Amapharamitha Obuchwepheshe Ayinhloko
| Into | Isici | |
| Ibanga Lokushisa Lokusebenza | -40~+70℃ | |
| I-Voltage Yokusebenza Elinganisiwe | 5.5V, 7.5V | |
| Ububanzi Bomthamo Ojwayelekile | 0.1F~30F | |
| Ukuphambuka Komthamo Wokushisa Kwegumbi | -10%~+30%(25℃) | |
| Impilo Yomthwalo Wokushisa Okuphezulu | Ngemva kokusebenzisa njalo i-voltage elinganisiwe ekushiseni okulinganisiwe amahora ayi-1000, buyisela ku-25℃ ukuze ihlolwe; | ukuhlangabezana nezidingo ezilandelayo: ushintsho lomthamo ΔC < 30% wenani lokuqala, ukumelana kwangaphakathi < izikhathi ezine kunenani lokuqala |
| Impilo Yokushisa Okunomswakama Ozinzile | Ngaphansi kuka-40℃ kanye no-90%~95%RH, sebenzisa i-voltage ekalwe njalo amahora angu-240, bese uyibuyisela ku-25℃ ukuze ihlolwe; | ukuhlangabezana nezidingo ezilandelayo: ushintsho lomthamo ΔC < 30% wenani lokuqala, ukumelana kwangaphakathi < izikhathi ezine kunenani lokuqala |
| Izici Zokuzikhipha Emotweni | Ngemva kokushaja amandla kagesi aqhubekayo ku-voltage elinganisiwe, shaja ku-voltage engaguquki amahora angu-8, bese uyiyeka ime isekethe ivuliwe amahora angu-24. | I-voltage eseleyo ingaphezu kuka-80% we-voltage elinganisiwe. |
| Impilo Yomjikelezo Wokushaja Nokukhipha Igesi | Ku-25℃, sebenzisa ugesi oqhubekayo ukuze wenze umjikelezo we-capacitor ushaje futhi ukhiphe phakathi kuka-3.8V-2.5V izikhathi ezingu-50,000; | ukuhlangabezana nezidingo ezilandelayo: ushintsho lomthamo ΔC < 30% wenani lokuqala, ukumelana kwangaphakathi < izikhathi ezine kunenani lokuqala |
| Indawo Efanele Yokugcina Izinto | -10℃~40℃, ngaphansi kuka-60%RH | |
Umdwebo Wezilinganiso Zomkhiqizo
Ihluzo zokubukeka zemojuli yezintambo ezimbili (5.5V)
Usayizi wokubukeka wemojuli yezintambo ezimbili (5.5V)
| Ububanzi be-monomer | D | W | P | Φd | |
| Uhlobo | Btyoe | ||||
| φ5 | 5 | 10 | 7 | / | 0.5 |
| Φ6.3 | 6.3 | 13 | 9 | / | 0.5 |
| φ8 | 8 | 16 | 11.5 | 4.5 | 0.6 |
| φ10 | 10 | 20 | 15.5 | 5 | 0.6 |
| φ12.5 | 12.5 | 25 | 17.5 | 7.5 | 0.6 |
| Φ16 | 16 | 33 | 24 | 8.5 | 0.8 |
| φ18 | 18 | 37 | 26 | 10.5 | 0.8 |
Ihluzo zokubukeka zemojuli yezintambo ezintathu (7.5V)
Usayizi wokubukeka wemojuli yezintambo ezintathu (7.5V)
| Ububanzi be-monomer | D | W | P | Φd | |
| Uhlobo | Btyoe | ||||
| Φ8 | 8 | 24 | 20 | 13.5 | 0.6 |
| φ12.5 | 12.5 | 37.5 | 31 | 21 | 0.6 |
| φ16 | 16 | 49 | 25.5 | 21 | 0.8 |
Ukuhola Inguquko Yokugcina Amandla: Ukuhlaziywa Okujulile Kwe-YMIN's SDM Series Double-Layer Supercapacitors
Enkathini yanamuhla yokuphishekela amandla asebenzayo futhi azinzile, kokubili izimoto zikagesi ezithuthuka ngokushesha kanye namagridi ahlakaniphile akha amadolobha ahlakaniphile kubeka izidingo ezingakaze zibonwe kumadivayisi okugcina amandla: akumelwe nje agcine amandla ngempumelelo kodwa futhi awakhulule ngokushesha nangokuqhubekayo. Amabhethri endabuko, yize enesisindo esikhulu samandla, ahlushwa ubuningi bamandla obulinganiselwe, ukushaja okuhamba kancane, kanye nokuphila komjikelezo omfushane; ama-capacitor ajwayelekile anikeza ubuningi bamandla aphezulu kodwa awanele ubuningi bamandla. Kungalesi simo lapho ama-supercapacitor anezingqimba ezimbili avele njengesixazululo sokugcina amandla esiphazamisayo futhi asheshe abe yizingxenye ezibalulekile emikhakheni eminingi yobuchwepheshe obuphezulu.
