Imbono yoYilo kunye nokuVelisa
1. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: I-Electric Double Layer Capacitor kunye nebhetri ye-lithium zisebenzisana njani ekukhupheni umbane ngexesha lokuqalisa kwelori enzima?
Impendulo: Xa ifumana isignali yokuqalisa, i-Electric Double Layer Capacitor ifunxa uninzi lwamandla okungena ngaphakathi kwi-milliseconds. Emva koko, ibhetri ye-lithium iqala ukuphuma okulawulwayo ukuze izalise ukuhla kwe-voltage ye-Electric Double Layer Capacitor, inika amandla ombane aqhubekayo.
2. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Kwimeko apho i-air conditioner yokupaka isebenza ngokuqhubekayo iiyure ezili-12, yintoni indima ephambili ye-Electric Double Layer Capacitor? Ngaba ithatha inxaxheba kumbane oqhubekayo we-air conditioner?
Impendulo: Kwiimeko zokukhupha umoya eziqhubekayo nezizinzileyo ezifana nee-air conditioners zokupaka, ibhetri ye-lithium enamandla aphezulu yeyona nto iphambili esetyenziswayo, kwaye i-Electric Double Layer Capacitor ayithathi nxaxheba kakhulu. Indima yayo ephambili ibonakala ngamaxesha abalulekileyo: xa i-air conditioner iqala, ihlawula umbane wokuqala we-compressor, ithintela ukwehla ngequbuliso kwi-voltage yebhetri ye-lithium kwaye inciphise ukusetyenziswa kwamandla kwenkqubo "kwincopho".
3. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Yonke inkqubo ixhomekeke kumsebenzi "wokufudumeza obushushu obuphantsi" ukuqinisekisa ukusebenza kwi -35°C. Nangona kunjalo, amandla okukhupha ibhetri ye-lithium asancipha ngexesha lokuqala kokufudumeza kwenkqubo. Ngaba i-Electric Double Layer Capacitor, ngaphandle kokuxhomekeka ekufudumaleni, ingakhupha ngokuthe ngqo umbane omkhulu kwi -35°C ukuze isebenze kunye nebhetri xa iqalisa?
Impendulo: Ii-YMIN SDB series Electric Double Layer Capacitors zinokuguquguquka okubanzi kobushushu ukusuka kwi -40°C ukuya kwi 85°C, zigubungela lonke udidi lobushushu bokusebenza kwenkqubo. Nokuba kwi -35°C okanye kwi -40°C, zisenokukhupha ngokuzinzileyo amakhulu ee-ampere zamandla ombane, zihlawulela ukonakala kokusebenza okuphantsi kweebhetri ze-lithium. Zisebenza kunye nomsebenzi wokufudumeza ophantsi, ziqinisekisa ukuqala okubandayo.
4. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Iibhetri zinobomi bomjikelo obuziikhilomitha eziliwaka. Ubomi bomjikelo wee-Electric Double Layer Capacitors (umz., imijikelo engama-500,000) budlula kakhulu obo beebhetri. Xa zidityaniswe ezi zimbini, ubomi benkqubo bungayilwa njani ngokubambisana ukuze kuthintelwe isiphumo se-bottleneck?
Impendulo: Ii-SDB series Electric Double Layer Capacitors zinobomi bomjikelo weseli enye ukuya kuthi ga kwi-500,000 cycles kunye nobomi bemodyuli obudlula i-100,000 cycles, zifikelela kumakhulu amawaka e cycles—zidlula kakhulu ubomi bomjikelo weebhetri ze-lithium. Ukudibanisa i-Electric Double Layer Capacitor kunye nebhetri ye-lithium kwinkqubo kunciphisa kakhulu ukunyuka kwamandla aphezulu ebhetri, kuthintela ukukhutshwa okuphezulu okunokonakalisa ubomi bayo, kwandise ubomi benkqubo iyonke, kwaye kuthintele isiphumo se-bottleneck.
5. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Ingakanani izinga lokuzikhupha kwi-Electric Double Layer Capacitor ukuba imoto ipakwe ixesha elide? Ngaba umsebenzi wayo wokuqalisa oncedisayo uya kuhlala usebenza emva kokugcinwa ixesha elide?
