IziceloIindawo zokwenza isicelo zibandakanya ii-handfeldsfinds, i-rones ezincinci, i-riberminder imbonakalo, njl
I-905nm 1km ye-1km ye-leser yemodyuli yemodyuli
Intshayelelo Intshayelelo
I-LSSP-LRS-LRS1204 I-Semiconductor Laerfinder yimveliso enobuchule ephuhliswe nguLiaculo Laser, edibanisa itekhnoloji yeTekhnoloji kunye noyilo olugqibeleleyo. Le modeli isebenzisa i-905nm ye-905nmm ye-leser ekhethekileyo njengoMthombo wokukhanya okukhanyayo, ongakuqinisekisa ukhuseleko lwamehlo, kodwa ikwabeka i-benchmark entsha kwicandelo leLaser isusela kwi-Laser yokuguqula kunye neempawu ezizinzileyo zokuphuma. Ngokufaka i-chips yokusebenza eziphezulu kunye nee-algorithms eziphambili ngokuzimeleyo kwi-LiaNgyuan Laser, i-LSSP-LRS-LRS-LRS-LRS-LRS-LOSEBENZISIWEYO LOKUGQIBELA OLUFANELEKILEYO NOKUTHENGA INDLELA YOKUZIPHATHA KAKHULU NOKUFUNDA.
Inkcazo
| Imodeli yemveliso | I-LSP-LRS-01204 |
| Ubungakanani (Lxwwxhh) | I-25 × 25 × 12mm |
| Ubunzima | I-10 ± 0.5G |
| I-Laser WaveEth | I-905NM 士 5NM |
| I-Arser engle | ≤6mrad |
| Ukulungelelaniswa komgangatho wokulinganisa | ± 0.5m (≤200m), ± 1m (> 2005m) |
| Uluhlu lokulinganisa lomgangatho (ukwakha) | I-3 ~ 1200m (ithagethi enkulu) |
| Ukulinganisa rhoqo | 1 ~ 4hz |
| Inqanaba lokulinganisa elichanekileyo | ≥98% |
| I-Alarm Alarm | ≤1% |
| Isinxibelelanisi sedatha | I-UART (TTL_3.3V) |
| Ukuhambisa i-voltage | I-DC2.7V ~ 5.0v |
| Ukulala utya | ≤lmw |
| Amandla okulinda | ≤0.8w |
| Ukusetyenziswa kwamandla | ≤1.5w |
| Iqondo lokusebenza | -40 ~ + 65c |
| Iqondo lokugcina | -45 ~ + 70 ° C |
| Ifuthe | I-1000g, 1ms |
| Ixesha lokuqala | ≤200ms |
Iinkcukacha zeMveliso
Inqaku lemveliso
● Imbuyekezo ephambili ye-Algorithm ye-Algorithm ephezulu
I-LSP-LRS-LRS1204 I-Semiconductor Laerfindfind-Imbuyekelo ye-Algorithm edibeneyo idibanisa iimodeli zembuyekezo zembuyekezo ze-tections. Olo qoko lwetekhnoloji lubandakanya ukulinganiswa kwexesha kunye nokulungiswa ngokuchanekileyo kweempazamo ngexesha elifanelekileyo lokusebenza kwendalo, ukufezekisa ukuchaneka okuthe tye kulawulo lwe-1 imitha ngokuchanekileyo kwi-0.1 yeemitha.
● Indlela elungiselelwe ngayo: Inyathelo elichanekileyo lokuphucula ukuchaneka kwento
I-Laser Rinder isebenzisa ukuphindaphinda-phinda-uphinda-phinda indlela yokuphinda-phinda, ebandakanya ukupasa i-leser ezininzi ezininzi kunye nokuqokelelwa kunye nokucinezela ingxolo yengxolo, ngokuphumelelayo, ngokwenza oko kuphuculwe ingxolo yomqondiso. Ngoyilo lwendlela eyandisiweyo yokuyila kunye ne-algorithms yesayizi, uzinzo kunye nokuchaneka kweziphumo zokulinganisa kuqinisekisiwe. Le ndlela ivumela ukulinganiselwa okuchanekileyo komgama ojolise kuwo, ukuqinisekisa ukuchaneka kunye nokuzinza nakwiindawo ezintsonkothileyo okanye utshintsho olufihlakeleyo.
