Yintoni amandla ombane wokutshaja iibhetri ze-lithium iron phosphate?

I-lithium iron phosphateUmbane wokutshaja ipakethi yebhetri kufuneka usetwe ku-3.65V, amandla ombane abizwa ngokuba yi-3.2V, ukutshaja ngokubanzi amandla ombane aphezulu kunokuba ngaphezulu kwamandla ombane angama-20%, kodwa amandla ombane aphezulu kakhulu kwaye kulula ukuyonakalisa ibhetri, i-3.6V. I-voltage ingaphantsi kwesi sibonakaliso, akukho ntlawulo engaphezulu. Ibhetri ukuba ubeka ubuncinane be-3.0V ukuba ihlawuliswe, ngoko i-3.4V kunobuncinane obuphezulu be-0.4V, i-3.6 kunobuncinane obuphezulu be-0.6V, ngaphezu kwe-0.2V inokukhulula isiqingatha samandla, oko kukuthi, intlawulo nganye, ngaphezu kwe-3.4V ngaphezu kwesiqingatha sokusetyenziswa kwexesha, ngenxa yenani lamaxesha ibhetri kufuneka isetyenziswe ukwenzela ukuba ubomi besiqingatha esitsha, ngoko ke ngokungabikho komonakalo kwibhetri, i-voltage entsha yokutshaja, ibhetri kongezwa! Izinto ozilindile emhlabane.

Uyilo lwepakethi yebhetri ye-lithium ye-iron phosphate ye-3.6V umda wokutshaja kufuneka usuke kwiibhetri ye-lithium-ionukusetyenziswa okusebenzayo, bobabini banokuvula ngokupheleleyo umthamo webhetri ukuya kwinqanaba eliphezulu, ngaphandle kokonakalisa ibhetri, inani lentlawulo libhekisela kwinani lamaxesha ahlawulwe ngokupheleleyo kwaye akhululwe inani lemijikelo, uyilo lwe-3.4V aluhlawuliswanga kakhulu ubuYuda, kodwa inxalenye encinci yokungathathi nxaxheba kumjikelo wokutshaja kunye nokukhupha, kwaye uninzi lwenxaxheba luya kuba ngenxa yenani lemijikelo edityanisiweyo kwinani elithile lamaxesha, liya kuqhubeka ukuwohloka, isangqa esikhohlakeleyo de singakwazi esetyenzisiweyo. Umjikelo okhohlakeleyo ude ungasetyenziswa. Le yimida yobomi bayo, izinto ezahlukeneyo ezingenakuthintelwa eziyingozi ziyadlulana, ukusebenza akukwazi ukugcina iiparamitha zoyilo lwangaphambili lwento engenakuphepheka.

Ziziphi iindlela zokutshajalithium iron phosphate ibhetriiipakethe?

(1) Indlela yokutshaja umbane rhoqo:Ngethuba lenkqubo yokutshaja, i-voltage ephumayo yokunikezelwa kombane wokutshaja igcinwa rhoqo. Ngotshintsho kwimeko yentlawulo yebhetri ye-lithium, lungelelanisa ngokuzenzekelayo ukutshaja kwangoku, ukuba ixabiso lombane elichaziweyo lifanelekile, linokuqinisekisa ukutshaja okupheleleyo kwepakethi yebhetri ye-lithium ion, kodwa nokunciphisa imvula yegesi kunye ilahleko yamanzi.

(2) Indlela yokutshaja rhoqo yangoku:Ngethuba lenkqubo yokutshaja yonke, umjelo wokutshaja ugcinwa rhoqo ngokulungelelanisa i-voltage ephumayo. Ukugcina ukutshaja ngokuzinzileyo, izinga lokutshaja liphantsi. Indlela yokulawula ukutshaja rhoqo ilula, kodwa ngenxa yesakhono sebhetri ye-lithium ye-phosphate ye-iron phosphate yokwamkela yangoku ngokuthe ngcembe siyehla kunye nenkqubo yokutshaja, ukuya kwinqanaba lokutshaja kade, amandla ebhetri e-lithium anikwe amandla okuhla, ukutshaja izinga lokusetyenziswa kwangoku. iyancipha kakhulu.

(3) Indlela yokutshaja rhoqo-yangoku kunye neyokuhlala-voltage:Inqanaba lokuqala lamkela indlela yokutshaja engaguqukiyo, ethintela umsinga wokutshaja ekubeni ube mkhulu kakhulu ekuqaleni kokutshaja okungaguqukiyo. Inqanaba lesibini lamkela indlela yokutshaja ombane rhoqo, ukuthintela ukutshaja okugqithisileyo okubangelwa kukutshaja rhoqo kwangoku. Ipakethi yebhetri yeLithium iron phosphate kunye nazo naziphi na ezinye iibhetri ezitywiniweyo ezinokutshajwa kwakhona, ukulawula ukutshaja, ukungatshaji okungakhethiyo, kungenjalo kulula ukonakalisa ibhetri. Iipakethi zebhetri ye-lithium iron phosphate ngokuqhelekileyo zisebenzisa indlela yokutshaja yokuqala engaguqukiyo emva koko i-voltage elinganiselweyo yokutshaja.


Ixesha lokuposa: Aug-19-2024