Impendulo: Ibhetri ye-lithium ekrelekrele ixhasa imo yokulala ekrelekrele. Ingena kwimo yokulala ukuze yonge amandla emva kwexesha elithile lokungasebenzi, nto leyo ebangela ukulahleka kwamandla okuphantsi kakhulu. Inkqubo iyavuka xa kubonwa ukuba itshaja okanye ikhupha itshaja, igcina imeko yayo isempilweni nasemva kokupaka ixesha elide.
6. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Ukuba kusetyenziswa ii-Capacitors ezininzi ze-Electric Double Layer kuthotho, ngaba kuya kubakho iingxaki ngokungalingani kwe-voltage yeseli nganye? Ngaba oku kuya kuyichaphazela ukuthembeka komsebenzi wokuqala oneqhosha elinye? Impendulo: Ukuthembeka kuqinisekisiwe ngokupheleleyo. Ii-Capacitors ze-Electric Double Layer ze-YMIN zidlula kumthamo we-100% kunye nokuhambelana kokumelana ngaphambi kokuba ziphume kwifektri, kunye ne-capacitance kunye ne-ESR tolerances ezilawulwa ngaphakathi kwe-5%, ukuqinisekisa ukuhambelana kweeseli nganye nganye. Kwizicelo ezisebenzayo, ii-balancing circuits zixhotyiswe kwii-series-parallel module circuits ezinee-capacitors ezininzi. Xa kukho ukuphambuka kwi-voltage yeseli enye, i-circuit iya kwenza ngokukhutheleyo i-voltage balancing, ngaloo ndlela inike ukhuseleko oluphindwe kabini lokuthembeka kwemveliso.
7. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Ii-Capacitors zombane ezineeLayer ezimbini zineempawu zokutshaja ngokukhawuleza kunye nokukhupha. Ukuba inkqubo yokuqalisa ilibaziseka ixesha elide, ubushushu buya kunyuka. Ngaba oku kuya kukhokelela ekukhutshweni kwe-over-load kwenkqubo yonke, nto leyo ebangela ukuba kungabikho mandla aneleyo okuqalisa?
Impendulo: Imisebenzi emininzi yokukhusela, kuquka ukhuseleko lokutshaja kakhulu kunye nokukhusela ukutshaja kakhulu, iyafuneka. Ukubeka iliso ngexesha langempela le-voltage yeseli nganye kunye nobushushu kuyasetyenziswa ukuthintela ukutshaja kakhulu/ukutshaja kakhulu kwinqanaba le-millisecond. Kwimeko yokuphelelwa ngamandla okungalindelekanga kwebhetri yelori, ibhetri ye-lithium ekrelekrele inenkqubo yamandla engxamisekileyo ye-10% eyakhelwe ngaphakathi yokuqalisa kwakhona ngenkani, ukuthintela umngcipheko wokonakala ebaleni.
8. Uhlobo Lombuzo: Inkxaso Yoyilo
Umbuzo: Ngenxa yendawo encinci kwisithuthi, ingakanani ibhalansi phakathi kobukhulu, ubunzima, kunye nendlela yokufakela i-Electric Double Layer Capacitor module ukuze ihlangabezane neemfuno zokusebenza ngaphandle kokuchaphazela ulwakhiwo lwezinye iinkqubo ze-elektroniki kwisithuthi?
Impendulo: IiCapacitors zombane eziMaleko aMabini zinamandla aphezulu kakhulu. Iiseli ezili-11 30F 16*25 kuphela ezidityanisiweyo zinokubonelela ngamakhulu ee-ampere zamandla agubungela lonke ubushushu bemodyuli ukusuka kwi--35℃ ukuya kwi-60℃.
9. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Ingakanani inqanaba lokhuseleko lwe-Electric Double Layer Capacitor ngokwayo? Ngaba isiqinisekiso sokhuseleko siphela senkqubo siya kuchaphazeleka emva kokuyidibanisa nebhetri ye-lithium?
Impendulo: Iimveliso zethu ze-Electric Double Layer Capacitor nazo zilandela imigaqo yoyilo lweemoto, apho izixhobo eziphambili kunye nezakhiwo zikhuselekile kakhulu. Kwinkqubo, ukungeniswa kwe-Electric Double Layer Capacitor kongeza ngempumelelo umqobo wokhuseleko "we-power buffer". Ngexesha lokutshaja nokukhupha umbane ophezulu, inokuthintela ibhetri ye-lithium ekufumaneni ukunyuka kobushushu ngequbuliso nangokuqatha kunye nokwehla kwe-voltage, okuphucula ukhuseleko lwenkqubo phantsi kweemeko ezinzima.
10. Uhlobo lombuzo: Ingcaciso yoBugcisa
Umbuzo: Ukuxilongwa kwinqanaba lenkqubo kunye nokugcinwa kwangaphambili kungafezekiswa njani ngokujonga imeko yempilo, inqanaba lokugcina amandla, kunye nembali yokusetyenziswa kwee-Electric Double Layer Capacitors ukuqinisekisa amandla okuqalisa ngokukhawuleza athembekileyo ezithuthi ngamaxesha onke?
Impendulo: Imodyuli yokubeka iliso ye-capacitor ezinikeleyo iqhagamshelwe kwinkqubo yokubeka iliso ekrelekrele ye-4G ukuqokelela nokuhlalutya iiparameter eziphambili ngexesha langempela; imida yempilo kunye neemodeli zobomi zimiselwe, kwaye zidityaniswe neemeko zokusebenza kwesithuthi, ii-algorithms zihlalutya imeko yempilo ye-capacitor ukuqikelela iingozi ezinokubakho zokungaphumeleli; inkqubo ityhala iziphumo zokuxilonga kwisiphelo sesithuthi okanye iqonga lolawulo lwe-backend ngemodyuli ye-4G, ikhupha izilumkiso zokugcina amandla angonelanga, ukwehla kokusebenza, njl.njl., okubangela ukugcinwa ngexesha elifanelekileyo; ngaxeshanye, ingqiqo "yokuqala ngokunyanzelwa kokucofa kube kanye" iqhagamshelwe ukuqinisekisa ukuba i-capacitor ihlala ikwinqanaba lokugcina amandla elisebenzayo, iqinisekisa amandla okuqala okungxamisekileyo athembekileyo ngamaxesha onke.
### Imbono yabathengi
1. Uhlobo lombuzo: Uqinisekiso lobuchwephesha
Umbuzo: Ngaba ilori ingaqalisa ngokuthembekileyo emva kokuba ipakwe kwindawo ebanda kakhulu okanye ixesha elide, isebenzisa imodyuli yokuqalisa ngokukhawuleza ekhawulezileyo equlathe i-SDB 3.0V 30F Electric Double Layer Capacitor kunye nebhetri ye-4G lithium?
Impendulo: Ewe. Inkqubo edibeneyo ine-heater eshushu kancinci, exhasa ukufudumeza kwangaphambili kwebhetri ye-lithium kude ukuqinisekisa ukusebenza ngokukhuselekileyo nakwiindawo ezinobushushu obuphantsi. Isebenza kuluhlu olubanzi lobushushu ukusuka kwi--35℃ ukuya kwi-60℃, iqinisekisa ukusebenza kakuhle kokuqhuba ngaphandle kokukhathazeka kuzo zonke iimeko zemozulu. I-YMIN SDB series Electric Double Layer Capacitor ngokwayo inokumelana okuhle kakhulu nobushushu obuphantsi, igcina amandla aphezulu ombane azinzileyo nakwiindawo ezibandayo kakhulu ukuya kuthi ga kwi--40℃, ihambelana ngokugqibeleleyo nomsebenzi "wokuqalisa ngeqhosha elinye".
2. Uhlobo lombuzo: Ukuqinisekiswa kwemeko
Umbuzo: Ukuba imoto ipakwe ivuliwe ixesha elide kwaye ibhetri iphelile, ngaba i-Electric Double Layer Capacitor isaza kukwazi ukuyiqalisa imoto ngempumelelo?
Impendulo: Inkqubo yokunxibelelana ekrelekrele iya kukhupha isilumkiso sebhetri ephantsi kwaye ijonge ibhetri ngexesha langempela. Ukongeza, inkqubo igcina ibhetri eyi-10% kumsebenzi wokuqalisa oneqhosha elinye, ovumela ukuqaliswa kwemoto engxamisekileyo nge-app.
3. Uhlobo lombuzo: Iindleko zoMjikelo woBomi
Umbuzo: Ibhetri yokuqala kufuneka itshintshwe kangaphi? Impendulo: Ii-SDB series Electric Double Layer Capacitors zinobomi bomjikelo weseli enye ukuya kuthi ga kwimijikelo engama-500,000 kunye nobomi bemodyuli obudlula imijikelo eyi-100,000, zifikelela kumakhulu amawaka emijikelo, zidlula kakhulu ubomi bomjikelo weebhetri ze-lithium. Ukudibanisa i-Electric Double Layer Capacitor nebhetri ye-lithium kwinkqubo kunciphisa kakhulu ukunyuka kwamandla aphezulu ebhetri, kuthintela ukukhutshwa okuphezulu okonakalisa ubomi bayo kwaye kwandise ubomi benkqubo iyonke. Ubomi benkonzo eqhelekileyo obulindelekileyo yiminyaka eyi-8-10 nangaphezulu.
4. Uhlobo lombuzo: Uhlalutyo lokuqina
Umbuzo: Ngaba inkqubo ingakwazi ukumelana nemisebenzi eqhubekayo yokuyeka ukuqala ngaphandle kokwehla kokusebenza?
Impendulo: Ewe. I-SDB 3.0V 30F igcina amandla angaphezu kwama-80% emva kwemijikelo yokukhupha itshaja eyi-100,000, ixhasa imisebenzi yokuqalisa nokuyeka ukusebenza rhoqo ngaphandle kokwehla kokusebenza.
5. Uhlobo Lombuzo: Ukujongana Namanqaku Entlungu
Umbuzo: Ngaba ibhetri iya konakala ukuba imoto ayisetyenziswa ixesha elide? Ndingazi njani ukuba ingakanani itshaja eseleyo kwibhetri? Impendulo: Ixhasa imo yokulala ekrelekrele. Ingena kwimo yokulala ukuze yonge amandla emva kwexesha elithile lokungabikho komthwalo. Inkqubo iyavuka xa kufunyenwe ukutshaja okanye ukukhupha itshaja, igcina imeko isempilweni nokuba ngexesha lokupaka ixesha elide. Iqonga lokunxibelelana elikrelekrele linokujonga inqanaba lebhetri ngexesha langempela kwaye likhuphe isaziso sesilumkiso xa ibhetri iphantsi, okuvumela ukujonga inqanaba lebhetri ngexesha langempela, impilo, kunye nolunye ulwazi.
6. Uhlobo lweNgxaki: Ukujongana ngqo neNgxaki yeNhlungu
Ingxaki: Ukuba isignali ye-4G iyaphazamiseka, ngaba i-supercapacitor enezitezi ezimbini isasebenza ngokuqhelekileyo nenkqubo yokumisa indawo yokupaka? Ngaba ilori iya kusilela ukuqala ngenxa yokusilela kokujonga kude?
Impendulo: Imodyuli ye-4G inoxanduva kuphela "lokubeka esweni kude" (njengokufaka inqanaba lebhetri, izilumkiso zeempazamo, kunye nokujonga imeko), umsebenzi oncedisayo; ingqiqo engundoqo yolawulo lokutshaja nokukhupha itshaja kunye nokuqalisa nokuyeka ukuqalisa kwe-supercapacitor enamaleko amabini yenziwa ngokuzimeleyo yinkqubo yolawulo lwebhetri ye-hardware BMS, ngaphandle kokuxhomekeka kwisignali ye-4G.
7. Uhlobo lweNgxaki: Ukuqinisekiswa kokuthembeka
Ingxaki: Ngaba imodyuli yokuqalisa engxamisekileyo eneqhosha elinye eyenziwe yi-SDB 3.0V 30F dual-layer supercapacitor kunye nebhetri ye-4G lithium ingasebenza ngokuthembekileyo kwiimeko zemozulu ezahlukeneyo kunye namaxesha onyaka? Impendulo: Uluhlu lobushushu bokusebenza lwe-Electric Double Layer Capacitor yi--40℃ ukuya kwi-85℃, igubungela ngokupheleleyo udidi lobushushu bokusebenza kwebhetri ukusuka kwi--35℃ ukuya kwi-60℃. Inkqubo edibeneyo inokusebenza ngokuthembekileyo kwiimeko zemozulu ezahlukeneyo kunye namaxesha onyaka.
8. Uhlobo Lombuzo: Ukusebenza Kwemihla Ngemihla
Umbuzo: Ngaba ukugcinwa nokulawulwa kwemihla ngemihla kuyinkimbinkimbi?
Impendulo: I-SDB series Electric Double Layer Capacitor inobomi bomjikelo weseli enye obufikelela kwimijikelo engama-500,000 kunye nobomi bomjikelo wemodyuli obudlula imijikelo eyi-100,000, kunye nobomi bomjikelo obungamakhulu amawaka emijikelo, obudlula kakhulu ubomi bomjikelo weebhetri ze-lithium. Ukudibanisa i-Electric Double Layer Capacitor nebhetri ye-lithium kwinkqubo kunciphisa kakhulu impembelelo yombane ophezulu kwibhetri, kuthintelwe ukukhupha okuphezulu okonakalisa ubomi bayo, kwandise ubomi benkqubo iyonke, kwaye kufezekiswe ukusebenza ngaphandle kokugcinwa.
9. Uhlobo Lombuzo: Ukuqinisekiswa Kozinzo
Umbuzo: Ngaba ibhetri ye-lithium ekrelekrele ikhuselekile kwaye izinzile xa isetyenziswa ixesha elide kwizithuthi ezinzima?
Impendulo: Iquka "ukhuseleko lokhuseleko lweKlasi A yeeMoto," esebenzisa uyilo oluninzi lokhuseleko oluquka ukumelana nokubhoboza, ukumelana nokungqubana, kunye nokumelana nokutyumza. Iyakwazi ukumelana neendawo ezishushu kakhulu ukusuka kwi -35°C ukuya kwi-60°C, inomgangatho we-IP65 wokungangeni manzi kunye nothuli, kwaye iphumelele uvavanyo lokungcangcazela oluqhubekayo lweeyure ezingama-48 ngokwemigangatho yohlobo D engqongqo kwi-GB/T 5008.1-2023. Iquka inkqubo yolawulo lwempilo yebhetri ye-BMS kunye ne-AI eyakhelwe ngaphakathi ukujonga imeko yebhetri ngexesha langempela kunye nokubonelela ngezilumkiso kwangethuba malunga nokungahambi kakuhle.
10. Uhlobo lombuzo: Inzuzo yeendleko
Umbuzo: Ngaba imodyuli yokuqalisa engxamisekileyo eneqhosha elinye, eyenziwe yi-SDB 3.0V 30F Electric Double Layer Capacitor kunye nebhetri ye-lithium ye-4G, inexabiso eliphantsi xa ithelekiswa neebhetri zemveli ze-lead-acid?
Impendulo: Iibhetri ze-lead-acid zinobomi obumalunga neminyaka emi-2, ngelixa ibhetri ye-lithium kunye ne-Electric Double Layer Capacitor synergistic system zikhusela ngokufanelekileyo ibhetri ye-lithium kumonakalo omkhulu wokukhupha ngokuthintela imisinga emikhulu nge-Electric Double Layer Capacitor. Ubomi obulindelweyo bunokufikelela kwiminyaka eyi-8-10. Le nkqubo inciphisa kakhulu iindleko zokutshintshwa kunye nokugcinwa. Nangona utyalo-mali lokuqala luphezulu, isisombululo sinokusebenza ngcono kweendleko ngokuhamba kwexesha ngenxa yobomi baso obude, ukusebenza ngaphandle kokugcinwa, kunye nokuthembeka okuphezulu.
Ixesha leposi: Jan-27-2026