 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
|
records of revision ?l?n?c?d?k ?m???f?k?p?o?w?w?g?x?c?y?o?r spec no. date n o . page summary note lcy - 05064 nov . 18 . 2005 - - 1st issue lcy - 0 6036 sep . 19 . 2006 - 4 4 - 2) backlight fluorescent tube driving part used connector: bh r - 02 (0.8) vs - 1n used connector: bh r - 02 (8.0) vs - 1n 2 nd issue 6 table 6 - 2 parameter name discharge pipe electric power(two) ?? lamp power con sumption table 6 - 2 symbol name wl ?? pl table 6 - 2 typ max value of pl typ ?| ?? 3.15w max 9w ?? 3.85w ?y note6 - 1 ?z style light ?? dimming 8 table 7 - 1 characteristic value (min/typ/max) 1/tc ( ?| , ?| ,25 ) ?? (8.47,12.59,25) tv ( 14.7,16.67,22.65 ) ?? (14.7,16.65,22.65) tv ( 249, ?| ,282 ) ?? (249,262,282) tvh ( ?| , ?| ,0.5 ) ?? (0, ?| ,0.5) 13 - contrast ratio (optimal. typ) added - contrast ratio (perpendicular) added typ. a t 25 ?? , - 25 ?? , 0 ?? , 60 ?? - gamma tolerance added 13/18 table 9 - 1 - uniformity of luminance added. ?y note 9 - 11 ?z added. - flicker rate added. ?y note 9 - 12 ?z added. 18 definition of uniformity of luminance corrected. 19 (10) mechanical characteristics added 22 table 1 4 - 1 heat shock test added. 24 fig.2 the construction form added. lcy - 0 6036b oct.16. 2006 b 14 gamma curve & gamma ratio revised. 3 rd issue 15 table 9 - 2 luminance ratio (reference data ) added lcy 06036 - 1 notice this publication is the proprietary of sharp and is copyrighted, with all rights reserved. under the copyright laws, no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical for any purpose , in whole or in part, without the express written permission of sharp. express written permission is also required before any use of this publication may be made by a third party. the application circuit examples in this publication are provided to expl ain the representative applications of sharp's devices and are not intended to guarantee any circuit design or permit any industrial property right or other rights to be executed. sharp takes no responsibility for any problems related to any industrial pr operty right or a third party resulting from the use of sharp's devices, except for those resulting directly from device manufacturing processes. in the absence of confirmation by device specification sheets, sharp takes no responsibility for any defects that occur in equipment using any of sharp's devices, shown in catalogs, data books, etc. contact sharp in order to obtain the latest device specification sheets before using any sharp's device. sharp reserves the right to make changes in the specificati ons, characteristics, data, materials, structures and other contents described herein at any time without notice in order to improve design or reliability. contact sharp in order to obtain the latest specification sheets before using any sharp's device. ma nufacturing locations are also subject to change without notice. observe the following points when using any device in this publication. sharp takes no responsibility for damage caused by improper use of the devices. the devices in this publication are d esigned for use in general electronic equipment designs, such as: ?e car navigation system ?e automotive auxiliary information display ?e automotive audio visual equipment the appropriate design measures should be taken to ensure reliability and safety when sharp's devices are used for equipment such as: ?e t ransportation control and safety equipment(i.e.,aircraft,trains,automobiles,etc.) ?e traffic signals ?e gas leakage sensor breakers ?e alarm equipment ?e various safety devices etc. sharp's devices shall not be used for equipment that requires extre mely high level of reliability, such as: ?e military and space applications ?e nuclear power control equipment ?e medical equipment for life support contact a sharp representative, in advance, when intending to use sharp's devices for any "specific" app lications other than those recommended by sharp. contact and consult with a sharp representative if there are any questions about the contents of this publication. lcy 06036 - 2 (1) application this specification applies to color tft - lcd module, LQ088H9DZ03 ( 2) summary and features this module is a color active matrix lcd module incorporating amorphous silicon tft ( t hin f ilm t ransistor). it is practicable in both penetration - type and reflection - type modes. it is composed of a color tft - lcd panel, driver ics, control - pwb , fpc, flex rigid ? pwb , frame, shielding front case, shielding back case and backlight unit graphics and texts can be displayed on a 640 ?