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WT9051 d a ta sheet r ev1.0 p i n de s crip t ion pin no . pin name descrip t i o n in t e rn al eq u i v a len t circu i t w a v e f o r m 1 g nd1 t he m a in gr ound pin f o r the ver t ic al c i r c uit and the i 2 c bus c i r c uit. g n d 1 1 2 vo sc connec t the c apac itor f o r os c illation of ver t ic al s a w wa v e . pleas e c onnec t near pin, bec aus e s e r i es r e s i s t anc e c o m ponent dis t or ts ris i ng w a vef o r m of the v e r t i c a l s a w wa v e f o r m . u s e the c apac itor of the s m all tem per atur e dr if t . vcc 25ua 250ua 10ua 10k [ 2 k [ 1 k [ 2 5k [ 1. 25k [ gnd1 g n d 2 5 . 7 v 2 . 7 v fv 3 vag c connec t the c apac itor f o r ag c of ver t ic al s a w am plitude of ver t ic al s a w w a ve is held c ons tant by the ag c c i rc uit. v cc 5k [ 1 . 2 5 k [ 1k [ 5k [ 3 5k [ gnd2 5k [ 5 k [ gnd1 dc voltage=3~4v w e ltrend semiconductor, inc. page 3 WT9051 d a ta sheet r ev1.0 w e ltrend semiconductor, inc. page 4 4 vsaw o t he ver t ic al linear ity s / c c o m pens ation ar e added to the ver t ic al s a w w a ve f o r m t ic al linear ity s / c c o m pens ation ar e added to the ver t ic al s a w w a ve f o r m v cc v cc 2. 5k [ 5 k [ 2. 5k [ 5 k [ 5k [ 5k [ 4 4 5k [ 5k [ 2. 5k [ 2. 5k [ 5k [ 5k [ 2. 5k [ 2. 5k [ 80k [ gnd1 80k [ gnd1 g n d 2 g n d 2 ref e r s the f o llow i ng pic t ur e im age of co rre ct i o n ref e r s the f o llow i ng pic t ur e im age of co rre ct i o n 3 v p - p 3 v p - p f v f v 5 ew o o u tputs the c o m pens a t i o n s i gnal of the tr apez o i d , t h e s i de pin, the s i de pin c o r ner and the hor iz ontal s i z e . v cc 1k [ 5 k [ 5k [ 5 5k [ 333 [ 5 k [ g n d 2 g n d 1 ref e r s the f o llow i ng pic t ur e im age of co rre ct i o n 6 vei input the high voltage of t h e eht . f o r , it c anc el a tr ans ient r e s pons e of the def lec t ing voltage. if this pin is n?t us ed, c onnec t 10uf c apac itor to g nd. vc c 25ua 370ua 5k [ 5 k [ 5 k [ 5 k [ 4v 10k [ 10k [ 6 gnd2 10k [ 2 . 5 [ dc voltage=4v 7 hei input the high voltage of t h e eht . f o r , it c anc el a tr ans ient r e s pons e of the def lec t ing voltage. if this pin is n ?t us ed, c onnec t 10uf c apac itor to g nd. v cc 5 k [ 5 k [ 4. 0v 10k [ 1 0 k [ 5k [ 7 23. 33k [ 2 . 5 k [ 2 . 5 k [ gnd1 dc voltage=4v WT9051 d a ta sheet r ev1.0 w e ltrend semiconductor, inc. page 5 8 df mix o o u tputs the m i x ed s i gnal of hor iz ontal and ver t ic al par abola w a ve f o r dy nam ic f o c u s s i gnal. v cc 2 . 5 k [ 2 . 5 k [ 5k [ 8 10k [ 2. 5k [ 5 k [ 5k [ 80k [ 2. 5k [ gnd2 9 h p h a s e - c ap connec t the c apac itor 10 ? f to g nd v cc 1 0 k [ 1. 67k [ 9 1 k [ 1 4 k [ 2 . 5 k [ gnd2 10 hdsa connec t the c apac itor f o r os c illation of h o r i z ontal dy nam ic f o c u s s i gnal. v cc 5 k [ 5 k [ 10 5 k [ 5 k [ 5 k [ 2 . 5 k [ gnd2 dc voltage=3~4v 11 bampi t he input of the er r o r am plif ier f o r the high voltage c ontr o l. vc c 50ua 100ua 5 k [ 2 . 5 k [ 5 k [ 11 5 k [ 5 k [ 5 k [ dc voltage WT9051 d a ta sheet r ev1.0 12 bampo o u tputs the voltage to c ontr o l the pw m puls e w i dth. v cc 1 k [ 5 k [ 5 k [ 12 1 k [ 5 k [ gnd2 dc voltage 13 psaw connec t the c apac itor and the r e s i s t anc e f o r os c illation of pw m. v cc 5 k [ 5 k [ 1 . 7 v 13 400 [ 5 k [ 300k [ gnd2 v12pin 1 v f h 14 pw mo o u tputs the pw m puls e pleas e c onnec t the dr ive tr ans is tor , bec aus e it does n't have an enough dr iving f o r c e. vc c 25ua 25ua 3 . 3 3 k [ 3 0 k [ 2 0 k [ 3 0 k [ 14 5 k [ 30k [ 5k [ gnd2 0 . 7 v 0 v f h 15 g nd2 t he m a in gr ound pin f o r the hor iz ontal c i r c uit. 1 5 g n d 2 16 vcc input 12volts f o r the pow er s upply . 1 6 v c c dc voltage=12v w e ltrend semiconductor, inc. page 6 WT9051 d a ta sheet r ev1.0 17 ho ut o u tputs the hor iz ontal der i v e puls e v cc 2 0 k 2 0 k 5 0 k 17 7 . 5 k [ 3 k [ gnd2 0 . 7 v 0 v f h 18 f bp input the f l y bac k puls e vc c 50ua 100ua 5 k [ 2 . 5 k [ 1 0 k [ 18 5 k [ 1 0 k [ gnd2 5 v 0 v f h 19 x r ay t he input pin f o r the x r a y pr otec tion. v cc 25ua 25ua 5 k [ 5 k [ 5k [ 19 gnd2 t he bias voltage of the outs i de 20 vref o u tputs the inter nal r e f e r enc e voltage, and c r eates a inter nal ref e r enc e c u r r ent by the r e s i s t anc e. pleas e c onnec t the r e s i s t or and capac itor near this pin, bec aus e nois e c o m ponent input to this pin af f e c t s hor i z ontal j i tter . a c u r r e n t c ontr o l f unc tion is n o t pr ovided, s u c h that an ex ter nal c i r c uit c annot us e the voltage output f r om this pin. v cc 25ua 25ua 106ua 5 k [ 5 k [ 5 k [ 1 0 k [ 1 0 k [ 3 8 k [ 20 1 0 k [ 1 2 k [ g n d 2 dc voltage=5v w e ltrend semiconductor, inc. page 7 WT9051 d a ta sheet r ev1.0 21 hf vo o u tputs the voltage tr ac k i ng to the hor iz ontal f r equenc y . pleas e c onnec t the r e s i s t or and c apac itor near this pin, bec aus e nois e c o m ponent input to this pin af f e c t s hor iz ontal j i tter vc c 25ua 25ua 10k [ 1 0 k [ 5 k [ 1 5 k [ 15k [ 4 . 8 v 25k [ 2 5 k [ 5 k [ 21 5 k [ 5 k [ gnd2 dc voltage tr ac k i ng to the hor iz ontal f r equenc y 22 hf vr cr eates the c u r r ent f o r the hor iz ontal os c illator . pleas e c onnec t this r e s i s t or near this pin, bec aus e nois e c o m ponent input to this pin af f e c t s hor iz ontal j i tter . v cc 25ua 25ua 8 2 5 [ 1 0 k [ 10k [ 1 5 k [ 15k [ 22 5 k [ 5 k [ gnd2 sam e voltage that pin21 23 ho sc pleas e c onnec t the c apac itor ( 390pf ) f o r hor iz ontal os c illation. vc c 463ua 1 . 2 5 k [ 2 . 5 k [ 23 1 . 2 5 k [ gnd2 9 . 9 v 4 . 9 v f h 24 haf c cr eates the c u r r ent f o r the hor iz ontal os c illator . pleas e c onnec t this r e s i s t or near this pin, bec aus e nois e c o m ponent input to this pin af f e c t s hor iz ontal j i tter . pleas e c onnec t the c apac itor ( 390pf ) f o r hor iz ontal os c illation. connec t the f ilter f o r the auto f r equenc y c ontr o l of hor iz ontal. f o llow i ng is the item that the f ilter af f e c t s j i tter . t he tim e c ons tant of the f ilter t he nois e of the vc c and g nd. connec t r e s i s t or and c apac itor near this pin. v cc 2 . 5 k [ 1 . 6 7 k [ 5 k [ 2 4 2 4 k [ 8 k [ 5 k [ 5 k [ gnd2 3 . 5 v f h w e ltrend semiconductor, inc. page 8 WT9051 d a ta sheet r ev1.0 25 hlo t he loc k detec tion output of the hor iz ontal os c illator vc c 10ua 10ua 5 v 2 0 k [ 2 . 