Ukusuka kumbane webhetri ye-lead-acid ukuya kwisiqalo esingxamisekileyo seqhosha elinye kwiibhetri ze-4G smart lithium: Ukusetyenziswa kwe-YMIN Supercapacitor SDB 3.0V 30F kwii-capacitor zokuqala ezingxamisekileyo kwiilori ezinzima.

"Umngcipheko Wokugqibela Weemayile" Weenkqubo Zamandla Ezithwala Iilori Ezinzima

Kwiinkqubo zamandla elori enzima, uyilo lwemveli ludla ngokusebenzisa iibhetri ze-lead-acid ukwenza imisebenzi emibini: umbane wokuqala kunye nokuphatha umthwalo wamandla okupaka ngexesha elide lokupaka. Njengoko inani elikhulayo leeterminals ze-4G ezikwibhodi, ii-smart gateways, kunye nezixhobo zombane zasekhaya, iibhetri ze-lead-acid zisengozini enkulu yokuphelelwa ngamandla emva kokupaka ixesha elide, nto leyo ethintela imoto ekuqaliseni kwakhona kwaye idale ingxaki eqhelekileyo yokukhupha ibhetri yelori enzima.

Kwezi meko, iinjineli kufuneka ziqwalasele amandla angoku okuqala ngobushushu obuphantsi kunye namandla aseleyo kunye nobomi bebhetri emva kokukhupha ixesha elide, nto leyo edala ibhalansi engenakwenzeka kwinkqubo yesiqhelo ye-lead-acid.

Izizathu Zobuchwephesha

Iingxaki zesakhiwo seenkqubo zeLead-Acid kubushushu obuphantsi kunye nobomi bomjikelo

Kwiinjineli ze-elektroniki kunye namandla, ingxaki ingashwankathelwa ngamanqaku amabini: ① Ubomi bomjikelo omfutshane: Iibhetri ze-lead-acid zixhomekeke kwiimpendulo zeekhemikhali ukugcina amandla. Phantsi kweemeko ezinzulu zokukhupha itshaja, izinto ezisebenzayo ziphela lula, nto leyo ebangela ubomi bomjikelo oqhelekileyo wemijikelo engama-300–500 kuphela. Ukupaka rhoqo kunye nemijikelo yokuqalisa rhoqo ikhawulezisa kakhulu ukuguga, nto leyo enyanzelisa ukutshintshwa kwangaphambili kweebhetri ze-lead-acid. ② Ukusebenza kakubi kobushushu obuphantsi: Kwiindawo eziphantsi njenge--40℃, ukumelana kwangaphakathi kweebhetri ze-lead-acid kuyanda kakhulu, kwaye amandla azo okukhupha ayancipha kakhulu. Nokuba i-State of Charge (SOC) ibonakala yamkelekile, ayinakukhupha umbane omkhulu owaneleyo ngexesha elifutshane, nto leyo ebangela ukusilela kokuqalisa injini kumaqondo obushushu aphantsi.

Oku kuthetha ukuba inkqubo ye-lead-acid yodwa ayinakukwazi ukubonelela ngezakhono zokuqala kunye nomthwalo wokupaka ezizinzileyo neziqikelelweyo kwiindawo ezixineneyo.

Isisombululo se-YMIN

Ibhetri yeLithium ekrelekrele ye-4G + uthotho lwe-YMIN Supercapacitor SDB “Uyilo oluQhuba ngokuQhosha kanye”
I-YMIN Capacitors, ejolise kwizicelo zebhetri ye-lithium ekrelekrele ye-4G kwiilori ezinzima, icebise uyilo oludibeneyo lwe-"power lithium battery + YMIN supercapacitor SDB series": ibhetri ye-lithium inika amandla, kwaye i-supercapacitor inika amandla, okwenza imodyuli yokuqalisa enamandla ethembekileyo ngokucofa kube kanye.