~ 3 ?~ 240 dots panel with 262,144 colors by supplying 18 bit data signals(6 bit/color). it isn?t composed dc/a c inverter. utilizes a panel with a n 8:3 aspect ratio, which makes the module suitable for use in wide - screen systems. the 8.8 screen produces a high - resolution image that is composed of 153,60 0 pixel s elements in a stripe arrangement. wide viewing fie ld angle technology is employed by adopting an active matrix drive, a picture with high contrast is realized. reflection due to external light is minimized through the use of a low reflection, black matrix and an antiglare ( ag ) and antireflection ( ar) plate. a thin, light and compact module is accomplished through the use of cog mounting technology. an ag and ar surface polarization plate is used. an inverted video display in the vertical and horizontal directions is possible. having considered vehicle - based use, the module contains a self heating backlight system whose emission characteristics are improved in low temperature. ?i 3 ?j mechanical specifications table 3 - 1 parameter specifications units remarks display format 153,600 pixels 1,920 (w) ?~ 24 0(h) dots active area 209.28 ?i w ?j?~ 78.48( h ?j mm screen size (diagonal) 22.35 [ 8.8 ?h ] cm dot pitch 0.109 ?i w ?j?~ 0.327 ?i h ?j mm pixel configuration r,g,b stripe configuration outline dimension 231.6 (w) ?~ 103.25 (h) ?~ 14.4 (d) m m ?y note3 - 1 ?z mass 370 ?y max ?z g ?y note 3 - 1 ?z typical values are given. for detailed measurements and tolerances, please refer to fig. 1. lcy 06036 - 3 ( ?s )input terminal 4 - 1) tft - lcd panel driving part used connector: df9ma - 31p - 1v (gilding type: hiro se electric co.,ltd) fit connctor: df9 ?? - 31s - 1v (gilding type: hirose electric co.,ltd ) ( ?? :a,b or m type) table 4 - 1 pin no. symbol description remarks ?p ?u?f?g power supply ?q ?u?r ?g power supply ?r ?u?r?g power supply ?s ?d?m?`?a signal to settle the horizontal display position ?y note4 - 2 ?z ?t ?g?u?q selection for horizontal and vertical scanning direction ?y note4 - 3 ?z ?u ?a?t blue data signal(msb) ?v ?a?s blue data signal ?w ?a?r blue data signal ?x ?a?q blue data signal ?p?o ?a?p blue data signal ?p?p ?a?o blue data signal(lsb) ?p?q ?f?m?c gro u nd ?p?r ?f?t green data signal(msb) ?p?s ?f?s green data signal ?p?t ?f?r green data signal ?p?u ?f?q green data signal ?p?v ?f?p green data signal ?p?w ?f?o green data signal(ls b) ?p?x ?f?m?c ground ?q?o ?q?t red data signal(msb) ?q?p ?q?s red data signal ?q?q ?q?r red data signal ?q?r ?q?q red data signal ?q?s ?q?p red data signal ?q?t ?q?o red data signal(lsb) ?q?u ?u?f?k power supply ?q?v ?u sync vertical synchronous signal ?y note4 - 1 ?z ?q?w ?g sync ho rizontal synchronous signal ?y note4 - 1 ?z ?q?x ?f?m?c ground ?r?o ?b?j clock signal for sampling each data signal ?r?p ?f?m?c ground ?y note 4 - 1 ?z hsync posi tive vsync positive ?y note 4 - 2 ?z in case enab is fixed ?low?, the horizontal start timing is determined as descr ibed in fig7 - 1. (don?t keep enab ?high? during operation.(7 - 2).) ?y note 4 - 3 ?z hvr = "high": regular video hvr = "low" : horizontally and vertically inverted video lcy 06036 - 4 4 - 2) backlight fluorescent tube driving part used connector: bh r - 02 (8.0) vs - 1n (gilding type: jst co.ltd) fit connector: sm02 (8.0) b - bhs - 1n (gilding type: jst co . ltd) table 4 - 2 terminal: ?b?m?`?c?b?m?a no. symbol ?? /o function color of fl cable 1 vl1 i input terminal (hi voltage side) red ?q nc ?| non c onnection ?r vl2 i input terminal (low voltage side) black 4 - 3 )backlight operating part table 4 - 3 terminal no. symbol remarks ?b?m?b ?p ?s?g?p thermistor ?q ?s?g?q thermistor ?y note4 - 4 ?z use for the detection of the lamp temperature. kind of thermistor :203gt - 1(gilding type: ishizuka electric co.ltd) zero load resistance value about 25 ???f 20k ???} 3 ?? (5)absolute maximum ratings table 5 - 1 ?f?m?c???o?u parameter symbol ?l?h?m ?l?`?w unit note input voltage v i - 0.3 + 3.6 v ?y note 5 - 1 ,7 ?z +5v power supply ?u?r?g 0 +6.0 ?u ?y note 5 - 7 ?z +10vpower supply high ?u?f?g 0 +12 ?u ?y note 5 - 7 ?z ?| 10vpower supply low ?u?f?k 0 - 12 ?u ?y note 5 - 7 ?z storage temperature ?s stg - 40 +95 ?? ?y note 5 - 2,3 ,6,8 ?z operating temperature ?i panel s urface ?j ?s opr1 - 40 +85 ?? ?y note 5 - 2,3, 4 ,6,8,9 ?z operating temperature ?i ambient temperature ?j ?s opr2 - 40 +80 ?? ?y note 5 - 5 ,6,8,9 ?z ?y note 5 - 1 ?z ck,r0 ?` r5,g0 ?` g5,b0 ?` b5,hsync,vsync,enab,hvr ?y note 5 - 2 ?z this rating applies to all parts of the module and should not be e xceeded. ?y note 5 - 3 ?z maximum wet - bulb temperature is less than 49 ?? . condensation of dew must be avoided as electrical current leaks will occur, causing a degradation of performance specifications. ?y note 5 - 4 ?z the operating temperature on ly guarantees operation of the circuit. for contrast, speed response, and other factors related to display quality, determine operating temperature using the formula ta= ?{ 25 ?? ?y note 5 - 5 ?z if the environment temperature will be over +80 c , lamp cu rrent must be reduced in order to keep the agreed panel operating temperature of +85 c . ?y note 5 - 6 ?z r efer to table 14 - 1. ?y note 5 - 7 ?z tp= ?| 40 ?` +95 ?? ?y note 5 - 8 ?z 85c 240h; 95 120h ?y note 5 - 9 ?z operating temperature between - 40 c to - 31c does not provide a correct image on the lcd, but no damage of the display function will occur reduced requirements for operating tests: "damp heat, cyclic" (gs95003 - 4 6.8) polarizer degradation occurs in high temperature/ high humidity cycles so it is not used for judgment of the test : "lifetime test" (gs95003 - 1) 1500h have been tested with a small degradation of polarizer lcy 06036 - 5 (6)electrical characteristics 6 - 1)tft - lcd panel driving section table 6 - 1 ?f?m?c???o?u?c tp= ?| 40 ?` +85 ?? parameter symb ol ?l?h?m ?s?x?o ?l?`?w unit remarks +5v supply voltage vsh + 4.5 +5.0 +5.5 v ?y note 6 - 1 ?z current dissipation ish ?| 40 80 ma ?y note 6 - 2 ?z +10v supply voltage vgh +9.5 +10.0 +10.5 v current dissipation igh ?| 25 40 ma ?y note 6 - 2 ?z ?| 10v supply voltage vgl - 9.5 - 10.0 - 10.5 v current dissipation igl ?| - 20 - 40 ma ?y note 6 - 2 ?z permissive input ripple v rf ?| ?| 100 mvpp input low voltage v il ?| 0 0.9 v input high voltage v ih 2.3 3.3 ?| ?u ?y note 6 - 3 ?z input current (low) i il ?| ?| 1.0 ? a v i =0v ?y note 6 - 4 ?z input current (h igh) i ih ?| ?| 1.0 ? a v i =3.3v ?y note 6 - 3 ?z ?? turn on :vgl ? vsh ? vgh or same time ?? turn off :vgh ? vsh ? vgl or same time ?y note 6 - 1 ?z vsh - turn - on conditions t1 ?? 10ms 0 lcy 06036 - 7 6 - 3) lamp monitoring interface temp erature censor thermistor typ: 203 gt ? 1 made by ishizuka electronics corporation according to the spec of the temperature sensor; b= inr1 ? inr2 / (1/t1 ? 1/t2) t1, t2 : absolute temperature (k) r1, r2 : zero load resistance on t1, t2 (ohm) b : constan t of b (k) r25 = 20.00 k w ?} 3% b = 4.282k ?} 2% temperature c r - thermistor k w (typ) - 50 1901 - 45 1304 - 40 909.0 - 35 637.2 - 30 453.2 - 25 325.3 - 20 236.6 - 15 173.2 - 10 128.3 - 5 95.82 0 72.32 5 55.01 10 42.24 15 32.66 20 25.47 25 20.00 30 15. 82 35 12.59 40 10.10 45 8.150 50 6.620 55 5.407 60 4.444 65 3.671 70 3.050 75 2.547 80 2.138 85 1.803 90 1.527 95 1.300 100 1.111 105 0.9530 110 0.8209 115 0.7098 120 0.6160 125 0.5364 130 0.4686 135 0.4108 140 0.3613 145 0.3187 150 0.2820 (data above is under the condition of r=4.282k and temp=25 to 85 degree c) lcy 06036 - 8 ( 7)timing characteristics of input signals timing diagrams of input signal are shown in fig.7 - 1 7 - 1) timing characteristics table 7 - 1 tp = ?\ 40 ?` +85 ?? parameter symbol min typ max unit remarks clock frequency 1/tc 8.47 12.59 25 mhz high time tch 18 ?| ?| ns low time tcl 18 ?| ?| ns data setup time tds 5 ?| ?| ns hold time tdh 10 ?| ?| ns horizontal sync . cycle t h 59.1 ?| 80.32 ? s signal 680 800 1675 clock pulse width thp 4 48 96 clock vertical sync. cycle t v 14.7 16.65 22.65 m s ?y note 7 - 1 ?z signal 249 262 282 line pulse width tvp 3 4 128 line horizontal display period thd 640 640 640 c lock vertical display period tvd 240 240 240 line hsync - clock phase difference thc 5 tc/2 th ?