Umbono Wokuklama Nokukhiqiza
1. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: I-Electric Double Layer Capacitor kanye nebhethri le-lithium zisebenza kanjani ndawonye ukuze zikhiphe ugesi ngesikhathi sokuqala kwamaloli amakhulu?
Impendulo: Lapho ithola isignali yokuqalisa, i-Electric Double Layer Capacitor imunca iningi lamandla okungena ngaphakathi kwama-millisecond. Ngemva kwalokho, ibhethri le-lithium liqala ukukhipha okulawulwayo ukuze ligcwalise ukwehla kwamandla kagesi kwe-Electric Double Layer Capacitor, okuhlinzeka ngamandla oqhubekayo.
2. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Esimweni lapho i-air conditioner yokupaka isebenza ngokuqhubekayo amahora ayi-12, iyini indima eyinhloko ye-Electric Double Layer Capacitor? Ingabe ihlanganyela ekuhlinzekweni kwamandla okuqhubekayo kwe-air conditioner?
Impendulo: Ezimweni zokukhishwa okuqhubekayo nokuzinzile njengezimo zokupaka umoya, ibhethri le-lithium elinamandla aphezulu liwumthombo wamandla oyinhloko, kanti i-Electric Double Layer Capacitor ayihlanganyeli ngokuyinhloko. Indima yayo eyinhloko ibonakala ngezikhathi ezibucayi: ngesikhathi umoya opholile uqala, ibuyisela amandla okuqala kwe-compressor, ivimbele ukwehla okungazelelwe kwe-voltage yebhethri le-lithium futhi inciphise ukusetshenziswa kwamandla kwesistimu "okuphezulu".
3. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Lonke uhlelo luthembele emsebenzini “wokushisa okuphansi” ukuqinisekisa ukusebenza ku--35°C. Kodwa-ke, amandla okukhipha ebhethri le-lithium asancipha ngesikhathi sokuqala kokushisa kokuqalisa uhlelo. Ingabe i-Electric Double Layer Capacitor, ngaphandle kokuthembela ekufudumaleni, ingakhipha ngqo ugesi omkhulu ku--35°C ukuze isebenze kanye nebhethri ekuqaleni?
Impendulo: Ama-Capacitor kagesi e-YMIN SDB ochungechungeni lwe-Electric Double Layer anokuguquguquka okubanzi kokushisa okusuka ku--40°C kuya ku-85°C, amboza lonke izinga lokushisa lokusebenza kwesistimu. Ngisho noma ku--35°C noma ku--40°C, asengakhipha amakhulu ama-ampere kagesi ngokuzinzile, okukhokhela ukwehla kokusebenza okuphansi kwamabhethri e-lithium. Ngokusebenza kanye nomsebenzi wokushisa ophansi, aqinisekisa ukuqala okubandayo.
4. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Amabhethri anempilo yomjikelezo yezinkulungwane zemijikelezo. Impilo yomjikelezo we-Electric Double Layer Capacitors (isb., imijikelezo engu-500,000) idlula kakhulu eyamabhethri. Uma kuhlanganiswa lokhu okubili, impilo yohlelo ingaklanywa kanjani ngokubambisana ukuze kugwenywe umphumela wokuvinjelwa?
Impendulo: Ama-SDB series Electric Double Layer Capacitors aqhosha ngokuphila komjikelezo weseli elilodwa okungafika ku-500,000 imijikelezo kanye nokuphila kwemojuli okungaphezu kwemijikelezo eyi-100,000, kufinyelela amakhulu ezinkulungwane zemijikelezo—okudlula kakhulu impilo yomjikelezo wamabhethri e-lithium. Ukuhlanganisa i-Electric Double Layer Capacitor nebhethri le-lithium ohlelweni kunciphisa kakhulu ukukhuphuka kwamandla kagesi aphezulu ebhethri, kuvimbela ukukhishwa okuphezulu okungalimaza impilo yalo, kwandise impilo yesistimu iyonke, futhi kugweme umphumela we-bottleneck.
5. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Lingakanani izinga lokuzikhipha kwe-Electric Double Layer Capacitor uma imoto ipakwe isikhathi eside? Ingabe umsebenzi wayo wokuqalisa osizayo uzohlala usebenza ngemva kokugcinwa isikhathi eside?
Impendulo: Ibhethri le-lithium elihlakaniphile lisekela imodi yokulala ehlakaniphile. Lingena kwimodi yokulala ukuze longe amandla ngemva kwesikhathi esithile sokungasebenzi kahle, okuholela ekulahlekelweni kwamandla okuphansi kakhulu. Uhlelo luyavuka lapho kutholakala ukushaja noma ukukhipha ishaja, lugcina isimo esinempilo ngisho nangemva kokupaka isikhathi eside.
6. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Uma kusetshenziswa ama-Capacitor amaningi e-Electric Double Layer ochungechungeni, ingabe kuzoba nezinkinga ngokungalingani kwe-voltage yeseli ngalinye? Ingabe lokhu kuzothinta ukuthembeka komsebenzi wokuqala onenkinobho eyodwa? Impendulo: Ukuthembeka kuqinisekisiwe ngokugcwele. Ama-Capacitor e-Electric Double Layer e-YMIN adlula umthamo ongu-100% kanye nokulingana kokumelana ngaphambi kokushiya ifektri, kanye ne-capacitance kanye ne-ESR tolerances elawulwa ngaphakathi kuka-5%, okuqinisekisa ukuhambisana kwamaseli ngamanye. Ezisetshenzisweni ezisebenzayo, ama-balancing circuits afakwe kuma-circuits e-module ahambisana nochungechunge anama-capacitor amaningi. Uma kukhona ukuphambuka ku-voltage yeseli elilodwa, isekethe izokwenza ngenkuthalo ukulinganisa i-voltage, ngaleyo ndlela inikeze ukuvikelwa okuphindwe kabili kokuthembeka komkhiqizo.
7. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Ama-Capacitor kagesi anezingqimba ezimbili anezici zokushaja okusheshayo kanye nokukhipha. Uma inqubo yokuqalisa ibambezeleka isikhathi eside kakhulu, izinga lokushisa liyakhuphuka. Ingabe lokhu kuzoholela ekukhishweni ngokweqile kwesistimu yonke, okuholela ekutheni kungabi namandla anele okuqalisa?
Impendulo: Kudingeka imisebenzi eminingi yokuvikela, okuhlanganisa ukushaja ngokweqile kanye nokuvikela ukukhipha ngokweqile,. Ukuqapha kwangempela kwe-voltage yeseli ngalinye kanye nokushisa kuyasetshenziswa ukuvimbela ukushaja ngokweqile/ukukhipha ngokweqile ezingeni le-millisecond. Uma kwenzeka ukuncipha okungalindelekile kwebhethri leloli, ibhethri le-lithium elihlakaniphile linohlelo lwamandla oluphuthumayo lwe-10% olwakhelwe ngaphakathi lokuqalisa kabusha ngenkani, kugwema ingozi yokuphuka ensimini.
8. Uhlobo Lombuzo: Ukusekelwa Komklamo
Umbuzo: Njengoba kunesikhala esincane emotweni, kungalinganiswa kanjani usayizi, isisindo, kanye nendlela yokufaka i-Electric Double Layer Capacitor module ukuze kuhlangatshezwane nezidingo zokusebenza ngaphandle kokuthinta ukwakheka kwezinye izinhlelo ze-elekthronikhi emotweni?
Impendulo: Ama-Capacitor kagesi anezingqimba ezimbili anamandla amakhulu kakhulu. Amaseli angu-11 30F angu-16*25 axhunywe ochungechungeni anganikeza amakhulu ama-ampere wamandla amboza izinga lokushisa lonke lemojuli kusukela ku--35℃ kuya ku-60℃.
9. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Liyini izinga lokuphepha le-Electric Double Layer Capacitor ngokwayo? Ingabe isitifiketi sokuphepha sesistimu sizothinteka ngemva kokusihlanganisa nebhethri le-lithium?