● Uyilo lwamandla olusezantsi: Ulondolozo lwamandla olululo lwentsebenzo eyongezelelweyo
Igxile kulawulo oluphezulu lwamandla, le teknoloji izuzisa ukuncipha kwenkqubo epheleleyo ngaphandle kokusebenzisa umgama olawula amandla, iBhodi yomqhubi, iBhodi yomqhubi, kunye nokufumana iBhodi ye-Amplimier. This low-power design not only demonstrates a commitment to environmental protection but also significantly enhances the device's economy and sustainability, marking a significant milestone in promoting green development in ranging technology.
● Ukubanakho phantsi kweemeko ezigqithisileyo: Ukuhlaselwa kobushushu obuhle bokuqinisekiswa kwentsebenzo
I-LSP-LRS-LRS-LRORFInder ye-Laser ibonisa ukusebenza okhethekileyo phantsi kweemeko zokusebenza zobushushu obumangalisayo nobushushu. Ngelixa kuqinisekiswe ukuboniswa okuphezulu kunye nokubona ixesha elide, imveliso inokujamelana namaqondo obushushu agqithisileyo ukuya kuthi ga kwi-65 ° C, iphakamise ukuthembeka kwako kunye nokuqina kwendawo enobunzima.
● Uyilo lobungakanani bokuziphatha okungapheliyo
I-LSSP-LRS-LRSORFERFEER DRORFEREER AANTSITHI YABASEBENZI WOKUGQIBELA, UKUQHUTYELWA KWEXESHA LOKUQHUTYWA KWE-ASPIRY STEDIC kunye neZinto ze-Elektroniki kwi-GAMS e-11 enobunzima obuyi-11 yeegram. Olu uyilo aluphenduli kakhulu ukonakala kwemveliso, ukuvumela abasebenzisi ukuba bayithwale ngokulula kwiipokotho okanye kwiingxowa zabo, kodwa kukwenza ukuba bhetyebhetye kwaye kufanelekile ukuba basebenzise iindawo ezintsonkothileyo okanye ezilula.
Iindawo zeMveliso zeMveliso
Isetyenziswe kwenye imihlaba yokufunda enjengeedrone, ukubona, iimveliso zangaphandle zezandla, njl.
Isikhokelo sokuSebenza
I-laser ekhutshwe yile modyuli ye-rang yi-905nm, ekhuselekileyo emehlweni abantu, kodwa ayikacetyiswa ukuba ijonge kwi-laser ngokuthe ngqo.
▶ Le modyuli ye-on-fang ayiyontamo, ngoko ke iyimfuneko ukuqinisekisa ukuba umswakama osisimo sokusetyenziswa ungaphantsi kwe-70%, kwaye imeko yokusetyenziswa kufuneka igcinwe icocekile kwaye icocekile ukunqanda ukonakalisa i-laser.
Uluhlu lokulinganisa lwemodyuli yokulinganisa inxulumene nokubonakala kwe-timosfic kunye nohlobo lwethagethi. Uluhlu lokulinganisa luya kuncitshiswa kwinkungu, imvula, kunye neesandi. Iithagethi ezinje ngamagqabi aluhlaza, iindonga ezimhlophe, kunye nelitye eliveziweyo zinesiciko esihle, esinokunyusa uluhlu lokulinganisa. Ukongeza, xa i-angle yotyelo lwethagethi ye-laser ye-laser inyuka, uluhlu lokulinganisa luya kuncitshiswa.
I-ke inqatshelwe ngokungqongqo kwiplagi kwaye ikhuphe iintambo xa amandla evuliwe. Qiniseka ukuba uqinisekisa ukuba amandla amandla axhunyiwe ngokuchanekileyo, kungenjalo uya kubangela ukonakala okungapheliyo kwizixhobo.
Emva kokuba imodyuli yokuntywila ixhotyiswa, kukho i-voltage ephezulu kunye nezinto zokufudumeza kwiBhodi yeSiphalo. Sukuchukumisa ibhodi yesekethe ngezandla zakho xa imodyuli ejikelezayo iyasebenza.