| 5 ns hsync - vsync phase difference tvh 0 ?| 0.5 ? s vertical display invalid line tv e 7 7 7 line ?y note 7 - 1 ?z to be driven with more than 50hz (tv<=20ms). if less than 50hz (tv>=20ms), the flicker might be occur gradually. 7 - 2) horizontal display position the horizontal display position is determined by enab signal . table 7 - 2 tp = ?\ 40 ?` +85 ?? parameter s ymbol min. ty p. max. unit remark enable signal setup time tes 5 tc/2 tc ?| 5 ns pulse width tep 10 ?| th ?| 10 clock hsync - enable signal phase difference t h e ?t 16 256 clock ?? 256 note) when enab is fixed ?low?, the display starts from the data of 16 clock (c16) as show n in fig.7 - 1. lcy 06036 - 9 7 - 3 ) input data signals and display position on the screen d1,dh1 d1,dh2 d1,dh3 d2,dh2 d2,dh1 d3,dh1 d640,dh1 d640,dh240 d1,dh240 r g b up display position of input data (h,v) vertical sync.signal (vsync) 2.3v 3.3v 0v 2.3v 3.3v 0v tes=(typ ?d the 0.9v tep=10 ?` th - 10clock thd=640clock d400 d399 d398 d397 data4 data3 data2 data1 horizontal invalid da ta horizontal invalid data tch tcl tc tds tdh number of h - data th=680 ?` (typ ?d 800) ?` 1675clock 2.3v 2.3v 0.9v tv=249 ?` 282line tvh ???} 10clock ?i the+673 ?? th ?j tve=7line dh1 dh2 dh3 dh238 dh239 dh240 vertic al invalid data vertical invalid data 2.3v 0.9v number of v - data line tvd=240line lcy0 6 0 36 - 10 0.9v horizontal sync.signal ?i hsync ?j clock data signal (r0 ?` 5 ?c g0 ?` 5 b0 ?` 5) data enable signal 3.3v 0v 3.3v 0v 2.3v 0v horiz ontal sync.signal ?i hsync ?j data enable signal data signal (r0 ?` 5 ?c g0 ?` 5 b0 ?` 5) 3.3v 0v 3.3v 0v 0.9v 0.9v 2.3v 3.3v 0v thp=4 ?` (typ ?d 48) ?` thc=typ ?d 0.9v tvp=3 ?` (typ ?d 48) ?` 3.3v fig.7 - 1 input signal waveforms (enab:active) data enable signal (enab) 0v thp=4 ?` (typ ?d 48) ?` thc=typ ?d the=16clock thd=640clock d640 d639 d638 d637 data4 data3 data2 data1 horizontal invalid data horizontal invalid data tch tcl tc tds tdh number o f h - data th=680 ?` (typ ?d 800) ?` 1675clock tvp=3 ?` (typ ?d 48) ?` tv=249 ?` 282line tvh ???} 10clock ?i 683 ?? tve=7line dh1 dh2 dh3 dh238 dh239 dh240 vertical invalid data vertical invalid data number of v - data line tvd=240line lcy0 6 0 36 - 11 horizontal sync.signal ?i hsync ?j clock data signal (r0 ?` 5 ?c g0 ?` 5 b0 ?` 5) data enable signal (enab) vertical sync.signal (vsync) horizontal sync.signal ?i hsync ?j data signal (r0 ?` 5 ?c g0 ?` 5 b0 ?` 5) 3.3v 0v 2.3v 3.3v 0v 2.3v 0.9v 2.3v 0.9v 0.9v 3.3v 0v 3.3v 0v 3.3v 0v 0.9v 2.3v 3.3v 0v 3.3v 2.3v 2.3v 0.9v 2.3v fig.7 - 2 in put signal waveforms (enab:low) lcy 0 6036 ?| 12 ( ?w ) input signals, basic display color and gray scale of each color colors & data signal 0 :low level voltage 1 :high level voltage gray scale gray scale r0 r1 r2 r3 r4 r5 g0 g1 g2 g3 g4 g5 b0 b1 b2 b3 b4 b5 black ?| 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 blue ?| 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 green ?| 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 cyan ?| 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 red ?| 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 magenta ?| 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1 yellow ?| 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 basic color white ?| 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 black gs0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ? gs1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 darker gs2 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ? a a a a a a a a brighter gs61 1 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 gs62 0 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 gray scale of red red gs63 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 black gs0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ? gs1 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 darker gs2 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 ? a a a a a a a a brighter gs61 0 0 0 0 0 0 1 0 1 1 1 1 0 0 0 0 0 0 gs62 0 0 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 0 gray sc ale of