Kulezi zinsuku, imikhiqizo eminingi kagesi isebenzisa izikrini zokuthinta, ngakho-ke uyazi ukuthi iyini isikrini sokuthinta?
"Iphaneli yokuthinta", uhlobo lokuxhumana olungathola oxhumana nabo kanye nezinye izimpawu zokufaka zedivayisi yokubonisa ikristalu yoketshezi olungena ngaphakathi, lapho kuthintwa inkinobho yesithombe esikrinini, uhlelo lokuphendula lwesikrini lwe-haptic lungaqhutshwa ngokuya ngohlelo oluhlelwe kusengaphambili lwamadivayisi ahlukahlukene okuxhumanisa, lungasetshenziswa ukufaka esikhundleni sephaneli yenkinobho yomshini, futhi ngokusebenzisa isibonisi sekristalu yoketshezi ukudala umphumela ocacile womsindo nevidiyo.
Ngokomgomo wokusebenza, isikrini sokuthinta singahlukaniswa ngezinhlobo ezine: i-resitive, i-capacitive inductive, i-infrared kanye ne-surface acoustic wave;
Ngokwendlela yokufaka, ingahlukaniswa ngohlobo lwe-plug-in, uhlobo olwakhelwe ngaphakathi kanye nohlobo oluhlanganisiwe;
Okulandelayo ikakhulukazi kwethula izikrini ezimbili zokuthinta ezisetshenziswa kakhulu:
Iyini isikrini sokuthinta esivikelayo?
Kuyinzwa eguqula indawo ebonakalayo yephoyinti lokuthinta (X, Y) endaweni engunxande ibe yi-voltage emele ama-X kanye nama-Y coordinates. Amamojula amaningi e-LCD asebenzisa izikrini zokuthinta ezivikelayo ezingakhiqiza ama-voltage e-screen bias ngezintambo ezine, ezinhlanu, eziyisikhombisa, noma eziyisishiyagalombili ngenkathi efunda i-voltage kusukela endaweni yokuthinta.
Izinzuzo zesikrini sokumelana:
– Kuyamukelwa kabanzi.
– Inentengo ephansi kune-capacitive touchscreen counterpart yayo.
– Ingasabela ezinhlotsheni eziningi zokuthintwa.
– Ayizweli kakhulu ekuthinteni kunesikrini sokuthinta esikwaziyo ukuthwala umsindo.
Iyini isikrini sokuthinta esikwaziyo ukuthwala idatha?
Isikrini sokuthinta esinamandla siyisikrini sengilazi esihlanganisiwe esinezingqimba ezine, ubuso bangaphakathi kanye nesendlalelo sesandwich sesikrini sengilazi kugqokwe ungqimba lwe-ITO, ungqimba olungaphandle lungqimba oluncane lwesendlalelo sokuvikela ingilazi ye-silicon, isendlalelo se-sandwich ITO njengendawo yokusebenza, amakhona amane aphuma kuma-electrode amane, i-LAYER ITO yangaphakathi ivikelwe ukuqinisekisa indawo enhle yokusebenza. Lapho umunwe uthinta ungqimba lwensimbi, ngenxa yensimu kagesi yomzimba womuntu, umsebenzisi kanye nobuso besikrini sokuthinta bakha i-coupling capacitor, yemisinga yemvamisa ephezulu, i-capacitor iyi-contact conductor eqondile, ngakho-ke umunwe udonsa ugesi omncane endaweni yokuxhumana. Lo mbane ugeleza uphuma kuma-electrode emagumbini amane esikrini sokuthinta, futhi ugesi ogeleza kula ma-electrode amane ulingana nebanga ukusuka kumunwe kuya emagumbini amane, futhi isilawuli sithola indawo yendawo yokuthinta ngokubala ngokunembile isilinganiso sale misinga emine.
Izinzuzo zesikrini esikwazi ukuthwala idatha:
– Kuyamukelwa kabanzi.
– Inentengo ephansi kune-capacitive touchscreen counterpart yayo.
– Ingasabela ezinhlotsheni eziningi zokuthintwa.
– Ayizweli kakhulu ekuthinteni kunesikrini sokuthinta esikwaziyo ukuthwala umsindo.
Ama-touchscreen anamandla kanye nama-resistive womabili anezinzuzo ezinhle kakhulu. Ngempela, ukusetshenziswa kwawo kuncike endaweni yebhizinisi kanye nendlela ohlela ngayo ukusebenzisa amadivayisi akho e-touchscreen. Usebenzisa ulwazi esilunikeze, uzoziqonda kangcono lezi zinzuzo futhi uzoqiniseka ukuthi ukhetha kahle ibhizinisi lakho elihlukile.
I-Saida Glass inikeza izinhlobo eziningi zemikhiqizoingilazi yesembozo sokubonisaene-anti-glare kanye ne-anti-reflective kanye ne-anti-fingerprint yamadivayisi kagesi angaphakathi noma angaphandle.
Isikhathi sokuthunyelwe: Disemba 24-2021