Njengomkhiqizi ohamba phambili wama-supercapacitor anezingqimba ezimbili eShayina, i-YMIN imi phambili kakhulu kuleli gagasi lobuchwepheshe ngama-supercapacitor ayo asezingeni eliphezulu e-SDM. Uchungechunge lwe-SDM aluyona nje ingxenye elula ye-elekthronikhi; luyitshe legumbi lamandla elisebenza kahle elenzelwe izinhlelo zokusebenza zanamuhla ezinamandla aphezulu.
Izinzuzo eziyinhloko zama-supercapacitor e-SDM ochungechunge lwe-YMIN zakhiwe phezu kwemingcele eqinile yobuchwepheshe kanye nokulawulwa kwekhwalithi okuqinile.
1. Ububanzi Bokushisa Okubanzi Nokuzinza Okuhle Kakhulu:
Uchungechunge lwe-SDM lunezinga lokushisa elibanzi lokusebenza elisukela ku--40℃ kuya ku-+70℃. Lesi sici siqinisekisa ukusebenza okuzinzile kanye nokungabikho kokwehla kokusebenza kwama-capacitor, kungakhathaliseki ukuthi kusebusika obunzima bezifunda ezisenyakatho noma ezindaweni ezishisa kakhulu ngaphakathi kwemishini. Ukuhlolwa kwayo kokuqina kokushisa okuphezulu kanye nezici zokugcina kukhombisa ukuthi ngemva kwamahora ayi-1000 okusebenza ngokugcwele noma isitoreji ku-70℃, izinga lokushintsha kwamandla lilawulwa ngokuqinile ngaphakathi kwe-±30% yenani lokuqala, futhi ukwanda kokumelana kwangaphakathi (ESR) kungaphansi kokuphindwe kane kunezinga lokuqala. Lokhu kuzivumelanisa nezimo okuqinile kwemvelo kunikeza isiqinisekiso esiqinile sokuthembeka kwemishini ngaphansi kwezimo zezulu ezahlukahlukene ezimbi kakhulu kanye nezimo zokusebenza eziyinkimbinkimbi.
2. Ukumelana Okuphansi Kwangaphakathi kanye Nesikhathi Eside Sokuphila:
Ukumelana nochungechunge olulinganayo oluphansi (i-ESR) kuyinto evelele kakhulu ochungechungeni lwe-SDM. Ukumelana kwangaphakathi okuphansi kusho ukulahlekelwa amandla okuncane ngesikhathi sokushaja nokukhipha, okuholela ekusebenzeni kahle okuphezulu, ikakhulukazi ezimweni ezidinga ukukhishwa kwamandla aphezulu ngokushesha (njengokuqala kwemoto kanye nesinxephezelo samandla esiphezulu semishini), okuvumela ukukhishwa kwamandla okusheshayo nangokusebenza kahle. Okwamanje, isimiso sama-supercapacitor anezingqimba ezimbili sinquma impilo yawo yomjikelezo idlula kakhulu eyamabhethri (ngokuvamile ifinyelela amakhulu ezinkulungwane noma ngisho nezigidi zemijikelezo). I-YMIN, ngobuchwepheshe bezinto ezithuthukisiwe kanye nezinqubo zokukhiqiza, ihumushe le nzuzo yemfundiso ibe ngokoqobo. Imikhiqizo yochungechunge lwe-SDM inokuphila okulinganiselwe kwamahora angaphezu kwe-1000, okunciphisa kakhulu izindleko zokugcinwa kwesikhathi sonke kanye nemvamisa yokushintsha imishini.