5 k [ 2 . 5 k [ 5 k [ 25 5 k [ 5 k [ gnd2 dc voltage 5 v l o c k 0 v unl o c k 26 hin t he s epar ate hor iz ontal s y nc s i gnal input is a dir e c t c onnec tion. v cc 50ua 50ua 5 k [ 5 k [ 5 k [ 5 k [ 10k [ 8 5 [ 26 5 k [ 5 k [ 5 k [ gnd2 5 . 0 v 0 . 0 v f h s epar ate s y nc 2 7 v i n t he s epar ate ver t ic al s y nc s i gnal input is a dir e c t c onnec tion. v cc 5v 5 k [ 2 . 5 v 5 k [ 27 5 0 0 [ 5 k [ 5 k [ gnd2 gnd1 4 . 7 v 0 v f v s epar ate s y nc 28 blko o u tputs the f o llow i ng 3 item s by i 2 c bus . t he m i x ed s i gnal of the ver t ic al blank ing puls e and the video c l am p puls e . t he ver t ic al blank ing puls e only . t he video c l am p puls e only . v cc 2 . 5 k [ 5 k [ 1 0 k [ 28 1 0 k [ g n d 2 g n d 1 ref e r s the f o llow i ng f i gur e. 5 v 2 v g n d w e ltrend semiconductor, inc. page 9 WT9051 d a ta sheet r ev1.0 29 sda input the s e r i al data, and outputs the ac k now ledge of the i 2 c bus . v c c 10ua 20ua 1 0 k [ 5 k [ 5 k [ 29 100k [ g n d 2 g n d 1 5 v 0 v 30 scl input the s e r i al c l oc k of i 2 c bus . t he c l oc k f r equenc y c o r r e s ponds to 400 khz vc c 10ua 20ua 1 0 k [ 5 k [ 5k [ 30 g n d 2 g n d 1 5 v 0 v w e ltrend semiconductor, inc. page 10 WT9051 d a ta sheet r ev1.0 pict ure image of c o rrect ion vert ical out put st age func t i o n o u t p u t pin contr o l s ub a d d r ess contr o l condition o u tput w a v e form image 00 hex 2 . 0 v p - p ver t ic al siz e co rre cti o n 4 0 b hex d7~ d 0 ( 8bits ) ff hex 3 . 0 v p - p 01 hex 240m vp- p 3 . 0 v p - p ver t ic al linear ity s co rre cti o n 4 0 d hex d6~ d 0 ( 7bits ) 7f hex 240m vp- p 3 . 0 v p - p 01 hex 135m vp- p 3 . 0 v p - p ver t ic al linear ity c correc t i on 4 0 e hex d6~ d 0 ( 7bits ) 7f hex 135m vp- p 3 . 0 v p - p notic e : 1. t he output am plitude depends on ver t ic al s a w w a ve am plitude( ? output am plitude? s how s the w a ve f o r m w hen the ver t ic al s a w w a ve is 3.0 vp- p ) 2. ver t ic al linear ity s or c c o r r e c t ions ar e o f f s t atus w hen dac value is 00h. w e ltrend semiconductor, inc. page 11 WT9051 d a ta sheet r ev1.0 e/w out put st age func t i o n o u t p u t pin contr o l s ub a d d r ess contr o l condition inside w a v e form image 01 hex 5 v d c 0 . 5 6 v p - p t r apez oid co rre cti o n contr o l 5 0 a hex d6~ d 0 ( 7bits ) 7f hex 0 . 5 6 v p - p 5 v d c 00 hex 5vdc 0 v p - p side pin co rre cti o n contr o l 5 0 9 hex d6~ d 0 ( 7bits ) 7f hex 1 . 4 5 v p - p 5vdc 00 hex 5 v d c 0 . 3 4 v p - p side pin cor ner t op cor r e c t ion contr o l 5 0 7 hex d6~ d 0 ( 7bits ) 7f hex 0 . 3 4 v p - p 5vdc 00 hex 5 v d c 0 . 3 4 v p - p side pin cor ner bottom co rre cti o n contr o l 5 0 8 hex d6~ d 0 ( 7bits ) 7f hex 0 . 3 4 v p - p 5vdc notic e1t he output am plitude depends on ver t ic al s a w w a ve am plitude( output am plitude s how s the w a vef o r m w hen the ver t ic al is 3.0vp- p.2. t r apez oid or s i de pin c o r r e c t ion is o f f s t atus w hen dac value is 00h.3side pin cor ner t op/bottom is 0f f s t atus w hen both dac( spct and spcb) value ar e 00h. w e ltrend semiconductor, inc. page 12 WT9051 d a ta sheet r ev1.0 h o rizont al phase st age func t i o n o u t p u t pin contr o l s ub a d d r ess contr o l condition inside w a v e form image 01 hex 2 . 5 v d c 0 . 4 8 v p - p par a llelogr am co rre cti o n contr o l - - 0 4 hex d6~ d 0 ( 7bits ) 7f hex 0 . 4 8 v p - p 2.5vdc 01 hex 2 . 5 v d c 0 . 4 6 v p - p side pin balanc e co rre cti o n contr o l - - 0 3 hex d6~ d 0 ( 7bits ) 7f hex 0 . 4 6 v p - p 2.5vdc 00 hex 2 . 5 v d c 0 . 3 1 v p - p side pin cor ner balanc e t op co rre ct co n t ro l - - 0 5 hex d6~ d 0 ( 7bits ) 7f hex 0 . 3 1 v p - p 2.5vdc 00 hex 2 . 5 v d c 0 . 3 1 v p - p side pin cor ner balanc e bottom co rre cti o n contr o l - - 0 6 hex d6~ d 0 ( 7bits ) 7f hex 0 . 3 1 v p - p 2.5vdc notic e : 1. t he output am plitude depends on ver t ic al s a w w a ve am plitude( output am plitude s how s the w a vef o r m w hen the ver t ic al is 3.0vp- p. 2. t r apez oid or s i de pin balanc e c o r r e c t ion is o f f s t atus w hen dac value is 00h. 3. side pin cor ner balanc e t op/bottom ar e 0f f s t atus w hen both dac( spct and spcb) value ar e 00h. w e ltrend semiconductor, inc. page 13 WT9051 d a ta sheet r ev1.0 functiona l de s crip t ion i 2 c bu s in t e rf ace 1. ser i al bus ( i 2 c bus ) inter f ac e (1 ) i 2 c bus o v er view t he i 2 c bus is a dual bi- d ir ec tional s e r i al bus , developed by philips . it is c onf igur ed w i th tw o lines ?a s e r i al data line( sda) and a s e r i al c l oc k line( scl) . t he w t 9051 f eatur es a built- i n i 2 c bus inter f ac e c i r c uit,20 8- bit r e w r itable r egis t er s , and one 8- bit r ead- only r egis t er that is us ed f o r indi c a ting the inter nal s t atus of the ic and s o on. t hes e ar e us ed in w r ite m ode( s l ave r e c e ive) and r ead m ode( s l ave tr ans m i t) . ( 2 ) data t r ans m i s s i on f o r m at t he tr ans m i s s i on f o r m at f eatur es a s ub addr es s in w r ite m ode only . data is c onf igur ed in 8- bit units , af ter w h ic h an ac k now ledge bit m u s t be appended. note that data tr ans m i s s i on is per f o r m ed by tr ans m i tting the m o s t s i gnif i c ant bit( msb) f i r s t. t he data to be tr ans m i tted im m ediately af ter the is s ue of the s t ar t c onditions is the s l ave addr es s us ed to s e lec t the addr es s of the w t 9051.t h is addr es s is c onf igur ed us ing s e ven bits , w i th the r e m a ining one bit being the data di r e c t ion bit, us ed to s e t the dir e c t ion of the s ubs equently tr ans m i tted data. read involves tr ans f e r r i ng data f r om the w t 9051 to the m a s t er devic e, w h ile w r ite involves tr ans f e r r i ng data f r om the m a s t er devic e to the w t 9051. set 1 f o r r ead, or 0 f o r w r ite. an ex am ple of the data tr ans f e r f o r m at is s how n below . 