Kozuma, MunehiroMunehiroKozumaOkamoto, YukiYukiOkamotoIto, MinatoMinatoItoLnoue, HirokiHirokiLnoueSaito, ToshihikoToshihikoSaitoKomura, YusukeYusukeKomuraMiyata, ShokiShokiMiyataToyotaka, KouheiKouheiToyotakaMatsuzaki, TakanoriTakanoriMatsuzakiOnuki, TatsuyaTatsuyaOnukiKobayashi, HidetomoHidetomoKobayashiSugaya, KentaroKentaroSugayaFujie, TakahiroTakahiroFujieOkazaki, YutakaYutakaOkazakiHodo, RyotaRyotaHodoYanagisawa, YuichiYuichiYanagisawaWakuda, MasahiroMasahiroWakudaMurakawa, TsutomuTsutomuMurakawaSasagawa, ShinyaShinyaSasagawaKunitake, HitoshiHitoshiKunitakeNakamura, DaikiDaikiNakamuraNagata, TakaakiTakaakiNagataFukuzaki, ShinyaShinyaFukuzakiAoyama, TomoyaTomoyaAoyamaKimura, HajimeHajimeKimuraYen, Shih CiShih CiYenChang, Chuan HuaChuan HuaChangHsieh, Wen HsiangWen HsiangHsiehYoshida, HiroshiHiroshiYoshidaChen, Min ChengMin ChengChenMING-HAN LIAOChang, Shou ZenShou ZenChangYamazaki, ShunpeiShunpeiYamazaki2023-06-072023-06-072022-01-010097966Xhttps://scholars.lib.ntu.edu.tw/handle/123456789/631946In this paper, we fabricate a 1.50-inch, 3207-ppi prototype OLED display with drivers capable of 32-division driving, which is achieved by monolithically stacking CAAC-OS FETs over SiFETs. This structure enables a narrow bezel and two-dimensional driver arrangement, leading to independent driving of 32 pixel arrays with divided source and gate lines.CAAC-OS | Driver | High-definition | Microdisplay | OLED | OSLSI | Siconference paper10.1002/sdtp.155012-s2.0-85135617805https://api.elsevier.com/content/abstract/scopus_id/85135617805