model and "Samsung panel" or "AUO panel" or "CMO panel" or "LG panel", "Hitachi panel", etc. without the quotes)

Or feel free to ask in this very thread. There are a number of tip-offs as well, like 178/178 viewing angle almost always being a A-MVA/S-PVA/S-IPS panel. Beware however that, though rare, some LCDs of the same model may use a drastically different panel!---------------------------------------------------------

For the AUO T260XVN01.4 pdf datasheet or detailed specifications of the AUO T260XVN01.4 or other AUO LCDs, please email us, we"ll be happy to provide one.

A101VW01 V3(Alias: A101VW01 V.3) is a10.1"diagonal a-Si TFT-LCD display panel product from AU Optronics Corp. (hereafter calledAUO), with an integral WLED backlight system, without backlight driver, without touch screen. It features an operating temperature range of -10 ~ 60°C , a storage temperature range of -20 ~ 70°C . It"s general features are summarized by Panelook in the following: Antiglare Surface, Landscape type, White LED Backlight, Wide Aspect Ratio, U/D,L/R Reverse . Based on its features, Panelook recommend that this model be applied toDigital Photo Frame,Portable DVD Player,Industrial Applicationetc. According to the information stored in Panelook this model mass production on Q3, 2009, Now this model is in production. There are 2 items stock and 15 suppliers of this model on Panelook. We inputted this model"s specification on Sep 22 2012 for the first time, and the latest update on Aug 1 2017. If you want to embed the LCM in your future product, Panelook strongly recommend that you should contact with AUO or it"s agent to learn lateast production and specification detail of A101VW01 V3. The production status marked on Panelook.com is for reference only and should not be used as the basis for the user"s decision making. All specification details are inputted by Panelook engineers according to datasheet, but mistakes maybe made during inputting.