Impendulo: Imikhiqizo yethu ye-Electric Double Layer Capacitor ilandela nezimiso zokuklama zezinga lezimoto, lapho izinto eziyinhloko nezakhiwo zinokuphepha okuphezulu. Kuhlelo, ukwethulwa kwe-Electric Double Layer Capacitor kunezela ngempumelelo isithiyo sokuphepha "se-power buffer". Ngesikhathi sokushaja nokukhipha amandla aphezulu, kungavimbela ibhethri le-lithium ukuthi lingahlangabezani nokwenyuka kwezinga lokushisa okuzumayo nokukhulu kanye nokwehla kwamandla kagesi, kuthuthukise ukuphepha kohlelo ngaphansi kwezimo ezimbi kakhulu.
10. Uhlobo Lombuzo: Incazelo Yobuchwepheshe
Umbuzo: Ukuxilongwa kwezinga lesistimu kanye nokugcinwa kokubikezela kungafinyelelwa kanjani ngokuqapha isimo sempilo, izinga lokugcina amandla, kanye nomlando wokusetshenziswa kwama-Electric Double Layer Capacitors ukuqinisekisa amandla okuqalisa izimoto eziphuthumayo athembekile ngaso sonke isikhathi?
Impendulo: Imojuli yokuqapha i-capacitor ezinikele ixhunywe ohlelweni lokuqapha oluhlakaniphile lwe-4G ukuze iqoqe futhi ihlaziye amapharamitha ayinhloko ngesikhathi sangempela; imingcele yezempilo kanye namamodeli okuphila asethiwe, futhi kuhlanganiswe nezimo zokusebenza kwemoto, ama-algorithms ahlaziya isimo sempilo ye-capacitor ukuze abikezele izingozi ezingaba khona zokwehluleka; uhlelo lusunduza imiphumela yokuxilonga epulatifomu yesiteshi semoto noma yokuphatha i-backend ngemojuli ye-4G, lukhipha izexwayiso zokugcinwa kwamandla okunganele, ukwehla kokusebenza, njll., okubangela ukulungiswa ngesikhathi; ngasikhathi sinye, umqondo "wokuqala ngokuphoqelelwa ngokuchofoza okukodwa" uxhunywe ukuqinisekisa ukuthi i-capacitor ihlala ingaphakathi kwebanga lokugcina amandla elisebenzayo, iqinisekisa amandla okuqala okuphuthumayo athembekile ngaso sonke isikhathi.
### Umbono Wabathengi
1. Uhlobo Lombuzo: Ukuqinisekiswa Kobuchwepheshe
Umbuzo: Ingabe iloli lingakwazi ukuqala ngokwethembeka ngemva kokupaka ezimweni ezibandayo kakhulu noma isikhathi eside, kusetshenziswa imodyuli yokuqala ephuthumayo ngokuchofoza okukodwa eyakhiwe yi-SDB 3.0V 30F Electric Double Layer Capacitor kanye nebhethri le-lithium le-4G?
Impendulo: Yebo. Uhlelo oluhlanganisiwe lunezifudumezi ezisezingeni eliphansi lokushisa, olusekela ukufudumeza kwangaphambili kwebhethri le-lithium kude ukuqinisekisa ukusebenza okuphephile ngisho nasezindaweni ezisezingeni eliphansi lokushisa. Lusebenza ebangeni elibanzi lokushisa elisukela ku--35℃ kuya ku-60℃, luqinisekisa ukusebenza kahle kokushayela okungenazinkathazo kuzo zonke izimo zezulu. I-YMIN SDB series Electric Double Layer Capacitor ngokwayo inokumelana okuhle kakhulu kwezinga eliphansi lokushisa, igcina ukukhishwa kwamandla kagesi okuphezulu okuzinzile ngisho nasezindaweni ezibandayo kakhulu kuze kufike ku--40℃, ihambisana kahle nomsebenzi "wokuqala onenkinobho eyodwa".
2. Uhlobo Lombuzo: Ukuqinisekiswa Kwesimo
Umbuzo: Uma imoto ipakwe ivuliwe isikhathi eside futhi ibhethri seliphelile ngokuphelele, ingabe i-Electric Double Layer Capacitor isazokwazi ukuqalisa imoto ngempumelelo?
Impendulo: Uhlelo lokuxhumana oluhlakaniphile luzokhipha isexwayiso sebhethri eliphansi futhi luqaphe ibhethri ngesikhathi sangempela. Ngaphezu kwalokho, uhlelo lugcina ibhethri elingu-10% lomsebenzi wokuqala onenkinobho eyodwa, okuvumela ukuqala kwemoto ephuthumayo ngohlelo lokusebenza.
3. Uhlobo Lombuzo: Izindleko Zomjikelezo Wokuphila
Umbuzo: Kufanele ibhethri lokuqala lishintshwe kangaki? Impendulo: Ama-SDB series Electric Double Layer Capacitors aqhosha ngokuphila komjikelezo weseli elilodwa okungafika ku-500,000 imijikelezo kanye nokuphila kwemojuli okungaphezu kwemijikelezo eyi-100,000, kufinyelela amakhulu ezinkulungwane zemijikelezo, okudlula kakhulu impilo yomjikelezo wamabhethri e-lithium. Ukuhlanganisa i-Electric Double Layer Capacitor nebhethri le-lithium ohlelweni kunciphisa kakhulu ukukhuphuka kwamandla kagesi aphezulu ebhethri, kuvimbela ukukhishwa okuphezulu okulimaza impilo yalo futhi kwandise impilo yesistimu iyonke. Impilo yesevisi evamile elindelekile iyiminyaka eyi-8-10 noma ngaphezulu.
4. Uhlobo Lombuzo: Ukuhlaziywa Kokuqina
Umbuzo: Ingabe uhlelo lungamelana nokusebenza okuvamile kokumisa ukuqala ngaphandle kokwehla kokusebenza?
Impendulo: Yebo. I-SDB 3.0V 30F igcina amandla angaphezu kuka-80% ngemva kwemijikelezo yokushaja engu-100,000, isekela ukusebenza kokuqala nokuma okuvama kakhulu ngaphandle kokwehla kokusebenza.
5. Uhlobo Lombuzo: Ukubhekana Namaphuzu Obuhlungu
Umbuzo: Ingabe ibhethri lizokonakala uma imoto ingasetshenziswa isikhathi eside? Ngingazi kanjani ukuthi kusele ukushaja okungakanani ebhethrini? Impendulo: Isekela imodi yokulala ehlakaniphile. Ingena kwimodi yokulala ukuze yonge amandla ngemva kwesikhathi esithile sokungasebenzi. Uhlelo luyavuka lapho kutholakala ukushaja noma ukukhipha, okugcina isimo siphilile ngisho nangesikhathi sokupaka isikhathi eside. Ipulatifomu yokuxhumana ehlakaniphile ingaqapha izinga lebhethri ngesikhathi sangempela futhi ikhiphe isaziso sesexwayiso lapho ibhethri liphansi, okuvumela ukuqapha okukude kwesikhathi sangempela kwezinga lebhethri, impilo, nolunye ulwazi.
6. Uhlobo Lwenkinga: Ukwelapha Ubuhlungu Ngokuqondile
Inkinga: Uma isignali ye-4G iphazamiseka, ingabe i-supercapacitor enezingqimba ezimbili isazosebenza ngokujwayelekile nohlelo lokuqalisa ukupaka? Ingabe iloli lizohluleka ukuqala ngenxa yokwehluleka kokuqapha okukude?
Impendulo: Imojula ye-4G inesibopho kuphela "sokuqapha kude" (njengokulayisha izinga lebhethri, izixwayiso zamaphutha, kanye nesimo sokuhlola), okuwumsebenzi osizayo; umqondo oyinhloko wokulawula ukushaja nokukhipha kanye nokuqalisa nokuyeka ukuqala kwe-supercapacitor enezingqimba ezimbili kwenziwa ngokuzimela uhlelo lokuphatha ibhethri le-hardware BMS, ngaphandle kokuthembela esignalini ye-4G.
7. Uhlobo Lwenkinga: Ukuqinisekiswa Kokuthembeka
Inkinga: Ingabe imojula yokuqala ephuthumayo enenkinobho eyodwa eyakhiwe yi-SDB 3.0V 30F supercapacitor enezingqimba ezimbili kanye nebhethri le-lithium le-4G ingasebenza ngokuthembekile ezimweni zezulu nezinkathi ezahlukene? Impendulo: Ububanzi bokushisa bokusebenza be-Electric Double Layer Capacitor bungu--40℃ kuya ku-85℃, bumboza ngokuphelele ububanzi bokushisa bokusebenza kwebhethri obungu--35℃ kuya ku-60℃. Uhlelo oluhlanganisiwe lungasebenza ngokuthembekile ezimweni zezulu nezinkathi ezahlukene.
8. Uhlobo Lombuzo: Ukusebenza Kwansuku Zonke
Umbuzo: Ingabe ukulungiswa nokuphathwa kwansuku zonke kuyinkimbinkimbi?
Impendulo: I-SDB series Electric Double Layer Capacitor inempilo yomjikelezo weseli elilodwa efinyelela ku-500,000 imijikelezo kanye nempilo yomjikelezo wemojuli edlula imijikelezo eyi-100,000, kanye nempilo yomjikelezo engamakhulu ezinkulungwane zemijikelezo, edlula kakhulu impilo yomjikelezo wamabhethri e-lithium. Ukuhlanganisa i-Electric Double Layer Capacitor nebhethri le-lithium ohlelweni kunciphisa kakhulu umthelela wamandla aphezulu ebhethri, kugwenywe ukukhishwa okuphezulu okulimaza impilo yalo, kwandise isikhathi sokuphila sesistimu iyonke, futhi kufezwe ukusebenza okungenakulungiswa.
9. Uhlobo Lombuzo: Ukuqinisekiswa Kokuzinza
Umbuzo: Ingabe ibhethri le-lithium elihlakaniphile liphephile futhi lizinzile uma lisetshenziswa isikhathi eside ezimotweni ezisindayo?
Impendulo: Iqukethe “ukuvikelwa kokuphepha kwe-A-grade Automotive,” esebenzisa imiklamo eminingi yokuvikela ngokomzimba okuhlanganisa ukumelana nokubhoboza, ukumelana nokushayisana, kanye nokumelana nokuchotshozwa. Iyakwazi ukuzivumelanisa nezimo ezibucayi kusukela ku--35°C kuya ku-60°C, inesilinganiso se-IP65 esingangeni manzi futhi esingangeni uthuli, futhi iphumelele ukuhlolwa kokudlidliza okuqhubekayo kwamahora angu-48 ngokwezinga eliqinile kakhulu le-Type D ku-GB/T 5008.1-2023. Ifaka uhlelo lokuphatha impilo yebhethri le-BMS ne-AI olwakhelwe ngaphakathi ukuqapha isimo sebhethri ngesikhathi sangempela nokunikeza izixwayiso zakuqala zeziphazamiso.
10. Uhlobo Lombuzo: Inzuzo Yezindleko
Umbuzo: Ingabe i-module yokuqalisa ephuthumayo enenkinobho eyodwa, eyakhiwe yi-SDB 3.0V 30F Electric Double Layer Capacitor kanye nebhethri le-lithium le-4G, inezinzuzo zezindleko uma kuqhathaniswa namabhethri endabuko e-lead-acid?
Impendulo: Amabhethri e-lead-acid aphila iminyaka engaba ngu-2, kuyilapho ibhethri le-lithium kanye nesistimu ye-Electric Double Layer Capacitor synergistic ivikela ngempumelelo ibhethri le-lithium ekulimaleni okukhulu kokukhipha ngokuvimbela imisinga emikhulu nge-Electric Double Layer Capacitor. Isikhathi esilindelekile sokuphila singafinyelela eminyakeni engu-8-10. Lolu hlelo lunciphisa kakhulu izindleko zokufaka esikhundleni nezokulungisa. Nakuba ukutshalwa kwezimali kokuqala kuphakeme, ikhambi linokusebenza kahle kwezindleko ngokuhamba kwesikhathi ngenxa yokuphila kwalo isikhathi eside, ukusebenza ngaphandle kokulungisa, kanye nokuthembeka okuphezulu.
Isikhathi sokuthunyelwe: Jan-27-2026