1.w r ite mode( slave rec e ive) t he s l ave addr es s is r ead into the f i r s t by te, the s ub addr es s is r ead into the s e c ond by te, w h ile the data c an be r ead into the thir d and s ubs equent by tes . by us ing the s ub addr es s auto- inc r em ent f unc tion, data c an be r ead out c ontinuous ly . (a)1-byte transfer format a w slv st a st p a dat a a sub 7bit 1bit 1bit 8bit 1bit 8bit 1bit (b) continuous byte transfer format st a a dat a 1 a sub a w slv 7bit 1bit 1bit 8bit 1bit 8bit 1bit st p a dat a 8bit 1bi t w e ltrend semiconductor, inc. page 14 WT9051 d a ta sheet r ev1.0 2.read mode( slave t r ans m i t) t he s l ave addr es s is tr ans m i tted f r om the f i r s t by te and data is tr ans m i tted f r om the s e c ond and s ubs equent by tes . w hen no ac k now ledgem ent bit is r e c e ived f r om the m a s t er devic e, r e leas e the sda line. do not r e tur n an ac k now ledge s i gnal bef or e is s u ing the s t op c onditions . 7 b i t 1 b i t 1 b i t 8 b i t 1 b i t na dat a a r slv st a st p *rem ar k s ?e st a :star t c ondition ?e slv :slave addr es s ?e w / r :data dir e c t ion bit w :w r i te m ode ( s lave r e c e ive) r :read m ode ( s alve tr ans m i t) ?e data :data ?e sub :sub addr es s ?e a/na :ac k now ledge bit a :ac k now ledge n :no ac k now ledge stp :stop condition ( 3 ) v per i od t r ans f e r mode t he w t 9051 is pr ovided w i th a s w itc h ( 05h :d7) f o r s e tting w hether r e w r iting dac of the w t 9051 is per f o r m ed in f r ee- r un m ode or in s y nc w i th the v- sy nc s i gnal. ?e 05h :d7 =? 0 ? ? rew r iting is per f o r m ed in f r ee- r un m ode. data is c hanged w h ile the s c r een is being dis p lay ed, s u c h that if the vsaw am plitude or pos ition data is c hanged, hor iz ontal nois e lines w ill appear on the s c r een. ?e 05h :d7 =? 1 ? ? rew r iting is per f o r m ed in s y nc w i th the v- sy nc s i gnal. data is c hanged in the blk per iod, s u c h that hor iz ontal nois e lines do not appear on the s c r een. t h is tec hnique c an be us ed only to c onver t the f o llow i ng f our item s of ver t ic al data. 1.vertic al s i z e c ontrol (0bh : d7 to d0) 2.ver t ic al pos ition c ontr o l ( 0 ch : d7 to d0) 3.ver t ic al s linear ity ( 0 dh : d6 to d0) 4.ver t ic al c linear ity ( 0 eh : d6 to d0) *note on data r e w r iting in v per iod tr ans f e r m ode w hen v per iod tr ans f e r m ode is us ed, autom atic inc r em ent c annot be us ed. o n ly one item of data c an be r e c e ived f o r eac h 1v.t he s e c ond and s ubs equent item s of data ar e dis c a r ded until blk is r e c e ived again. w hen autom atic inc r em ent is us ed, only one item of data w e ltrend semiconductor, inc. page 15 WT9051 d a ta sheet r ev1.0 a ddress table 1.sl av e addr ess m o d e d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 w h i t e 1 0 0 0 1 1 0 0 r e a d 1 0 0 0 1 1 0 1 2. su b ad d r ess 2- 1 w r i t e m ode < > : i n i t i a l condi ti on at pow er on r e set su b addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 00 hex x - r a y pr otec tor ( x p) 0:nor m a l <1:r es et> h out control(ho) 0:ex hibit 1:inhibit pw n out c ontrol(po ) 0:ex hibit 1:inhibit horizont al dut y ( hdut y ) < 1 > < 0 > < 0 > < 0 > < 0 > 01 hex h o r i z o n t a l s i z e < h s i z e > < 1 > < 0 > < 0 > < 0 > < 0 > < 0 > < 0 > < 0 > 02 hex hor i z ontal pos i tion WT9051 d a ta sheet r ev1.0 sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 0a hex f h o s c m a x . f r equenc y <0:100k hz > 1:150k hz t r apez oid WT9051 d a ta sheet r ev1.0 d e tai l s of each sub addr ess t hos e value in c a r e ts <>indic a te the s e ttings at a pow e r o n res e t. w r i t e m ode 1.sub addr ess 00 h sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 00 hex x -ray protector(x p) 0:n o rmal <1:r eset> h out control(ho) <0:ex h ibit> 1:inhibit pw m out c ontrol(po ) <0:ex h ibit> 1:inhibit hori z ontal dut y < hdut y > < 1 > < 0 > < 0 > < 0 > < 0 > d7: x - r a y pr otec tor w hen the input of pin19 is over 5v,x - r a y pr otec tion c i r c uit is ac tive. so the output of the hor iz ontal output s i gnal( h - o ut ) f r o m pin17 and the output of the pw m puls e ( p w m o ) f r om pin14 dis appear . d6: h-out control bit f o r c ontr o lling the output of the hor iz ontal output s i gnal ( h - o ut ) f r om pin17. w hen this bit is s e t to 0,output is pos s i ble. w hen this bit is s e t to 1,output is dis abled. d5: pw m out control bit f o r c ontr o lling the output of the pw m puls e f o r high voltage c ontr o l f r om pin14. w hen this bit is s e t to 0,output is pos s i ble. w hen this bit is s e t to 1,output is dis abled. d4 to d0: hori z ontal dut y (hdut y ) bit f o r c ontr o lling the duty of the hor iz ontal output s i gnal, output f r om pin17. t he duty c an be held to r oughly w ill be lar ge. sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 01 hex h o r i z o n t a l s i z e < h s i z e > < 1 > < 0 > < 0 > < 0 > < 0 > < 0 > < 0 > < 0 > d7 to d0: horiz ont al siz e ( h siz e ) bit f o r c ontr o lling the hor iz ontal s i z e . t h is data is us ed to m odif y the dc voltage of the w a vef o r m output f r om pin5. sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 02 hex hor i z ontal pos i tion WT9051 d a ta sheet r ev1.0 sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 03 hex v . b l k wi d t h WT9051 d a ta sheet r ev1.0 sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 06 hex u n u s e d <0> side pin cor ner balanc e bottom < spcbb> < 1 > < 0 > < 0 > < 0 > < 0 > < 0 > < 0 > d7: unus ed d6 to d0: side pin cor ner balanc e bottom ( spcbb) t he am ount of c o m pens ation f o r the s i de pin c o r ner balanc e bottom c an be s e t us ing the s e ven bits f r om d 6 to d 0 . t he initial value is 40 hex . t he var i able r ange is f r om 00 hex to 7f hex . w hen this value is 00 hex and side pin cor ner balanc e t op dac value is 00 hex , side pin cor ner balanc e bottom c o r r e c t ion is o f f s t atus . sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 07 hex c l a m p puls e position WT9051 d a ta sheet r ev1.0 sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 09 hex v - blk&ciam p selec t 2 WT9051 d a ta sheet r ev1.0 sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 0d hex u n u s e d <0> ver t ic al linear ity s WT9051 d a ta sheet r ev1.0 sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 10 hex e w - f h t r ac k i ng 0:untr ac k <1:t r a c k > ver t ic al moir e canc ellor WT9051 d a ta sheet r ev1.0 read m o d e sub addr es s d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 00 hex u n u s e d <0> unus ed <0> unus ed <0> unus ed <0> unus ed <0> pow e r o n res e t 0: pow e r on 1: pow e r of f h. loc k detec t or 0: loc k 1: unloc k x-ra y detec t or 0: undetec t 1: detec t d7 to d3: unus ed d2: pow e r o n res e t us ed to detec t a pow er on r e s e t. w hen a pow er on r e s e t is applied, this bit is s e t to 1. us ually , s e t this bit to 0.im m ediately af ter pow er - on, or if the pow er s upply voltage ever dr ops below ar ound 6.5v( l ow ? high) or 6.2v( h igh ? low ) ,this bit is s e t to 1.af ter this bit has been s e t to 1, it s hould be c l ear ed to 0 af ter tw o r ead c y c l es , pr ovided the 12v pow er is applied nor m a lly . if , f o r ex am ple, the 12v pow er is not applied, no m a tter how m any tim e s r ead is per f o r m ed, this bit w ill not be c l ear ed to 0 and ins t ead w ill r e m a in s e t to 1. d1: h loc k detec t or us ed to detec t the loc k s t atus of the hor iz ontal s y nc s i gnal and the os c illator output. in the loc k s t atus , this bit w ill be s e t to 0.in the unloc k s t atus , this bit w ill be s e t to 1. d0: x -ray detec t or us ed to detec t the x - r a y pr otec tion. w hen the x - r a y pr otec tion c i r c uit is ac tive, this bit is s e t to 1.us ually , s e t this bit to 0. w e ltrend semiconductor, inc. page 24 WT9051 d a ta sheet r ev1.0 opera t ion descript ion a u t o mat i c sy n c . pro cessin g sy st em seq u e n ce sy st em blo ck diag ram 18pin f bp 17pin hout d a c h - i n 25pin hlo w t 9051 h-osc auto sy nc . sy s t em pro cessin g seq u e n ce h- in f r eq c hange o r h- in no input d o w n t o mi n i mu m f r e q . cour t dow n us ing h- o s c y es y es h-out freq-up counter 1 b it up no a uto sy nc o p e r a t i o n fini sh 25 pin ? h ? a fc l o c k i n 5 v e rtic al term counter o f f . af c o n h-in fre q = h.osc freq.? c o mpare h - in frequency and h-osc fre q uenc y a utosy n c o peration start (t rigger:v-in) h - out: os c illate in hor iz ontal m i nim u m f r equenc y ( w hen no input s i gnal) w e ltrend semiconductor, inc. page 25 WT9051 d a ta sheet r ev1.0 noti c e 1) autom a tic sy nc . s y s t em c an ?t s t ar t c ount up oper ation w i thout ver t ic al s y nc s i gnal input. t he s t ar t tr igger of c ount up oper ation is ver t ic al s y nc s i gnal input. 2) w t 9051 os c illates in m i nim u m f r ee- r un f r equenc y dur ing no s i gnal s t atus . pleas e input des ir able 3) pleas e input no s i gnal ter m f o r at leas t 3m s e c in c hanging f r equenc y at any tim e ( p leas e s how in the f o llow i ng f i gur e.) .in the f o llow i ng f i gur e,f 1 and f 2 m eans a hor iz ontal input s i gnal w h ic h c o r r e s ponds to a m ode or quas i- puls e s i gnal f r om mcu. f 1 f 2 h - i n no s i gnal ter m = at leas t 3m s e c t i m i ng cha rt t he tim i ng of hor iz ontal s t age is s e t by r a tio to hor iz ontal f r equenc y ( f h ) . f o r ex am ple, if the delay tim e is 10 ? s and f h is 30k hz ,the r a tio is 30%. t id : i 2 c bus c ontrol this delay tim e . t he c ontr o l r ange is f o r m 16%to 43%. t : t he puls e w i dth of s i gnal to the af c. f r equenc y quas i- puls e f r om mcu to w t 9051dur ing no s i gnal s t atus . hw t h i s v a l u e i s 1 0 % . t fbp : t h is delay tim e is 30%f r om the r i s i ng edge of the f l y bac k puls e . hor i z ontal s y nc t h r e s hold voltage signal input t id af c inter nal puls e t hw af c f ilter w a vef o r m f l y bac k delay inter nal puls e t fbp f l y bac k puls e t h r e s hold voltage input s i gnal w e ltrend semiconductor, inc. page 26 WT9051 d a ta sheet r ev1.0 vert ical blan kin g pu lse ( v - b l k ) a n d vid e o clamp pu lse ( c l a m p ) g en erat o r t he w t 9051 has an on- c h ip c i r c uit that gener ates ver t ic al blank ing puls e and c l am p puls e . t he output s i gnal m ode m u s t be s e lec t ed by i 2 c bus . f i gur e illus t r a tes the output s i gnal. ( w t 9051) w a s s e lec t ing w i th outs i de the putting devic e. w t 9051 w a s only m i x ed s i gnal output. how e ver , w t 9051 c an be s i m p ly s e lec t ed w i th the bus .) t he ver t ic al blank ing puls e w i dth m u s t be s e lec t ed by i 2 c bus . it is 288 ? s ( t y p ic al) o r 335 ? s ( t y p ic al) . t he video c l am p puls e w i dth is 0.8 ? s ( t y p ic al) . ( p r o vided that 20pin r e s i s t or is s e t to 47k ?? . t he c l am p puls e c an c hoos e the leading edge or the tr ailing edge of the hor iz ontal s y nc by i2c bus. 1. m i x ed s i gnal output g n d 2vpp 5vpp c l a m p w i d t h v - b l k w i d t h 2. c l am p puls e ( c lamp) output g n d 5vpp c l a m p w i d t h 3. ver t ic al blank ing puls e ( v - b lk) output g n d 5vpp v- blk w i dth w e ltrend semiconductor, inc. page 27 WT9051 d a ta sheet r ev1.0 m o ire canceller 1. ver t ic al mo ire c anc eller it div i des v-in. t he mo ire c an be c anc eled w hen s h if ting a ver t ic al pos ition by this s i gnal. t he s h if t value c an be c ontr o lled by i 2 c bus . 2.hor i z ontal mo ire c anc eller it divides f bp. and, it gener ates the s i gnal, w h ic h r e ver s ed a phas e ever y other ver t ic al per iod. t he mo ire c an be c anc eled w hen s h if ting a hor iz ontal pos ition by this s i gnal. t he s h if t value c an be c ontr o lled by i 2 c bus . v- in ( v er tic a l input) v mo ire c anc el s i gnal ( a point) f b p - i n divided s i gnal ( b point) h mo ire c anc el signal ( c point) a v- in b c v- po sit i o n 1/2 divider 1/2 divider v- po sit i o n f bp- in w e ltrend semiconductor, inc. page 28 WT9051 d a ta sheet r ev1.0 4.5 pw m f o r b+ co n t ro l t he pw m bloc k c ons is ts of the er r o r am plif ier , and the f lip- f lop, the os c illator . 1 . e rro r a m p l i f i e r t he er r o r am plif ier is the tr ans c onduc tanc e am plif ier ty pe. t he non- inver t ing input is c onnec ted to the pin11.t he non- inver t ing input is c onnec ted to the r e f e r enc e voltage ( = 2.5volts ) . t he output is c onnec ted to pin12 and the c o m par ator , the c l am p. t he c l am p lim its the m a x i m u m output voltage to 5.0volts . 2. o s c illator t he ex ter nal c apac itor is c har ged by a ex ter nal r e s i s t or . w hen the f lip- f lop is r e s e t, it is dis c har ged. t he dis c har ge is done until it bec om es lim it voltage ( = 1.0volts ) . 3. f lip- f lop t h is f lip- f lop w ill be s e t at the r i s i ng edge of the h- o u t . w hen the c har ging voltage ( p in13) of the c ondens er bec om es equal to the output voltage ( p in12) of the er r o r am plif ier , the output of the c o m par ator r e s e ts a f lip- f lop. 4. inhibit m ode it does n't output in the f o llow i ng c a s e . ?e w hen the x - r a y pr otec tion bec om es ac tive. ?e w hen low e r than the voltage of pow e r o n res e t. ?e w hen s e tting to of f by i 2 c bus . w e ltrend semiconductor, inc. page 29 WT9051 d a ta sheet r ev1.0 t r ackin g sp ecif i cat io n s t r ac k i ng s pec if ic ations of eac h w a vef o r m and f unc tion ar e s how n in the f o llow i ng. *) ? ( ) ? s t ands f o r o n /o f f s w itc h f o r tr ac k i ng f unc tion. w a vef o r m /f unc t i o n t r ac k i n g item s vsaw am plitude vsiz e , v- eht ver t ic al s- linear ity vsiz e , vpo si, v- eht ver t ic al c- linear ity vsiz e , vpo si, v- eht t r apez oid vsiz e , vpo si, v- eht , hsiz e( 0f h:d7) , f h ( 10h:d7) side pin vsiz e , vpo si, v- eht , hsiz e( 0f h:d7) , f h ( 10h:d7) side pin cor ner t op vsiz e , vpo si, v- eht , hsiz e( 0f h:d7) , f h ( 10h:d7) side pin cor ner bottom vsiz e , vpo si, v- eht , hsiz e( 0f h:d7) , f h ( 10h:d7) ver t ic al dy nam ic f o c u s vsiz e , vpo si, v- eht hor i z ontal dy nam ic f o c u s hsiz e( 11h:d7) ew dc hsize, f h ( 10h:d7) , h- eht v- eht g a in vsiz e h- eht g a in f h ( 10h:d7) det a ils o f t r ackin g sp ecif i cat io n s 1. ew output tr ac k i ng to hsiz e 1 hsiz e- dac vs ew am plitude 2 o n /o f f sw itc h of this f unc tion sub addr es s 0f h:d7 ?0 ?: t r a c k ( in i t i a l ) ?1 ?:un tra c k 3 n o t e w hen hsiz e- dac is c hanged f o r m f f h to 00h. ew am plitude bec om es bigger 30% hsize-dac s m al l bi g ew am p big s a m ll hsize-dac ew .am p 2.hdf output tr ac k i ng to hsiz e 1 hsiz e- dac vs . hdf am plitude 2 o n /o f f sw itc h of this f unc tion sub addr es s 11h:d7 ?0 ?: t r a c k ( in i t i a l ) ?1 ?:un tra c k 3 n o t e w hen hsiz e- dac is c hanged f o r m f f h to 00h. hdf am plitude bec om es bigger 70% hsize-dac s m al l bi g hdf am p. big s a m ll hsize-dac hdf.am p w e ltrend semiconductor, inc. page 30 WT9051 d a ta sheet r ev1.0 3. ew output tr ac k i ng to hor iz ontal f r equenc y 1 hor i z ontal f r equenc y vs . ew dc voltage 2 o n /o f f sw itc h of this f unc tion sub addr es s 10h:d7 ?0 ?: un tra c k (in i ti a l ) ?1 ?:tra c k 3 n o t e f o r m ula f o r ew dc voltage ew dc=( ( f h/100k - 1 ) x 0.325+1) x 5v f h l o w h i g h e w d c l o w h i g h fh ew dc 4. h- eht g a in tr ac k i ng to hor iz ontal f r equenc y 1 hor i z ontal f r equenc y vs . g a in( = ? ew o / ? hei) 2 o n /o f f sw itc h of this f unc tion sub addr es s 0f h:d7( only on the c ondition that the data of s ub addr es s 10h:d7 is ? 1 ? ?1 ?: t r a c k (in i ti a l ) ?0 ?:un tra c k f h l o w h i g h g a i n s m a l l b i g f h ? ew o / ? hei w e ltrend semiconductor, inc. page 31 WT9051 d a ta sheet r ev1.0 elect rical c h aract erist i cs a b so lu t e m aximu m rat i n g s ( u n l ess o t h e rw ise sp ecif i ed , t a =25 ?c c) par a m e ter s y m b o l c o n d i t i o n r a t i n g u n i t pow e r supply v cc input voltage of pin16 14 v sda input voltage v sda input voltage range of pin29 - 0 .2~vc c v sda o u tput sink cur r ent i sda o u tput s i nk c u r r ent of pin29 10 m a scl input voltage v scl input voltage range of pin30 - 0 .2~vc c v vsaw o u tput sour c e cur r ent i vsaw o o u tput sour c e cur r ent of pin4 4.5 m a vsaw o u tput sink cur r ent i vsaw i o u tput sink cur r ent of pin4 4.5 m a e/w o u tput sour c e cur r ent i ew o o u tput sour c e c u r r ent of pin5 4.5 m a vei input voltage v vei input voltage range of pin6 - 0 .2~vc c v hei input voltage v hei input voltage range of pin7 - 0 .2~vc c v bampi input voltage v bampi input voltage range of pin11 - 0 .2~vc c v bampo input voltage v bapo input voltage range of pin12 - 0 .2~vc c v pw m o u tput sink cur r ent i pw mi o u tput sink cur r ent of pin14 10 m a v.df o u tput sour c e cur r ent i vdf1 o u tput sour c e cur r ent of pin8 4.5 m a h.df o u tput sour c e cur r ent i hdf1 o u tput sour c e cur r ent of pin9 4.5 m a f l y bac k puls e input voltage v fbp input puls e voltage range of pin18 - 0 .2~vc c v hor i z ontal o u tput sink cur r ent i houti o u tput sink cur r ent of pin17 10 m a hor i z ontal input voltage v hin input puls e voltage range of pin26 - 0 .2~vc c v ver t ic al input voltage v vin input puls e voltage range of pin27 - 0 .2~vc c v blk&clp o u tput sour c e cur r ent i blk o u tput sour c e cur r ent of pin28 4.5 m a per m is s i ble pac k age pow er dis s i pation p d ta = 7 0 ?c c, r th =55 ?c c 1 . 0 w o per ating am bient tem per atur e t a - 1 0 ~ + 7 5 ?c c stor age tem per atur e t stg - 40~+125 ?c c notic e : if the abs olute m a x i m u m r a ting of even one of the above par am eter s is ex c eeded even m o m entar ily , the quality of the pr oduc t m a y be degr aded. in other w o r d s , abs olute m a x i m u m r a tings s pec if y the values ex c eeding w h ic h the pr oduc t m a y be phy s i c a lly dam aged. be s u r e to us e the pr oduc t w i th thes e r a tings never ex c eeded. in addition, pins not lis ted in the above table m u s t als o be us ed in a r ange of 0 to vc c . recom m e nded opera t ing ra ng e( vcc=12v, t a =25 ?c c, vcc=12v, u n l ess o t h e rw ise n o t ed ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u nit supply voltage v cc pin16 input voltage 11.5 12.0 12.5 v sda input low level v sdal pin29 input low level 0 0 1.5 v sda input high level v sdah pin29 input high level 2.3 5 5 v scl input low level v scll pin30 input low level 0 0 1.5 v scl input high level v sclh pin30 input high level 2.3 5 5 v hor i z ontal o per ating f r equenc y range f h pin26 input f r equenc y 30 - 150 khz hor i z ontal input duty ratio1 d hin1 pin26 input puls e duty r a tio am plitude=5vp- p input polar ity : pos itive - - 2 0 % hor i z ontal input duty ratio2 d hin2 pin26 input puls e duty r a tio am plitude =5vp- p input polar ity : negative 6 0 - - % ver t ic al o per ating f r equenc y range f v pin27 input f r equenc y 50 - 200 hz ver t ic al input puls e w i dth w vin1 pin27 input puls e duty r a tio am plitude =5vp- p input polar i ty : pos i tive - - 580 us w e ltrend semiconductor, inc. page 32 WT9051 d a ta sheet r ev1.0 elec tr on ic a l c h a r a c t er ic s( ta = 2 5 ?c c , vcc= 12v, unless ot herw ise not ed) < c ommon> par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u nit supply cur r ent i cc supply c u r r ent of pin16 no s i gnal 60 69 81 m a ref e r enc e voltage vref pin20 4.5 5.0 5.5 v pow e r on r e s e t voltage1 ( low �? high) v porh input vc c f r om 0v to 12v.j udged by ex is tenc e of ack 6 . 0 6 . 5 7.0 v pow e r on res e t voltage2 (hi g h �? low ) v porl input level f r om 0v to 5v 5.7 6.2 6.7 v sda input t h r e s hold voltage1 v sda1 input level f r om 0v to 5v 1.7 2.0 2.3 v sda input t h r e s hold voltage2 v sda2 input level f r om 5v to 0v 1.4 1.7 2.0 v scl input t h r e s hold voltage1 v scl1 input level f r om 0v to 5v 1.7 2.0 2.3 v scl input t h r e s hold voltage2 v scl2 input level f r om 5v to 0v 1.4 1.7 2.0 v < h orizont al sy nc signal processing u n it > horiz ontal s y nc input block (measurement at p i n26(hin) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u nit dir e c t input t h r e s hold voltage v hth input s i gnal: s epar ate s y nc dir e c t input 0.4 0.6 0.8 v h.in delay blo ck( measu remen t at pin 24 ( h a f c) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t hin delay var i able 1 t hpd1 h p o s i = 00 hex , dif f e r enc e f r om pin26 to pin24. ratio w i th per iod.f h =30k hz 1 1 . 5 1 5 . 5 1 9 . 4 % hin delay var i able 2 t hpd2 h p o s i = ff hex , dif f e r enc e f r om pin26 to pin24. ratio w i th per iod. f h =30k hz 3 3 . 6 4 0 . 0 4 6 . 4 % hin delay var i able am ount1 t hpda1 ( t hpd2 -t hpd1 ) / 255 f h =30k hz 0 . 0 8 3 0 . 1 0 5 0 . 1 2 7 %/s t ep hin delay var i able 3 t hpd3 h p o s i = 00 hex , dif f e r enc e f r om pin26 to pin24. ratio w i th per iod. f h =150k hz 1 4 . 3 1 7 . 5 2 0 . 7 % hin delay var i able 4 t hpd4 h p o s i = ff hex , dif f e r enc e f r om pin26 to pin24. ratio w i th per iod. f h =150k hz 3 6 . 3 4 2 . 0 4 7 . 7 % hin delay var i able am ount 2 t hpda2 ( t hpd4 -t hpd3 ) / 255 f h =30k hz 0 . 0 7 9 0 . 1 0 0 0 . 1 2 1 %/s t ep h- w i dh bl o ck( measu remen t at p i n 24( ha f c ) ) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t h-w i dt h vari abl e1 t hw d1 f h =30k hz 8 . 5 1 0 . 0 11.5 % h-w i dt h vari abl e2 t hw d2 f h =150k hz 8 . 5 1 0 . 0 11.5 % a f c bl o ck( measu remen t at p i n 24( ha f c ) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t hor i z ontal af c pull in range1 af c1 pos i tive captur e range at f h =30k hz 7 . 4 7 8 . 3 0 9 . 1 3 % hor i z ontal af c pull in range2 af c2 negative captur e range at f h =30k hz - 9 . 1 3 - 8 . 3 0 - 7 .47 % hor i z ontal af c pull in range3 af c3 pos i tive captur e range at f h =150k hz 7 . 6 5 8 . 5 0 9 . 3 5 % hor i z ontal af c pull in range4 af c4 negative captur e range at f h =150k hz - 9 . 3 5 - 8 . 5 0 - 7 .65 % w e ltrend semiconductor, inc. page 33 WT9051 d a ta sheet r ev1.0 f b p delay blo ck( measu remen t at p i n 18( f b pin) an d p i n 24( ha f c ) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p m ax u n i t f bp input t h r e s hold voltage1 v fbp1 input level f r om 0v to 5v 2.2 2.5 2.8 v f bp input t h r e s hold voltage 2 v fbp2 input level f r om 5v to 0v 1.9 2.2 2.5 v f bp delay t fbp dif f e r enc e f r om pin18 to pin24.ratio w i th per iod 2 4 . 3 3 0 3 0 % h- o s c blo ck( measu remen t at p i n 17( ho ut ) ) t h ese v a lu e is exclu d i n g sp read o f e x t e r na l c o mpone nts par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p m ax unit h.f r ee- r un f r equenc y 1 f h01 no input s i gnal pin22 r e s i s t or =1.8k ? 2 0 . 3 8 2 2 . 3 0 24.22 khz h.f r ee- r un f r equenc y 2 f h02 no input s i gnal pin22 r e s i s t or =1.6k ? 2 2 . 9 2 2 5 . 0 9 27.25 khz h- o s c f r equenc y 1 f h01 no input s i gnal pin22 is 1v. pin22 re si st o r = 1 . 8 k ? 3 4 . 4 3 7 . 0 39.6 k hz h- o s c f r equenc y 2 f h02 no input s i gnal w hen pin22 r e s i s t or =1.8k ? 1 3 5 1 4 5 155 khz h- du t y blo ck( measu remen t at p i n 17( ho ut ) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t h- duty 1 h duty 1 h d u t y = 00 hex f h =30k hz 3 4 . 3 3 9 . 0 43.7 % h- duty 2 h duty 2 h d u t y = 10 hex f h =30k hz 4 4 . 0 5 0 . 0 56.0 % h- duty 3 h duty 3 h d u t y = 1f hex f h =30k hz 5 3 . 2 6 0 . 5 67.8 % h- duty am ount1 h duty a 1 (h duty 3 -h duty 1 ) / 31 f h =30k hz 0.590 0.694 0.798 %/s t ep h- duty 4 h duty 4 h d u t y = 00 hex f h =150k hz 3 4 . 3 3 9 . 0 43.7 % h- duty 5 h duty 5 h d u t y = 10 hex f h =150k hz 4 4 . 0 5 0 . 0 56.0 % h- duty 6 h duty 6 h d u t y = 1f hex f h =150k hz 5 3 . 2 6 0 . 5 67.8 % h- duty am ount 2 h duty a 2 (h duty 6 -h duty 4 ) / 31 f h =150k hz 0.590 0.694 0.798 %/s t ep h- o u t blo ck( measu remen t at co llect o r o f t r an sist o r at t ach ed at p i n 17) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t h- o u t low level v hol pull up r e s i s t or 20k ? dif f e r enc e f r om g nd level 0 0 . 2 0.3 v h- o u t high level v hoh pull up r e s i s t or 20k ? dif f e r enc e f r om vc c level - 0 . 2 0 0 v w e ltrend semiconductor, inc. page 34 WT9051 d a ta sheet r ev1.0 < v ert i cal sy nc signal processing u n it > v e rtical input block (measu rement at pin27(v i n)) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t ver t ic al input t h r e s hold voltage v vin t h r e s hold voltage of pin27 2.2 2.5 2.8 v v po sit i o n blo ck ( m easu remen t at p i n 4 ( vsa w o ) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t ver t ic al pos i tion1 v p01 v p o si=00 h 2 . 9 6 2 3 . 1 5 3 3.348 v ver t ic al pos i tion2 v p02 v p o si=7f h 3 . 3 2 5 3 . 5 0 0 3.675 v ver t ic al pos i tion3 v p03 v p o si=f f h 3 . 6 2 0 3 . 8 4 7 4.076 v ver t ic al pos i tion am ount v p0a ( v p 03 -v p 01 ) / 2 5 5 2 . 3 2 2 . 7 2 3.15 m v /s tep v- sa w blo ck measu remen t at p i n 4 ( vsa w o ) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t ver t ic al saw w a ve am plitude 1 v saw 1 v s i z e =00 h 1 . 6 5 2 . 0 2.35 v p-p ver t ic al saw w a ve am plitude 2 v saw 2 v s i z e =f f h 2 . 6 5 3 . 0 3.35 v p-p ver t ic al saw w a ve am plitude am ount v saw v saw 1- v saw 2 / 2 5 5 3 . 2 7 3 . 9 4 4.61 m v /s tep v.f r ee- r un f r equenc y f v0 no input s i gnal 10 25 40 hz v.f r ee- r un am plitude v saw 0 no input s i gnal 3.2 3.6 4.0 v WT9051 d a ta sheet r ev1.0 vert ical l i n earit y ? c? co rrect io n blo ck( measu remen t at p i n 4 ( vsa w o ) , ( n o t ice1, 3) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t ver t ic al linear ity ? c? cor r e c t ion am plitude1 v c1 v l c = 0 1 hex , vsiz e =f f hex dif f e r enc e f r om v poc at top par t 6 0 1 3 5 210 m v ver t ic al linear ity ? c? cor r e c t ion am plitude1 v c2 v l c = 0 1 hex , vsiz e =f f hex dif f e r enc e f r om v poc at bottom par t 6 0 1 3 5 210 m v ver t ic al linear ity ? c? cor r e c t ion am plitude2 v c3 v l c = 4 0 hex , vsiz e =f f hex dif f e r enc e f r om v poc at top par t - 1 0 0 0 100 m v ver t ic al linear ity ? c? cor r e c t ion am plitude2 v c4 v l c = 4 0 hex , vsiz e =f f hex dif f e r enc e f r om v poc at bottom par t - 1 0 0 0 100 m v ver t ic al linear ity ? c? cor r e c t ion am plitude3 v c5 v l c = 7 f hex , vsiz e =f f hex dif f e r enc e f r om v poc at top par t - 2 1 0 - 1 3 5 - 6 0 m v ver t ic al linear ity ? c? cor r e c t ion am plitude3 v c6 v l c = 7 f hex , vsiz e =f f hex dif f e r enc e f r om v poc at bottom par t - 2 1 0 - 1 3 5 - 6 0 m v ver t ic al linear ity ? c? cor r e c t ion am ount v c ( v c5 -v c1 ) / 1 2 6 1 . 5 5 2 . 1 4 2.75 m v /s tep h- siz e co n t ro l blo ck( measu remen t at pin 5 ( e w o ) , ( n o t ice4, 5, 6) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t e/w o u tput dc voltage1 v ew 1 h s i z e = 00 h, f h - t r a c k =of f 3 . 1 5 3 . 5 3.85 v e/w o u tput dc voltage2 v ew 2 h s i z e = 7f h, f h - t r a c k =of f 3 . 8 3 4 . 2 5 4.68 v e/w o u tput dc voltage3 v ew 3 h s i z e = ff h, f h - t r a c k =of f 4 . 5 5 . 0 5.5 v e/w o u tput dc voltage am ount v ew ( v ew 3- v ew 1) / 2 5 5 5 . 3 1 5 . 9 1 6.51 m v /s tep e/w o u tput dc voltage4 v ew 4 h s i z e = ff h, f h =30k 3 . 4 0 3 . 8 6 4.32 v e/w o u tput dc voltage5 v ew 5 h s i z e = ff h, f h =150k 5 . 1 1 5 . 8 1 6.51 v t r ap ez o i d co rrect io n blo ck( measu remen t at p i n 5 ( e w o ) , ( n o t ice5, 6) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t t r apez oid cor r e c t ion am plitude1 v tra1 t r ap=01 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 3 5 0 - 2 8 0 - 210 m v t r apez oid cor r e c t ion am plitude2 v tra2 t r ap=01 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff 2 1 0 2 8 0 350 m v t r apez oid cor r e c t ion am plitude3 v tra3 t r ap=40 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 5 0 0 50 m v t r apez oid cor r e c t ion am plitude4 v tra4 t r ap=40f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff - 5 0 0 50 m v t r apez oid cor r e c t ion am plitude5 v tra5 t r ap=7f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff 2 1 0 2 8 0 350 m v t r apez oid cor r e c t ion am plitude6 v tra6 t r ap=7f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff - 3 5 0 - 2 8 0 - 210 m v t r apez oid cor r e c t ion am plitude am ount v tra v tra5- v tra1 / 1 2 6 3 . 5 5 4 . 4 4 5.33 m v /s te p t r apez oid cor r e c t ion am plitude7 v tra7 v tra5 , hsize=ff h , f h =30k 175 235 295 m v t r apez oid cor r e c t ion am plitude8 v tra8 v tra5 , hsize=ff h , f h =150k 256 344 432 m v t r apez oid cor r e c t ion am plitude9 v tra9 v tra5 , hsize=ff h , f h - t r a c k =of f 273 364 455 m v w e ltrend semiconductor, inc. page 36 WT9051 d a ta sheet r ev1.0 sid e pin co rrect io n blo ck ( m easu remen t at p i n 5 ( e w o ) , ( n o t ice4, 6) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t side pin cor r e c t ion am plitude1 v sp1 s p = 0 1 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 1 2 0 0 120 m v side pin cor r e c t ion am plitude2 v sp2 s p = 0 1 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom par t, fh - t r a c k = o ff - 1 2 0 0 120 m v side pin cor r e c t ion am plitude3 v sp3 s p = 4 0 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff 4 3 0 7 2 5 1020 m v side pin cor r e c t ion am plitude4 v sp4 s p = 4 0 f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom par t, fh - t r a c k = o ff 4 3 0 7 2 5 1020 m v side pin cor r e c t ion am plitude5 v sp5 s p = 7 f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff 1 0 2 5 1 4 5 0 1 8 7 5 m v side pin cor r e c t ion am plitude6 v sp6 s p = 7 f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom par t, fh - t r a c k = o ff 1 0 2 5 1 4 5 0 1 8 7 5 m v side pin cor r e c t ion am plitude am ount v sp v sp5- v sp1 / 1 2 6 9 . 2 1 1 1 . 5 1 13.81 m v /s te p side pin cor r e c t ion am plitude7 v sp7 v sp5 , hsize=ff h , f h =30k 844 1215 1586 m v side pin cor r e c t ion am plitude8 v tsp8 v sp5 , hsize=ff h , f h =150k 1 2 3 7 1 7 8 0 2 3 2 3 m v side pin cor r e c t ion am plitude9 v sp9 v sp5 , hsize=ff h , f h - t r a c k =of f 1 3 2 0 1 8 8 5 2 4 5 1 m v sid e pin co rn er ? t o p ? co rrect blo ck ( m easu remen t at pin 5 ( e w o ) , ( n o t ice4, 5, 8) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t spc- t cor r e c t ion am plitude1 v spct1 s p c t = 00 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 4 8 0 - 3 4 0 - 200 m v spc- t cor r e c t ion am plitude2 v spct2 s p c t = 00 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom par t, fh - t r a c k = o ff - 8 0 0 8 0 m v spc- t cor r e c t ion am plitude3 v spct3 s p c t =40 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 8 0 0 8 0 m v spc- t cor r e c t ion am plitude4 v spct4 s p c t =40f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff - 8 0 0 8 0 m v spc- t cor r e c t ion am plitude5 v spct5 s p c t =7f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff 2 0 0 3 4 0 480 m v spc- t cor r e c t ion am plitude6 v spct6 s p c t =7f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff - 8 0 0 8 0 m v spc- t cor r e c t ion am plitude am ount v spct v spct5- v spct1 / 1 2 7 3 . 1 7 5 . 4 0 7.62 m v /s te p spc- t cor r e c t ion am plitude7 v spct7 v spct 5 , hsize=ff h , f h =30k 165 285 405 m v spc- t cor r e c t ion am plitude8 v spct8 v spct 5 , hsize=ff h , f h =150k 242 417 592 m v spc- t cor r e c t ion am plitude9 v spct9 v spct 5 , hsize=00 h , f h - t r a c k =of f 256 442 628 m v w e ltrend semiconductor, inc. page 37 WT9051 d a ta sheet r ev1.0 sid e pin co rn er ? b o t t o m ? co rrect blo ck ( m easu remen t at pin 5 ( e w o ) , ( n o t ice4, 5, 8) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t spc- b cor r e c t ion am plitude1 v spcb1 s p c b = 0 0 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 8 0 0 8 0 m v spc- b cor r e c t ion am plitude2 v spcb2 s p c b = 0 0 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom par t, fh - t r a c k = o ff - 4 8 0 - 3 4 0 - 200 m v spc- b cor r e c t ion am plitude3 v spcb3 s p c b =40 h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 8 0 0 8 0 m v spc- b cor r e c t ion am plitude4 v spcb4 s p c b =40f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff - 8 0 0 8 0 m v spc- b cor r e c t ion am plitude5 v spcb5 s p c b =7f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at top par t, fh - t r a c k = o ff - 8 0 0 8 0 m v spc- b cor r e c t ion am plitude6 v spcb6 s p c b =7f h , v s i ze = ff h, hsize= ff h, dif f e r enc e f r om v ew 3 at bottom p a r t , fh - t r a c k = o ff 2 0 0 3 4 0 4 8 0 m v spc- b cor r e c t ion am plitude am ount v spcb v spcb6- v spcb2 / 1 2 7 3 . 1 7 5 . 4 0 7 . 6 2 m v /s te p spc- b cor r e c t ion am plitude7 v spcb7 v spcb 6 , hsize=ff h , f h =30k 1 6 5 2 8 5 4 0 5 m v spc- b cor r e c t ion am plitude8 v spcb8 v spcb6 , hsize=ff h , f h =150k 2 4 2 4 1 7 5 9 2 m v spc- b cor r e c t ion am plitude9 v spcb9 v spcb6 , hsize=ff h , f h - t r a c k =of f 2 5 6 4 4 2 6 2 8 m v parallelo g r am co rrect io n blo ck ( i n t ern a l measu remen t , ( n o t ice 10,11) ) par a m e ter s y m bol t e s t c o n d i t i o n m i n t y p max u n i t par a llelogr am cor r e c t ion am plitude1 v para1 p a r a = 0 1 h , t op par t - 300 - 240 - 180 m v par a llelogr am cor r e c t ion am plitude2 v para2 p a r a = 0 1 h , bottom par t 180 240 300 m v par a llelogr am cor r e c t ion am plitude3 v para3 p a r a =40 h , t op par t - 45 0 45 m v par a llelogr am cor r e c t ion am plitude4 v para4 p a r a = 4 0 h , bottom par t - 45 0 45 m v par a llelogr am cor r e c t ion am plitude5 v para5 p a r a =7f h , t op par t 180 240 300 m v par a llelogr am cor r e c t ion am plitude6 v para6 p a r a = 7 f h , bottom par t - 300 - 240 - 180 m v par a llelogr am cor r e c t ion am ount v para t para5- t para1 / 1 2 6 3 . 0 4 3 . 8 1 4 . 5 8 m v /s tep w e ltrend semiconductor, inc. page 38 WT9051 d a ta sheet r ev1.0 sid e pin balan ce co rrect blo ck ( i n t ern a l measu remen t , ( n o t ice9, 11) ) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t spb cor r e c t ion am plitude1 v spb1 s p b = 0 1 h , t op par t - 600 - 460 - 320 m v spb cor r e c t ion am plitude2 v spb2 s p b = 0 1 h , bottom par t - 600 - 460 - 320 m v spb cor r e c t ion am plitude3 v spb3 s p b =40 h , t op par t - 120 0 120 m v spb cor r e c t ion am plitude4 v spb4 s p b = 4 0 h , bottom par t - 120 0 120 m v spb cor r e c t ion am plitude5 v spb5 s p b =7f h , t op par t 320 460 600 m v spb cor r e c t ion am plitude6 v spb6 s p b = 7 f h , bottom par t 320 460 600 m v spb cor r e c t ion am ount v spb t para5- t para1 / 1 2 6 5 . 8 4 7 . 3 0 8 . 7 6 m v /s tep sid e pin co rn er balan ce t o p co rrect io n blo ck( in t e rn al measu remen t , ( n o t ice9,10, 13) ) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t spcb- t cor r e c t ion am plitude1 v spcbt1 s p c b t =00 h , t op par t - 410 - 310 - 210 m v spcb- t cor r e c t ion am plitude2 v spcbt2 s p c b t =00 h , bottom par t - 80 0 80 m v spcb- t cor r e c t ion am plitude3 v spcbt3 s p c b t =40 h , t op par t - 80 0 80 m v spcb- t cor r e c t ion am plitude4 v spcbt4 s p c b t =40 h , bottom par t - 80 0 80 m v spcb- t cor r e c t ion am plitude5 v spcbt5 s p c b t =7f h , t op par t 210 310 410 m v spcb- t cor r e c t ion am plitude6 v spcbt6 s p c b t =7f h , bottom par t - 80 0 80 m v spcb- t cor r e c t ion am ount v spcbt v spcbt5- v spcbt1 / 1 2 7 3 . 3 3 4 . 9 2 6.51 m v /s tep sid e pin co rn er balan ce bo t t o m co rrect io n blo ck( in t e rn al measu remen t , ( n o t ice9,10, 12) ) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t spcb- b cor r e c t i o n am plitude1 v spcbb1 s p c b b = 0 0 h , t op par t - 80 0 80 m v spcb- b cor r e c t ion am plitude2 v spcbb2 s p c b b = 0 0 h , bottom par t 210 310 410 m v spcb- b cor r e c t ion am plitude3 v spcbb3 s p c b b =40 h , t op par t - 80 0 80 m v spcb- b cor r e c t ion am plitude4 v spcbb4 s p c b b = 4 0 h , bottom par t - 80 0 80 m v spcb- b cor r e c t ion am plitude5 v spcbb5 s p c b b =7f h , t op par t - 80 0 80 m v spcb- b cor r e c t ion am plitude6 v spcbb6 s p c b b = 7 f h , bottom par t - 410 - 310 - 210 m v spcb- b cor r e c t ion am ount v spcbb v spcbb5- v spcbb1 / 1 2 7 3 . 3 3 4 . 9 2 m v /s tep 6 . 5 1 w e ltrend semiconductor, inc. page 39 WT9051 d a ta sheet r ev1.0 WT9051 d a ta sheet r ev1.0 vert ical dy n a mic f o c u s blo ck ( m easu remen t at 9p in ) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t v- df am plitude1 v vdfa1 v d f a =01 hex , df selec t =? 0? 0 . 6 1 . 0 1 . 4 v p - p v- df am plitude2 v vdfa2 v d f a =7f hex , df selec t =? 0? 3 . 0 4 . 0 5 . 0 v p - p v- df am plitude am ount v vdfa v vdfa2- v vdfa1 / 1 2 6 1 8 2 4 3 0 m v /s tep erro r a m p blo ck ( m easu remen t at p i n 12) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t input low voltage v einl i n p u t v ein at pin11, s hor t betw een pin11and pin12 0 0 0 v input high voltage v einh i n p u t v ein at pin11, s hor t betw een pin11 and pin12 4 . 5 5 . 0 5 . 5 v ref e r enc e voltage v ref no s i gnal at pin11, s hor t betw een pin11 and pin12 2 . 2 5 2 . 5 2 . 7 5 v lim i t level v lim input 6v at pin11, s hor t betw een pin11 and pin12 4 . 5 5 . 0 5 . 5 v pw m o s c blo ck ( m easu remen t at p i n 13) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t low level v l input 5v at pin11 0.8 1.0 1.2 v pw m o u t blo ck( measu remen t at p i n 14) par a m e ter s y m b o l t e s t c o n d i t i o n m i n t y p max u n i t pw m duty 1 p d1 f h =30k hz , v 12 = 1 v 9 4 9 9 1 0 0 % pw m duty 2 p d2 f h =30k hz , v 12 = 2 v 8 8 9 3 9 8 % pw m duty 3 p d1 f h =30k hz , v 12 = 3 v 8 1 8 6 9 1 % pw m duty 4 p d4 f h =30k hz , v 12 = 4 v 7 3 7 8 8 3 % pw m duty 5 p d5 f h =30k hz , v 12 = 5 v 6 5 7 0 7 5 % pw m duty 1 p d1 f h =90k hz , v 12 = 1 v 9 3 9 8 1 0 0 % pw m duty 2 p d2 f h =90k hz , v 12 = 2 v 7 4 7 9 8 4 % pw m duty 3 p d3 f h =90k hz , v 12 = 3 v 5 3 5 8 6 3 % pw m duty 4 p d4 f h =90k hz , v 12 = 4 v 3 0 3 5 4 0 % pw m duty 1 p d1 f h =150k hz , v 12 = 1 v 9 1 9 6 1 0 0 % pw m duty 2 p d2 f h =150k hz , v 12 = 2 v 6 0 6 5 7 0 % pw m duty 3 p d3 f h =150k hz , v 12 = 3 v 2 5 3 0 3 5 % |
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