View KAI-2093-ABA-CK-BA_7203784.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

device performance specification revision 3.0 mtd/ps-0307 march 19, 2007 kodak kai-2093 image sensor 1920 (h) x 1080 (v) interline ccd image sensor
table of contents summary sp ecification ............................................................................................................................... ................................ 4 description ............................................................................................................................... ................................................... 4 features ............................................................................................................................... ........................................................ 4 applic ations ............................................................................................................................... .................................................. 4 ordering information ............................................................................................................................... ................................... 5 devi ce descriptio n ............................................................................................................................... ....................................... 6 architecture ............................................................................................................................... .................................................. 6 pin des c ription and physical orientation ............................................................................................................................... .... 7 imaging performance ............................................................................................................................... .................................. 8 typical oper atio nal conditions ............................................................................................................................... .................... 8 optical specification s ............................................................................................................................... ................................... 8 ccd specific a tion s ............................................................................................................................... ....................................... 8 output amplifier specifications ............................................................................................................................... ................... 9 general specification s ............................................................................................................................... ................................. 9 typical performance curves ............................................................................................................................... ...................... 10 monochrome quantum efficiency ............................................................................................................................... ............. 10 monochrome with microlens angular qu antum efficiency ..................................................................................................... 10 color with le nslet qu antum efficiency ............................................................................................................................... ..... 11 frame rates ............................................................................................................................... ............................................... 12 def ect defi nitions ............................................................................................................................... ....................................... 13 operation a l conditions ............................................................................................................................... ............................... 13 specification s ............................................................................................................................... ............................................. 13 defect zones ............................................................................................................................... ............................................... 13 defect classe s ............................................................................................................................... ............................................ 13 operation ............................................................................................................................... .................................................... 14 absolute maximum rating s ............................................................................................................................... ....................... 14 dc b i as operating conditio ns ............................................................................................................................... ................... 14 ac oper ating condition s ............................................................................................................................... ............................ 14 clock c a p a cit a nce ............................................................................................................................... ...................................... 15 operation n o tes ............................................................................................................................... ......................................... 16 progressive and interlaced timing ............................................................................................................................... ........ 16 single output mode ............................................................................................................................... ................................ 16 dual output mode ............................................................................................................................... ................................... 16 exposure con t rol ............................................................................................................................... .................................... 17 dark references ............................................................................................................................... ..................................... 17 connections t o the image sensor ............................................................................................................................... .......... 17 timing ............................................................................................................................... ......................................................... 18 requirements and char act e ristics ............................................................................................................................... ........... 18 frame timin g ............................................................................................................................... ............................................. 19 frame ti min g ? p r ogre ss i v e scan ............................................................................................................................... ......... 19 vertical clock edge align m ent ............................................................................................................................... .............. 20 frame timin g ? f i eld inte gration mode ............................................................................................................................... 21 frame timin g ? fr ame int e gration mod e ............................................................................................................................ 22 line timing ............................................................................................................................... ................................................. 23 electronic sh utter timing ............................................................................................................................... .......................... 24 storage and handling ............................................................................................................................... ................................ 25 storage cond itions ............................................................................................................................... ..................................... 25 esd ............................................................................................................................... ............................................................. 25 ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2
c o ver glas s ca re a n d c l ea n l ines s ............................................................................................................................... ............ 25 environment a l exp o sure ............................................................................................................................... ............................ 25 soldering re commendations ............................................................................................................................... .................... 25 mechanical d r awings ............................................................................................................................... ................................. 26 co mpleted as sembl y ............................................................................................................................... ................................. 26 cover gl a s s ............................................................................................................................... ................................................. 28 clear c o ver g l a s s ............................................................................................................................... ................................... 28 quartz cover glass with ar coating s ............................................................................................................................... .... 29 glass tra n smiss i on ............................................................................................................................... .................................... 30 quality a ssur a nce and reliability ............................................................................................................................... .............. 31 qualit y str a tegy ............................................................................................................................... .......................................... 31 replace m ent ............................................................................................................................... .............................................. 31 li ability of th e supplier ............................................................................................................................... .............................. 31 li ability of th e cu stomer ............................................................................................................................... ............................ 31 reliab ility ............................................................................................................................... .................................................... 31 test d a ta ret e ntion ............................................................................................................................... .................................... 31 mechanical ............................................................................................................................... .................................................. 31 warning: life support applications policy ............................................................................................................................... 31 revision ch anges ............................................................................................................................... ....................................... 32 t a ble of fi gure s figure 1: sensor architecture ............................................................................................................................... ......................... 6 figure 2: p a c k age pin designations - top view ............................................................................................................................ 7 figure 4: quantum efficien cy spectrum for monochrome sen s ors ........................................................................................... 10 figure 5: ang u lar dependence of quantu m efficiency ............................................................................................................... 10 figure 6: quantum efficien cy spectrum for color filte r array sen s ors .................................................................................... 11 figure 7: color filter array pattern ............................................................................................................................... .............. 11 figure 3: progressive frame ra te vs. h ccd clock frequency .................................................................................................. 12 figure 8: de fect zones ............................................................................................................................... ................................... 13 figure 9: progressive frame timing ............................................................................................................................... ............ 19 figure 10: ide a l vertic al clock edge posit i on .............................................................................................................................. 2 0 figure 11: int e rlaced frame timing - f i eld integration mode ................................................................................................... 21 figure 12: int e rlaced frame timing - fr ame integration mode ................................................................................................. 22 figure 13: line timing ............................................................................................................................... ................................... 23 figure 14: ele c tronic shutter timing diagram ............................................................................................................................ 24 figure 15: completed as se mbly ( 1 of 2) ............................................................................................................................... ....... 26 figure 16: completed as se mbly ( 2 of 2) ............................................................................................................................... ....... 27 figure 17: clear cover glass dr awing ............................................................................................................................... .......... 28 figure 18: qu artz c o ver gl as s with ar c o ating dr awin g ............................................................................................................ 29 figure 19: cover glas s trans m iss i on ............................................................................................................................... ........... 30 ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3
summary specification kod ak kai-2093 ima ge sensor 1920 (h) x 1080 (v) progressive scan interline ccd image sensor description the kodak kai- 209 3 image sensor is a hi gh- perform a nce multi-meg a pi xel image sen s or designed for a wide r a ng e of medical imaging and machine vision applic ations. the 7.4 m square pixels with microlen ses provide h i gh sensiti v ity an d the large full well cap a ci ty results in high dynamic ran g e. the split horizontal register offer s a choice of sin g le or dual output allowin g either 15 or 30 frame per second (fps). th e ar chitecture allows for e i ther progressi ve scan or in terl aced readout. the imager features 5v clocking to facilit a te camera design. the vertical overflow drain str u cture provid es antiblooming protection, and enables electronic shuttering for precise exposure con t rol. features ? progressive scan (non-interlaced) ? hccd and output amplifier capable of 40 mhz operation ? 5 v h ccd clo c king ? single or du al video output operation ? 2 8 li ght s h i e lded ref e rence co l u m n s per o u tput ? only 2 vertical ccd clock s and 2 horizon t al ccd clocks ? electronic sh utter ? low d a rk current ? antiblooming protection applications ? industrial i m aging ? scientific imaging parameter t y p i c a l v a l u e architectu re inte rli n e c c d , p r ogre s s i ve scan or i n te r l aced r e adout t o tal nu mbe r of pi xe ls 19 84 (h) x 10 92 ( v ) numbe r o f e f fe c t i v e pi xe ls 19 28 (h) x 10 84( v ) numbe r o f ac ti ve pi xe ls 19 20 (h) x 10 80 ( v ) pi xe l si ze 7.4 m (h) x 7. 4 m (v) active image size 14.208 mm (h) x 7.992 mm (v) 16. 3 mm (di a gon a l) aspe c t rati o 16: 9 numbe r o f ou tpu t s 1 or 2 satu rati on si gna l 40, 0 00 e l e c tro n s ou tput sen s itivity 1 4 v/electr o n qu an tu m ef f i ciency kai - 20 93 -aba (490 nm) 40% qu an tu m ef f i ciency kai - 20 93 -cba r(620 nm), g(540nm), b( 460nm) 3 7 % , 34 %, 30 % total n o ise 4 0 electr on s r m s da rk c u rre nt (t y p i c a l ) <0. 5 n a /c m 2 dynami c ra nge 60 d b blooming s u pp ression 100 x sme a r <0. 03 % i m age lag < 1 0 electr on s fr ame r a te si ngle outp ut, 2 0 mhz si ngle outp ut, 3 5 mhz dual ou tpu t s, 2 0 mhz dual ou tpu t s, 3 7 mhz 9 fps 15 fps 17 fps 30 fps maximum data rate 40 mh z/channel (2 channels) package 3 2 pin cerdi p cover glass clear glass or qu ar tz glass with ar coa t in g, 2 sides par a meter s above ar e specif ied at t = 4 0 c u n less oth e r w ise n o ted. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 4
o r der ing inf orm a tion ca talog n u m b e r p r o d u c t nam e d e scrip t i o n m a r k i n g c o d e 2h4 7 3 6 kai- 2 0 9 3 -aaa-c p -ae mon o chr o me, no micr olen s, cerdi p package (sidebr a zed), taped clear cover glass (no coat ings), engineering sample 2h4 6 1 7 kai- 2 0 9 3 -aaa-c p -ba mon o chr o me, no micr olen s, cerdi p package (sidebr a zed), taped clear cover glass (no co atings), sta n dard g r ade ka i - 20 93 serial numbe r 2 h 47 28 ka i - 20 93 -a b a -c b - a e mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), clear cover glas s (n o coatin gs), en gin eer in g samp le 4 h 01 74 ka i - 20 93 -a b a -c b - b 1 mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), clear cover glas s (no coatings), g r ade 1 2 h 47 25 ka i - 20 93 -a b a -c b - b 2 mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), clear cover glas s (no coatings), g r ade 2 2 h 49 23 ka i - 20 93 -a b a -c k-a e mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), qu ar tz cover gla ss with ar coating (both sides), en gin eer in g sample 2 h 49 20 ka i - 20 93 -a b a -c k-b a mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), quar tz co ver gla ss with ar coatin g (both sides), standard grade 2 h 46 18 ka i - 20 93 -a b a -c p-a e mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), taped clear cover glass (no coat ings), engineering sample 2 h 46 16 ka i - 20 93 -a b a -c p-b a mon o chr o me, te lecen t r i c micr olen s, cer d i p package (sidebr a zed), taped clear cover glass (no co atings), sta n dard g r ade ka i - 20 93 m serial numbe r 4 h 01 37 ka i - 20 93 -cb a - c b -a e color (baye r r g b), telecen t r i c m i cr olen s, cer d i p package (sidebr a zed), clear cover glas s (n o coatin gs), en gin eer in g samp le 4 h 01 36 ka i - 20 93 -cb a - c b -b a color (baye r r g b), telecen t r i c m i cr olen s, cer d i p package (sidebr a zed), clear cover glas s (n o coat ings), s t andard grade ka i - 20 93 cm serial numbe r 4h0 7 0 5 ke k- 4h07 05- ka i - 209 3- 1 0 - 4 0 e v aluati on board , 10 bi t, 40 m h z ( c omple t e ki t) n/a 4h0 7 0 6 ke k- 4h07 06- ka i - 209 3- 1 2 - 2 0 e v aluati on board , 12 bi t, 20 m h z ( c omple t e ki t) n/a please see th e user?s man u al ( m td/ps-0715) for infor m ati o n on the ev alu a tion ki t for thi s p a rt. please see i s s appl ication note ?product naming co nvention? (mt d /ps-0892) f o r a full de scri ption of nami ng conventi on us ed fo r koda k im a g e s e ns o r s . address all inqui r ies and p u rchase orders to: image sen s or solution s eastman kod a k co mp any rochester, n e w york 146 5 0 -201 0 phone: (585) 722-4 385 fax: (58 5 ) 47 7 - 4947 e-mail: imag ers@kodak.com kod a k reserves the right to change an y in formation c o ntained herein without not i ce. all in for m ati o n furnished by kod a k is believed to be accurate. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 5
device description architecture 4 lig h t sh ield ed r o w s 2 buffer rows 4 buffer col u mns 192 0 x 1080 i m a g i ng pi xel s 2 buffer rows 2 8 li g h t sh ield ed co lu mn s 4 buffer col u mns 4 empt y p i xel s vi deo l vi deo r 4 lig h t sh ield ed r o w s 2 8 li g h t sh ield ed co lu mn s 4 empt y pi xel s 1920 4 2 8 28 4 4 960 4 2 8 28 4 44 96 0 s i ngl e out put dual o u t put or figure 1: senso r architectu re there are 4 light shielded rows fo ll owed by 10 84 photoactive r o ws and finally 4 more lig h t shielded rows. the first and last 2 phot oactive rows are buffer r o ws giving a tot a l of 108 0 line s of i m age d a ta. in the single output mode all pixels are clocked out of the video l outpu t in the lower left corner of the sensor. the first four empty pixels of each line do not receive ch arge from the vertical shift r e gister. the next 28 pixels receive charge from the left light shielded edge followed by 1928 photoactive pixels and finall y 28 more li ght shielded pixels from the r i ght edge of the sensor. the first and last 4 photoactive pi xels are bu ffer pixels giving a to ta l o f 1 920 pi x e ls o f ima g e da ta . in the dual output mode the clocking of the right half of the horizontal ccd is rever s ed. the left half of the image is clocked ou t video l and the right half of the imag e is clocked out video r. each ro w consist s of 4 empt y pixels follo wed by 28 light shie lded pixels followed b y 964 photoactive pixels. when r eco nstructing the image, data from video r will have to be reversed in a line buffer and appended to t h e video l d a ta. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 6
pin description and physical orientation vss vou tl es d figure 2: packag e pin designations - top view pin l a b e l pin l a b e l 1 r 1 7 v s s 2 h 2 b l 1 8 vou t r 3 h 1 b l 1 9 g n d 4 h 1 s l 2 0 v2o 5 h 2 s l 2 1 v1 6 g n d 2 2 vsu b 7 o g 2 3 g n d 8 r d 2 4 vdd r 9 r d 2 5 v d d l 1 0 o g 2 6 g n d 1 1 g n d 2 7 vsu b 12 h 2 s r 2 8 v1 13 h 1 s r 2 9 v2e 14 h 1 b r 3 0 e s d 15 h 2 b r 3 1 vou t l 16 r 3 2 v s s th e h o riz o n t al sh ift registe r is on th e side of th e sen s or paralle l to the row of pins 1 through 16. in s i ngle output mode t h e pixel close s t t o pin 1 will b e read out first through video l, th e pixel closest to pin 17 will be read out last. in dual out p ut mode the p i xel closest t o p i n 16 will be r e ad out fir s t t h rough video r. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 7
imaging performance typical operational conditions descrip t i o n c o n d i t i o n temper atu r e 4 0 c integ r ation time 33 ms (40 mhz h ccd fre q ue nc y, 3 0 fps f r ame rate ) oper ation nominal vo ltages and timing i m age def e cts ar e exclu d ed f r om per f orman c e tests. optical specifications s y m b o l d e s c r i p t i o n min n o m max uni t n o t e s qe ma x pe ak q u ant u m e f fi c i e n c y 33 36 % 1 q e pe ak q u ant u m e f fi c i e n c y wave le n g th 49 0 nm 1 q e (540) q u ant u m e f fi c i e n c y at 54 0nm 31 33 % 1 qe h micr olen s acceptan ce an gle (h or izon tal) 12 1 3 de gre e s 2 qe v micr olen s acceptan ce an gle (ver ti cal) 25 3 0 de gre e s 2 nl maxi mum pho t or e s ponse nonli n e a ri ty 2 % 3, 4 ? g maxi mum g a i n d i ffe r e n c e be twe e n outp uts 10 % 3, 4 ? nl ma xi mum si gna l e rro r c a us e d by no nli n e a ri t y di ffe re nc e s 1 % 3 , 4 note s: 1. f o r monoc h rome s e ns ors . 2 . valu e is th e an g u lar r a n g e of in cid e n t ligh t f o r wh ich th e q u an tu m eff i cien cy is at leas t 5 0 % of qe ma x at a wavelength o f qe. an gles ar e measu r ed with respect to t h e sensor sur f ace normal i n a plane par a llel to the hor i zo ntal axis ( qe h ) or in a plane par a llel to the ver t ical axis ( qe v ). 3 . valu e is over th e r a n g e of 1 0 % to 90 % of ph otodiode satu r a tion . 4 . valu e is f o r th e s e n s or oper ated w i th out bin n i n g . ccd specifications s y m b o l d e s c r i p t i o n min n o m max uni t n o t e s vne ver t ical ccd ch a r ge capacity 4 5 5 0 ke - hne hor i zontal ccd c h ar ge capacity 1 0 0 ke - pne photodiode cha r ge capacity 35 40 ke - 1 i d d a r k c u rre n t 0 . 3 1 . 0 na/c m 2 lag image lag < 1 0 50 e - 2 xab anti bloomi n g fac t or 10 0 30 0 3, 4 , 5 , 6 smr ve rti c al sme a r - 75 - 72 db 3, 4 note s: 1 . th is valu e depends on th e su bs tr a t e voltage settin g . high er pho t odi o de saturation c h arge ca pacities will lower t h e antib l oo min g specif ication . substr ate voltag e will be specif i e d with each part for nomi nal pho t o d iode charge cap a city. 2. this is the first fi eld decay lag at 70% satu ratio n . measured by stro be illumination o f the device at 70% of p h otodiode sat urati o n, and t h e n measu r in g th e su bsequ e n t f r ame ? s aver age pixel ou tput in th e dar k . 3. measur ed with a spot si ze of 1 00 v e rti c al pi xe ls. 4. me asure d wi th f / 4 i m agi n g opti c s and c o nti n uous g r e e n i llumi na ti on c e nte r e d at 5 50 nm. 5. a blooming condi t ion is defined as when the spot size doubles in size. 6 . an tibloomi n g f a c t or is th e lig h t in ten s ity wh ich causes bloom ing divided by the light i n tens ity w h ich fir s t saturates t h e ph otodiodes. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 8
output amplifier specifica tions s y m b o l d e s c r i p t i o n n o m i n a l uni t n o t e s p d powe r di ssi pati on 12 0 mw 1 f -3 d b bandwi d t h 1 4 0 m h z 1 c l max off- c h i p loa d 10 pf 2 a v gain 0 . 75 1 ? v/ ? n s e n s i t i v i t y 1 4 v/ e - 1 note s: 1. f o r a 5 ma o u tp u t load on each a m plif ier . per am plif ier . 2. with to tal ou tpu t load capacitance of c l = 10 pf betw een the outputs a n d ac gro und . general specifications s y m b o l d e s c r i p t i o n n o m i n a l uni t n o t e s n e- t t o tal noi s e 40 e - rms 1 d r d y n a m i c ra nge 6 0 d b 2 note s: 1 . i n clu d es system electr on ics n o ise, dar k patt e r n noi s e and dark c u r r e nt shot noi s e at 20 mh z. 2. u s e s 20log (pne /n e- t ) ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 9
typical performance curves monochr o me quantum efficiency 0. 00 0. 05 0. 10 0. 15 0. 20 0. 25 0. 30 0. 35 0. 40 0. 45 0. 50 300 400 500 600 700 800 900 1000 w a v e l e ng th (nm ) ab s o l u te qu a n t u m e f f i ci en cy w i t h c l ear c o v e r g l as s w i th o u t c o v e r g l a s s w i th o u t c o v e r g l a s s , w i th o u t mi c r o l e n s f i gure 3: q u a n tu m e ffi c i e n c y spe c trum for m o noc h rome se ns o r s monochr o me with microlens angular quantum efficie ncy 0 10 20 30 40 50 60 70 80 90 100 0 5 10 15 20 25 30 a n g l e ( d eg rees ) re l a t i v e qu a n t u m e f f i cien cy (% ) h o r i zo n t al v e r tic al figu r e 4 : an g u la r depen d en ce of qu an tu m ef f i ciency for th e cur v e ma r k ed ? h or izontal?, th e in ciden t lig h t an gle is var i ed in a plan e par a llel to th e hccd. for th e cur v e ma r k ed ? v ertical? , th e in ciden t ligh t an gle is var i ed in a plan e par a llel to th e vccd. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 0
color with lenslet quantum efficie ncy 0. 00 0. 05 0. 10 0. 15 0. 20 0. 25 0. 30 0. 35 0. 40 400 500 600 700 800 900 1000 w a v e l e n g th (n m ) absolute quantum efficiency re d gr e e n bl u e w i t h cl ea r c o v e r gl a s s f i gure 5: q u a n tu m e ffi c i e n c y spe c trum for c o lor f i lte r ar ra y se ns o r s bl ue f i rs t imagi ng p i xel hor i zont al re g i s t e r green re d green vertical re gi s t e r f i gure 6: c o lo r f i lte r a rra y pa tte r n ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 1
frame rates 0 5 10 15 20 25 30 35 40 0 5 1 0 15 20 25 30 35 40 h c cd cl o c k f r e q u e n c y (m h z ) fr a m e r a t e (fr a m e s / s ) du a l o u t p u t s i ng l e o u t p ut figure 7: prog re ssive frame ra te vs. hccd clock fr equ e n c y ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 2
defe ct def i nit ions operational conditions descrip t i o n c o n d i t i o n temper atu r e 4 0 c inte g r ati o n ti me 33 ms (4 0 mhz h c c d fre q ue nc y, n o bi nni ng, 30 fps frame rate ) li ght sou r c e c o nti n uous g r e e n i llumi nati on c e nte r e d at 55 0 nm oper ation nominal vo ltages and timing specifica tions n a m e d e f i n i t i o n major def e ctive pixel a pixel whose signal deviates by m o re tha n 25 mv from the mean val u e of all active pi xe ls unde r da rk fi e l d c o ndi t i o n or b y more than 15% fr om the mean value of all active pixels under u n ifo r m i llumination of 80 % of satu ration minor de fective pixel a pixel whose signal deviates by m o re th a n 8 mv f r om th e mean value of all active pixels u n d er da r k f i eld con d ition s c l uste r de fe c t a group of 2 to 10 c o nti g uo us maj o r de fe c t i v e pi xe ls wi th a wi dth no w i de r than 2 de fe c t i v e pi xe ls c o lumn de fe c t a group of mo re than 10 c o nti g uo us major def e ctive pixels along a single column note s: 1. ther e will be at least two no n-defective pixels sep a rating an y two major def e ctive pixels 2. bu ffe r a n d da rk r e fe re nc e pi xe ls a r e not us e d fo r d e fe c t te s t s defect zones 4 lig h t sh iel d e d ro ws 2 bu ffe r ro ws 4 bu ffer co lumn s 2 bu ffe r ro ws 2 8 l i ght shie lded col u mns 4 bu ffer co lumn s 4 em pty pix e ls vi de o l vi de o r 4 lig h t sh iel d e d ro ws 2 8 l i ght shie lded col u mns 4 empty p i xels 19 20 4 2 8 28 4 4 96 0 4 2 8 28 4 44 96 0 sin g le ou tp u t du al o u t p ut or zo ne a 64 0 x 3 8 0 64 0 c o lum n s 64 0 c o lum n s 38 0 r o ws 38 0 r o ws f i gure 8: de fe c t zone s defect classes ka i-209 3-aba-cb-b1 maximu m num b er of def e c t s maj o r poin t min o r p o int c l us ter c o lumn within zo ne a outside zo ne a within zo ne a outside zo ne a within zo ne a outside zo ne a within zo ne a outside zo ne a 3 1 0 2 0 10 0 0 4 0 0 a ll oth e r part numb e rs zone a i s no t use d maximu m num b er of def e c t s maj o r poin t min o r p o int c l us ter c o lumn 1 0 1 0 0 4 0 ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 3
operat ion absolute maximum ratings min m a x uni t n o t e s temper atu r e oper ation with out damage -5 0 7 0 c vsu b to g n d 8 20 v 1 vdd, og t o g n d 0 17 v vrd to g n d 0 14 v v1 t o v 2 - 2 0 2 0 v h1 t o h 2 - 1 5 1 5 v r t o g n d - 15 15 v h1, h 2 to og - 15 15 v voltage between pins h1, h2 t o v1, v 2 - 1 5 1 5 v c u rre nt vi de o output bi as c u rre nt 0 10 ma 2 note s: 1. for electronic sh utteri ng vsu b m a y be pulsed to 50 v fo r up to 10 s . 2. t o ta l fo r bot h ou t p uts . c u rre nt i s 5 ma fo r e a c h o u tput . n o te th at th e cu rr en t bias ef f e cts th e amplif ier ban d width dc bias operating conditio ns s y m b o l d e s c r i p t i o n min n o m max uni t n o t e s o g ou t p u t g a t e -3 .0 - 2 .5 - 2 .0 v v r d re se t drai n 10. 0 1 0 . 5 1 1 . 0 v v s s outpu t ampli f i e r re tu r n 0 . 0 0 . 7 1 . 0 v v d d o u t p u t ampli f i e r s u p p l y 1 4 . 5 15. 0 15. 5 v g n d g r o u n d , p - w e l l 0 . 0 v vsu b s u b s t r ate 8 . 0 t b d 17. 0 v v e s d esd pr otectio n -8 .0 - 7 .0 - 6 .0 v 1 note s: 1. vesd must be at leas t 1 v more negative than h1l a n d h 2 l du ri ng s e ns or ope r a t i o n and d u ri ng c a m e ra pow e r tu rn o n . ac operating conditions s y m b o l d e s c r i p t i o n min n o m max uni t n o t e s v 2 h ve rti c al c c d c l o c k hi gh 7.5 8.0 8.5 v v1m, v2m ver t ical ccd clo c ks midlevel -1 .6 -1 .5 -1 .4 v v1l, v2 l ver t ical ccd clo c ks low -9 .5 -9 .0 -8 .5 v h1h, h 2 h hori zon t al c c d c l oc ks hi gh 0.5 1.0 2.0 v h1l, h 2 l hor i zontal ccd c l ocks low -5 .0 -4 .0 -3 .8 v r re se t c l oc k amp l i t ude 5.0 v rl r e set clock low -4 .0 -3 .5 -3 .0 v vsh u tte r e l e c troni c sh utte r voltage 44 48 52 v ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 4
clock ca pacitance c l o c k s c a pacit a n c e unit s not e s v 1 to g n d 25 nf 1 v 2 to g n d 25 nf 1 v1 t o v 2 5 n f h 1 s to g n d 45 pf 2 h 2 s to g n d 38 pf 2 h 1 b to g n d 21 pf 2 h 2 b to g n d 20 pf 2 h2b t o h1s 1 0 p f 2 h1b t o h1s 1 0 p f 2 h2b t o h2s 1 0 p f 2 h1b t o h2s 1 0 p f 2 r t o g n d 10 pf note s: 1. gate capacitance to gnd is vol t ag e dependen t. val u e is for nominal vccd clock volta g es. 2 . for n o min a l hccd clock voltages, total capacita n c e f o r on e h a lf ( h 1s r on l y or h 1 s l o n l y ) . ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 5
operation notes progressive a n d int e rlaced timing progressive and interlaced output mode s are achieved by the applying the proper waveforms to t h e vertical clock input pins v1, v2e and v2o. for pr ogressive output, v2 = v2e = v2o, with each of the 1092 lines re ad out individually u s ing the timin g in figure 9. for interlac ed output, there are two modes, field integration mode and frame integration mode. in both mode s, 10 92 /2 = 54 6 lin e s are read in each frame readout, with one even frame readout and one odd frame readout necessary for a complete frame. field integration mode bins together alternate lines, and the t i m i n g i s s h o w n i n f i g u r e 1 1 . a s w i t h p r o g r e s s i v e readout, v2 = v2e = v2o. frame integration mode reads out the photodiodes of the even and odd lines separ a t e ly, and the timing is shown in f i g u r e 1 2 . i n t h i s c a s e , v2e and v 2 o are clocked individually. single output mode when operating the sensor in single output mode all pixels of the i m age sensor will be shifte d out the video l o u t p u t ( p i n 3 1 ) . t o c o n s e r v e p o w e r a n d l o w e r h e a t generation the output amplifier for video r may be turned off by connecting v ddr (pin 24) and voutr (pin 18) to gnd (z ero volt s). the h1 timing from the timing diag rams sh ould be applied to h1sl, h1bl, h1sr, h2br, and the h2 timing should be applied to h2sl, h2bl, h2sr, h1br. in ot her words, th e clock driver generating the h 1 t i m i n g s h o u l d b e c o n n e c t e d t o p i n s 4 , 3 , 1 3 , a n d 1 5 . the clock dri v er generating the h 2 t i m i n g s h o u l d b e connected to pins 2, 5, 12, and 14. the horizontal ccd should be clocked for 4 empty pixels plus 28 light shielded pixels plus 19 28 p h otoactive pi x e ls plus 28 light shielded pixel s for a total o f 1988 pixel s . dual output mode in dual output mode the c o nnections to the h1br an d h2br pins are swapped fr om the single output mode to change the di rection of ch arge transfer of the right side horizontal shift register. in dual output mode both v ddl and vdd r (pins 25, 24) should be connected to 15 v. the h1 timing from the timing diag rams sh ould be applied to h1sl, h1bl, h1sr, h1br, and the h2 timing should be applied to h2sl, h2bl, h2sr, h2br. the clock driver generating the h1 timing should be co nnected to pins 4, 3, 13, and 14. the c l ock driver generating the h2 t i ming should be connected to pins 2, 5, 1 2 , and 1 5 . the horizontal ccd should be clocked for 4 empty pixels plus 28 light shielded pixe ls plu s 964 p h otoactive p i xels for a tot a l of 9 96 pi xels. if the camer a is to h a ve the option of dual or single output mode, the clock driver sign als sent to h1br and h2br may be swapped by us ing a relay. another alternative is to have two extra clock d r ivers for h1br and h2br and invert th e signals in the timing logic generator. if two extra clock drivers are used, care must be taken to ensure the rising and falling edges of the h1br and h2br clocks occur at the same time (wit hin 3 ns ) as the other hccd clocks . ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 6
exposure c o nt rol if the s e ns or is operate d at 20 mhz horizontal ccd frequency then the frame rate will b e 9 fp s and the integration time will be 1 / 9 s or 11 1 ms. t o achi eve shorter integration time s, th e elec tron ic shutter op tion may be used by applying a pulse to the substrate (pins 22 and 27). the time bet w een the falling edge of the substr ate pulse and the falling edge of the transition of the v2 clock from v2h to v2m is defined as the integration time. the su bstrate pulse and integration time are sho w n in figure 14. integration ti mes l o nger than one frame time (111 ms in this examp l e) do not re qu ire use of the electronic shutter. without the elec tronic shutter the integra t ion time is define d as the time between when the v2 cl ock is at the v2 h level of 9.5 v (when the v 2 c l o c k i s a t t h e v2h level charge collected in the photodiodes is transferred to the vertical shift register). to extend the integration time, increase the time between each v2h level of the v2 clock. while the photodiodes are integrating photoelectrons th e vertical and horiz o n t al sh ift register s sh ou ld be c o n t in u o u s ly c l ocked to preven t the collection of dark current in th e vertical shift register. th is i s mo st eas i ly done b y increasing the number of l i nes read out of the i m ag e sensor. f o r example, to double the integration time read out 2184 lines ins t ead of 1092 lines (but remember only the firs t 1092 line s w i l l contain i m age dat a ). depending on the image qu ality desired and temper at ure of the sen s or , integration t i mes longer t h an one second may require the sensor to be cooled to control dark current. the output amp l ifie rs will also generate a n o n- uniform dark current pattern near the b o ttom corners of the s e ns or. this can be reduced at long integration times by only turning on v dd to each amplifier du ring im age reado u t. if the vertical and horiz o ntal shift registers are also stoppe d during integration time, the dark cu rren t in th e sh ift registers sh ou l d be flu s h e d ou t completely before tran sferring ch arge from the photodiodes t o the vertical shift regi ster. dark re fe r e nce s there are 28 light shielded columns at the left and ri ght side of the image sen s or . the first and last two light shielded colu mns sh ould n o t be used as a d a rk refere nce due to some light leakage under the edges of the light shielding. only the cente r 24 colu mns should be u s ed for dark reference line clamp i ng. there are 4 light shielded rows at the top and bottom of t h e image sen s or. only the cent e r two light shielded rows should be used as a d a rk refe rence. connections to the i m age s e nsor the reset clock signal ope r ates at the pixel frequency. the traces on the cir c uit bo ard to the reset clock pins should be kept short and of equal leng th to ensure that the reset pulse arrive s at each pin simultaneously. the circuit board traces to the ho rizonta l clock pins s h ould a l s o b e p l a c e d t o e n s u r e t h at the clock edges arrive at each pin simultaneou s ly. if re set pulses and the horizontal clock edges are misaligned the n o ise performance of the se nsor will b e degraded and balancing the offset and gain of the two output ampli f i e rs will be difficult. the bias volt ages on og, rd, vss and vdd should be well filtered with cap a citors placed as close to the pins as p o ssible. noise on the video outputs will be mo st strongly effected by noise on vss, vdd, gnd, and v s ub. if the electr o nic shutter is not used then a filtering capacitor sh ould also be placed on vsub. if the electronic shutter is used, the vsub voltage should be kept as cle a n and noise free as p o ssible. the voltage on vss may be set by using the 0.6 to 0.7 volt drop across a diode. plac e the diode fr om vss to gnd. to disab l e on e of the outp ut amp l ifier s connect vdd to gnd, do not let vdd float. the esd volt age must re ach its operating point before any o f the ho riz o ntal clock s reach their low level. if any pin on the se nsor comes within 1 v of the esd pin the electrostatic damage protection circuit will bec o me active and w i l l not turn off until all vo lta g es are powe red down. operating the se nsor with the esd prote c tion circuit active may d a mage the sensor. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 7
timing requirements and characteristics s y m b o l d e s c r i p t i o n min n o m max uni t n o t e s t hd hc c d de lay 1.3 1.5 10. 0 s t vc cd vc c d t r ansfe r ti me 1.3 1.5 s t v3 rd photodi o de t r a n sfe r ti me 8.0 12. 0 15. 0 s t 3p vc c d pe de stal ti me 20. 0 25. 0 50. 0 s t 3d vc c d de lay 15. 0 20. 0 10 0.0 s t r re se t pulse ti me 5.0 10. 0 ns t s shu tte r p u lse ti me 3.0 5.0 10. 0 s t sd shu tte r p u lse de l a y 1.0 1.6 10. 0 s t h hc c d c l oc k pe ri od 25. 0 50. 0 20 0.0 ns t vr vc c d ri se /fall ti me 0.0 0.1 1.0 s t ve ve rti c al c l oc k e dge ali g nme n t 0.0 10 0.0 ns ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 8
frame timing frame timin g ? progre ssive sca n f r a m e t i m i ng f o r ve r t ic a l b i nni ng by 2 li n e 5 4 5 p r ogr e s s i ve f r a m e tim i n g l i n e 109 1 figure 9: prog re ssive frame timing ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 1 9
vertical c l oc k edg e align m ent see d e tail b v1 v2 v1 v2 t h i s fa ll i n g ed ge of v 2 s h o u l d be the s a m e as th e r i s i n g e dge of v 1 or s l i ghtly afte r i t . v1 v2 t h i s r i s i n g e dge of v 2 s h ou ld be the s a m e a s the fal l i ng e d g e o f v 1 or slig ht ly b e f o re it . de ta il b det a il a ka i - 2 0 9 3 ve rtic a l clock ti ming - edge posi ti on t h i s r i s i ng e d g e of v 2 s hou ld be th e s a m e as the fal l i ng edg e o f v 1 o r sligh t ly b e f o re it . t ve t ve t ve f i gure 10: ide a l v e rti c a l clock edge position ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 0
frame timin g ? field integration m o de in t erl aced fram e t imin g - f i eld in t e grat ion mod e - e v en field re ad ou t v1 v2 = v2 e = v2 o t l t v3 r d t 3p t 3d t l in t e r l ace d frame t imin g - field in t e gr a t ion mod e - o d d field r e ad ou t v1 v2 = v2 e = v2 o t l t v3 r d t 3p t 3d t l f i gure 11: in te rla c e d f r a m e t i min g - field integrati o n mode ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 1
frame timin g ? fram e int e gration mod e in te r l ace d frame timin g - frame inte g r ation mod e - even fiel d r e ad ou t v1 v2e t l v2o v1 v2e t l v2o t v3 r d t 3p t 3d t l t v3 r d t 3p t 3d t l inte rlac e d fr ame t i ming - fr ame in te gr ation mod e - o d d fie l d re a d ou t figu r e 1 2 : i n ter l a c ed fr ame timin g - fr ame i n tegration mode ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 2
line timing v1 v2 t vc c d t l t hd h1 h2 r 31 2 3 4 5 6 32 33 34 35 19 57 19 58 19 59 19 61 19 62 19 87 19 88 1 36 19 60 19 86 p r o g r e s s i v e l i ne t i m i ng v1 v2e , v2o 3 x t vc c d t l t hd h1 h2 r 31 2 3 4 5 6 32 33 34 35 19 58 19 59 19 61 19 62 19 87 19 88 1 s i n g le o u tp u t pi xe l co un t 19 60 19 86 i n te r l a c e d l i ne t i m i ng and l i ne t i m i ng f o r ve r t i c al b i n n in g by t w o 31 2 3 4 5 6 32 33 34 35 99 5 99 6 1 99 4 dua l o u t p u t pi xe l co un t 31 2 3 4 5 6 32 33 34 35 99 5 99 6 1 36 99 4 s i n g l e o u tput p i xe l co un t d u a l o u tput p i xe l co un t f i gure 13: li ne ti mi ng ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 3
electronic shutter timing v1 v2 t v ccd t s t hd h1 h2 r e l ec tro n ic s h u tter l i n e t i m i n g v2 i n teg r a t io n t i m e d e fi n i ti o n t sd vshutter vs u b i n t e gr a t i o n ti me vshutter vs u b f i gure 14: e l e c t r oni c shu tte r t i mi ng di a g ra m ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 4
storage and handling storage conditio ns d e sc ription s y m b o l minimum maximu m uni t s not e s t e mpe r ature t - 5 5 7 0 c 1 humi di t y r h 5 9 0 % 2 note s: 1 . lon g -ter m exp o su r e towa r d th e m a ximu m temper a t u r e will accelerate color filter degradatio n . 2. t =25 oc . e x c e ssi ve humi d i t y wi ll de grade mt t f . esd 1. this device contains limited protection again s t electrostatic discharge (esd). ccd image sensor s can be damaged by electrost atic disch a rge. failure to do so may alter device p e rformance and reliability. 2. devices shou ld be handled in accordanc e with strict esd procedures for class 0 (<250v per jesd22 human body model test), o r class a (< 2 00v jesd 22 machine mod e l test) device s. devices are shipped in s t atic-s afe co ntainers and should only b e handled at static- s afe w o rkst ations. 3. see applic ati o n note mt d/ps-0224 ?electrostatic discharge control for image sen s or s? for prope r handling and grounding procedures . this application note als o contains reco mmendation s for workplace modi ficati ons for the m i nimi zation of electrostatic discharge. 4. store devices in containers made of electro- conductive materials . cover glass care and cleanliness 1. the cover glass is highly susceptible to particles and other contam ination. p e rform al l as se mbly operation s in a cle a n environment. 2. touching the cover glass must be avoide d 3. improper cle a ning of the cover glass may d a mage these devices. refer to applic ation note mtd/ps- 0237 ?cover glass cle a ning for i m age s e nsors? environmental exposure 1. do not expose to s t rong sun light for long periods of time. the c o lor filters and/or microlenses may become disc olored. l o n g time expo su res to a st atic high contrast scene should be avoided. the image sensor may become discolored and localized ch an ges in respon se may occur from color filter/microle ns aging. 2. exposure to temperatures exceeding the absolute ma xi mum lev e ls should b e av oided f o r stor age and operation. f a ilure to d o so may alter device performance and reliability. 3. avoid sudden temperature changes. 4. exposure to excessive h u midity will affect device characteristic s and should be avoided. failure to do so may alter device perfor mance and re liability. 5. avoid stor age of the product in the pres ence of dust or corro sive a g en ts or g a se s. long-term st orage sh ould be avoided. deterioration of lead solderability may occu r. it is advi sed that the solder ability of the device leads be re-in s pected after an extended p e riod of storage, over one y e ar. soldering recommendations 1. the soldering iron tip temperature is not to exceed 370oc. f a ilur e to do so may alter device performance and reli ability . 2. flow solderin g method is not recommended. solder dipping can c a use d a mage to the glass and har m the imaging cap a bility of the device. recommended method is by partial heatin g. kod a k recommend s the use of a grou nded 30w soldering iron. heat each p i n for le ss than 2 seconds duration. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 5
mechan ic al drawi n gs completed assembly figure 15: comp leted assembly (1 of 2) note s: 1. se e o r de ri ng i n f o rma t i o n for ma r k i n g c o de 2. cover glass is manually placed an d visually aligned over die ? loca tion accu r a cy is n o t gu ar anteed ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 6
figure 16: comp leted assembly (2 of 2) note s: 1 . cen t er of image is n o min a lly coi n ciden t with th e cen t er of th e package 2 . die is align e d wit h in 2 deg r ee of any package cavity edge ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 7
cover glass cle a r co ve r glass f i gure 17: c l e a r c o ve r g l a s s dra w i n g note s: 1. c o ve r g l ass mate ri al: sc hott d2 63 o r e q ui vale nt 2. dust/sc r atch: 5 microns maxim u m ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 8
quartz cover glass with ar coatings figur e 18: q u ar tz cover glass with ar coating dr a w ing note s: 1. c o ve r g l ass mate ri al: sk13 00 o r e q ui va le nt 2. dust/sc r atch: 10 micro n s maximum 3. mar c o at e a c h s i de : 3 4 0 n m - 360 n m : r e f l ect a n c e <= 0. 5 % 5 2 0 n m - 550 n m : r e f l ect a n c e <= 4% ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 2 9
glass transmission 0 10 20 30 40 50 60 70 80 90 100 200 300 400 500 600 700 800 900 w a v e l e n g th (n m ) t r an sm i ssi o n ( % ) c l ear g l as s q uar tz g l as s w i t h a r c oati ngs figur e 19: co ver glass tr ansmissi on ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3 0
quality assurance and reliability quality strategy all image se nsors will c o nform to t h e specifications stated in this document. this will be accompli shed through a combination of statistical process control and inspection at key p o ints of the production process. typical specification limits are not guaranteed but provided as a design target. for further information re fer to iss appl ication note mtd/ps-02 92, qu ality and reliab ility. replacement all device s are warranted agai nst failu r e in accordance with the terms of terms of sale. this does n o t inc l ude failure due to mechanical an d electrical causes defin e d as the li abilit y of th e customer below. liability of the supplier a r e j e c t i s d e f i n e d a s a n i m a g e s e n s o r t h a t d o e s n o t meet all of the specifications in this document upon receipt by the customer. liability of the customer dam a ge fro m mechan ical ( s cratche s or breakage), electrostatic discharge (esd) damage, or other ele c tri c al misuse of t h e device b e yond the stated ab solute maximum ratings, which occurred after receipt of t h e sen s or by th e cu stomer, sh all be th e respon sibil i ty of th e customer. reliability information concerning the quality assur a nce and reliability te s t in g procedu r es an d resu lts are av ail a ble from the image sensor solutions and can be supplied upon request. for furth e r information refer to iss applic ation n o te mtd/ps- 0292, qu ality and reliab ilit y. test data retention im age sen s ors sh a ll h a ve an ide n tifyin g n u mber traceable to a test dat a file. test data shall be kept for a period of 2 ye ars after date of delivery. mechanical the device assembly dr awing is pr ovide d as a refere nce. the device will confor m to the pu blished package tolerances. kod a k reserves the right to change an y in formation c o ntained herein without not i ce. all in for m ati o n furnished by kod a k is believed to be accurate. warning: life support appl ications pol icy kod a k i m age sens ors are not authoriz ed for and s h ould not be used within life support syste m s with out the specific written consent of the east man kod a k comp any. prod uct warranty is limited to re placement of defective components and does n o t cove r injury or property or other consequential damages. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3 1
revi si on chan ges revision nu mber description of changes 0.0 ? i n itial for m al version . 1.0 ? page 8 se c t i o n 3. 5 ac t i mi ng c o n d i t i o ns tabl e: add e d tve: ver t ical clock edge align m en t ? page 10: added figure 5 vertical clock timing ? edge position ? page 15: updated figure 9 fram e rate to show d u al mode out to 4 0 m hz. pr evio us pl ot cut o f f d u al m o de at 35 mh z ? page 22: added that a cluste r defect will be no wider that tw o defective pixels. ? page 22: added a note that there will be at least two good pixels between any two ma jor defects (pixels or clusters) ? removed append ix 1 ? added revision changes 2.0 ? section 4 . 2 , n e w color qu a n tu m eff i cien cy 3.0 ? updated format ? updated defect definitions section ? added storage a n d handli ng section ? updated completed assembly drawing ? added cover glass drawings ? added cover glass tr ansmission cur v es ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3 2
this p a ge intentionally left blank. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3 3
this p a ge intentionally left blank. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3 4
this p a ge intentionally left blank. ?east m an kodak compan y, 2 007 www.kodak.com/go/imager s r e vision 3 . 0 mtd/ps-0 30 7 p 3 5
?eastman kodak company, 2007. kodak and pixelux are trademarks.

▲Up To Search▲

Price & Availability of KAI-2093-ABA-CK-BA

	To Download KAI-2093-ABA-CK-BA Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .