is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval tft lcd approval s pecification model no.: v260b1 - l01 lcd tv head div i sion av p 3???? tvhd / pdd qr a d e p t. d d i i i d d i i d d i approv a l a p p r o v a l approv a l approv a l 3?@ ?l?v a??a al?o l c d t v m a rket in g a nd p r od uct m ana ge me nt di visi on p r od uct m ana ge r 3??y aa?y y?? customer: a pprov ed b y : note: v e rsion 2 . 1 1
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval - contents - revi si o n h i st o r y ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 3 1. g e neral descri pti o n ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 4 1.1 o v er vi e w 1.2 f e a t ures 1.3 a p p l ica t io n 1.4 g e ner a l s pecif ica t io ns 1.5 m e ch ani c al s pec if ica t io ns 2. abso lu t e m a x i m u m ra t i ng s ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 5 2.1 a bso l u t e ra t i ng s o f envi ro nm ent 2.2 el ect r ical a bso l u t e ra t i ng s 2.2.1 t f t lcd mo dule 2.2.2 b a c k lig h t unit 3. elec t r i c al charact eri s t i cs ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 7 3.1 t f t lcd module 3.2 bac klig ht inv e r t er unit 3.2.1 ccf l( c o l d cat hode f l u o r e s c ent l a m p ) char a ct erist i cs 3.2.2 in ver t e r ch ara c t e rist ics 3.2.3 inv e r t er int e r t f a ce cha ract eri s t i cs 4. bl o c k di a g ram ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 12 4.1 t f t lcd module 5. i n t e rf ace p i n connect i o n ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 13 5.1 t f t lcd module 5.2 bac klig ht unit 5.3 in v e r t er unit 5.4 blo c k di ag ra m o f i n t e rf ac e 5.5 l v d s int e rf ace 5.6 co lo r da t a in put a ssig n me nt 6. i n t e rf ace t i m i ng ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 19 6.1 in put sig n al t i min g sp ecif ic a t io ns 6.2 po w e r o n /o f f seq uenc e 7. o p t i cal charact e r i s ti cs ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 22 7.1 t est condit i ons 7.2 o p t i ca l s p e c ifica t io ns 8 . d e f i n i ti on of l a b e l s ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 26 8.1 c m o mo du le la be l 9 . p a c k a gin g ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 27 9.1 p a ck ing s p e cif i c a t i o n s 9.2 p a cking met h o d 10. precauti o n s ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 29 10.1 a s s e m bl y and h a n d ling p r ec aut i o n s 10.2 s a f e t y pr ecaut i o n s 10.3 st o r ag e pr ec aut i o n s 1 1 . m e chani cal cha ract eri s ti cs ------ ---- ---- ---- ---- ---- ---- ---- -- ------ ---- ---- ---- - 30 v e rsion 2 . 1 2
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval r evision h i st or y v e r s i o n d a te pag e (ne w ) s e c t i o n d e s c r i p t i o n v e r 2.0 v e r 2.1 o c t. 1 1 ,?0 6 nov . 17, ?06 al l 10 al l 3.2.3 appr o v a l s pec if ic atio n w a s f i r s t is s ued. dele te i n ter n al/ e x t er na l p w m selec t v o lt a ge. v e rsion 2 . 1 3
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 1 . ge ne r a l de s cri p t ion 1. 1 o ver vi ew v260 b1- l 0 1 is a t f t li qu id cr y s t a l d i s p la y m odu le wit h 1 2 - ccf l bac k lig ht un it and 1c h- l v ds inter f ac e. t he dis p l a y d i ag ona l is 26? . t h is m odule s uppor t s 13 66 x 768 w x ga f o r m at and c an dis p la y 16.2 m c o l o r s ( 6 - b it s + f r c c o lor s ) . t he inv e r t er m odule f o r back light is b u i l t- in. 1. 2 fe a t ures - ex c e ll ent br ig htnes s 5 00n its - contr a s t r a t i o 800 :1 - f a s t r e s pons e t i m e ( 8 m s ) - co l o r sa t u ra t i o n nt s c 7 2 % - w x g a ( 1366 x 768 pix e ls ) r e s o lut i on - de ( d at a e nab le) o n l y m ode - l v ds ( l o w v o ltage diff er enti a l si gn al ing) int e r f ac e - v i e w ing ang le: 16 0( h) /15 0 ( v ) ( cr> 10) t n tec hnol og y - c olor r e pr oduc t i on ( n atur e c o lor ) - rohs c o m p li anc e 1 . 3 a p p l ic a t ion - tf t l c d tv s - high br ig htn e s s , m u lti- m edia dis p la y s 1. 4 g e ner a l spe ci fi c a t i 0ns item s pec if ic at io n u n i t n o t e ac ti ve ar e a 575. 769 ( h ) x 3 23. 712 ( v ) ( 26? dia gon al) m m be zel o pen in g ar ea 580. 8 ( h ) x 328 .8 ( v ) m m (1 ) dr iver el em ent a- s i t f t ac tive m a tr ix - pix e l num ber 1366 x r.g . b. x 768 pix e l pix e l p i tc h ( s ub p i x e l) 0.14 05 ( h ) x 0. 421 5 ( v ) m m pix e l ar r ang em ent rg b v e r t ic a l s t r i p e - di s p l a y col o rs 16.2 m c o l o r dis p l a y o per at ion mo de t r ansm i ss ive m ode / nor m all y w h ite - sur f ac e t r eatm ent a n t i -gl a re co a t in g (ha z e 2 5 %) har d c oat in g ( 3 h) - 1 . 5 me c h a n ic a l s p e c i f i ca t ion s item m i n . t y p . max . u n i t n o t e hor i zont a l ( h ) 6 2 5 6 2 6 6 2 7 m m v e r t ic al( v ) 3 7 2 3 7 3 3 7 4 m m depth( d) 35.6 36.6 37.6 m m t o pcb c o v e r modu le s i ze depth( d) 41.2 42.2 43.2 m m t o inver t er c o ver w e i g h t - - 4 5 0 0 - - g note ( 1 ) ple a s e r e f e r to t he att a c h e d dr a w i ngs f o r m o r e inf o r m at ion of f r ont and b a c k outli n e dim ens ions . v e rsion 2 . 1 4
