Ngokuqhubela phambili okuqhubekayo kwetekhnoloji, iirobhothi ze-humanoid ziya kuhamba ngokuthe ngcembe ukusuka kuphando lwezenzululwazi kunye nemimandla yemizi-mveliso ukuya kusapho kunye nobomi bentlalo, ibe yinxalenye ebalulekileyo yobomi bemihla ngemihla, inceda ukugqiba imisebenzi eyahlukeneyo kunye nokuphucula ukusebenza kakuhle kunye nomgangatho wobomi.
Njengoko "intliziyo" yeerobhothi ze-humanoid, imodyuli yamandla idlala indima ebalulekileyo ekunikezeni amandla azinzileyo, aqhubekayo kunye asebenzayo kumacandelo ahlukeneyo. Ngoko ke, ukukhethwa kwee-capacitors kwimodyuli yamandla kubalulekile ukuqinisekisa ukusebenza okuqhubekayo, ukuzinza kunye nokusebenza kakuhle kwerobhothi.
Ukuqinisekisa ukuba iirobhothi ze-humanoid zigcina ukusebenza okuzinzile kunye nokusebenza kakuhle kwixesha elide, kwiindawo zokusebenza eziphezulu, iimodyuli zamandla kufuneka zibe neemfuno eziphezulu zokusebenza. I-YMIN's liquid lead aluminium electrolytic capacitors inomsebenzi ogqwesileyo kwimiba emininzi, ibenza ibe sisisombululo esifanelekileyo kwiimodyuli zamandla erobhothi.
Iingenelo zayo ezizodwa ezifana nobomi obude, ukuxhathisa okunamandla, amandla okuphendula okwexeshana anamandla kunye nobukhulu obuncinci ayisombululi kuphela iingxaki zesicelo se-capacitors yendabuko kwiindawo eziphezulu zomthwalo kunye ne-high-frequency, kodwa kunye nokuphucula ngokufanelekileyo ukuzinza kunye nokuthembeka kwenkqubo yerobhothi.
Iingenelo zesicelo se-aluminium engamanzi e-electrolytic capacitors:
Ubomi obude:
Iirobhothi ze-Humanoid zihlala zifuna ixesha elide, ukusebenza okuphezulu, kunye ne-capacitors yendabuko ijwayele ukuthotywa kokusebenza emva kokusetyenziswa kwexesha elide, okubangela iimodyuli zamandla ezingazinzanga.
YMIN ulwelo aluminiyam electrolytic capacitorszineempawu ezintle zobomi obude. Ithekhnoloji yenkqubo yayo iqinisekisa ukuba i-capacitors inokugcina ixesha elide elizinzileyo ukusebenza phantsi kweemeko ezinzima ezifana nokushisa okuphezulu kunye nokuphindaphinda okuphezulu, ukwandisa kakhulu ubomi benkonzo yemodyuli yamandla e-robot, ukuvumela iirobhothi ze-humanoid ukunciphisa iindleko zokugcina kunye nokutshintshwa kweendleko ngexesha lemijikelezo yokusebenza kwexesha elide kunye nokuphucula ukuthembeka kwenkqubo yonke.
Ubuchule obunamandla bokumelana ne-ripple current enkulu:
Xa usebenza phantsi komthwalo ophezulu, imodyuli yamandla erobhothi iya kuvelisa i-ripple yangoku enkulu. I-YMIN elulwelo aluminiyam i-electrolytic capacitors inokumelana ne-ripple eyomeleleyo, inokufunxa ngokufanelekileyo ukuguquguquka kwangoku, inqande uphazamiseko lwe-ripple kwinkqubo yonikezelo lwamandla, kwaye igcine imveliso yamandla ezinzileyo.
Amandla okuphendula okwethutyana:
Xa iirobhothi ze-humanoid zenza izenzo, ngokukodwa izenzo ezikhawulezayo ezifana nokugijima, ukuxhuma okanye ukujika ngokukhawuleza, inkqubo yamandla kufuneka iphendule ngokukhawuleza ukunika inkxaso eyaneleyo yamandla.
Ukukwazi kwayo ukuphendula okwexeshana okubalaseleyo kunokukhawuleza ukufunxa kwaye kukhulule amandla ombane ukuhlangabezana neemfuno zerobhothi zesantya esiphezulu sangoku ngexesha lentshukumo ekhawulezileyo, ukuqinisekisa ukuba irobhothi ayiyi kuntlitheka okanye ishukume ngokungachanekanga ngenxa yokungonelanga kombane kwindawo yokusebenza entsonkothileyo kwaye iguquka ngokukhawuleza, ngaloo ndlela iphucula ukuguquguquka kwerobhothi kunye nokukwazi ukuphendula ngexesha lokwenyani.
Ubungakanani obuncinci kunye nomthamo omkhulu:
Ngenxa yezithintelo ezingqongqo kumthamo kunye nobunzima kuyilo lwerobhothi ye-humanoid, ubungakanani bemodyuli yamandla kufuneka buncitshiswe ngelixa uqinisekisa unikezelo lwamandla olwaneleyo.YMIN ulwelo aluminiyam electrolytic capacitorsukufikelela kwibhalansi elungileyo phakathi komthamo kunye nomthamo, ukugcina indawo exabisekileyo kunye nobunzima berobhothi.
Imodeli eCetyisiweyo:
I-YMIN elulwelo aluminiyam i-electrolytic capacitors ineenzuzo zobomi obude, ukuxhathisa okuqinileyo, ukukwazi ukuphendula okwethutyana kunye nobungakanani obuncinci. Baye baxazulula ngempumelelo iingxaki zeemodyuli zamandla e-robot ye-humanoid phantsi komthwalo ophezulu, i-frequency ephezulu kunye neeyure zokusebenza ezide, kwaye zizimisele ukubonelela abathengi ngezixazululo eziphezulu ze-capacitor.
Ixesha lokuposa: Feb-15-2025