Ngokuphathelele ukhetho, ii-capacitor ze-automotive-grade ezifana ne-SDB 3.0V 30F 16×25 zisetyenziswa njengeyunithi esisiseko yokwakha imodyuli yokuqalisa engxamisekileyo eneqhosha elinye kwiilori ezinzima. Le modyuli inikezela ngezi ngenelo zobugcisa zilandelayo: Uxinano lwamandla aphezulu kakhulu: Ii-SDB supercapacitors zinokukhupha umbane okhawulezayo kwii-milliseconds, zihlangabezane nokubetha kombane omkhulu ofunekayo ekuqaliseni injini ebandayo, nto leyo ezenza zifaneleke njengenxalenye ephambili "yombane wokuqala ongxamisekileyo." Ubomi bomjikelo omde: Ubomi bomjikelo weseli nganye bunokufikelela kwii-500,000 zemijikelo, kwaye ubomi bomjikelo wenqanaba lemodyuli budlula ii-100,000 zemijikelo, nto leyo engadingi kutshintshwa phantse kulo lonke ixesha lobomi besithuthi, ingaphezulu kakhulu kwinqanaba lomjikelo we-300-500 leebhetri ze-lead-acid. Ukumelana nobushushu obuphezulu nobuphantsi: Igcina ukumelana okulinganayo okuphantsi kwaye ikhupha umbane omkhulu nokuba kwi--40℃; inokusebenza ngokuzinzileyo iiyure ezili-1000 kwi-85℃, inika umda wobushushu owaneleyo kwigumbi lenjini kunye noyilo lwe-chassis. I-High Voltage + Iphakheji Encinci: I-voltage elinganiswe yi-3.0V inceda iinjineli ukunciphisa inani leekhonkco zochungechunge phantsi kwe-voltage yenkqubo efanayo. Idityaniswe nobukhulu be-16×25 mm, inciphisa kakhulu ubungakanani bemodyuli, iphucula uxinano lwamandla enkqubo iyonke, kwaye yonyusa ukuguquguquka koyilo. Isiqinisekiso Sokhuseleko Oluphezulu kunye neMoto: Le mveliso iqinisekiswe yi-AEC-Q200 kwaye yenziwe phantsi kwenkqubo yomgangatho we-IATF16949, iqinisekisa ukhuseleko oluphezulu. Nokuba kwenzeka ukungasebenzi phantsi kweemeko ezinzima ezifana nobushushu obugqithisileyo, i-voltage egqithisileyo, kunye nombane ogqithisileyo, ayizukuvutha okanye iqhume, ngaloo ndlela ihlangabezana neemfuno zokhuseleko ezisebenzayo zesithuthi siphela.

Ingcebiso yoQinisekiso lweDatha kunye noKhetho

Ngokwembono yezalathisi zovavanyo, malunga "nokufumaneka kobunjineli," kwiprojekthi yebhetri ye-4G ekrelekrele ye-lithium yomthengi weloli enzima, ukuqinisekiswa okulandelayo kugqityiwe ngokusekelwe kwi-YMIN Supercapacitor.Uthotho lweSDBimodyuli yokuqalisa imeko engxamisekileyo:

Uvavanyo Lokuqala Lobushushu Obuphantsi ① -40℃: Uvavanyo oluqhubekayo kwigumbi lokusingqongileyo eline -40℃, kunye nezinto ezininzi ezibangela ukuqala okunyanzelekileyo ngeqhosha elinye, lufikelele kwinqanaba lempumelelo lokuqalisa injini eliyi-100%.
② Uvavanyo lwe-100,000-Cycle: Ukusebenzisa indlela yomjikelo "wokutshaja-ukukhupha itshaja", emva kokugqiba imijikelo eyi-100,000, izinga lokugcina umthamo we-capacitor lalingaphezulu kwama-80%, lisahlangabezana nemfuneko yokuqalisa enyanzelekileyo yeqhosha elinye.
③ Uvavanyo lobomi benkqubo kunye neendleko: Njengoko ubomi bemoto buyiminyaka eli-10 bujoliswe kuyilo, ukudibanisa uthotho lwe-YMIN Supercapacitor SDB kunciphisa ubuninzi bokugcinwa kwenkqubo ngama-80% kwaye kunciphisa iindleko zomjikelo wobomi benkqubo yamandla malunga nama-60%, ukufezekisa injongo yoyilo "yokuthembeka okuphezulu + i-TCO ephantsi."

Imeko zeSicelo kunye neeModeli eziCetywayo: Ingcebiso yoKhetho oluthe ngqo kwiiNjineli Kubanjineli abaceba iiprojekthi ezilandelayo, uthotho lwe-YMIN Supercapacitor SDB lukhetho olukhethwayo: Ibhetri ye-lithium ekrelekrele ye-4G imodyuli yokuqalisa eneqhosha elinye kwiilori ezinzima; imodyuli yokuphucula ukuqala ngobushushu obuphantsi kwizithuthi ezisebenza kwiindawo ezibandayo kakhulu; uyilo lokuqalisa olungxamisekileyo kwiinkqubo zamandla ezithuthi zorhwebo ezifuna ukuqalisa-ukuma okuqhelekileyo. Imodeli eCetywayo: I-SDB 3.0V 30F 16×25 I-YMIN Supercapacitor SDB series automotive-grade capacitor.

Isiphelo

Ukuguqula "Isigwebo Esisekelwe Kumava" sibe "Uyilo Lokuqala Olunokuchofozwa Kanye": Ngaphambili, iinjineli ezininzi zazixhomekeke kumava ukuze zigcinele ubuninzi bebhetri kwiilori ezinzima. Ngoku, nge-ymin SupercapacitorUthotho lweSDB, olu tshintsho olusekelwe kumava lunokuguqulwa lube yi-ultra-high power density enokulinganiswa kunye noyilo oluqinisekisiweyo lobomi obude. Xa uyila ii-capacitors zokuqala ezingxamisekileyo zeelori ezinzima, okanye ezinye izisombululo zeebhetri ze-4G ezikrelekrele ze-lithium okanye iibhetri ze-lead-acid, samkela uvavanyo oluneenkcukacha olusekelwe kuthotho lwe-ymin Supercapacitor SDB. Singabonelela ngemizobo yesekethe epheleleyo ngakumbi, uyilo lobushushu, kunye nenkxaso yokulinganisa ubomi.