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 2. a b solute m a xim u m r a tings 2. 1 a b so lu t e r a t i n g s o f envi r o nm ent v a l ue i t e m s y mb o l m i n . m a x . uni t n o t e s t or a ge t e m per atur e t st - 2 0 + 6 0 o c ( 1 ) o per ati n g am bient t e m per atur e t op 0 + 5 0 o c (1 ) , (2 ) shoc k ( n on- o per ati ng) s nop - 5 0 g (3 ) , (5 ) v i br at ion ( n on- o per ati ng) v nop - 1 . 0 g (4 ) , (5 ) note ( 1 ) t e m per atur e and r e lat i ve h u m i dit y r a nge is s h o w n i n t he f i gur e be lo w . (a ) 9 0 %rh m a x. (t a ?? 40 oc) . ( b ) w e t - bulb t e m per atur e s hou ld b e 3 9 oc max . ( t a > 40 oc) . ( c ) no c ondens a t io n. note ( 2 ) t he m a x i m u m oper ating tem per atur e is bas e d on t he t e s t c ond iti on t hat t he s u r f ac e tem per atur e of dis p l a y ar ea is l e s s than or equa l t o 60 oc wit h lcd m odu le a l o ne in a tem per atur e c ontr o ll ed c ham ber . t her m a l m anagem ent s hou ld b e c ons id er ed in f i n a l pr o duc t des i gn t o pr e v en t the s u r f ac e tem per atur e of dis p l a y ar e a f r om being o v e r 60 oc. t he r a n g e of op er a t ing tem per atur e m a y de gr a de in c a s e of im pr oper ther m a l m anagem ent i n f i n a l pr o duc t d e s i g n . note (3) 1 1 m s , half s i ne w a v e , 1 t i m e f o r x , y , z. note ( 4 ) 10 ~ 50 0 h z , 1 0 m i n, 1 t i m e eac h x , y , z . note ( 5 ) at tes t ing vibr a t io n a nd sh oc k , the f i x t ur e in ho ld ing t he m odule h a s to b e h a r d and r i gi d en oug h s o that t he m odul e w o ul d n o t be t w is t ed or ben t b y th e f i x t ur e. s t orage range 10 20 60 40 80 - 40 4 0 - 2 0 0 2 0 60 80 100 90 t e mperat ure ( o c) op e r a t in g r a n g e r e la tiv e h u m i d i ty (% rh ) v e rsion 2 . 1 5
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 2. 2 elect r i c a l a b so lut e r a ti ng s 2. 2. 1 t f t lcd m o dule v a l ue i t e m s y mb o l m i n . m a x . uni t n o t e po w e r su pp l y v o ltage vc c - 0 .3 6.0 v input s i gn al v o ltage v in - 0 . 3 3 . 6 v (1 ) 2. 2. 2 b a ckli g h t uni t i t e m s y mb o l te s t cond iti o n min. t y p e max . u n i t n o t e lam p v o ltag e v w t a = 25 j ?e ?e 3000 v rms po w e r su pp l y v o ltage v bl ?e 0 ?e 3 0 v (1 ) contr o l s i g nal le ve l ?e ?e -0 .3 ?e 7 v (1 ), (3 ) note ( 1 ) per m anent dam age t o th e de vic e m a y oc c u r if m a x i m u m values ar e ex c e e ded. f unc ti ona l oper at io n s hou ld be r e s t r i c t ed to the c ond iti ons d e s c r ib ed u nder nor m a l oper at in g c ondit i o n s . note ( 2 ) no m o is tur e c onde ns at ion or f r ee z i n g . note ( 3 ) t he c ontr o l s i g n a l s i n c l u d e s b a c k light o n /o f f contr o l, int e r n a l p w m contr o l, ex ter n al p w m contr o l a nd i n ter n a l / e x t er n a l p w m selec t io n. v e rsion 2 . 1 6
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 3. elec tr ica l c h a r a c ter i stic s 3. 1 t f t lcd m o dule t a = 2 5 2 o c v a l ue p a ra m e te r s y m b o l m i n . t y p . max . uni t n o t e po w e r su pp l y v o ltage v cc 4 . 5 5 . 0 5 . 5 v ( 1 ) po w e r su pp l y rip p l e v o lt a ge v rp - - 1 0 0 m v rus h curren t i rush - - 3 . 0 a (2 ) w h i t e - 0 . 6 - a blac k - 1 . 0 1 . 3 a po w e r su pp l y cur r ent v e r t ic al s t r i pe i cc - 0 . 9 - a (3 ) diff er ential in put hi gh t h r e s hold v o lt ag e v lv t h - - + 1 0 0 m v diff er ential in put lo w t h r e s hold v o lt ag e v lv t l - 1 0 0 - - m v com m on input v o lt ag e v lv c 1.12 5 1 . 2 5 1 . 3 7 5 v lv d s interf ac e t e r m inating res i s t or r t 1 0 0 ohm input hi gh t h r e s hold v o lt a ge v ih 2 . 7 - 3 . 3 v cmos inter f ac e input lo w t h r e s hol d v o lt ag e v il 0 - 0 . 7 v note ( 1 ) t he m odule s h oul d b e a l w a y s op er ated w i thi n a b o v e r a nges . note ( 2 ) meas ur em ent co ndi tio n s : 200k q1 +5 .0 v r1 fu s e 1uf c3 vcc ( l cd m odul e i nput ) 10uf c1 1k r2 ( low t o hi gh) ( c ont r o l s i gnal) 2n7002 q2 47k vr 1 a o 4409 sw vcc ri s i ng t i me i s 47 0u s 0. 1v c c 0. 9v c c gnd +5 v 470us v e rsion 2 . 1 7
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval note ( 3 ) t he s pec if ied po w e r s u p p l y c u r r ent is under th e c ond iti ons at vc c = 5 v , t a = 25 2 oc, f v = 60 h z , wher eas a po wer d i s s i p a t i o n c hec k p a tter n b e lo w is d i s p la y e d. b. b l ac k patter n a. w h ite patter n ac ti ve ar e a ac ti ve ar e a r r r b b b b g g g g b b b b b b g g g g r r r r r r r c . v e r t ic al s t r i pe pat t er n ac ti ve ar e a 3. 2 b a ckli g h t i n vert e r uni t 3. 2. 1 ccfl ( c ol d cat h o d e fl uorescen t la mp) ch a r a c t e ri st i c s ( ta = 2 5 2 o c ) v a l ue p a ra m e te r s y m b o l m i n . t y p . max . uni t n o t e lam p v o ltag e v w - 9 7 0 - v rms i l = 5.0m a lam p cur r ent i l 4 . 5 5 . 0 5 . 5 ma rms ( 1 ) - - 1650 v rms (2 ), t a = 0 o c lam p s t ar tin g v o lt ag e v s - - 1500 v rms (2 ), t a = 2 5 o c o per ati ng f r e que nc y f o 4 0 - 8 0 kh z ( 3 ) lam p lif e t i m e l bl 50,0 0 0 6 0 , 0 0 0 - h r s (4 ) v e rsion 2 . 1 8
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 3. 2. 2 i n vert e r ch a r a c te ri st i c s ( t a = 25 2 oc) v a l ue p a ra m e te r s y m b o l m i n . t y p . max . uni t n o t e po w e r cons um ption p bl - 6 6 6 9 w (5 )(6 ), i l = 5.0m a po w e r su pp l y v o ltage v bl 2 2 . 8 2 4 2 5 . 2 v dc po w e r su pp l y cur r ent i bl - 2.75 - a n o n d i m m i n g input ri ppl e no is e - - - 5 0 0 m v p-p v bl =22 . 8v 1 6 5 0 - - v rms ta = 0 o c bac k light t u r n on v o lt a ge v bs 1 5 0 0 - - v rms t a = 25 oc o s c illat i ng f r equ enc y f w 5 5 5 8 6 1 k h z dim m ing f r equenc y f b 1 5 0 1 6 0 1 7 0 h z m i n i mu m d u t y r a t i o d min - 2 0 - % note ( 1 ) lam p c u r r ent is m eas ur ed b y uti l i z i ng hig h f r eque nc y c u r r ent m e ter s as s how n b e lo w: a a a a a a a a a a a a l v ( w hite,-) lv ( b l a c k + ) hv ( w hite) 2 hv (p i n k ) 1 hv ( w hite) 2 hv (p i n k ) 1 hv ( w hite) 2 hv (p i n k ) 1 hv ( w hite) 2 hv (p i n k ) 1 hv ( w hite) 2 hv (p i n k ) 1 hv ( w hite) 2 hv (p i n k ) 1 inv e r t er l cd m odul e note ( 2 ) t he lam p s t ar ting vo lt a ge v s s hou ld be app li ed to t h e l a m p f o r m o r e than 1 s e c o n d un der s t ar t i ng up d u r a ti on. o t her w i s e the l a m p c ould no t be l i ght ed o n c o m p leted. note ( 3 ) t he lam p f r equenc y m a y pr oduc e inter f er enc e with hor i z ontal s y nc hr on ous f r equenc y f r o m the dis p l a y , an d th is m a y c a u s e li ne f l o w on the dis p la y . in or der to a v oi d i n ter f er enc e, t he lam p f r equenc y s h o u l d be det ac h ed f r o m the hor i z o n t a l s y nc hr ono us f r equenc y and it s h a r m onic s as f a r as pos s i b l e. v e rsion 2 . 1 9
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval note ( 4 ) t he lif e tim e o f a la m p is d e f i ned as w h e n the br i ght n e s s is lar ger than 5 0 % of it s or igin al v a l ue and t he ef f e c t ive dis c har g e le ngt h is lon ger th an 8 0 % of it s or ig ina l len g th ( e f f ec tiv e d i s c har ge len g th is def ine d as a n ar ea t hat has eq ua l t o or m o r e t han 70 % br igh t nes s c o m p ar ed to t h e br ight nes s a t t h e c enter p o i n t.) as the t i m e in w h ic h it c onti nues to op er ate u nder t he c o nd iti on t a = 2 5 ? 2 j an d i l = 4.5 ~ 5. 5m a rms . note ( 5 ) t he po w e r s u ppl y c a p a c i t y s houl d b e h i g her th an the t o t a l in ver t er po wer c ons um ptio n p bl . si nc e the p u ls e w i dth m odula t io n ( p w m ) m ode was ap pl ied f o r bac k light d i m m ing, the dr iv in g c u r r ent c hange d as p w m dut y on and off . t he tr ans ient r e s p ons e of po w e r s upp l y s h ou l d be c ons i der ed f o r the c hang in g l oad in g w h en i n v e r t er d i m m ing. note ( 6 ) t he m eas ur em ent of max . va lue is bas e d on 2 6 ? bac k ligh t u n it u nder 24 v inp u t vo lta g e an d 6 . 3m a lam p in a v er a ge af ter lig hti ng f o r 30 m i nutes . 3. 2. 3 i n vert er i n t e r t f a ce ch a r a c te ri st i c s item sy m b ol te s t cond iti on min. typ . max . uni t note error sign al err ?e ?e ?e ?e ?e (not e 1) on ?e 2.0 ?e 5 . 0 v o n /o f f control v o lt a ge off v blon ?e 0 ?e 0 . 8 v max 3 .0 3.15 3.3 v max i m u m dut y r a t i o interna l p w m contr o l v o lt ag e min v ip w m v sel = l ?e 0 ?e v min i m u m dut y r a t i o h i 2 . 0 ?e 5 . 0 v dut y o n ex terna l p w m contr o l v o lt ag e lo v ep w m v sel = h 0 ?e 0 . 8 v dut y off contr o l s i g nal ris i ng t i m e t r ?e ?e ?e 1 0 0 m s contr o l s i g nal f a l l i ng t i m e t f ?e ?e ?e 1 0 0 m s p w m signal ris i ng t i m e t pw m r ?e ?e ?e 5 0 us p w m signal f a l l i ng t i m e t pw m f ?e ?e ?e 5 0 us input im pedanc e r in ?e 1 ?e ?e m [ blo n d e l a y t i m e t on ?e 1 ?e ?e m s blo n o ff t i m e t of f ?e 1 ?e ?e m s note ( 1 ) w hen in ver t er pr o t ec ti ve f unc ti on is tr ig ger e d , err w i ll out put ope n c o ll ec tor s t atus . i n nor m a l oper at io n, th e s i g n a l of er r w i ll outp u t a lo w l e v e l vo ltage. v e rsion 2 . 1 10
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 2.0v 0.8v tr tf back light on dur at ion 0 v epwm 3.3v v ip w m t pw m r v w to n minimun du t y 100% pwm d u t y v bl v bl o n 0 0 0 2.0v 0.8v t pw m f to ff ex t e rna l pwm peri od ex te rn al v e rsion 2 . 1 11
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 4 . block di a g r a m 4. 1 t f t lcd m o dule tf t l c d p a ne l ( 1366 x3x 768) da t a dr i v e r ic s c a n d r i v e r i c dc/dc con v e r t e r & ref e r e nc e vo l t a g e i n p u t c o n n e c t o r ( j a e , f i - x 3 0 s s l - h f ) gnd vc c fr a m e buffe r r x 0 ( + / -) r x 1 ( + / -) r x 2 ( + / -) r x 3 ( + / -) rx cl k ( +/ - ) ti m i n g cont roller ba ck l i g h t unit inv e rt er conn ector cn1: s1 4 b - p h-s m 4 - t b (d)(lf)(j s t ) o r e q u i v a l e n t cn3-cn8: sm 0 2 ( 8 .0 ) b- bd bs- 1 - t b- l f ( j s t ) or s m 02 (8. 0 )b -b h s -t b ( j s t ) or equi val ent cn1 cn2: s 2 b - zr-s m 4 a - tf (d)(lf)(j s t ) or equi val ent bl o n i_ p w m gnd er r e_ p w m vbl v e rsion 2 . 1 12
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 5 . inte rf a c e p i n conne ction 5. 1 t f t lcd m o dule cnf1 conne c t or p i n a s s i gnme n t pin no. s y m b ol d e scri p ti on note 1 nc no conn ec tio n ( 3 ) 2 nc no conn ec tio n ( 3 ) 3 nc no conn ec tio n ( 3 ) 4 g nd g r ound 5 rx 0- ne g ati v e tr ans m i s s i on da t a of p ix e l 0 6 rx 0+ pos i ti ve tr ans m i s s i on data of p ix e l 0 7 g nd g r ound 8 rx 1- ne g ati v e tr ans m i s s i on da t a of p ix e l 1 9 rx 1+ pos i ti ve tr ans m i s s i on data of p ix e l 1 10 g nd g r ound 1 1 rx 2- ne g ati v e tr ans m i s s i on da t a of p ix e l 2 12 rx 2+ pos i ti ve tr ans m i s s i on data of p ix e l 2 13 g nd g r ound 14 rx clk- ne g ati v e of c l oc k 15 rx clk + pos i ti ve of c l oc k 16 g nd g r ound 17 rx 3- ne g ati v e tr ans m i s s i on da t a of p ix e l 3 18 rx 3+ pos i ti ve tr ans m i s s i on data of p ix e l 3 19 g nd g r ound 2 0 n c no co nnec t i on 21 se ll vd s selec t l v d s data f o r m at ( 2 ) 22 nc no conn ec tio n ( 3 ) 23 g nd g r ound 24 g nd g r ound 25 g nd g r ound 26 vcc power s u pp l y : +5 v 2 7 v c c po w e r s u pp l y : +5 v 2 8 v c c po w e r s u pp l y : +5 v 2 9 v c c po w e r s u pp l y : +5 v 3 0 v c c po w e r s u pp l y : +5 v no te (1 ) c o n n e c to r pa rt no .: ja e , f i -x3 0 s s l -hf o r co m p a t i b l e note ( 2 ) h i g h : nor m al, g r o und or o p e n : j e i d a l v ds f o r m at p l e a se re f e r to 5 . 5 l v d s in t e rf a c e (p a g e 1 7 ) n o t e ( 3 ) res e r v ed for i n ter n a l us e . p l eas e le av e it ope n. v e rsion 2 . 1 13
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 5. 2 b a ckli g h t uni t t he pin c onf i gur at ion f o r th e ho us ing an d l ead er w i r e i s s hown i n th e t a ble be lo w . cn3- cn8 ( h ous i ng) : bdbr - 03( 4.0) v - 1s ( j st ) or bhr- 03v s- 1( j s t ) or equ iv al ent. pin no. sy m bol descr ipt i on w i re co l o r 1 h v high v o l t a g e pink 2 h v high v o l t a g e w h i t e note ( 1 ) t he bac k light in ter f ac e hous in g f o r hig h voltag e s i de is a m odel bd br- 0 3 ( 4 .0) v - 1 s( j s t ) ,or bhr- 03 v s - 1 ( j st ) o r equi v a le nt. t he m a ting he ader o n in ver t er p a r t n u m ber is sm0 2 ( 8 .0) b - b d bs- 1- t b - l f ( j s t ) or sm02( 8.0) b- bh s- t b ( j s t ) or equi va len t. cn2 ( h o u s i ng) : z hr- 2 ( j s t ) or equiv a l ent pin no. sy m bol descr ipt i on w i re co l o r 1 l v lo w v o lt a g e ( + ) blac k 2 l v l o w v o l t a g e ( - ) w h i t e note ( 2 ) t he bac k light int e r f ac e hous i ng and r e tur n c a ble f o r lo w v o ltage s i d e is a m odel z hr- 2 , m anuf ac tur e d b y j s t or equ iv al ent. t he m a ting hea der o n i n v e r t er par t num ber is s2 b- z r - s m4 a- t f ( d ) ( l f ) or equ iv ale n t. 1. h v (p i n k , + ) 2 . h v ( w h ite , + ) 1. h v (p i n k , -) 1. h v (p i n k , + ) 2 . h v ( w h ite , + ) 2 . h v ( w h ite , - ) 1. h v (p i n k , -) 1. h v (p i n k , + ) 8 f e m a l e co nn e c t o r s b d b r - 03(4. 0 v - 1s o r b h r - 03v s - 1 ) or e q u i va l e n t 2 . h v ( w h ite , + ) 1. h v (p i n k , -) 2 . h v ( w h ite , - ) r e t r ue n c a b l e zh r - 2 1. l v (b l a c k ) 2. l v (w h i t e ) o r e qua l 2 . h v ( w h ite , - ) v e rsion 2 . 1 14
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 5. 3 i n vert e r uni t c n 1 ( h eader ) : s1 4b - p h - sm 4- t b ( d ) ( l f) ( j st) or eq ui v a l ent. p i n n o . sy m b ol d e scr i p t i o n 1 2 3 4 5 vb l + 2 4 v po wer in p u t 6 7 8 9 10 g n d g r o u n d 1 1 e r r norm al (gnd) abn o r m al( o pen c o l l ec tor ) 1 2 b l o n bl o n /o f f 1 3 i _ p w m interna l p w m c o n t r o l 14 e_ p w m ex ter n a l p w m contr o l notic e : #pin 13: an alo g d i m m ing contr o l ( u s e p i n 13) : 0v ~3. 3 v a nd pi n 1 4 m u s t open. #pin 14: p w m di m m ing co ntr o l ( u s e pi n 1 4 ) : p i n 13 m u s t open. #pi n 1 3 ( i _p w m ) and p i n 1 4 ( e _ p w m ) c an not o p e n i n s a m e per iod. c n 2 ( h eader ) : s2b- z r - s m4 a- t f or equi v a le nt. p i n n o . sy m b ol d e scr i p t i o n 1 ccfl cold ccfl lo w v o l t a g e (+ ) 2 ccfl cold ccfl lo w v o l t a g e (-) c n 3 - c n 8 ( h eader ) : sm02( 8. 0) b- b d b s - 1 - t b- lf ( j st ) or sm02( 8. 0) b- b h s- t b or e q u i v a le nt . p i n n a m e des c r ipti o n 1 ccfl hot ccf l h i gh vo lt a ge 2 ccfl hot ccf l h i gh vo lt a ge v e rsion 2 . 1 15
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 5. 4 bl o ck di a g r a m o f i n t e rf a c e cnf1 rx 3+ rx 3 - 51 [ 51 [ 51 [ 51 [ 51 [ 51 [ 51 [ 51 [ 51 [ 51 [ 100pf 100 p f 100pf 100pf 100pf clk - clk+ rx 2- rx 2+ rx 1- rx 1+ rx 0 - rx 0+ l v ds receiv er t hc63l vdf84a l v ds t r an sm itt e r t hc63l vdm 83a ( l vdf83a) dclk ti m i n g cont r o ller de b 0 -b 7 g0 - g 7 r0- r 7 rxout pll pll tx in host g r aphics cont r o ller de b 0 -b 7 g0 - g 7 r0- r 7 r0~ r 7 : pi x e l r d a t a , g0 ~ g 7 : p i xel g d a t a , b0 ~b 7 : pix e l b dat a , de : dat a en ab le s i gna l note ( 1 ) t he s y s t em m u s t hav e th e tr ans m i tter to dr i v e the m odule. note ( 2 ) l v d s c a b l e im pedanc e s h a ll be 50 o h m s per s i gna l l i n e or a bou t 10 0 o h m s per twis t- p a ir li ne when it is us ed d i ff er entiall y . v e rsion 2 . 1 16
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 5. 5 l v ds i n t e rf a c e sig n a l tr a n s m i tte r t hc63l vdm 8 3 a int e rf ac e connector rec e iv er t hc63l vdf 8 4a t f t con t rol input se ll vd s =h se ll vd s = l o r o p e n p i n i n p u t h o s t tf t - l c d p i n o u tp u t se ll vd s =h se ll vd s =l or o pen r0 r1 r2 r3 r4 r5 g0 g1 g2 g3 g4 g5 b0 b1 b2 b3 b4 b5 de r6 r7 g6 g7 b6 b7 rsv d 1 rsv d 2 rsv d 3 r2 r3 r4 r5 r6 r7 g2 g3 g4 g5 g6 g7 b2 b3 b4 b5 b6 b7 de r0 r1 g0 g1 b0 b1 rsv d 1 rsv d 2 rsv d 3 51 52 54 55 56 3 4 6 7 11 12 14 15 19 20 22 23 24 30 50 2 8 10 16 18 25 27 28 tx i n 0 tx i n 1 tx i n 2 tx i n 3 tx i n 4 tx i n 6 tx i n 7 tx i n 8 tx i n 9 tx i n 1 2 tx i n 1 3 tx i n 1 4 tx i n 1 5 tx i n 1 8 tx i n 1 9 tx i n 2 0 tx i n 2 1 tx i n 2 2 tx i n 2 6 tx i n 2 7 tx i n 5 tx i n 1 0 tx i n 1 1 tx i n 1 6 tx i n 1 7 tx i n 2 3 tx i n 2 4 tx i n 2 5 ta o u t 0 + ta o u t 0 - ta o u t 1 + ta o u t 1 - ta o u t 2 + ta o u t 2 - ta o u t 3 + ta o u t 3 - rx 0+ rx 0- rx 1+ rx 1- rx 2+ rx 2- rx 3+ rx 3- 27 29 30 32 33 35 37 38 39 43 45 46 47 51 53 54 55 1 6 7 34 41 42 49 50 2 3 5 rx out 0 rx out 1 rx out 2 rx out 3 rx out 4 rx out 6 rx out 7 rx out 8 rx out 9 rx o u t 12 rx o u t 13 rx o u t 14 rx o u t 15 rx o u t 18 rx o u t 19 rx o u t 20 rx o u t 21 rx o u t 22 rx o u t 26 rx o u t 27 rx out 5 rx o u t 10 rx out 1 1 rx o u t 16 rx o u t 17 rx o u t 23 rx o u t 24 rx o u t 25 r0 r1 r2 r3 r4 r5 g0 g1 g2 g3 g4 g5 b0 b1 b2 b3 b4 b5 de r6 r7 g6 g7 b6 b7 nc nc nc r2 r3 r4 r5 r6 r7 g2 g3 g4 g5 g6 g7 b2 b3 b4 b5 b6 b7 de r0 r1 g0 g1 b0 b1 nc nc nc 24 bit dclk 31 t x clk in t x clk out + tx c l k o u t - rx clk in + rx clk in- 26 rx clk out dclk r0~r 7: pix e l r d a t a ( 7 ; m sb, 0; l s b) g 0 ~g 7: pix e l g d a t a ( 7 ; m sb, 0; l s b) b0 ~b 7: p i x e l b dat a ( 7 ; m sb, 0; l s b) de : dat a ena bl e s i g nal v e rsion 2 . 1 17
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval notes ( 1) rs vd( r e s e r v ed) p i ns on t he tr a n s m itter s hall be ? h ? or ? l ? . 5 . 6 c o l o r da t a in p u t a s s ign me n t t he br igh t nes s of eac h p r im ar y c o lor ( r e d, gr e en an d bl ue) is bas ed on the 8- bi t gr a y s c a le dat a in put f o r the c o lo r . t he high er the bi nar y i npu t, the br i ght er the c o lor . t he t able b e l o w pr o v i des the as s i g n m ent of c o lor v e r s us dat a in put. dat a s i gn al r e d g r e e n blu e col o r r7 r 6 r 5 r 4 r3 r2 r1 r0 g7 g6 g5 g4 g3 g2 g1 g 0 b 7 b 6 b 5 b 4 b 3 b 2 b 1 b 0 b a si c col o rs blac k red g r een blu e cy an mage nt a ye l l o w wh i t e 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 1 0 1 0 1 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 0 0 0 1 1 1 0 1 gray sc ale of red red( 0) / d a r k red( 1) red( 2) : : red( 25 3) red( 25 4) red( 25 5) 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 1 : : 0 1 1 0 1 0 : : 1 0 1 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 gray sc ale of g r een g r een( 0) / dar k g r een( 1) g r een( 2) : : g r een( 253) g r een( 254) g r een( 255) 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 1 : : 0 1 1 0 1 0 : : 1 0 1 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 gray sc ale of blu e b l u e (0 ) / d a rk b l u e (1 ) b l u e (2 ) : : b l ue ( 2 53 ) b l ue ( 2 54 ) b l ue ( 2 55 ) 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 0 0 0 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 0 : : 1 1 1 0 0 1 : : 0 1 1 0 1 0 : : 1 0 1 0 note ( 1 ) 0: l o w l e v e l v o lt a ge, 1 : hi gh le vel v o ltage v e rsion 2 . 1 18
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 6. interf a c e timin g 6 . 1 in p u t s igna l t i mi n g s p e c i f i ca t ion s t he input s i g nal tim i ng s p e c if ic ations ar e s h o w n as th e f o llo win g t a ble an d t i m i ng dia g r a m . si g na l i t e m s y mb o l m i n . t yp . m ax . u n i t note fre q uenc y 1/t c 60 74 8 2 m h z l v d s rec e i v er cl oc k input c y c l e to cy cl e j i t t e r t r c l - - 2 0 0 p s setu p t i m e t l vs u 600 - - p s l v d s rec e i v er data hold t i m e t l vhd 600 - - p s fr 5 47 50 5 3 h z fra m e ra te fr 6 57 60 6 3 h z (2 ) to t a l t v 778 7 9 5 8 8 8 t h t v =t vd+t vb di s p l a y t v d 768 7 6 8 7 6 8 t h - v e rt i c a l a c t i ve d i sp lay t e r m bla n k t v b 10 2 7 1 2 0 t h - to t a l t h 1442 1 5 7 2 1 9 3 6 t c t h =t hd+t h b dis p l a y t h d 1366 1 3 6 6 1 3 6 6 t c - hori z ont a l ac ti v e di s p l a y t e rm bla n k t h b 76 2 0 6 5 7 0 t c - note ( 1 ) s i nc e th is m odule is o per at ed in d e onl y m ode, hs y n c and vs y n c in put s i gn als s h ou ld be s e t t o lo w log i c l e v e l. o t her wis e , t h is m odule wou l d o per at e a bnor m a ll y . ( 2 ) pleas e r e f e r to 5.1 f o r det ai l i n f o r m ation. in p u t s igna l t i min g d i a g r a m t v t vd t vb t h de t hb v a l i d dis p la y d a t a ( 1 3 6 6 cl o c ks ) dclk t c t hd da t a de v e rsion 2 . 1 19
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval l v ds recei ver i n t e rf a c e t i m i ng di a g r a m tc rx clk + /- rx n+ /- tl v s u t l vhd 14 3 t 14 5 t 14 7 t 14 9 t 14 11 t 14 13 t 14 1 t v e rsion 2 . 1 20
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 6. 2 p o w e r o n /o ff seq uence t o p r ev ent a lat c h - up or dc oper at ion o f lcd m o dule, t he pow er on/ o f f se q uence should be as t h e diag r a m below . 0. 5 ?? t 1 ?? 10 m s 0 ?? t 2 ?? 50 m s 0 ?? t 3 ?? 50 m s 5s ?? t 4 50% 0v 0v 50% t 6 t 5 t 3 t 1 0. 1v c c 0. 9 v cc 0. 1v cc 0. 9 v cc t 4 t 2 va l i d pow e r on p o w e r s uppl y v cc s i gna ls pow e r of f b acklight (r ecom m end e d) 500 ms ?? t 5 100 ms ?? t 6 p o w e r on/off s e que n c e note ( 1 ) t he s uppl y v o ltage of the e x ter nal s y s t em f o r the m odule in put s h oul d f o l l o w t he def init io n of vc c . note ( 2 ) app l y the lam p vo lt a ge with in t he l cd o per at ion r ang e . w hen the bac k light t u r n s on b e f o r e the lcd oper at io n or th e lc d tur n s of f bef or e the bac k lig ht tur n s of f , the dis p la y m a y m o m ent ar i l y bec om e abnor m a l s c r een. note ( 3 ) in c a s e of vc c is i n off leve l , pl eas e k eep th e l e v e l of in put s i gna ls on the lo w or h i gh im peda nc e. note ( 4 ) t 4 s hould b e m eas ur ed after the m odul e has bee n f u ll y d i s c har ge d be t w ee n p o w er of f and on per iod. note ( 5 ) inter f ac e s i gn al s h al l n o t b e k ept at hi gh im pedanc e wh en th e p o w er is on. v e rsion 2 . 1 21
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 7. optic a l c h a r a c teristics 7. 1 t est co ndi t i o n s i t e m s y mb o l v a l u e u n i t am bient t e m per atur e t a 25 2 o c am bient hum i dit y ha 50 10 %rh s u pp l y v o l t ag e v cc 5 . 0 v input s i gn al ac c o r d in g to t y p i c a l v a l ue i n "3 . e l ect r ica l ch ar a c t e rist ics" lam p cur r ent i l 5.0 0. 5 ma o s c illat i ng f r equ enc y ( i nv e r ter ) f w 58 3 kh z v e r t ic al f r am e rate f r 6 0 h z 7 . 2 op t i ca l s p ec if ic a t ion s t he r e lat i v e m eas ur em ent m e thods of opt ic al c har ac te r i s t ic s ar e s h o w n i n 7.2. t he f o ll o w i n g it em s s hould be m eas ur ed un der th e tes t c ondi tio n s des c r ib ed in 7 . 1 and s t a b l e en v i r onm ent s h o w n in n o te ( 6 ) . item s y m b o l c ond iti o n m in. t yp . m ax . u n i t note contr a s t r a ti o cr 600 800 - ( 2 ) t r 3 5 res pons e t i m e t f 5 8 m s ( 3 ) center lum inanc e of w h ite l c 400 500 ( 4 ) w h ite v a r i ati on w 1 . 3 - ( 7 ) cros s t a l k ct 4 % ( 5 ) rx 0 . 6 3 7 - red r y 0 . 3 3 2 - g x 0 . 2 6 8 - g r een g y 0 . 5 9 0 - bx 0 . 1 5 0 - blu e b y 0 . 0 5 9 - w x 0 . 2 8 0 wh i t e w y typ . -0 .0 3 0.28 5 typ . +0. 03 t a rget (6 ) col o r chrom a ti c i t y col o r gam u t cg x =0 , y =0 v i ew i n g n o r m a l ang l e 68 72 % nt sc x + 70 80 hor i zont a l x - 70 80 y + 70 80 v i ew i n g ang l e ve r t i c a l y - cr 10 60 70 de g . ( 1 ) v e rsion 2 . 1 22
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval note ( 1 ) def i nit i on of v i e w in g ang l e ( x, y) : v i e w ing an gles ar e m eas ur ed b y ez - c ontr a s t 160 r ( e ldim ) x- = 9 0 o x+ = 9 0 o n o r m a l x = y = 0 o x+ y- y+ x- y + y- x + x ? 6 o?c l oc k y- = 9 0 o 12 o ? c l oc k dir e c t io n y+ = 90 o note ( 2 ) def i nit i on of contr a s t rat i o ( cr) : t he c ontr a s t r a tio c an be c a lc ul ate d b y th e f o ll o w ing e x pr es s i on. contr a s t r a ti o ( cr) = l2 55 / l0 l255 : lum inanc e of gr a y le ve l 25 5 l 0: l u m i nanc e of gr a y l e v e l 0 cr = c r ( 5 ) , w h er e c r ( x ) is c o r r e s p ond ing t o t h e co ntr a s t r a ti o of t h e po int x a t th e f i g u r e in not e (7 ). note ( 3 ) def i nit i on of res p o n s e t i m e ( t r , t f ): g r ay l e ve l 255 g r ay l e ve l 255 gr a y le v e l 0 t f t ime t r op t i c a l r e spon se 100% 90% 10% 0% v e rsion 2 . 1 23
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval note ( 4 ) def i nit i on of lum inanc e of w h ite ( l c ): meas ur e the lum i nanc e of gr a y le ve l 2 55 a t c ent er po i n t an d 5 po int s l c = l ( 5 ) , wher e l ( x ) is c o r r e s pondi ng t o th e l u m i nan c e of the p o in t x at t he f i gur e in not e ( 7 ) . note (5) def i nit i on of cros s t a lk (c t): ct = | y b ? y a | / y a 1 00 ( % ) w h er e: y a = lum inanc e of m eas ur ed l o c a ti on with out gr a y l e v e l 0 p a tt er n ( c d/m 2 ) y b = lum inanc e of m eas ur ed l o c a ti on with gr a y l e v e l 0 p a tt er n ( c d/m 2 ) g r a y 12 8 ( d,w ) (0, 0) y a, l (d/ 8 , w /2) y a, d ( d /2 ,7 w / 8 ) y a, u (d/ 2 , w /8) a ct iv e a r ea y a, r (7d/ 8, w / 2) ( d,w ) y b, r (7d/ 8, w / 2) y b, d ( d /2 ,7 w / 8 ) y b, l ( d /8 , w / 2 ) gray 128 gra y 0 (3d/ 4, 3 w /4) y b, u ( d /2 , w / 8 ) ( 0, 0 ) (d/ 4 , w / 4 ) a ct iv e a r ea note ( 6 ) meas ur em ent s e tup : t he lcd m odule s h o u ld b e s t abil i z ed at g i v en tem per a t ur e f o r 1 hour to av oid a b r upt tem per atur e c hange d u r i n g m eas ur ing. in or der to s t ab il i z e t h e lum i nanc e , t h e m eas ur em ent s hould b e ex ec uted after li ght ing bac k lig ht f o r 1 h our i n a win d l e s s r oom . lc d m odul e l cd p a ne l light shie ld roo m (a mbient lumina n ce < 2 l u x) d i s pl ay c o l o r anal yz er ( m i nol t a c a 2 10) c enter o f th e scr e en v e rsion 2 . 1 24
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval note ( 7 ) def i nit i on of w h ite v a r i ati o n ( w) : meas ur e the lum i nanc e of gr a y le ve l 2 55 a t 5 poi nt s w = m a xi m u m [l (1 ), l (2 ), l (3 ), l (4 ), l (5 )] / m i n i m u m [l (1 ), l (2 ), l (3 ), l (4 ), l (5 )] h o r i z ont al li ne x 3w / 4 w/ 2 w/ 4 3d/ 4 d / 2 d/ 4 3 4 1 2 5 : t e st p o int x = 1 to 5 w d v e r t i c al li ne ac ti ve ar e a v e rsion 2 . 1 25
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval m a d e in t a iw a n 207943 8. definition of l a bels 8. 1 c m o m o dule l a b e l t he bar c ode n a m eplate is p a s t ed o n e a c h m odule as i llus t r a t i o n , a nd it s def in iti o n s ar e as f o llo win g ex p l an ati on. e chi me i op t o e l e c t r onics v260b1 - l01 re v . x x x x x x x x x y m d l n n n n ( a ) mode l n a m e : v260 b1- l 01 (b) rev i s i o n : re v . x x , f o r ex a m ple: a0, a1? b1 , b 2 ? or c1, c 2 ?etc . (c) s e ria l i d : x x x x x x x y m d l n n n n seri al n o . pr oduc t li ne y e ar , mont h, d a te cmo int e rna l us e cmo int e rna l us e r e vi si on cmo int e rna l us e ser i al i d i n c l ud es the i n f o r m ation as be lo w : ( a ) manuf ac tur e d dat e : y ear : 1 ~ 9, f o r 20 01 ~2 009 mont h: 1 ~ 9, a~c , f o r j an. ~ dec . d a y : 1 ~ 9 , a ~ y , f o r 1 st to 3 1 st , ex c l ude i ,o , a nd u. ( b ) rev i s i o n co de: c o ver a ll t h e c han ge ( c ) ser i al n o .: man u f a c t ur ing s eque nc e of pr od uc t ( d ) pr oduc t li ne: 1 - > li ne1, 2 - > li ne 2, ? e tc . v e rsion 2 . 1 26
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 9. p a ck a ging 9. 1 p a cki ng speci f i c a t i o n s ( 1 ) 5 lcd t v mo du les / c a r t on ( 2 ) car t on d i m ens ions : 7 42( l) x 399 ( w ) x 480 ( h ) ( 3 ) w e ight : a ppr ox im atel y 2 5 . 7 kg ( 5 m odu les per car t o n ) 9. 2 p a cki ng m e t h o d f i gur es 9- 1 an d 9- 2 ar e t he p a c k ing m e thod ca r t o n c u s h i on(bot t om ) a nti - s tatic b a g lc d t v mo dule c a rton lab el 2 pc s d r i e r f i g u r e .9- 1 p a c k i ng m e thod v e rsion 2 . 1 27
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval pallet st ac k : l1 150* w 1150* h 2060m m pallet : l1 150* w 1150* h 140m m g r o s s : 426k g c o rner prot ec t o r: l1850* 50 * 50m m s ea tran sp ort a t i o n l11300* 50* 50m m pe she e t c a r t o n la be l fil m pp bel t a i r tr ans port a ti on pallet : l1150 * w 1 150* h 140m m pallet st ac k : l115 0* w 1 150* h 1580m m c o rner prot ec t o r: l1 400* 50* 50m m g r os s : 323k g c a r t on la be l fil m pp bel t pe she e t c o rner prot ec t o r: l1 130* 50* 50m m f i gur e. 9- 2 pac k i ng m e thod v e rsion 2 . 1 28
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 10. pr eca u tion s 10. 1 a ssem bl y a nd h a n d l i n g prec a u t i o n s ( 1 ) do no t ap pl y r o ugh f o r c e s u c h as be nd ing or t w is tin g t o the m odule d u r i n g as s e m b l y . ( 2 ) it is r e c o m m ended to as s e m b le or to i n s t al l a m odul e int o th e us er ? s s y s t em in c l ea n w o r k ing ar e a s . t he dus t and o il m a y c aus e elec tr ic a l s h or t or w o r s en t he p o lar i zer . ( 3 ) do no t ap pl y pr es s u r e or i m puls e to the m odul e to pr eve n t t he d a m age of lcd pane l an d b a c k light. ( 4 ) al wa y s f o ll o w the c o r r e c t p o w er - on s e q uenc e w h en th e lcd m odule is tur n e d on. t h is c an pr eve n t the dam age and la tc h- up of the cmo s lsi c h ip s . ( 5 ) do no t p l ug in or pu ll out th e i/f c o n nec tor whi l e t he m odu le is in oper ati on. ( 6 ) do no t d i s a s s e m b le the m odul e. ( 7 ) us e a s o ft dr y c l ot h with ou t c hem ic als f o r c l eanin g , b e c aus e the s u r f ac e of pola r i z er is v e r y s o ft and eas il y s c r atc h e d . ( 8 ) mois tur e c an eas i l y pe netr a te i n to lcd m odule an d m a y c aus e the dam age dur ing oper at io n. ( 9 ) high tem per atur e or h u m i dit y m a y d e ter i or ate the p e r f or m anc e of lcd m odul e. p l e a s e s t or e lcd m odules in t he s p ec if ied s t or age c o nd iti ons . ( 10) w h en am bient tem per atur e is l o w e r t han 10 oc, the dis p la y qua lit y m i ght be r educ ed. f o r ex am ple, th e r e s pons e t i m e w i ll bec om e s l o w , an d th e s t ar tin g voltage of ccf l w i ll be h i g h e r than t hat of r o o m tem per atur e. 10. 2 s a fe ty prec a u t i o n s ( 1 ) t he s t ar tup v o lt a ge of a bac k light is o v er 100 0 v o lt s . it m a y c aus e an e l ec tr ic a l s h o c k w h ile as s e m b ling with the in ver t er . d o no t d i s a s s e m b le th e m odule or ins e r t an y t h i ng i n to t he bac k lig ht un it. ( 2 ) if the li qu id c r y s t a l m a ter i al leak s f r o m the p anel, it s h oul d be k ept a w a y f r o m the e y e s or m outh. in c a s e of c ont ac t w i t h h ands , sk in or c l ot hes , it h a s to b e was hed a w a y t hor o ugh l y with s o ap. ( 3 ) after the m odule? s end of lif e, it is n o t h a r m f u l in c a s e o f nor m a l oper a t io n a nd s t or age. 10. 3 st o r a g e prec a u t i o n s w hen s t or ing m odules as s p ar es f o r a lo ng t i m e , the f o ll o w i ng pr ec aut ion is n e c e s s a r y . ( 1 ) do no t l e a v e t he m odul e in hi gh t e m per atur e, a nd hig h hum idit y f o r a lon g t i m e . it is h i gh l y r e c o m m ended to s t or e the m odule with tem per atur e f r o m 0 to 35 j at n o r m al hum idit y with out c ondens a t io n. ( 2 ) t he m odule s h a ll be s t o r ed in dar k plac e. do n o t s t or e the t f t - lcd m odule in dir e c t s u n l ight or f l uor es c e nt lig ht. v e rsion 2 . 1 29
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval 1 1 . m e c h an i c al c h ar ac t e r i s t i c s ?_?1qla?|3--?q c h i m e i v e rsion 2 . 1 30
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval m e r c ur y p l ea s e f o l l o w l o c a l o r d i n a n c e s o r r eg ul a t i o n s f o r d i s p o sa l . c o l d c a t h o d e f l u o r e s c e n t l a m p i n l c d p a n e l c o n t a i n s a s m a l l a m o un t o f p o w e r b e f o re s e r v i c i n g . d i s c o n n e ct t h e e l e ct r i c r i s k o f el ec t r i c s h o c k . h i gh v o l t a ge ca u t io n chi m ei v e rsion 2 . 1 31
is s ued dat e : n o v . 17, 200 6 mode l n o .: v26 0 b 1 - l0 1 appr oval no. �%�*�+ �� �/ �'�+ ?_? 1ql a? |3-- ?q v e rsion 2 . 1 32
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