3. Ukucushwa kwe-Voltage eguquguqukayo kanye nomthamo:
Uchungechunge lwe-SDM lunikeza izinketho eziningi ze-voltage ezilinganiselwe, kufaka phakathi i-5.5V, i-6.0V, kanye ne-7.5V, futhi luhlanganisa ububanzi obukhulu be-capacitance kusukela ku-0.1 Farads kuya ku-30 Farads. Uhlu oluphelele lwamamodeli luyatholakala, kusukela ku-Φ5mm encane kuya ku-Φ18mm enkulu, ehlangabezana nezakhiwo zesikhala ezahlukene kanye nezidingo zamandla. Lo mklamo we-modular uvumela onjiniyela ukuthi bahlanganise kalula amayunithi amaningi ngamanye abe amamojula anama-voltage aphezulu noma amandla amakhulu (njengamamojula anezintambo ezimbili okukhulunywe ngawo kudokhumenti), enikeza ukuguquguquka okukhulu kwezinhlelo zokusebenza ezenzelwe wena.
4. Ukuthobela Imithetho Yezemvelo:
Imikhiqizo yochungechunge lwe-YMIN SDM ilandela ngokugcwele iziqondiso ze-RoHS kanye ne-REACH, ikhawulela ngokuqinile ukusetshenziswa kwezinto eziyingozi. Lokhu kubonisa ukuzibophezela kwe-YMIN ekuvikelweni kwemvelo njengesakhamuzi senkampani esinomthwalo wemfanelo futhi kuvumela imikhiqizo ukuthi ingene emakethe yomhlaba wonke ngaphandle kwezithiyo.
II. Izimo Zokusebenza: Ukunika Amandla Izimboni Nokuxazulula Amaphuzu Obuhlungu Obuyinhloko
Izici zobuchwepheshe zama-supercapacitor e-YMIN SDM ochungechungeni olunezingqimba ezimbili ziwenza abe yisisombululo esingenakufakwa esikhundleni ezindaweni eziningana ezibalulekile.
1. Izimoto Ezintsha Zamandla Nokuthutha Okuhlakaniphile:
• Ukuvuselelwa Kwamandla Okubhuleka Okuvuselelayo: Ngesikhathi sokubhuleka ezimotweni zikagesi noma ezixubile, ama-supercapacitor e-SDM angqimba oluphindwe kabili angamunca futhi abuyisele amandla amakhulu e-kinetic akhiqizwayo futhi awagcine. Ngenxa yokuthi ijubane lawo lokushaja nokukhipha amandla lishesha kakhulu kunelebhethri, ukusebenza kahle kokubuyiselwa kwamandla kuthuthuka kakhulu, okufaka isandla ngqo ekwandiseni ibanga lokushayela kwemoto.
• Usizo Lokuqalisa Nokusheshisa: Ngesikhathi sokuqala okubandayo noma ukusheshisa okusheshayo, izimoto zidinga ukwesekwa kwamandla aphezulu ngokushesha. Ama-supercapacitor e-SDM angqimba oluphindwe kabili angaxhunywa kanyekanye nebhethri eliyinhloko ukuze anikeze amandla aphezulu lapho ibhethri lingakwazi ukuphendula ngokushesha ngokwanele, kuncishiswe umthwalo webhethri, kuvikelwe impilo yebhethri, kwandiswe isikhathi sayo sokuphila, futhi kuthuthukiswe ulwazi lokushayela.
2. Ukuphathwa Kwegridi Ehlakaniphile kanye Namandla Ezimboni:
• Isinxephezelo Samandla Aphezulu: Ngesikhathi sokusetshenziswa kukagesi okuphezulu, umthwalo wegridi uyakhuphuka. Ama-supercapacitor e-SDM angqimba oluphindwe kabili angasebenza "njengombani wamandla," afake ngokushesha inani elikhulu lamandla kugridi, enze kube lula ijika lomthwalo, aqinisekise ukuzinza kwegridi, futhi avimbele ukwehluleka okubangelwa ukugcwala ngokweqile.
• Amandla Okusekelayo Emishini Yezimboni: Kumadivayisi afana namamitha ahlakaniphile, abalawuli bezimboni, kanye neziteshi zokuxhumana, ama-supercapacitor e-SDM angqimba oluphindwe kabili angasebenza njengamandla okusekelayo okuvikela ukucima kukagesi. Impendulo yawo esheshayo, isikhathi eside sokuphila, kanye nezici ezingenakulungiswa ziqinisekisa ukuthi idatha ebalulekile ayilahleki nokuthi uhlelo lungavala ngokuphephile noma lugcine ukusebenza kwesikhashana ngemuva kokucima kukagesi, okwenza athembeke kakhulu kunamabhethri.
3. Ama-elekthronikhi Abathengi kanye Namadivayisi Ahlakaniphile:
• Ukunikezwa Kwamandla Aphezulu Okusheshayo: Amadivayisi anjengezibani zekhamera, amathoyizi kagesi, kanye nezingidi zeminyango ezihlakaniphile zidinga ukuphuma kwamandla aphezulu ngokushesha. Ama-supercapacitor e-SDM angqimba oluphindwe kabili angashajwa ngokugcwele ngesikhathi esifushane futhi akhishwe ngokuqhuma uma kudingeka, okunikeza ukusebenza okunamandla.
• Ukunikezwa Kwamandla Okusekelayo Kwedatha: Kusetshenziselwa ukuvikela idatha ye-RAM kumabhodi e-computer, amamitha ahlakaniphile, njll. Uma kwenzeka ugesi unqamuka ngokuzumayo, i-supercapacitor enezingqimba ezimbili ingashintsha ngokushesha futhi inikeze amandla esikhashana kwimemori, iqinisekise ukubhalwa kwedatha okuphephile.
4. Imishini Yezempi Neyezinga Eliphezulu:
• Emikhakheni ebaluleke kakhulu njengemikhumbi-ngwenya, imikhumbi, kanye nezindiza, imishini inezidingo eziqinile kakhulu zokuthembeka, ukuzivumelanisa nezimo kwemvelo, kanye nokuphila kwezinhlelo zamandla. Ububanzi bokushisa okusebenzayo, ukuzinza okuphezulu, kanye nokuphila isikhathi eside kwemikhiqizo yochungechunge lwe-YMIN SDM kuhlangabezana kahle nezidingo zalezi zinhlelo zokusebenza eziphezulu, okunikeza ukwesekwa kwamandla okuzinzile nokuthembekile kwemishini ebalulekile.
Ukukhetha ama-supercapacitor e-SDM ochungechunge lwe-YMIN kusho ukukhetha umlingani othembekile.
• Ubuholi Bobuchwepheshe: I-YMIN itshala imali njalo ku-R&D ukuqinisekisa ukuthi imingcele yayo yobuchwepheshe bomkhiqizo ihamba phambili embonini futhi ingahlinzeka ngentuthuko eyenziwe ngokwezifiso ngokuya ngezidingo zamakhasimende.
• Ikhwalithi Ethembekile: Kusukela ezintweni zokusetshenziswa kuya emikhiqizweni eqediwe, i-YMIN isungule uhlelo oluqinile lokulawula ikhwalithi kusukela ekuqaleni kuya ekugcineni ukuqinisekisa ukuthi yonke i-supercapacitor enezingqimba ezimbili ephuma efektri isebenza kahle futhi ikhwalithi enhle kakhulu.
• Isevisi Ephelele: Kusukela ekusekelweni kokuqala kokukhetha ubuchwepheshe kuya ekuhlolweni kwesampula yesikhathi esiphakathi kanye nokukhiqizwa kwesisindo okulandelayo, i-YMIN inikeza izinsizakalo zobungcweti eziphelele ukusiza amakhasimende ukuthi afinyeze imijikelezo ye-R&D futhi athuthukise ukwakheka komkhiqizo.
Isiphetho: Bambisana ne-YMIN ukuze Udale Ikusasa Lamandla Ahlanganyelwe
Ngamafuphi, ama-supercapacitor e-SDM ochungechunge lwe-YMIN, anomthamo wamandla aphezulu, ukushaja/ukukhipha okusheshayo, isikhathi eside sokuphila, ububanzi bokushisa bokusebenza obubanzi kakhulu, kanye nokuthembeka okuvelele, agcwalisa kahle igebe lobuchwepheshe phakathi kwamabhethri endabuko nama-capacitor ajwayelekile. Awagcini nje ngokuba ithuluzi elinamandla lokuxazulula izinkinga eziningi zamandla zamanje ezimbonini ezahlukahlukene, kodwa futhi abuchwepheshe obuyisihluthulelo sezwe lamandla elisebenza kahle neliluhlaza esikhathini esizayo.
Kuguquko lwanamuhla lwamandla olukhula ngokushesha, i-YMIN izimisele ukubambisana nabalingani abavela kuzo zonke izinhlaka ukufaka umfutho oqinile ezinhlelweni zakho ezintsha ngemikhiqizo ye-SDM ethuthukisiwe yochungechunge lwe-SDM olunezingqimba ezimbili, okuholela umphakathi ndawonye ekusaseni elihlakaniphile, elisebenza kahle kakhulu, neliqhubekayo.
| Uchungechunge | I-Voltage Elinganisiwe (V) | Umthamo (F) | Ubukhulu Bomkhiqizo ΦD×L (mm) | I-ESR (mΩ/20℃, 1kHz) | Ukuvuza Kwamanje ku-72h (μA) | Inombolo Yomkhiqizo |
| I-SDM | 5.5 | 0.1 | 10×5×12 | 1200 | 2 | I-SDM5R5M1041012 |
| 5.5 | 0.22 | 10×5×12 | 800 | 2 | I-SDM5R5M2241012 | |
| 5.5 | 0.33 | 10×5×12 | 800 | 2 | I-SDM5R5M3341012 | |
| 5.5 | 0.47 | 13×6.3×12 | 600 | 2 | I-SDM5R5M4741312 | |
| 5.5 | 0.47 | 16×8×14 | 400 | 2 | I-SDM5R5M4741614 | |
| 5.5 | 1 | 16×8×18 | 240 | 4 | I-SDM5R5M1051618 | |
| 5.5 | 1.5 | 16×8×22 | 200 | 6 | I-SDM5R5M1551622 | |
| 5.5 | 2.5 | 20×10×22 | 140 | 10 | I-SDM5R5M2552022 | |
| 5.5 | 3.5 | 20×10×22 | 140 | 12 | I-SDM5R5M3552022 | |
| 5.5 | 5 | 20×10×27 | 100 | 20 | I-SDM5R5M5052027 | |
| 5.5 | 7.5 | 25×12.5×27 | 60 | 30 | I-SDM5R5M7552527 | |
| 5.5 | 10 | 25×12.5×32 | 50 | 44 | I-SDM5R5M1062532 | |
| 5.5 | 15 | 33×16×35 | 50 | 60 | I-SDM5R5M1563335 | |
| 5.5 | 25 | 37×18×43 | 40 | 100 | I-SDM5R5M2563743 | |
| 5.5 | 30 | 37×18×43 | 30 | 120 | I-SDM5R5M3063743 | |
| 7.5 | 0.33 | 24×8×14 | 600 | 2 | SDM7R5M3342414 | |
| 7.5 | 0.6 | 24×8×18 | 420 | 4 | SDM7R5M6042418 | |
| 7.5 | 1 | 24×8×22 | 240 | 6 | I-SDM7R5M1052422 | |
| 7.5 | 1.5 | 30×10×22 | 210 | 10 | I-SDM7R5M1553022 | |
| 7.5 | 2.5 | 30×10×27 | 150 | 16 | SDM7R5M2553027 | |
| 7.5 | 3.3 | 30×10×27 | 150 | 20 | SDM7R5M3353027 | |
| 7.5 | 5 | 37.5×12.5×27 | 90 | 30 | SDM7R5M5053827 |
