Itekhnoloji yeMIP (Memory In Pixel) bubuchwephesha bokubonisa obutsha obusetyenziswa ikakhulu kwiimiboniso yekristale elulwelo (LCD). Ngokungafaniyo netekhnoloji yesiko lokubonisa, itekhnoloji ye-MIP ifakela imemori encinci ye-static yokufikelela okungahleliwe (i-SRAM) kwi-pixel nganye, ivumela ipixel nganye ukuba igcine ngokuzimeleyo idatha yayo yokubonisa. Olu luyilo lunciphisa kakhulu imfuno yememori yangaphandle kunye nokuhlaziya rhoqo, okubangelwa ukusetyenziswa kwamandla aphantsi kunye nemiphumo ephezulu yokubonisa.
Iimpawu eziphambili:
Ipixel nganye ineyunithi yokugcina ye-1-bit eyakhelweyo (i-SRAM).
-Akukho mfuneko yokuhlaziya ngokuqhubekayo imifanekiso engatshintshiyo.
- Ngokusekwe kwitekhnoloji yepolysilicon yobushushu obuphantsi (LTPS), ixhasa ulawulo lwepixel oluchanekileyo.
【Izinto eziluncedo】
1. Isisombululo esiphezulu kunye nemibala (xa kuthelekiswa ne-EINK):
- Yandisa ubuninzi bepixel ukuya kwi-400+ PPI ngokunciphisa ubungakanani be-SRAM okanye ukwamkela iteknoloji entsha yokugcina (efana ne-MRAM).
- Phuhlisa iiseli ze-multi-bit zokugcina ukufikelela kwimibala etyebileyo (enje nge-8-bit grayscale okanye i-24-bit yenyani yombala).
2. Umboniso oguquguqukayo:
-Dibanisa i-LTPS eguquguqukayo okanye i-substrates zeplastiki ukwenza izikrini ze-MIP eziguquguqukayo zezixhobo ezisongekayo.
3. Imowudi yokubonisa yeHybrid:
-Dibanisa i-MIP kunye ne-OLED okanye i-LED encinci ukufezekisa ukudityaniswa komboniso oshukumayo kunye ne-static.
4. Ukwandisa iindleko:
- Ukunciphisa iindleko ngeyunithi nganye ngokuveliswa kobuninzi kunye nokuphuculwa kwenkqubo, okwenza kube nokhuphiswano ngakumbiLCD zemveli.
【Imida】
1. Ukusebenza kombala olinganiselweyo: Xa kuthelekiswa ne-AMOLED kunye nobunye ubuchwepheshe, i-MIP ibonisa ukukhanya kombala kunye noluhlu lwe-gamut yombala luncinci.
2. Izinga lokuhlaziya eliphantsi: Umboniso we-MIP unomlinganiselo ophantsi wokuhlaziya, ongafanelekanga umboniso oguqukayo okhawulezayo, njengevidiyo yesantya esiphezulu.
3. Ukusebenza kakubi kwiindawo zokukhanya okuphantsi: Nangona ziqhuba kakuhle ekukhanyeni kwelanga, ukubonakala kweziboniso ze-MIP kunokuncipha kwiindawo zokukhanya okuphantsi.
[IsiceloSiziganeko]
Itekhnoloji ye-MIP isetyenziswa kakhulu kwizixhobo ezifuna ukusetyenziswa kwamandla aphantsi kunye nokubonakala okuphezulu, okunje:
Izixhobo zangaphandle: I-intercom ephathwayo, isebenzisa itekhnoloji ye-MIP ukufezekisa ubomi bebhetri obude.
I-E-readers: ilungele ukubonisa itekisi emileyo ixesha elide ukunciphisa ukusetyenziswa kwamandla.
【Izinto ezilungileyo zobuchwepheshe be-MIP】
Itekhnoloji ye-MIP igqwesile kwiinkalo ezininzi ngenxa yoyilo lwayo olulodwa:
1. Ukusetyenziswa kwamandla aphantsi kakhulu:
- Phantse akukho mandla asetyenziswayo xa kuboniswa imifanekiso engatshintshiyo.
-Isebenzisa isixa esincinci samandla kuphela xa umxholo wepixel utshintsha.
- Ilungele izixhobo eziphathwayo ezinebhetri.
