LCD -matrices,differences and what models are placed

[hristoslav2]

1.History
2.Types
3.Producers
4.How to understand what a matrix is placed in our television


HISTORY
The development of the modern LCD panel dates back much further than the big clunky watch you probably used to wear. In 1888 Friedrich Reinitzer was the first to discover the liquid crystalline nature of cholesterol benzoate, derived from carrots of all things. Reinitzer discovered that at 145 degrees C, the material melted, becoming cloudy. At 170 degrees C the material became clear. He presented his findings to a meeting of the Vienna Chemical Society that same year. Both Otto Lehmann and Charles Mauguin published papers expanding on the work of Reinitzer, in 1904 and 1911 respectively, but liquid crystals largely remained a scientific curiosity for the next 80 years.
The Modern Explosion
In 1962 it was Richard Williams of RCA who noticed that you could achieve some interesting electro-optical effects in liquid crystal by applying electricity to it, describing what is known as “Williams Domain” inside the liquid crystal. In 1964 George Heilmeier, also at RCA, expands upon the work of Williams and manages to turn a clear liquid milky by applying electricity. Heilmeir actually had the foresight to envision that a wall sized full color LCD display was achievable. The first actual active matrix display was T. Peter Brody in 1972. They were initially limited to small displays, like calculators, watches, and other small devices. In fact, it was Tomio Wada at Sharp who, in 1973, developed the first LCD product, a pocket calculator. In 1988 Sharp demonstrated the first active matrix full color full motion LCD panel. In 1991 Sharp’s Magohiro Aramoto introduced the first wall hanging television product, the Liquid Crystal Museum. Heilmeier’s dream had become a reality.
Several companies began investing in LCD technology in a big way. Sharp has been an industry leader since they first displayed their full color 14” in 1988. Since then other manufacturers, like Samsung, Hannstar, LG, Acer, BenQ, HP, Casio, Sony and Viewsonic (among many, many more!) have entered the fray. Sharp continues to be an industry standard, but Samsung and Sony have also made compelling claim to the title. . Despite being pivotal in the development of LCD technology, RCA was never able to capitalize on their contributions and never made or marketed a product.
LCDs are literally everywhere because they’re relatively inexpensive to make and can be used in virtually any application. The big manufacturers, like Samsung, Sharp, Hannstar and many others, have spent hundreds of millions of dollars improving the technology. Today, LCDs can range in size from a fraction of an inch all the way up to the current monster, Sharp’s 108” display. The basic active matrix design hasn’t changed much since 1972. Like cars and computers, the design has become more refined, more responsive, and better at displaying accurate color.
What began as a curious physical effect in a material derived from a carrot took flight in a hopeful dream of a pioneer. Today’s LCD are faster than ever before and capable of reproducing clear, vibrant, life like pictures, improving on everything that’s gone before.. There are still limitations to the technology, but the next generation of displays will feature incredibly high resolutions and better image quality. Baby, you’ve come a long way.


Modern rediscovery

In 1962 Richard Williams of RCA, noticed that could be achieved to some interesting electro-optical effects in liquid crystals by applying electricity to them, describing what is known as "Williams Domain" inside the liquid crystal. In 1964, George Heilmeier, also company-RCA, isledvaniyata expand on his work and Williams managed to obtain a clear liquid mlekoobrazna by applying electricity. Heilmeir actually predicted that is achievable to make large wall full color LCD displays. The first real active matrix display is made of T. Peter Brody godina.Parvonachalno in 1972 were limited to small displays, such as calculators, watches and other small devices. In fact, it was made by Tomio Wada from Sharp, which in 1973, developed the first LCD display product for a pocket calculator. In 1988, firstly revealed Sharp LCD panel with full-color active matrix. In 1991 Magohiro Aramoto from Sharp presented the first television hanging on the wall with liquid crystals. Finally Heilmeier's dream becomes reality.

Several companies began investing in LCD technology in large scale. Sharp is a leader since they first showed its first color 14 "color display in 1988. Since then, other manufacturers such as Samsung", Hannstar, LG, Acer, BenQ, HP, Casio, Sony and Viewsonic (now very, very more!) enter into a battle for market position. Sharp continues to be industry standard, but Samsung and Sony also make claims against the technology. Although RCA is a leader in the development of LCD technology has never been able to capitalize on their investment research and will never sell your product.

LCDs are literally everywhere, as they are relatively inexpensive, is used in all applications. Large manufacturers such as Samsung, Sharp, Hannstar and many others, spent hundreds of millions of dollars to improve the technology. Today, LCDs can vary in size from a fraction of an inch to the size of monster-Sharp 108 "display. The design of active matrix has not changed much since 1972.

Liquid crystals are organic compounds with long molecules, which in its natural state is characterized by the absence of close and distant arrangement, ie most neighboring molecules are arranged in parallel in length to each other, but generally they are all rather chaotic.
The LCD panel liquid crystals are confined between two parallel transparent plates with very finely striated inner surface. Molecules of liquid crystals follow the orientation of the inner few gullies and since both are striated plates at 90 ° to one another, this leads to a kind of "twisting" of molecules. The path of light rays depends on the arrangement of molecules and passing through the layer of liquid crystal light can change its direction.

Production consists of over 300 individual steps performed in clean rooms, with the highest level of cleanliness - Class 10 "-no more than 10 particles of powder to 1 cubic meter.

1 line matrix sizes - 40 x 30 mm which are cut from 1x15 "display
3.3 line matrix with dimensions -720 x 600 millimeters from a cut 4x15 "display
3.4 line matrix with dimensions -720 x 610 millimeters from a cut 6xXX "display
3.5 line matrix with dimensions -750 x 620 millimeters from a cut 6x14.1 "display
4 line matrix with dimensions -880 x 680 millimeters from a cut 6x15 "display
5 line matrix sizes -1250x1100 millimeters from a cut 6x22"displays
5.1 line matrix sizes -1300x1100 millimeters from a cut 6x26"displays
5.5 line matrix sizes -1500x1300 millimeters from a cut 6x32"displays
6 line matrix sizes -1850x1500 millimeters from a cut 8x32"displays or 6x37''
7.1 line matrix sizes -2200x1870 millimeters from a cut 8x40"displays
7.2 line matrix sizes -2200x1870 millimeters from a cut 6x46"displays
7.5 line matrix sizes -2250x1950 millimeters from a cut 6x47"displays or 8x42''
8 line matrix sizes -2500x2200 millimeters from a cut 6x50 "displays
8.2 line matrix of dimensions 2500x2200 millimeters from a cut 8x46"displays
8.5 line matrix of dimensions 2500x2200 millimeters from a cut 6x52"displays
8.7 line matrix of dimensions 3050x2850 millimeters from a cut 6x60 "display
10 line matrix size 3130 x 2880 mm of which are cut 6x60 "display or 8x50''

end product-LCD video panel
http://wfogcq.bay.livefilestore.com/...Module%202.jpg
TYPE
LCD TFT (Liquid Crystal Display Thin Film Transistor) - LCD displays with thin transistor) liquid crystal substance is shown between two glass plates. Light passes through crystals in accordance with the direction in which their molecules are orientirani. Polarizing filters manage light passing through them. Upon submission of tension, the molecules in the crystal occupy a position in which light -
tion falls on the perpendicular polarizing filter. Tension forces of each liquid crystal pixel to work as a camera aperture - so stop or pass filter incident light on it.
Liquid crystal display (LCD) technology is classified into 3 categories of TN, VA and IPS separated by the method of movement.

Super Twisted Nematic LCs
Super Twisted Nematic LCs

http://lcdtech.no-ip.info/images/lcd.faq.04.jpg
change the picture of TN at different angles vertically. There are well marked lightening look at the picture above and look for a strong darkening below.

Amendment of the picture in horizontal panels in TN
http://www.hdtv.ru/uploads/faq/1213185868_tn.jpg

TN (Twisted Nematic) TFT or TN + Film TFT (Twisted Nematic + Film). The most common type of digital panel is based on technology called TN TFT. The term "layer" (Film) means an additional outer layer that allows to increase the usual viewing angle of 90 (45 from each of the two countries) to 140 degrees which were first put into production, have a simple structure but have a bad viewing angle / small /.
TN-panels are cheap, fast, with poor color reproduction, viewing angle little practice it the most common types of LCD displays on the market. From a historical perspective is the first TN TFT LCD technology officially presented. When they added an additional outer layer through which to achieve a significant increase in horizontal and vertical visual angles. The prevalence of this type displays due to the low cost of production, which is why to this day continue to be produced. In older LCD displays are to notice a serious deficiency in terms of narrow vertical visual angles and inaccurate reproduction of black. Over the years, however, TN TFT technology has evolved rapidly and today, 15 - and 17-inch semi-LCD displays may offer more depth of color in displaying dark shades of gray to black. Another problem with this type of displays occurs whenever the first "dead pixels". The occurrence of dead pixels is quite normal technological process and occurs, if the pixel transistor "die". In TN TFT displays that leads to the emergence of the World "dead" area, which is highly visible to the naked eye.
This type displays are characterized by poor tsvetopodavane, which is not critical in the case of choice for home and office. However, this makes them ineligible for professionals involved in prepress and design activities
B-TN ( "Best TN"): Best TN is the newest technology of Samsung. Argue whether this is the best TN or that of LG Philips.

Super-TFT and IPS (In-Plane Switching)
was developed by Hitachi in 1996 to improve the viewing angle and color reproduction in TN panels. Although color reproduction is improved compared to CRT-th, the dynamic range is a real kind nisak.Edinstveniyat IPS placement of crystals. Molecules of liquid crystals are arranged in a horizontal position in the IPS panels, resulting in better picture, better color reproduktsiyai wider viewing angle.
Most panels have a real 8-bit color per channel. IPS allows increasing the angle of vision to almost 170 degrees, using a more precise method to control the order of liquid crystals, which is the main contribution of this technology. However, contrast ratios remain at the same level as those who are in TN TFT technology, response time and even significant improvements narastnalo.Vapreki contrast ratios remain the same level of those who are in TN TFT technology, response time and pixel is even increased (in the first IPS models up to 50 ms!). The positive side to this method is that "dying" automatically become black pixels as opposed to pure white in TN TFT panels. IPS is a major improvement in cases in which the transistors burn management (and subsequently emerging "dead" pixels). With this technology, after "dying" pixel, instead of irritating the emergence of a bright point on the screen is black and it makes almost no impression on the end user.
http://www.personal.kent.edu/~mgu/LCD/ips.htm
In-Plane Switching
Changes in the image of the IPS in the horizontal angle
http://lcdtech.no-ip.info/images/lcd.faq.05.jpg
The black color of the S-IPS in side view in cross violet
http://www.hdtv.ru/uploads/faq/1213185847_ips.jpg

http://www.ips-alpha.co.jp/en/techno...ages/ips03.jpg

http://bbsimg.pcpop.com/UpLoadImages...9aa4cfa482.jpg
e-IPS is basically a more economical S-IPS panel that is cheaper to produce.
Comprehensive List of S-IPS/H-IPS/e-IPS and other IPS Based LCD Monitors

IPSα LCD Panel
IPSα LCD Panel : LCD TV : Flat Panel TV : AV Products : HITACHI
HITACHI : IPS-Pro(Evolving IPS technology)

S-IPS (Super-IPS, Hitachi in 1998)-Technology Developing the IPS technology with namalenono response time of pixels. S-IPS technology is widely used in the panels of a size of 20 and upwards. LG.Philips is one of the two major producers of S-IPS based panels. LG technology developed further, announcing TW-IPS (True Wide - IPS), which In addition to good quality and quick response time was achieved and a significant increase in visual angles S-IPS displays.
Overall, the IPS is designed for professional market segment where quality determines the purchase. Is also known variations in S-IPS (Super IPS) and DD-IPS (Dual Domain IPS), IPS-Pro In-Plane-Switching-Provectus / Provectus - means innovation in Latin /

H-IPS (Horizontal IPS) - used for computer monitors, implemented in late 2006, is an improvement on its predecessor, S-IPS panel.
pros and cons of H-IPS compared to S-IPS:
Pros:
* Less leakage of the backlight.
* No purple color viewing angle
* Less visible backlight leakage angle
* Less noise or glitter seen on the surface of the panels (smooth, smooth)
Cons:
* Still backlight leakage in areas that are green.
* Viewing angle is narrow
http://www.personal.kent.edu/~mgu/pictures/ips.ht1.jpg

AS-IPS (Advanced Super IPS): (Extended Super IPS): is also developed by Hitachi in 2002 and from dorazvitta LG.Philips.Ima podobrenie significant range of contrast to traditional S-IPS panels - second only after the S-PVA panels. Super contrast and response time, wide viewing angles, natural skin tones.

A-TW-IPS -(Advanced True White IPS), was developed by LG.Philips LCD for NEC, is a custom S-IPS panel with one TW (True White) color filter that makes whites appear to be natural and to increase the color gamut. Used in professional photography.

SA-SFT (Super-Advanced Super-Fine TFT): Professional IPS types with slightly modified color filters to improve the reproduction of natural colors. (Extremely expensive, used to monitor for professional photography)


MVA: (Multi-Domain Vertical Alignment ) of the previous VA successor technologies.
Multi-Domain Vertical Alignment
E third technology developed by Fujitsu in 1998 as a compromise in both price and in the technical relationship between TN and IPS and is promising in terms of overcoming (at least as things look from a theoretical point of view) of the main drawbacks of LCD panels. In general, its advantages are focused in that it is able to improve the angle of vision (second behind S-IPS technology), good deep black color reproduction, and good depth, and fast response time of pixels through the use of RTC technologies. It carries out these advantages, because it has all the color elements on the panel, they are divided into cells and zones. They are formed by raised parts of the internal structure of the filters. The purpose of this design is to enable the liquid crystal to move in a direction opposite to the neighboring liquid crystals. This also allows the viewer to see the same degree of zasenchenost and quality of color, regardless of the angle of viewing.
Each pixel is divided into four parts, so-called domains, in which the crystal is rotated to a different agli.Bez ispadam in detail I will only say that it is necessary to ensure good viewing angle: svetimosta of each domain is highly dependent on angle of viewing, but chetirirazlichno oriented domains in average give the same brightness regardless of whether they watch the top, side or bottom.
One of the minor problems in the MVA-matrix is the existence of dark yavlyava arrival and departure, raspolozhenna of pixels in place of "stikovka" of neighboring domains - it reduces the overall transparency of the pixels, and that means lower efficiency of LCD-panela, which is so weak, something poryadaka 4% (that is, if all the panel shows the pure white color, it means that it passes through only 4% of the lights emitted from the backlight light).
There are several generations of "next-generation" technologies based on MVA, including those produced by AU Optronics-P-MVA and A-MVA, and well known of Chi Mei Optoelectronics-S-MVA. MVA is currently manufactured at mass matrices.

Amendment of the image horizontally on MVA panels
http://www.hdtv.ru/uploads/faq/1213185893_xva.jpg

PVA: (Patterned-ITO Vertical Alignment), typical Samsung panel. Suffers from the same shortcomings as those of the MVA, but this does smekta is characterized by very good contrast in the visualization of images.
PVA and S-PVA (super patterned vertical alignment) are alternative versions of MVA technology. Developed separately and independently, they offer only peculiarity of MVA, but with greater range of contrast reaching up to 5000:1. By offering cheaper PVA panels use dithering and FRC, PVA and S-PVA offer better black and deep and wide viewing angle. S-PVA also offer less response time of pixels using modern technology CRT

S-PVA: Super Patterned Indium Tin Oxide Vertical Alignment (silly). represents an improvement of PVA technology
S-PVA are already true 8-bit and higher contrast than PVA. S-PVA-have two zones, each of which has four eight-domain domain subpiksel. Corners of the survey are nesimmetrichni, changing the range in look from one side is larger than the other.

C-PVA: Circularly Polarized Vertical Alignments circular polarization / instead of linear /
http://www.cdr.ust.hk/publications/r...06/SID39_2.pdf
L1383-L1385

ASV-Advanced Super View (ASV - Axially Symmetric Vertical Alignment) ASV is also called CPA. Sharp.Tova was developed by a matrix-type VA-vertcal aligment. ASV LCD TVs using panels provide 170 degrees viewing cone with a range of contrast more than Gholam 10:1, reaction time reaches 15ms.
With the Power LCD molecules depart in all directions, as feyerverki for obespechavane out the best angle of view in all panels. Color screen depends less on the angle of viewing. Image is bright and coloring.

MANUFACTURERS OF THE MATRIX
In each segment has its own champions and medium. LCD-TVs - are no exception to the rule. Here present as famous brands, self-dealing with the development and implementation of various tehnologiy and OEM-manufacturers, selling under its own brand devices collected third factory preference Chinese. The two most famous of them-AU Optronics, a company belonging to Acer, and Chi-Mei OptoElectronics. But this does not mean that their production is uncompetitive. Is rather the opposite. The expense of inferior price in the sales volumes of production of these companies exceeded sales of renowned brands, self-consumed in huge money. To the shortcomings of the OEM televisions can be classified functionally mediocre name terribly inconvenient for menu navigation settings in their disgusting Ergonomics Doo and other weaknesses. But the price, as is known, for the majority of Bulgarians - is the main criterion. Quality characteristics in television are at higher than average, and matrices are the same. Production of famous brands, as laid, are characterized by excellent equipped, there are various systems for noise reduction and improving functional characteristics of the picture. In a word - branding interest offset any shortcomings in the OEM-production, but the price of their apparatura is remarkably higher. What to choose? Deciding. I will only enumerate the current market leaders. Top positions in global ratings of loan production companies Philips, Samsung and Sharp. These companies are engaged in developing not only the chassis, but also of the matrices. For example, Philips was until recently an apologist for S-IPS, but under pressure from market trends to switch to cheaper cheaper matrices xVA / but there are still models with S-IPS / now and in towards the ASV. Industrialen Korean giant Samsung, in turn, is the developer of a variety of displays Owned - PVA (also kind of xVA). In full measure the same goes for Sharp, moisture giant funds in developing their own ASV-matrices and construction of plants for their production. Accordingly, the television producer of these three are the most expensive. Opravdanno you are expensive? On my sight completely. Quality must be paid, and Poker cheese, as is known, has only mishelovkata, and only the second mouse.
Further in the list are companies such as Sony, LG, Toshiba and Panasonic. they put TVs in every way to the first three companies, but no laurels of parvoprohodtsi and innovators. So if your family budget allows, you better choose LCD-TV from the above listed producers. If not - then select the OEM. What? On my view, this is not so important. The main thing is, before the purchase to appreciate the ergonomics of the console of the remote control and menu quality localization apparata and, of course, be sure to be interested to guarantee obligations of the manufacturer.

IPS Alpha Tehnology,Ltd -Joint Undertaking Hitachi Ltd и Matsushita-made IPSAlpha & IPS-Pro
IPS Alpha Technology, Ltd.
IPS Alpha Technology, Ltd. : Products

Hitachi Display produce - IPS-Pro In-Plane-Switching-Provectus/Provectus - means innovation in Latin /matrices
HITACHI : IPS-Pro(Evolving IPS technology)
http://www.msc-ge.com/en/3592-www/ve...df?language=de

Samsung-S-LCD produce S-PVA & PVA matrices
SAMSUNG's Digital World
SAMSUNG's Digital World
http://www.samsung.com/global/busine...an_product.pdf
SAMSUNG's Digital World
произвеждат основно S-PVA поставят ги в SONY,SAMSUNG,TCL
http://www.action.com.tw/tech/lcd/samsung-tech.doc

Chi Mei Optoelectronics produce TN , LCS MVA , SMVA matrices
http://www.msc-ge.com/en/3692-www/ve...ure_2009Q2.pdf
Welcome to CMO - Chi Mei Optoelectronics
Chi Mei Optoelectronics - LCD TV Master Specs
http://www.tuvdotcom.com/pi/web/Deta...D=0&type=Mname
Chilin Displays е подразделение на CMO
Chi Lin Technology Co., Ltd.
Flat Panel LCD Display Manufacturing, Design | Chilin Display

CHUANGHWA PICTURE TUBES Ltd produce S-IPS matrices
CHUNGHWA PICTURE TUBES, LTD. - Spot Light
CHUNGHWA PICTURE TUBES, LTD. - TFT

HannStar produce S-IPS matrices
HannStar Display Corporation

Boe Hydis произвеждат AFFS технология близка до S-IPS

Hydis
HYDIS

InfoVision Optoelectronics(Kunshan) Co. Ltd.
http://www.ivo.com.cn/ROOTE/pages/service/weizhi.jsp

InnoLux
¸s³Ð¥ú¹q

Sharp
http://www.sharpsme.com/Page.aspx/eu...f_64_-_165_cm/
Liquid crystal display technology | Liquid crystal technologies | Kameyama Manufacturing | Kameyama | SHARP
Sharp: TV Panels

Index: SHARP Electronic Components
Sharp Information Display Products join forces with RGB Communications
CPA (Continuous Pinwheel Alignment) беше развита от Sharp.

SMD

SVA-NEC Liquid Crystal Display Co. Ltd
SVA-NEC
http://www.msc-ge.com/en/3314-www/ve...NEWS_vol13.pdf

Toshiba Matsushita Display Technology Co
Toshiba Mobile Display


AU Optronics (AUO)- Acer Unipac Optronics
Welcome to AUO Online
produced P-MVA и A-MVA -(Advanced MVA)-

AUO Online: Products


LG-Philips /LG DISPLAY/ produce S-IPS и H-IPS & е-IPS matrices
Welcome to LG Display
WXN - W widescreen, X-HD, N- 60Hz
WUN - W widescreen, U-Full HD , N- 60Hz
WUD - W widescreen, U-Full HD , D-120Hz/240Hz
WUL - W widescreen, U-Full HD , L-led baclight


Fujitsu AVIAMOâ„¢ (Full HD) - FUJITSU GENERAL
MVA -

NEC
SA-SFT (IPS series)

IDTech
DD-IPS (Dual Domain IPS)

AMPIRE CO.LTD.
AMPIRE ´¹ªö¥ú¹q

Chi Hsin Electronics Corp
http://www.chihsin.com/en/product/mobile.asp


Here are what sells to whom
http://techon.nikkeibp.co.jp/article...44/hitachi.jpg

http://www.themolehole.eclipse.co.uk/panelshare.jpg

[hristoslav2]

TOSHIBA LCD TV
Manufacturer of the matrix can be seen on the back etiquette
the right of the serial number has a point / in the white box below the right /
http://forum.setcom.bg/index.php?act...ach=2015;image

http://forum.setcom.bg/index.php?act...ach=2082;image

http://forum.setcom.bg/index.php?act...ach=2521;image

1.Models before mid-2008.
''S''---> SAMSUNG matrix
C''''---> SHARP matrix
''L''---> LG matrix
2.Modeli after mid-2008.
''S''---> SHARP matrix
K''''---> SAMSUNG matrix
''L''---> LG matrix
A''''---> AUO matrix

Examples:
1.On boxes on TV
http://www.nix.ru/autocatalog/lcd_tv...2248_draft.jpg

http://forum.setcom.bg/index.php?act...ach=2030;image
http://forum.setcom.bg/index.php?act...ach=2031;image

or the sticker on the back panel / to see it required removing the rear panel of the TV /

http://forum.ixbt.com/post.cgi?id=attach:62:11088:580:3
http://forum.ixbt.com/post.cgi?id=attach:62:11088:580:2
TOSHIBA put televisions in their S-PVA and A-MVA matrices. Z and ZF are guaranteed the presence of S-PVA matrix displeya.Ot Z3030 series 52-kata only has S-PVA matrix. 42 and 47 have a S-IPS LG.
ZF series of 40 and 46 inches are still with S-PVA.
Difference is easy to see - the black is clearly better



Toshiba Regza 52Z3030DG - S-PVA WCG (10bit), (LTA520HE04)
Toshiba 42XV500 - S-IPS - LG Dispay (LGD)
Toshiba 32AV635DR - H-IPS
Toshiba 32AV615DG --H-IPS
Toshiba 32AV605PG - H-IPS
Toshiba 40RV525R - LTA400HA11 S-PVA Samsung (S-LCD)
Toshiba 32RV635DB - LTF320HA09 S-PVA Samsung (S-LCD)
Toshiba 40, 46, 52XV645U,640U - S-PVA Samsung (S-LCD)
Toshiba 32RV635DB - LTF320HA09 S-PVA Samsung (S-LCD)
Toshiba 42ZV635DG - S-IPS - LG Dispay (LGD)
Toshiba 42RV635DG - S-IPS - LG Dispay (LGD)
Toshiba 42XV635DG - S-IPS - LG Dispay (LGD)
Toshiba 37XV635DR - S-IPS - LG Dispay (LGD)
Toshiba 40RV525R LTA400HA11,07, S-PVA Samsung (S-LCD)
Toshiba 40,46,52XV645U,640U - S-PVA Samsung (S-LCD)
Toshiba 46SV685 - S-PVA Samsung (S-LCD)
Toshiba 55SV685 - LTA550HF01 - S-PVA Samsung (S-LCD)
Toshiba 40LV685DG - S-PVA Samsung (S-LCD)
B ZV635 основен процесор е TC90417XBG , и Zoran медиапроцесор ZR36966PQCG-XG.
Toshiba 40LV655PR - S-PVA Samsung (S-LCD)
Toshiba 46ZV555DR - S-PVA Samsung (S-LCD)
32AV605,32AV615,32AV625,32AV635 - G8LGD32V4, LC320WXN-SBB1
-LK315T3LA51
37AV615 - LC370WXN-SBB1 - S-IPS - LG Dispay (LGD)
32RV625,32RV635 - LTA320HA04 - Samsung (S-LCD)

PHILIPS
How do we know what a matrix is placed on the TV?
Code matrix it has a sticker affixed to the bottom right televizora.Tri figures in the upper-right corner of the sticker or in the service menu / location may differ from the picture /
http://forum.ixbt.com/post.cgi?id=at...2:12718:5251:1
http://photofile.ru/photo/sundy/1152.../124350906.jpg
http://photofile.ru/photo/sundy/1152.../124350914.jpg

Models 2007
Sets Type Panel Type Panel Code
32PFL7762D/05 CMO: V315B1-L05 069
32PFL7762D/12 CMO: V315B1-L05 069
32PFL7962D/05 CMO: V315B1-L05 069
32PFL7962D/12 CMO: V315B1-L05 069
42PFL7762D/05 AUO: T420HW01V2 110
42PFL7762D/12 AUO: T420HW01V2 110
42PFL7962D/05 AUO: T420HW01V2 110
42PFL7962D/12 AUO: T420HW01V2 110
52PFL7762D/05 Sharp: LK520D3LZ13 098

Sets Type Panel Type Panel Code (Dec)
26PFL5322/10 LPL : LC260WX2-SLB2 045
CMO : V260B1-L03 068
AUO : T260XW03 V1 067
26PFL5322/12 LPL : LC260WX2-SLB2 045
CMO : V260B1-L03 068
AUO : T260XW03 V1 067
32PFL5322/10 LPL : LC320W01-SL06 046
AUO : T315XW02 VD 091
CMO : V315B1-L05 069
32PFL5322/12 LPL : LC320W01-SL06 046
AUO : T315XW02 VD 091
CMO : V315B1-L05 069
37PFL5322/10 LPL : LC370WX1-SLB1 071
AUO : T370XW02 V5 072
37PFL5322/12 LPL : LC370WX1-SLB1 071
AUO : T370XW02 V5 072
42PFL5322/10 LPL : LC420WX3-SLA1 073
AUO : T420XW01 V8 076
LPL : LC420WX5-SLD1 107
42PFL5322/12 LPL : LC420WX3-SLA1 073
AUO : T420XW01 V8 076
LPL : LC420WX5-SLD1 107

26PFL5322/12 LCD LPL LC260WX2-SLB2
26PFL5322/12 LCD CMO V260B1-L03
26PFL5322/12 LCD AUO T260XW03 V1
26PFL7532D/12 LCD LPL LC260WX2-SLB2
26PFL7532D/12 LCD CMO V260B1-L03
26PFL7532D/12 LCD AUO T260XW03 V1
32PFL5522D/12 LCD LG LC320W01-SL06
32PFL5522D/12 LCD AUO T315XW02 VD
32PFL5522D/12 LCD CMO V315B1-L05
37PFL5522D/12 LCD LPL LC370WX1-SLB1
37PFL5522D/12 LCD AUO T370XW02 V5
42PFL5522D/12 LCD LPL LC420WX3-SLA1
42PFL5522D/12 LCD LPL LC420WX5-SLD1
42PFL5522D/12 LCD AUO T420XW01 V8
42PFP5532D/12 PDP SDI 42 HD W2
42PFP5532D/12 PDP LG 42 HD X4
47PFL7632D/12 LCD LPL LC470WU4-SLA2
50PFP5532D/12 PDP SDI 50 HD W2
50PFP5532D/12 PDP LG 50 HD X4


Models 2008
code diagonal producer Where matrix is placed
069 32 V315B1-L05 CMO 32PFL5403, 32PFL7603
134 32 AUO VF 32 AUO 32PFL7403
136 32 LC320WXN-SAB1 LGPH 32PFL5403, 32PFL7603, 32PFL7623
147 32 HW01 VO 32 AUO 32PFL9603, 32PFL7803
152 32 LK315D3LZ43 Sharp 32PFL9603
153 32 LK315T3LZ93 Sharp 32PFL5403
154 32 LC320WXD-SAB1 LGPH 32PFL7403
156 32 T315XW02VL/05 AUO 32PFL3403
171 32 D3LZ73 Sharp 32PFL9613
129 37 T370HW02V3 AUO 37PFL5603
141 37 LC370WUF-SAB1 LGPH 37PFL9603, 37PFL7403
166 37 AUO V3 02 37" AUO 37PFL5603, 37PFL7603
113 42 T420XW01V9 AUO 42PFL3403
130 42 LC420WUE-SAA1 LGPH 42PFL7623, 42PFL5603, 42PFL7603
131 42 T420HW01V4 AUO 42PFL5603, 42PFL7603
132 42 V420H1-L09 CMO 42PFL5603
142 42 LC420WUF-SAA1 LGPH 42PFL7403, 42PFL7423, 42PFL7433, 42PFL9603
143 42 LC420WUF-SAC1 LGPH 42PFL9703
149 42 AUO HW02 V1 AUO 42PFL9803
135 47 LC470WUE-SAA1 LGPH 47PFL5603, 47PFL7603
145 47 LC470WUF-SAA1 LGPH 47PFL7403, 47PFL9603
146 47 LC470WUF-SAC1 LGPH 47PFL9703
159 47 V470H1-L05 CMO 47PFL5603
150 52 52PFL9703


32PFL3403D_12_1 T315XW02VL/05 код 156
32PFL5403D_10_1 V315B1 L05 код 069
32PFL5403D_12_1 V315B1 L05 код 069
32PFL5403D_10_2 LC320WXN-SAB1 код 136
32PFL5403D_12_2 LC320WXN-SAB1 код 136
32PFL5403D_79_1 V315B1-L05 код 069
32PFL5403D_79_2 LC320WXN-SAB1 код 136
32PFL5403H_10_1 V315B1 L05 код 069
32PFL5403H_10_2 LC320WXN-SAB1 код 136
32PFL5403H_10_3 LK315T3LZ93 код 153
37PFL5603D_10_1 T370HW02 V3 код 129
37PFL5603H_10_1 T370HW02 V3 код 129
42PFL3403D_12_1 T420XW01V9 код 113
42PFL5603D_10_1 Т420HW01 V4 код 131
42PFL5603D_10_2 LC420WUE - SAA1 код 130
42PFL5603D_10_3 V420H1-L09 код 132
42PFL5603D_12_1 T420HW01 V4 код 131
42PFL5603D_12_2 LC420WUE - SAA1 код 130
42PFL5603D_12_3 V420H1-L09 код 132
42PFL5603D_79_3 T420HW01V4 код 131
42PFL5603D_79_5 LC420WUE-SAA1 код 130
42PFL5603H_10_1 Т420HW01 V4 код 131
42PFL5603H_10_2 LC420WUE - SAA1 код 130
42PFL5603H_10_3 V420H1-L09 код 132
42PFL5603S/60_1 Т420HW01 V4 код 131
42PFL5603S/60_2 LC420WUE - SAA1 код 130
47PFL5603D_10_1 LC470WUE - SAA1 код 135
47PFL5603D_10_2 V470H1-L05 код 159
47PFL5603H_10_1 LC470WUE - SAA1 код 135
47PFL5603H_10_2 V470H1-L05 код 159

32PFL5403D код 136 LC320WXN - SAB1
42PFL5603D код 130 LC420WUE - SAA1
47PFL5603D код 135 LC470WUE - SAA1



Мodels 2009
[pre]
Коd Diag. Матrix producer in models
136 32 LC320WXN LGPH 32PFL3403181
104 32 32PFL3604
32 32PFL7404, 32PFL9604
199 32 D3GA1332 Sharp 32PFL5604, 32PFL5624
210 32 Sharp 32PFL5404,32PFL3904
171 32 D3LZ73 Sharp 32PFL5624H
221 32 D3LZ93 Sharp 32PFL7404H
181 32 LC320WUF-SBN1 LGPH 32PFL7404,32PFL8404,32PFL9604
161 37 AUO HW02 V9 AUО 37PFL8404,37PFL9604
168 37 AUO 37PFL9604
201 37 LC370WUE-SBA1 LGPH 37PFL5604
215 37 LC370WUG SBA 1 LGPH 37PFL5604
40 LK400D3LA33 Sharp 40PFL9704
130 42 LC420WUE LGPH 42PFL3403
138 42 LC420WXE LGPH
142 42 LC420WUF LGPH
182 42 LC420WUF-SBA1 LGPH 42PFL5704
202 42 LC420WUF LGPH 42PFL5604,42PFL5624
183 42 LC420WUF-SBN1 LGPH 42PFL7404, 42PFL8404
196 42 LGPH 42PFL9664
195 46 LK460D3LA43 Sharp 46PFL9704
135 47 LC470WUE LGPH
137 47 LC470WUF LGPH
185 47 LC470WUF-SBA1 LGPH 47PFL5704
186 47 47PFL7404, 47PFL8404
203 47 47PFL5604
151 52 LK520D3LZ93 Sharp 52PFL5704
158 52 LK520D3LZ83 Sharp
188 52 LK52003LA63 Sharp 52PFL5704
208 52 52PFL7404
52 LK520D3LA73 Sharp 52PFL9704
56 LK558Z3LA1P Sharp 56PFL9954
180 56 LK558Z3LA13 Sharp 56PFL9954

Codes and models matrix model 42-52PFL5704D.
http://forum.ixbt.com/post.cgi?id=attach:62:14399:68:1

40PFL9704H Sharp LK400D3LA33
46PFL9704H Sharp LK460D3LA43
52PFL9704H Sharp LK520D3LA73
56PFL9954H Sharp LK558Z3LA1P,LK558Z3LA13

SAMSUNG LCD TV
How do we know what a matrix of our TV?
Can often be seen in the matrix type ventilation grills above the rear right -
H40F1-93 ..? / 40-inch / F-100Hz / 1
for models manufactured before 2009
See the big label on the back of the TV
http://forum.ixbt.com/post.cgi?id=attach:62:13959:40:1
If, after the Model stands letter
A- AU Optronics (AUO)
C- Chi Mei Optoelectronics (CMO)
P or W - Chunghwa Picture Tubes (CPT)
S or nothing - Samsung
http://radikal.ru/F/s54.radikal.ru/i...e505454987.jpg

There is a second label to the buttons exactly upravlenie.Vizhte 3-th row-Version
http://forum.ixbt.com/post.cgi?id=attach:62:13959:40:2

http://forum.ixbt.com/post.cgi?id=at...2:13959:4609:2
On it are inscribed the model and serial number version-Version AA05 or SS08
There is indicated the version of the matrix (it can be equal in number, but different in essence a different series)
The first letter in the version given for manufacturer AA05-AUO SS08-Samsung
The second letter indicates a specific version of the panel AA05-A-MVA SS08-S-PVA
CN02-this is a matrix of the S-MVA CMO
first letter A indicates the manufacturer AUO. second letter indicates the type A-MVA and the figures after her 01 - this is the batch number of the matrix

SQ 01-In the old series are indicated with Q and 10bit panels were preferable, when the new models may not be so, because May is only 8bit to make as I know.

The difference in matrices Study on servicing various names in the menu.
For each model and diagonal panels can be different.

How to read the abbreviation of the panel?
Panel 40A SC100FV (LTF400HC05).
What are the last letters F, FV, FH, etc.
F-type panel means in a block built FRC.
V - Value simplified model
earlier figures set out the Color Range, and now we know
has info on current series for external customers, but customised for production Owned (LTF for SAMSUNG and LTZ for Sony).

How to read Type 40A1UF0C?
40 - Inch
A - Vendor (A: Samsung, D: CMO, L: AUO, I: CPT)
1 - Panel frequence (6:50 / 60Hz, 1:100 / 120Hz, 2:200 / 240Hz)
U - Panel (A: AntiGlare, T: TN U: Ultra Clear)
F - Resolution (F: FHD, H: HD, U: UD)
0 - Panel 1st/2nd (1st: 0, 2nd: 1 ...)
C - BLU (BackLight Unit) C: CCFL, L: LED, E: Edge LED

How do we know what a matrix is placed on the TV?
models for 2009 - the matrices can be understood by the second sticker
Russian and Hungarian only service menu, no second sticker
When choosing a look at the little sticker on the side, what a matrix is placed in TV
http://img4.imageshack.us/img4/957/dsc01112t.jpg
last-line version
AA02 is the picture that is a A-MVA AUO
first letter is the second version, the manufacturer of the panel
The letters marked with backlight PANEL
Watch to write SS08 or SQ01 / 02,03 / that is S-PVA matrix Samsung
There are AA02 with V650 and V651-AUO with SS08-S-PVA
BN-matrix that is CMO
I102 and I203 are IPS-alfa matrix
watch the third row-Version-CN, AA, SQ, etc.

SHARP LCD TV
to 2008 years placed the matrices of the CMO and its production.
This year only put their matrices
http://www.sharp-world.com/products/...cd200810_e.pdf
http://www.sharp-world.com/products/...ce200901_e.pdf

http://www.sharpsma.com/Page.aspx/am...roduct_Groups/
http://www.sharpsme.com/Page.aspx/eu...roduct_Groups/

LG LCD TV

32LG7000 matrix AUO
32LG5700 matrix LPL S-IPS
42LG3000 matrix LPL S-IPS
42LG5000 matrix AUO
42LG6000, 6100 matrix LPL S-IPS

http://209.85.135.132/search?q=cache...&ct=clnk&gl=ru

LCD Panel Specification
47/42/37/32 LH7000- LGD 10Bit CCFL
LH5000- LGD 10Bit 47 "CCFL , 32”/37”/42 – EEFL
LH4900 - LGD 10Bit 32”/37”/42 – EEFL, 47” - CCFL
LH4000 - LGD 10Bit 47 "CCFL , 32”/37”/42 – EEFL
LH3000- 32"/37"/42" - (LGD/ AUO), 47" LGD Only //LGD(10Bit) (AUO-8Bit) // 47 "CCFL ,32”/37”/42 – EEFL
LH2000 - LGD/AUO (37" LGD Only LC370WXN) ,22" (LGD/COM), 19" (LGD/AUO) // 42/37/32 (EEFL), 26"-19" CCFL // 8Bit

LU5000 - LGD , CCFL , 8Bit
LU4000 - 22" (AUO MVA), 19" (LGD TN) , CCFL , 8Bit


Plasma panels
model tv panel
LG 50PS8000 PDP50H30001
LG 42PG6000 PDP42G10235
LG 32PG6000 PDP32G10012
http://ses.sharpmicro.com/Page.aspx/...roduct_Groups/

SONY LCD TV
LCD panels placed at Sony can check by looking in the rear grille
(T1 or T2 - better T1, T2-old and a little problem - it details of avforums).
T2: 4000001-4001427, 4300001-4310869, 4600001-4600515, 4800001-4801325 - these are the series.
If your series does not fall into one of those spaces - it have T1!

Samsung LCD components have product codes beginning with "LTY".

SONY KDL-40W5500 LTY400HF05 (S-LCD)
SONY KDL-40V5100 LTY400HF05
SONY KDL-40W4500 LTY400HC02
SONY KDL-32V5500 LTY320HA02
SONY KDL-40W4000 LTY400HA05
40W4000 (05/2008) has panel S-LCD LTY400HA05, from 11/2008 Sony changed to panel LTY400HA10


KLV-S32A10 LTY320W2-L02
KDL-40XBR4 LTY400HC01
KDL-46XBR2 LTY460HS-LH2
KLV-S32A10 LTY320W2-L02

[hristoslav2]

PANASONIC

matrices for Europe are made in Czech republic
http://www.ips-alpha-eu.cz/cz/o-spol...e-a-co-delame/
http://displayblog.wordpress.com/200...ion-completed/

n the series of LM and LE are placed S-PVA (SAMSUNG) matrices
In the LX and LZ series are placed IPS (Matsushita-Hitachi) matrices
malaysian model 32lx80 with S-PVA matrix

except in TX-LR26X10 and TX-LR19X10 - were placed in VA matrices.
In all other LCD - IPS Alpha and IPS-Pro
In the new 42 "LCD matrices are S-IPS LG / Panasonic does not make sizes over 37" /


http://service.panasonic.ru/Models/M...e0%ed%e5%eb%e8

http://service.panasonic.ru/Models/M...e8%e7%ee%f0%fb

2005 G8-in model-PV50, PV500 - 1080x720 - 2048 graduation of colors
2006 G9-in models-PV60, PV600 - 1366 x 768 - 3072 graduation of colors contrast 5,000:1
2007 G10-models in-PV70, PV700 - 1366 x 768 - 3072 graduation of colors 10,000:1 contrast
2007 G10-models in-PY70, PY700 - 1920 x 1080 - 4096 graduation of colors 10,000:1 contrast
2008 G11-in modeli-37/42PV8 - 1024h720 -3072 graduation of colors contrast 10,000:1 / Dynamic: 300.000:1
2008 G11-models in-50PV8 - 1,366 x768 -3072 graduation of colors contrast 10,000:1 / Dynamic: 300.000:1
2008 G11-models in-37PV80 -1,024 x720 -4096 graduation of colors contrast 15,000:1 / Dynamic: 500.000:1
2008 G11-models in-42PV80 -1,024 x768 -4096 graduation of colors contrast 15,000:1 / Dynamic: 500.000:1
2008 G11-in modeli-42/46PY8 -1,920 x1080 -4096 graduation of colors contrast 20,000:1 / Dynamic: 700.000:1
2008 G11-in modeli-42/46/50PY80 - 1920x1080 -5120 graduation of colors contrast 30,000:1 / Dynamic: 1 000.000:1
2008 G11-in modeli-42/46/50PY85 - 1920x1080 -5120 graduation of colors contrast 30,000:1 / Dynamic: 1 000.000:1
2008 G11-in modeli-42/46/50PY800 - 1920x1080 -5120 graduation of colors contrast 30,000:1 / Dynamic: 1 000.000:1
2008 G10 - models in-58PY800 - 1920x1080 -4096 graduation of colors contrast 10,000:1 / Dynamic: 300.000:1
2008 G10 - models in-65PY800 - 1920x1080 -4096 graduation of colors contrast 10,000:1 / Dynamic: 300.000:1

2009 G12 - models in-37C10Y - 1024x720 -4096 graduation of colors contrast 20,000:1 / Dynamic: 2 000.000:1
2009 G12 - models in-42C10 Y - 1024x768 -4096 graduation of colors contrast 20,000:1 / Dynamic: 2 000.000:1
2009 G12 - models in-37X10 E / Y - 1024x720 -4096 graduation of colors contrast 20,000:1 / Dynamic: 2 000.000:1
2009 G12 - models in-42X10 E / Y - 1024x768 -4096 graduation of colors contrast 20,000:1 / Dynamic: 2 000.000:1
2009 G12 - models in-50X10 E / Y - 1366x768 -4096 graduation of colors contrast 20,000:1 / Dynamic: 2 000.000:1
2009 G12 - models in-50C10 F / Y - 1366x768 -4096 graduation of colors contrast 20,000:1 / Dynamic: 2 000.000:1
2009 G12 - models in-42S10 F / Y - 1920x1080 -5120 graduation of colors contrast 30,000:1 / Dynamic: 2 000.000:1
2009 G12 - in modeli-42/46/50G10E-1920x1080 -6144 graduation of colors contrast 40,000:1 / Dynamic: 2 000.000:1
2009 G12 - in modeli-42/46/50G15E-1920x1080 -6144 graduation of colors contrast 40,000:1 / Dynamic: 2 000.000:1

type panel can be seen through the rear grille above the left -
Japan - MC106H30T11, Ve 130v, Vsus 187v, made in Japan / Ve 130v, Vsus 187v/-tova tension adjustments are factory
Republic - MD-42GH11E1
And in the service menu - a common type of panel, 42 "HD

PANASONIC TH-37PX80EA MD-37GH11E1
PANASONIC TX-P37X10E MD-37GH12ME1
PANASONIC TH-42PX50EA MD-42GH11E1
PANASONIC TH-42PX80EA MD-42GH11E1

[adtomov]

Samsung LCD panels in pictures

Samsung - LE40B652 "SQ02" (S-PVA), 50% grey

Samsung - LE40B652 "SQ02" (S-PVA), 100% grey

Samsung S-PVA (Sony W4500 - W5500 series), Toshiba 52Z3030D(LTA520HE04):

Samsung - (y.2009 new type) - Samsung LE32B550 (SQ02), LE40B551 (SQ02), LE40B530 (SQ01), Toshiba 40LV685DG (LTA400HA11), Toshiba32RV635, Sony KDL-32V5500:

Samsung (y.2009 new type S-PVA, "SQ01", 200-240 Hz) Samsung LE**B750 series:

Sasmsung (y.2009 new type S-PVA, 200-240 Hz) - Sony Z4500-Z5500 series:

(reserved for further editing)

[adtomov]

LG Displays LCD panels in pictures

LGD (S-IPS) - Philips 42PFL7404, 42PFL8404 (LC420WUF-SBN1, code 183), 32PFL8404(LC320WUF-SBN1, code 181), 42PFL5604 (LC420WUG-SBA1 code 202) :

FAQ = LCD òåëåâèçîðû ôèðìû Philips. Òîëüêî FAQ, îáñóæäåíèå â äðóãîé âåòêå [5] - Êîíôåðåíöèÿ iXBT.com

LGPH H-IPS (e-IPS) (Toshiba32AV615DG, Toshiba 32AV635DR, Toshiba 32AV605PG, Philips 26PFL3404, LG 32LH2000 (Thanks to ffdf), LG32LH2010ZB(LC320WXN-SBA3, Thanks to nemets)
Special thanks to Nielo_TM

(reserved for further editing)

[adtomov]

AUO LCD Displays in pictures

AUO (A-MVA) - old type - Philips42PFL5603 (T420HW01 V4, code 131) 50% grey:

AUO (A-MVA) - old type - Philips42PFL5603 (T420HW01 V4, code 131) 100% grey (white):

AUO (A-MVA3) - Samsung LE32B653 (AA01), LE40B650 (AA03):
50%grey:

100%grey (white):

AUO (A-MVA3) - Samsung LE40B620 (AA01)

AUO (A-MVA3(2'nd type)) Samsung LE37B553 (AC02, matrix type:T370HW03 V0, AU37H30, 8bit), Philips 37PFL8404,37PFL9604 (code 189):

(reserved for further editing)

[adtomov]

CMO LCD panels in pictures
CMO - old type (Panasonic TX-L26C10P)

CMO - Samsung LE40A536 (CN01)

CMO - Samsung LE32B650 (CN03)
50% grey

70%grey

CMO - Samsung UE-40B6000 (BN02)

CMO - Samsung LE46B530 (CN01)

(reserved for further editing)

[adtomov]

Sharp LCD panels in pictures

Sharp ASV (variant) Philips 32PFL5624H (LK315D3GA13, code 199)

Sharp ASV (Sharp LC37D44EBK)

Sharp ASV (Philips 32PFL5404H, multiple Philips Hi-End models up to Philips 56PFL9954H - 21:9)

Sharp X-Gen ASV (Sharp LC-46LE700E)

Sharp (LK460D3LA43) - Philips 46PFL9704H (code 195)

UV2A photos - Will be, when possible.

(reserved for further editing)

[adtomov]

IPS variants LCD panels in pictures

IPS-Pro(vectus)- IPS Alpha Technology, LTD - Panasonic "X", "G", "U", "V", "C" and "S" LCD models 32" and 37".
Samsung LE-37B530
Best viewing angles among all LCD TV's. For now...

[adtomov]

Unknown manufacturer (1) LCD panels

(reserved for further editing)

[adtomov]

Unknown manufacturer (2) LCD panels

(reserved for further editing)

[adtomov]

TN type LCD panels - various types. Most frequent use - for low-cost LCD monitors equal or under 24" size. Present in all 19" and some 22" LCD TV's. Very poor viewing angles.

(reserved for further editing)

[chicote69]

Could be possible a UV2A photo???


Thanks

[xan123]

Very nice info here , but kinda hard to find this topic.
BTW, pixel shape of LE40B550 SQ02 -> confirmed(like 551)
What type of panel is it? Is it a SPVA derivative or rather like S/A-MVA?

[adtomov]

Quote:

Originally Posted by xan123

Very nice info here , but kinda hard to find this topic.
BTW, pixel shape of LE40B550 SQ02 -> confirmed(like 551)
What type of panel is it? Is it a SPVA derivative or rather like S/A-MVA?

Samsung S-PVA, relatively new type. The Samsung are evolving S-PVA matrices to various types, depending on the model range and hardware requirements. One should expect more matrix's chartists ("topography") in the future.