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Iimpawu eziphambili zomatshini wokubekwa kwe-ASM TX2i ziquka le miba ilandelayo:
Isantya esiphezulu kunye nokuchaneka okuphezulu: Isantya sokubeka umatshini wokubeka i-TX2i siphezulu njenge-96,000cph (isantya sesiseko), kwaye isantya sethiyori sinokufikelela kwi-127,600cph. Iyakwazi ukugcina ukuchaneka okuphezulu kwisantya esiphezulu kwaye ifanelekile kwimveliso yobuninzi. Ukuchaneka kwayo kufikelela kwi-25μm@3sigma, efanelekileyo kwiimfuno zemveliso kunye neemfuno ezichanekileyo ezichanekileyo.
Unyawo oluncinci: Umatshini wokubeka i-TX2i ubonelela ngokusebenza okuphezulu kunye nokuchaneka okuphezulu kwinqanaba elincinci elinjalo (kuphela i-1m x 2.3m), efanelekileyo kwiifektri ezinendawo encinci.
Iintloko zokubeka ezininzi kunye neendlela zokutya: Umatshini wokubeka i-TX2i uxhasa iintlobo ezahlukeneyo zokubeka iintloko, kuquka i-SIPLACE SpeedStar, SIPLACE MultiStar kunye ne-SIPLACE TwinStar. Iindlela zokutya ziyahlukahlukana, zixhasa i-feeders ukuya kuthi ga kwi-80 8mm izikhululo, iitreyi zeJEDEC kunye neeyunithi ze-dot-dip ezicacileyo, njl.
Inkqubo yolawulo oluphezulu: Umatshini wokubeka i-TX2i usebenzisa i-X, Y, kunye ne-Z ye-axis linear motors (magnetic suspension) motors, eziphantse zinxibe kwaye ziqinisekisa ukuchaneka kwexesha elide. Zonke ii-axes ezishukumayo zivaliwe ngokupheleleyo, zilawulwa zizikali zokugawula, kwaye ziyasebenzisana neemotor zokumisa umagnetic ukuqinisekisa ukuchaneka okuphezulu kakhulu. Ukongeza, ulawulo loxinzelelo lokubeka lusebenzisa i-zero yokubeka uxinzelelo lwenzwa ukukhusela amacandelo kumonakalo. Ukuchongwa kwecandelo kunye nokuchongwa kwe-PCB: Umatshini wokubeka i-TX2i udibanisa i-laser component sensors ukwenza ubhaqo lwecandelo le-4 ngaphambi, emva, ngaphambi, nasemva kokususwa kwezinto ukuqinisekisa ukuba ukubekwa kwindawo. Ikhamera yePCB inokufunda iibhakhowudi kunye neekhowudi zeQR, kwaye isebenzisane nesoftware ye-SIPLACE ukuqonda umsebenzi oqinisekisiweyo wePCB. Ezi mpawu zenza umatshini wokubeka i-ASM TX2i usebenze kakuhle kwisantya esiphezulu, ukuchaneka okuphezulu kunye nemveliso yobuninzi, kwaye ifanelekile kwiimfuno ezahlukeneyo zokuvelisa i-elektroniki.