2. Umahluko ophezulu kunye nokubonakala:
- Uyilo olubonakalisayo luyenza ibonakale ngokucacileyo ekukhanyeni kwelanga.
- Umahluko ungcono kune-LCD yendabuko, kunye nobumnyama obunzulu kunye nabamhlophe abaqaqambileyo.
3. Ubhityile kwaye ukhaphukhaphu:
- Akukho maleko yokugcina eyahlukileyo efunekayo, ukunciphisa ubukhulu bomboniso.
-Ifanelekile kuyilo lwesixhobo esiKhala.
4. Ubushushu obubanziuluhlu lokuziqhelanisa:
-Inokusebenza ngokuzinzileyo kwindawo ye-20°C ukuya +70°C, ebhetele kunezinye iziboniso ze-E-Ink.
5. Impendulo ekhawulezayo:
-Ulawulo lwenqanaba lePixel luxhasa umboniso oguquguqukayo womxholo, kwaye isantya sokuphendula sikhawuleza kunobuchwephesha bokubonisa amandla asezantsi.
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[Unyino lwetekhnoloji ye-MIP]
Nangona itekhnoloji ye-MIP ineengenelo ezibalulekileyo, ikwanazo nemida:
1. Unyino lwesigqibo:
- Ekubeni i-pixel nganye idinga iyunithi yokugcina eyakhelwe-ngaphakathi, ubuninzi be-pixel bulinganiselwe, okwenza kube nzima ukufikelela kwisisombululo esiphezulu (njenge-4K okanye i-8K).
2. Uluhlu lombala olulinganiselwe:
-I-Monochrome okanye ubunzulu bombala ophantsi imiboniso ye-MIP ixhaphake kakhulu, kwaye umbala we-gamut wokubonisa umbala awulungile njenge-AMOLED okanye yemveli.LCD.
3. Iindleko zokuvelisa:
-Iiyunithi zokugcina ezifakelweyo zongeza ubunzima kwimveliso, kwaye iindleko zokuqala zinokuba phezulu kunobugcisa bokubonisa bendabuko.
4. Iimeko zokusetyenziswa kweteknoloji ye-MIP
Ngenxa yokusetyenziswa kwamandla aphantsi kunye nokubonakala okuphezulu, itekhnoloji ye-MIP isetyenziswa kakhulu kwezi ndawo zilandelayo:
Izixhobo ezinokunxitywa:
Iiwotshi ezihlakaniphile (ezifana ne-G-SHOCK, i-G-SQUAD series), abalandeleli bomzimba.
- Ubomi bebhetri obude kunye nokufundeka okuphezulu kwangaphandle ziinzuzo eziphambili.
Abafundi be-E:
-Bonelela ngamava aphantsi kwamandla afana ne-E-Ink ngelixa uxhasa isisombululo esiphezulu kunye nomxholo oguqukayo.
Izixhobo ze-IoT:
-Izixhobo ezinamandla aphantsi ezifana nezilawuli zekhaya ezilumkileyo kunye neziboniso zenzwa.
- Iimpawu zedijithali kunye nemiboniso yomatshini wokuthengisa, ifanelekile kwiindawo ezikhanyayo eziqinileyo.
Imizi-mveliso kunye nezixhobo zonyango:
- Izixhobo zonyango eziphathekayo kunye nezixhobo zoshishino zithandwa ngenxa yokuqina kwazo kunye nokusetyenziswa kwamandla aphantsi.
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[Uthelekiso phakathi kwetekhnoloji ye-MIP kunye neemveliso ezikhuphisanayo]
Oku kulandelayo luthelekiso phakathi kwe-MIP kunye nezinye iitekhnoloji zokubonisa eziqhelekileyo:
| Iimbonakalo | MIP | NgokwemveliLCD | AMOLED | I-E-Ink |
| Ukutya umbane(I-static) | Vala0 mW | 50-100 mW | 10-20 mW | Vala0 mW |
| Ukutya umbane(ngamandla) | 10-20 mW | 100-200 mW | 200-500 mW | 5-15 mW |
| Ci-ontrast ratio | 1000:1 | 500:1 | 10000:1 | 15:1 |
| Rixesha lokuphendula | 10ms | 5ms | 0.1ms | 100-200ms |
| Ubomi bonke | 5-10iminyaka | 5-10iminyaka | 3-5iminyaka | 10+iminyaka |
| Mixabiso lemveliso | phakathi ukuya phezulu | phantsi | phezulu | medium-phantsi |
Xa kuthelekiswa ne-AMOLED: Ukusetyenziswa kwamandla e-MIP kuphantsi, kufanelekile ngaphandle, kodwa umbala kunye nesisombululo asikho kakuhle.