green green gs63 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 black gs0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ? gs1 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 darker gs2 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 ? a a a a a a a a brighter gs61 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 1 1 1 gs62 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 gray scale of bleu bleu gs63 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 each basic color can be displayed in 64 gray scales from 6 bit data signals. according to the combination of total 18 bit data signals, the 262,144 - color display can be achieved on the screen. lcy 0 6036 ?| 13 (9)optical characteristics table 9 - 1 ta=25 ?? , vsh=+5v,vgh=+10v,vgl= ?| 10v parameter symbol condition min typ max unit remarks ?? 11 / ?? 12 / 35 45 ?| viewing angle range ?? 2 1/ ?? 2 2 cr ?? 1 5 40 50 ?| ?? (degree) ?y note 9 - 1 ?z contrast ratio cr max optimal viewing a ngle 150 260 ?| ?y note 9 - 2 ?z contrast ratio ?? =0 ?? ta = 25 ?? 140 180 ?| (perpendicular) ?? =0 ?? ta = - 25 ?? 90 reference ?? =0 ?? ta = 0 ?? 140 reference ?? =0 ?? ta = 60 ?? 170 reference black ? white( ?? r ) ?| 10 20 white ? black( ?? d ) ?| 15 30 black ? l10 ?| 100 150 l10 ? black ?????o?? ta ?? 25 ?? il= 5 marms ?| 15 30 black ? white( ?? r ) ?| 15 30 white ? black( ?? d ) ?| 25 50 black ? l10 ?| 250 370 l10 ? black ?????o?? ta ?? 0 ?? il=9marms ?| 40 80 black ? white( ?? r ) ?| 50 100 white ? black( ?? d ) ?| 80 160 black ? l16 ?| 550 700 l16 ? black ?????o?? ta ?? - 20 ?? i l=9marms ?| 110 150 black ? white( ?? r ) ?| 130 260 response time white ? black( ?? d ) ?? = ?o?? ,ta= - 30 ?? il=9marms ?| 180 360 ms ?y note 9 - 3 ?z luminance y il= 5 marms 180 250 ?| cd/m 2 ?y note 9 - 4 ?z uniformity of luminance ?\ ?| ?| 1.43 ?y note 9 - 11 ?z cold brightness's standing - up[ - 20 ?? ] y low il=9marms ?| 70 ?| % ?y note 9 - 5 ?z x 0.273 0.313 0.353 whit e chromaticity y 0.289 0.329 0.369 x 0.519 0.569 0.619 red chromaticity y 0.281 0.33 1 0.381 x 0.252 0.302 0.352 green chromaticity y 0.500 0.550 0.600 x 0.101 0.151 0.201 transmissive mode blue chromaticity y il= 5 marms 0.080 0.130 0.180 ?y note 9 - 4 ?z viewing angle range ?? 11 / ?? 12 / ?? 21 / ?? 22 cr ?? 4 25 40 ?| ?? (degree) ?y note 9 - 1 ?z contras t ratio cr 5 8 ?| ?y note 9 - 6 ?z response rise ?? r ?| 10 20 ?y note 9 - 3 ?z time fall ?? d ?| 15 30 ms reflective ratio rf 4.4 5.5 ?| % ?y note 9 - 7 ?z x 0.269 0.319 0.369 whit e chromaticity y 0.299 0.349 0.399 x 0.492 0.542 0.592 red chromaticity y 0.264 0.314 0.364 x 0.221 0.271 0.321 green chromaticity y 0.491 0.541 0.591 x 0.105 0.155 0.205 blue chromaticity y ?????o?? 0.112 0.162 0.212 ?y note 9 - 8 ?z reflective mode flicker rate ?| l0 ? l31 ?| ?| 30 % ?y note 9 - 12 ?z l 10 0 .3 ?| 0.9 % reference gamma tolerance l 32 1 5 ?| 24 % reference surface reflectance rf2 ?| 0.6 ?| % ?y note 9 - 7 ?z +25 ?? ?| continuation 10000 ?| ?| hour ?y note 9 - 9 ?z lamp ?} 0 ?? ?| intermission 12000 ?| ?| hour ?y note 9 - 10 - 1 ?z lifetime - 30 ?? ?| intermission 2000 ?| ?| time ?y note 9 - 10 - 2 ?z lcy 0 6036 ?| 14 for the lighting - up evaluation of this backlight unit, it uses our company recommendation inverter. ?| measuring after 30 minutes . it does the optical measurement of the characteristic in the condition which is equal to the darkroom or this using the w ay of measuring the following figure. [note 9 - 11] iso - contrast diagram ?i ta=25 ???j [reference value] gamma curve 0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100% v0 v10 v20 v30 v40 v50 v60 gray scale luminance ratio gamma 2.2 LQ088H9DZ03 ?? v0 - v63 ? 2.2 gamma curve & gamma ratio ?i ta=25 ???j [reference value] lcy 0 6036 ?| 15 table 9 - 2 luminance ratio (reference data) gray scale lq088 h9dz03 gamma 2.2 gray scale LQ088H9DZ03 gamma 2.2 v0 0.4% 0.0% v19 6.2% 7.2% v1 0.4% 0.0% v23 10.4% 10.9% v2 0.4% 0.1% v27 13.3% 15.5% v3 0.4% 0.1% v31 16.5% 21.0% v4 0.4% 0.2% v32 18.4% 22.5% v5 0.4% 0.4% v35 24.4% 27.4% v6 0.4% 0.6% v39 32.7% 34.8 % v7 0.4% 0.8% v43 39.3% 43.2% v8 0.4% 1.1% v47 45.6% 52.5% v9 0.4% 1.4% v48 48.8% 55.0% v10 0.5% 1.7% v51 57.9% 62.8% v11 0.7% 2.2% v55 68.3% 74.2% v12 1.0% 2.6% v58 80.1% 83.4% v13 1.5% 3.1% v62 91.1% 96.5% v14 2.2% 3.7% v63 100.0% 100.0% v15 3. 0% 4.3% photodetector center of the screen tft - lcd module lcd panel field= 1 ?? 400 m m inverter lighting - up condition inverter drive frequency: 50 khz condition optical characteristics measurement method (transmissive mode) fig.9 - 1 optical characteristics measurement method lcy 0 6036 ?| 16 optical characteristics measurement method (reflective mode) ?y note 9 - 1 ?z viewing angle range is defined as follows. 6 o?clock direction normal line ?? 2 1 ?? 2 2 ?? 12 ?? 11 definition for viewing angle photodetector (with luminosity correction system) module the inside surface is chemically coated reflecting diffusely diffused light diffused light normal line polarizer ( display surface) fig.9 - 2 optical characteristics measurement method a beam (through on optical fiber ) lcy 0 6036 ?| 17 ?y note 9 - 2 ?z contrast ratio is defined as follows: * eldim ezcontrast ?y n ote 9 - 3 ?z response time is obtained by measuring the transition time of photo detector output, when input signals are applied so as to make the area "black" to and from "white". for environmental temperature lc response time is measured after module diving a nd its panel side temperature is stabilized . ?o?? ?p?o?? ?x?o?? ?p?o?o?? black white ???? ???? time photodetecter output (arbitrary unit) black ?y note 9 - 4 ?z measured on the center area of the panel at a viewing cone 1 ?? by topcon luminance meter bm - ?v .(after 30 minutes operation) dc/ac invert er driving frequency: 50 khz ?y note 9 - 5 ?z relative luminance of module stored for sufficient time at ?| 20 ?? (the module temperature is also ?| 20 ?? )after 2min switching on compared with the luminance at 25 ?? . photo detector output with lcd being "white" photo detector output with lcd being "black" contrast ratio(cr)= *l63orl16or1 lcy 0 6036 ?| 18 ?y note 9 - 6 ?z contrast ratio of reflection is defined as follows : ?y note 9 - 7 ?z reflective ratio is defined as follows: ?y note 9 - 8 ?z it is assumed that chromaticity of the light source is (x=0.313,y=0.329). the measuring system i s cm - 2002 (with the unit reflecting diffusely) made by minolta co.,ltd . ?y note 9 - 9 ?z the operation time that the brightness value on the panel surface doesn't become equal to or less than 50% of the brightness value in the early stages in the fo llowing condition . (lighting - up condition) in case of the electric current style light: continuation lighting - up, il=5.0marms. in case of pwm style light: continuation lighting - up, il=9marms, duty=70% ?` 5% ?y note 9 - 10 ?z t he on - off number of times that the brightness value on the panel surface doesn't become equal to or less than 50% of the brightness value in the early stages in the following lighting - up condition. ?y note 9 - 10 - 1 ?z (lighting - up condition) ambient temperature: 0 ?? ?y note 9 - 10 - 2 ?z (lighting - up condition) ambient temperature: - 30 ?? high 9 marms off 5min 5min 5min 5min light detec ted level of the reflection by the lcd module light detected level of the reflection by the standard reflective ratio = ?~ 100 photodetecter output with all pixels white photodetecter output with all pixels black contrast ratio of reflection (cr)= high 5. 0 marms off 5min 5min 5min 5min lcy 0 6036 ?| 19 ?y note 9 - 11 ?z uniformity of luminance is measured in the measur ement part shown in the figure below. the measurement part is ? ?? ? symbol shown below. uniformity of luminance ?? (uniformity measurement is not included in sharp outgoing inspection): cpk = 1.4 2 ?y note 9 - 12 ?z the flicker rate is provided under the following condition. measurement machine : yokogawa multimedia display tester 3298 display signal : stripe pattern of horizontal direction. stripe pattern is a pattern that horizontally repeats black(v0) and white(v31) every one line.(v63 is a white step of 100%.) fig. measurement environment 10mm 15mm flicker meter lcd - module lighting shading box m aximum luminance minimum luminance lcy 0 6036 ?| 20 (10) mechanical characteristics 10 - 1) external appearance do not exist extreme defects. (see fig.1) 10 - 2) panel toughness panel shall not be broken, when 19n is pressed on the center of the panel by a smooth sphere having 15mm diameter . caution : in spite of very soft toughness, if, in the long term, add pressure on the active area, it is pos sible to occur th e functional damage. (11) display quality the display quality of the color tft - lcd module shall be in compliance with the incoming inspection standards for tft - lcd. (1 2 ) handling instructions 1 2 - 1) mounting of module the tft - lcd module is designed to be mounted on equipment using the mounting tabs in the four corners of the module at the rear side. on mounting the module, as the m2.6 tapping screw fastening torque is 0.3 ?} 0. 0 5n m is recommended, be sure to fix the module on the same plane, taking care not to wrap or twist the module. don't reach the pressure of touch - switches of the set side to a module directly, because images may be disturbed. please power off the module when you connect the input/ou tput connector. please connect the metallic shielding cases of the module and the ground pattern of the inverter circuit surely. if that connection is not perfect, there may be a possibility that the following problems happen. a). the noise from t he backlight unit will increase. b). the output from inverter circuit will be unstable. then, there may be a possibility that some problems happen. c). in some cases, a part of module will heat. d). don't pull a ccft lead line with the power b eyond 10.0n . it has the possibility of the breakage in the lamp, the connection part of the lead line, and so on. 1 2 - 2) precautions in mounting polarizer which is made of soft material and susceptible to flaw must be handled carefully. protective film is applied on the surface to protect it against scratches and dirties. it is recommended to peel off the laminator immediately before the us e, taking care of static electricity. precautions in peeling off the protective film. a) working environment when the laminator is peeled off, static electricity may cause dust to stick to the polarizer surface. to avoid this, the follo wing working environment is desirable. a) floor: conductive treatment of 1m ?? or more on the tile (conductive mat or conductive paint on the tile) b) clean room free form dust and with an adhesive mat on the doorway c) advisable humidity:50% ?` 70% advisable temperature:15 ???` 27 ?? d) workers shall wear conductive shoes, conductive work clothes, conductive gloves and an earth band. b) working procedures a) direct the wind of discharging blower somewhat downward to ensure that module is blown sufficiently. keep the distance between module and discharging blower within 20 cm. b) attach adhesive tape to the laminator part near discharging blower so as to protect polarizer against flaw. lcy 0 6036 ?| 21 c) peel off laminator, pulling adhesive tape slowly to your side taking 5 or more second. d) on peeling off the film , pass the module to the next work process to prevent the module to get dust. discharging blower less than 20cm module direction of wind of blower adhesive tape backlight cable e) method of removing dust from polarizer blow off dust with n2 blower for which static electricity preventive measure has been taken. since polarizer is vulnerable, wiping should be avoided. but when the panel has stain or grease, we recommend to use adhesive tape to softly remove them from the panel. when metal part of the tft - lcd module (shielding lid and rear case) is soiled, wipe it with soft dry cloth. for st ubborn dirties, wipe the part, breathing on it. wipe off water drop or finger grease immediately. long contact with water may cause discoloration or spots. tft - lcd module uses glass which breaks or cracks easily if dropped or bumped on hard surface. handl e with care. since cmos lsi is used in this module, take care of static electricity and earth your body when handling. 1 2 - 3) precautions in adjusting module adjusting volumes on the rear face of the module have been set optimally before shipment. therefore, do not change any adjusted values. if adjusted values are changed, the specifications described here may not be satisfied. 1 2 - 4) caution of product design the lcd module shall be protected against water salt - water by the waterproof cover. please take measures to interferential radiation from module, to do not interfere surrounding appliances. 1 2 - 5) others do not expose the module to direct sunlight or intensive ultraviolet rays for several hours; liquid crystal is deteriorated by ultraviolet rays. store the module at a temperature near the room temperature. at lower than the rated storage temperature, liquid crystal solidifies, causing the panel to be damaged. at higher than the rated storage temperature, liquid crystal turns into isotropic liquid and may not recover. the voltage of beginning electric discharge may over the normal voltage because of leakage current from approach conductor by to draw lump read lead line around. if lcd panel breaks, there may be a possibility that the liquid crystal escapes from the panel. since the liquid crystal is injurious, do not put it into the eyes or mouth. when liquid crystal sticks to hands, feet or clothes, wash it out immediately with soap. observe all other precautionary requirements in handling general electronic components. lcy 0 6036 ?| 22 (1 3 ) packing form a) piling number of cartons : max 16 b) package quantity in one carton 10 pcs c) carton size: 318 (w) ?~ 177 (h) ?~ 312 (d) mm d) total mass of one carton filled with full modules: 4.4 kg e) conditions for storage. e nvironment ?@ temperature : 0 ?` 40 ?? ?a humidity : 60%rh or less (at 40 ?? ) no dew condensation at low temperature and high humidity. ?b atmosphere :harmful gas, such as acid or alkali which bites electronic components and/or wires, must not be detected. ?c period : about 3 months ?d opening of the package : in order to prevent the lcd module from breakdown by electrostatic charges, p lease control the room humidity over 50%rh and open the package taking sufficient countermeasures against electrostatic charges, such as earth, e tc. (1 4 ) others a) adjusting volume have been set optimally before shipment, so do not change any adjusted value. if adjusted value is changed, the specification may not be satisfied. b) disassembling the module can cause permanent damage and should be stric tly avoided. c) please be careful since image retention may occur when a fixed pattern is displayed for a long time. d) indication of lot number the lot number is shown on a label. attached location is shown in fig.1 (outline dimensions). indicated conte nts of the label contents of lot no. the 1st figure ?d production year (ex. 2005 : 5 ) the 2nd figure ?d production month 1,2,3, ?d?d?d ,9,x,y,z the 3rd ?` 8 th figure ?d serial no. 0000 0 1 ?` the 9 th figure ?d revision marks a,b,c ?d ?k?p?o?w?w?g?x?c?y?o?r ?t?s?o?o?o?o?o?p lcy 0 6036 ?| 23 (1 5 ) reli ability test conditions for tft - lcd module table 1 5 - 1 remark) temperature condition is based on operating temperature conditions on (5) - table 5 - 1. no. test items test conditions ?p high temperature storage test ta= +85 ?? 24 0h ?q high temperature storage test ta= +95 ?? 120 h ?r low temperature storage test ta= - 40 ?? 240h ?s high temperature and high humidity operating test tp= +50 ?? 95 ?? rh 240h ?t high temperature operating test tp= +85 ?? 240h ?u low temperature operating test t a = - 40 ?? 240h ?} 200v ?e 200pf(0 ?? ) 1 time for each terminals ?} 2 k v 150 pf( 330ohm ) 3 time for each terminals ?v electro static discharge test ?} 15kv 150 pf( 330ohm ) 3 time for each disp lay center ?w shock test 980m/s 2 ?e 6ms, ?} x ?g?} y ?g?} z 3 times for each direction ?i jis c0041, a - 7 condition c ?j 9 vibration test frequency range ?f 8 ?` 33.3hz stroke ?f 1.3mm sweep ?f 33.3hz ?` 400hz acceleration ?f 28.4m/s 2 cycle ?f 15 minutes x,z 2 hours for each directions, 4 h ours for y direction (total 8 hours) ?y caution ?z ?i jis d1601 ?j 10 heat shock test ta= ?| 30 ?? ?` +85 ?? / 200cycles (0.5h) (0.5h) ?y note ?z ta= ambient temperature, tp= panel temperature ?y check items ?z in the standard condition, there shall be no practical pr oblems that may affect the display function. ?y caution ?z x,y,z directions are shown as follows: ?w ?x ?y fig.2 the construction form lcy 0 6036 - 2 5 lcy 0 6036 - 2 6 fig. 3 packing form |
Price & Availability of LQ088H9DZ03
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |