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I-AMS igxile kumbono womatshini, ithemba malunga nexesha le-CMOS eJapan kunyaka olandelayo
Ngokutsho kwewebhusayithi yemithombo yeendaba ye-IT, i-AMS (i-Austrian Microelectronics) yabamba ingqungquthela yabezindaba ngoDisemba 3 eTokyo ukuzazisa ngeshishini le-sensor ye-CMOS, isithi kwixa elizayo inkampani izakuba kumhlaba wombono womatshini, iifoto kunye nevidiyo kunye nencinci. iimodyuli zekhamera. Eyona nto kugxilwe kuyo iphambili kwishishini lokubonwa komatshini.
I-axes ezintathu eziphambili ze-AMS sensors yile: izinzwa ze-optical, izinzwa zomfanekiso kunye ne-acoustic sensors. Izisombululo zesenzi zenzelwa kwaye zenziwe zilungele ukusetyenziswa ngobungakanani obuncinci, amandla asetyenzisiweyo asezantsi, ubuntununtunu obuphezulu kunye nokudityaniswa kweenzwa ezininzi. Iimveliso zibandakanya i-sensor sensor, ii-IC sensor, indawo ekunxibelelana ngayo kunye nesoftware enxulumene neselula, abathengi, unxibelelwano, amashishini, ezonyango, kunye namashishini ezithuthi. Ineziseko ezili-18 zophuhliso kwihlabathi liphela kunye nabasebenzi abangama-9,000. Ngokonyuka kwesidingo sezinzwa zezicelo ezinengqiqo, ii-AMS ziphuhliswe ngokukhawuleza ngonyaka ka-2017, kunye nokunyuka kwama-97% kwintsebenzo, kunye nentengiso yehlabathi ngo-2018 yayiyibhiliyoni eyi-1,6 yezigidi zeedola.
Okwangoku, i-AMS iseke iziseko zemizobo yomfanekiso we-CMOS e-Antwerp, eBelgium, eMadeira, ePortugal naseTokyo. Iphothifoliyo yayo yemveliso yenzwa ye-CMOS inokwahlulwa ibe ziintlobo ezintathu: izinzwa zendawo yokuvavanya, izinzwa zokuskena umgca kunye neemodyuli ezincinci zekhamera.
NgokukaTom Walshop, umlawuli we-AMS CMOS umfanekiso wentengiso yenzwa, indawo ye-AMS yeCMOS yokuhlola inzwa kunye nemigca yokuvavanya umgca inika amaxabiso aphezulu esakhelo kunye nobuchule be-shutter yehlabathi, ukubenza bakulungele ukusetyenziswa kombono womatshini.
Isinxibelelanisi sendawo esisiwa kule nkomfa sisixhobo sensor se-1-intshi ye-shutter image sensor "CSG-14K", enika uluhlu oluluqilima lwamandla ekuphumeni kwe-12-bit, inokuphendula kwizigcawu kunye nezinto ezinoluhlu olubanzi lwezinto ezinamandla, kwaye inesisombululo ze-14M iipikseli. Iimveliso ebezixhasa ngaphambili iifomathi ezi-intshi ezi-1 zibonelela ngomgangatho womfanekiso nangaphezulu.
Ngokuphathelele inzwa yokuvavanywa komgca, u-Tom Walshop uthe uphuhliso loluhlu "4LS" lutsha luyaqhubeka kwaye ucwangciselwe ukukhutshwa ngo-2020. "I-4LS" ixhotywe ngemigca ye-pixel eyi-4 kwaye ixhasa ukongeza i-monochrome kwi-RGB okanye i-4: Ukusebenza komfanekiso we-1 we-TDI. Sebenza imigca emi-4 ngaxeshanye, ubonelela ngemigca emi-4 ngamaxabiso omgca ukuya kuthi ga kwi-150kHz kwizigqibo ezahlukeneyo.
Kwicandelo leemodyuli ezincinci zekhamera, i-AMS iya kwandisa uthotho lwayo "lweNanEye" lwamashishini. Uchungechunge lwe "NanEye" luxhotywe ngemodyuli yekhamera ehambelana nayo, enokunikezela ngemodyuli yemodyuli ye-1mm x 1mm kuphela. Imveliso yangoku ngu "NanEye2D". Kucetyelwe ukubonelela nge "NanEyeXS" kunye "neNanEyeM" kumaziko ezonyango kunye "NanEyeC" kwizixhobo zabathengi kwikota yokuqala ka-2020. Phakathi kwabo, "i-NanEyeXS" yimveliso ethe yancitshiswa ngokobukhulu ngokusekwe ku- "NanEye2D" . Akukho kuqhekeka kubungakanani be- "NanEyeM" kunye "NanEyeC", kodwa iiphikseli ziphezulu.
Umanejala wengingqi yaseJapan u-Keiichi Iwamoto uthe ukuthengiswa kwemakethi yaseJapan kwishishini leCMOS kubathengi abangama-40% kwiqela lonke. Ii-odolo ngo-2020 ziya kunyuka xa kuthelekiswa nonyaka, kwaye kulindeleke ukuba ukusebenza kunyaka olandelayo kube nokukhula okuzinzileyo.
I-axes ezintathu eziphambili ze-AMS sensors yile: izinzwa ze-optical, izinzwa zomfanekiso kunye ne-acoustic sensors. Izisombululo zesenzi zenzelwa kwaye zenziwe zilungele ukusetyenziswa ngobungakanani obuncinci, amandla asetyenzisiweyo asezantsi, ubuntununtunu obuphezulu kunye nokudityaniswa kweenzwa ezininzi. Iimveliso zibandakanya i-sensor sensor, ii-IC sensor, indawo ekunxibelelana ngayo kunye nesoftware enxulumene neselula, abathengi, unxibelelwano, amashishini, ezonyango, kunye namashishini ezithuthi. Ineziseko ezili-18 zophuhliso kwihlabathi liphela kunye nabasebenzi abangama-9,000. Ngokonyuka kwesidingo sezinzwa zezicelo ezinengqiqo, ii-AMS ziphuhliswe ngokukhawuleza ngonyaka ka-2017, kunye nokunyuka kwama-97% kwintsebenzo, kunye nentengiso yehlabathi ngo-2018 yayiyibhiliyoni eyi-1,6 yezigidi zeedola.
Okwangoku, i-AMS iseke iziseko zemizobo yomfanekiso we-CMOS e-Antwerp, eBelgium, eMadeira, ePortugal naseTokyo. Iphothifoliyo yayo yemveliso yenzwa ye-CMOS inokwahlulwa ibe ziintlobo ezintathu: izinzwa zendawo yokuvavanya, izinzwa zokuskena umgca kunye neemodyuli ezincinci zekhamera.
NgokukaTom Walshop, umlawuli we-AMS CMOS umfanekiso wentengiso yenzwa, indawo ye-AMS yeCMOS yokuhlola inzwa kunye nemigca yokuvavanya umgca inika amaxabiso aphezulu esakhelo kunye nobuchule be-shutter yehlabathi, ukubenza bakulungele ukusetyenziswa kombono womatshini.
Isinxibelelanisi sendawo esisiwa kule nkomfa sisixhobo sensor se-1-intshi ye-shutter image sensor "CSG-14K", enika uluhlu oluluqilima lwamandla ekuphumeni kwe-12-bit, inokuphendula kwizigcawu kunye nezinto ezinoluhlu olubanzi lwezinto ezinamandla, kwaye inesisombululo ze-14M iipikseli. Iimveliso ebezixhasa ngaphambili iifomathi ezi-intshi ezi-1 zibonelela ngomgangatho womfanekiso nangaphezulu.
Ngokuphathelele inzwa yokuvavanywa komgca, u-Tom Walshop uthe uphuhliso loluhlu "4LS" lutsha luyaqhubeka kwaye ucwangciselwe ukukhutshwa ngo-2020. "I-4LS" ixhotywe ngemigca ye-pixel eyi-4 kwaye ixhasa ukongeza i-monochrome kwi-RGB okanye i-4: Ukusebenza komfanekiso we-1 we-TDI. Sebenza imigca emi-4 ngaxeshanye, ubonelela ngemigca emi-4 ngamaxabiso omgca ukuya kuthi ga kwi-150kHz kwizigqibo ezahlukeneyo.
Kwicandelo leemodyuli ezincinci zekhamera, i-AMS iya kwandisa uthotho lwayo "lweNanEye" lwamashishini. Uchungechunge lwe "NanEye" luxhotywe ngemodyuli yekhamera ehambelana nayo, enokunikezela ngemodyuli yemodyuli ye-1mm x 1mm kuphela. Imveliso yangoku ngu "NanEye2D". Kucetyelwe ukubonelela nge "NanEyeXS" kunye "neNanEyeM" kumaziko ezonyango kunye "NanEyeC" kwizixhobo zabathengi kwikota yokuqala ka-2020. Phakathi kwabo, "i-NanEyeXS" yimveliso ethe yancitshiswa ngokobukhulu ngokusekwe ku- "NanEye2D" . Akukho kuqhekeka kubungakanani be- "NanEyeM" kunye "NanEyeC", kodwa iiphikseli ziphezulu.
Umanejala wengingqi yaseJapan u-Keiichi Iwamoto uthe ukuthengiswa kwemakethi yaseJapan kwishishini leCMOS kubathengi abangama-40% kwiqela lonke. Ii-odolo ngo-2020 ziya kunyuka xa kuthelekiswa nonyaka, kwaye kulindeleke ukuba ukusebenza kunyaka olandelayo kube nokukhula okuzinzileyo.