Xa kuthelekiswa ne-E-Ink: i-MIP inempendulo ekhawulezayo kunye nesisombululo esiphezulu, kodwa umbala we-gamut ungaphantsi kancinci.
Xa kuthelekiswa ne-LCD yendabuko: i-MIP inamandla ngakumbi kwaye incinci.
[Uphuhliso lwexesha elizayo lweMIPubuchwepheshe]
Itekhnoloji ye-MIP isenayo indawo yokuphucula, kwaye imiyalelo yophuhliso yexesha elizayo inokubandakanya:
Ukuphucula isisombululo kunye nokusebenza kombala:Inukwandisa ingxinano yepixel kunye nobunzulu bombala ngokulungiselela uyilo lweyunithi yokugcina.
Ukunciphisa iindleko: Njengoko isikali semveliso sisanda, iindleko zemveliso kulindeleke ukuba zehle.
Ukwandisa izicelo: Idityaniswe neteknoloji yokubonisa eguquguqukayo, ukungena kwiimarike ezikhulayo, ezifana nezixhobo ezisongekayo.
Itekhnoloji ye-MIP imele intsingiselo ebalulekileyo kwinkalo yomboniso wamandla aphantsi kwaye inokuba yenye yezona zinto zikhethwayo kwixa elizayo kwizisombululo zokubonisa isixhobo esikrelekrele.
【Itekhnoloji yolwandiso lwe-MIP- indibaniselwano yokuhambisa kunye nokubonakalisa】
Sisebenzisa i-Ag njengePixel electrode kwiAinkqubo yereyi, kwaye kwakhona njengomaleko obonakalisayo kwindlela ebonisa umboniso; U-Ag wamkela isikwerePuyilo lwe-attern ukuqinisekisa indawo ebonakalisayo, edityaniswe noyilo lwefilimu yembuyekezo ye-POL, iqinisekisa ngokufanelekileyo ukubonakaliswa; uyilo olungumgongxo lwamkelwa phakathi kwePateni ye-Ag kunye nePateni, eqinisekisa ngokufanelekileyo ukudluliselwa kwindlela yokudlulisa, njengoko kubonisiweUmfanekiso. Idizayini yokudibanisa / ebonakalisayo yimveliso yokuqala ye-transmissive / reflective indibaniselwano ye-B6. Obona bunzima bobugcisa yinkqubo ye-Ag ebonakalisa imaleko kwicala le-TFT kunye noyilo lwe-electrode ye-CF eqhelekileyo. Umaleko we-Ag wenziwa phezu komhlaba njenge-electrode ye-pixel kunye ne-reflection layer; I-C-ITO yenziwe kumphezulu weCF njenge-electrode eqhelekileyo. Ugqithiso kunye nokucamngca kudityanisiwe, kunye nokubonakaliswa njengeyona nto iphambili kunye nokudluliselwa njengento encedisayo; xa ukukhanya kwangaphandle kubuthathaka, i-backlight ivuliwe kwaye umfanekiso uboniswa kwimodi yokudlulisa; xa ukukhanya kwangaphandle kunamandla, i-backlight ivaliwe kwaye umfanekiso uboniswa kwimodi yokubonakalisa; indibaniselwano yosasazo kunye nokucamngca kunokunciphisa ukusetyenziswa kombane we-backlight.
【Isiphelo】
Itekhnoloji ye-MIP (iMemori kwiPixel) yenza ukusetyenziswa kwamandla aphantsi kakhulu, ukuchasana okuphezulu, kunye nokubonakala okuphezulu kwangaphandle ngokudibanisa amandla okugcina kwiipikseli. Ngaphandle kwemida yesisombululo kunye noluhlu lombala, amandla ayo kwizixhobo eziphathekayo kunye ne-Intanethi yezinto azikwazi ukuhoywa. Njengoko itekhnoloji iqhubeka nokuhambela phambili, i-MIP kulindeleke ukuba ithathe indawo ebaluleke ngakumbi kwintengiso yokubonisa.
Ixesha lokuposa: Apr-30-2025
