IiParamitha zoBugcisa eziPhambili
| Into | Uphawu | |
| Uluhlu lobushushu bokusebenza | -40~+70℃ | |
| Ixabiso leVoltage yokusebenza elilinganiselweyo | 2.7V | |
| Uluhlu Lomthamo Oqhelekileyo | 1.0F~160F | |
| Ukuphambuka komthamo wobushushu begumbi | -10%~+30%(25℃) | |
| Ubomi bomthwalo obuphezulu bobushushu | Emva kokusebenzisa rhoqo i-voltage elinganisiweyo kubushushu obulinganisiweyo kangangeeyure ezili-1000, buyisela kwi-25℃ ukuze kuvavanywe; | ukuhlangabezana neemfuno ezilandelayo: utshintsho lomthamo ΔC < 30% yexabiso lokuqala, ukumelana kwangaphakathi < amaxesha ama-4 exabiso lokuqala |
| Ubomi bobushushu obuhlala buzinzile | Phantsi kwama-40℃ kunye nama-90%~95%RH, qhubeka usebenzisa i-voltage elinganisiweyo iiyure ezingama-240, uze uyibuyisele kwi-25℃ ukuze ivavanywe; | ukuhlangabezana neemfuno ezilandelayo: utshintsho lomthamo ΔC < 30% yexabiso lokuqala, ukumelana kwangaphakathi < amaxesha ama-4 exabiso lokuqala |
| Iimpawu zokuzikhupha emzimbeni | Emva kokutshaja rhoqo kwi-voltage elinganisiweyo, tshaja kwi-voltage engaguqukiyo iiyure ezisi-8, uze uyiyeke ime ngelixa i-circuit ivuliwe iiyure ezingama-24. | I-voltage eseleyo ingaphezulu kwe-80% ye-voltage elinganisiweyo. |
| Ubomi boMjikelo wokuTshaja nokuKhupha | Kwi-25℃, sebenzisa i-constant current ukwenza i-capacitor cycle charge kunye ne-discharge phakathi kwe-3.8V-2.5V amaxesha angama-50,000; | ukuhlangabezana neemfuno ezilandelayo: utshintsho lomthamo ΔC < 30% yexabiso lokuqala, ukumelana kwangaphakathi < amaxesha ama-4 exabiso lokuqala |
| Indawo yokugcina efanelekileyo | -10℃~40℃, ngaphantsi kwe-60%RH | |
Umzobo Wemilinganiselo Yemveliso
| L≤16 | a=1.5 |
| L>16 | a=2.0 |
| D | 8 | 10 | 12.5 | 16 | 18 | 22 |
| d | 0.6 | 0.6 | 0.6 | 0.8 | 0.8 | 0.8 |
| F | 3.5 | 5 | 5 | 7.5 | 7.5 | 10 |
Ukunika Amandla Ikamva, Ukukhulula Amaxesha Amandla: Ukusebenza Okugqwesileyo kunye namathemba okusetyenziswa kwe-YMIN SDL Series Supercapacitors
Kule mihla siphucukileyo kwezobuchwepheshe, siqhutywa kukufuna ukusebenza kakuhle, ukonga amandla, kunye nokuthembeka, uyilo lweteknoloji yokugcina amandla luyinto ephambili eqhubela phambili kuzo zonke iimboni. Phakathi kweebhetri kunye nee-capacitors zemveli, ii-supercapacitors zithatha indawo ebalulekileyo kunye neenzuzo zazo ezikhethekileyo. I-YMIN, umenzi ophambili we-capacitor eTshayina, iqalise uthotho lwayo lwe-SDL Electric Double Layer Capacitors (EDLCs), umzekelo ophambili kweli candelo. Ayisiyo nje kuphela i-carrier yamandla esebenza kakuhle kodwa ikwayi-"injini yamandla yexeshana" esombulula ingxaki yamandla kwiinkqubo ze-elektroniki zanamhlanje.
Ixabiso eliphambili le-SDL series supercapacitors lilele ekuzaliseni umsantsa wokusebenza phakathi kwee-capacitors ze-aluminium electrolytic zemveli kunye neebhetri zeekhemikhali. Xa kuthelekiswa neebhetri, nangona uxinano lwamandla alo luphantsi, uxinano lwamandla alo luphezulu kakhulu, okuvumela ukutshaja nokukhupha ngokukhawuleza kwinqanaba lesibini okanye le-millisecond. Xa kuthelekiswa nee-capacitors eziqhelekileyo, amandla alo makhulu kakhulu, afikelela kumanqanaba e-farad (F) okanye kwanamakhulu e-farad, anako ukugcina nokukhupha amandla amaninzi.
Olu didi olulodwa lokusebenza lwenza uthotho lwe-SDL lube ngaphezu nje kwento elula yesekethe; yi-"energy hub" esebenza kakuhle kakhulu. Iimpawu zayo eziphambili zobugcisa zingashwankathelwa ngolu hlobo lulandelayo:
• Ubuninzi bamandla aphezulu kunye nokuphendula ngokukhawuleza: Iyakwazi ukubonelela okanye ukufunxa imisinga emikhulu ngokukhawuleza ukuhlangabezana neemfuno zamandla aphezulu zezixhobo ngexesha lokuqalisa, ukubhuleka, okanye ukuphatha imithwalo ngequbuliso.
• Ubomi bomjikelo omde kakhulu: Ukuya kuthi ga kwimijikelo yokukhupha itshaja engama-500,000, edlula kakhulu ubomi bebhetri yamakhemikhali, ngokwenene ifezekisa iinjongo zoyilo "lokungalungi" okanye "ubomi obulingana nobo bezixhobo."
• Uluhlu olubanzi lobushushu bokusebenza: Ukusebenza okuzinzileyo kwiindawo ezinzima ukusuka kwi -40℃ ukuya kwi +70℃, okufanelekileyo ngakumbi ekuqaliseni izixhobo kwiindawo ezinobushushu obuphantsi, apho ukusebenza kweebhetri zeekhemikhali kuncipha kakhulu kumaqondo obushushu aphantsi.
• Ukhuseleko oluphezulu kunye nokuthembeka: Ukusebenzisa imigaqo yokugcina amandla angokwenyama, akukho mpendulo yamakhemikhali, kususa iingozi zokutsha okanye ukuqhuma, kunye nokuthobela imiyalelo yokusingqongileyo yeRoHS kunye neREACH.
• Iimpawu ezibalaseleyo zokuzikhupha: Emva kweeyure ezingama-24 zokuphumla, i-voltage yayo yesiphelo isahlala ingaphezulu kwe-80% ye-voltage elinganisiweyo, iqinisekisa ukugcinwa kwamandla okusebenzayo.
Ukusebenza okuphezulu kwe-YMIN SDL series supercapacitors kuvela ekukhetheni kwayo ngononophelo izinto, inkqubo yokuvelisa engqongqo, kunye nolawulo oluqinileyo lomgangatho.
1. Uyilo lwe-ESR ephantsi: Isitshixo sokuphuma kwamandla
Inzuzo ebalulekileyo yeemveliso zeSDL series kukuba ziphantsi kakhulu xa zinokumelana noxinzelelo olulinganayo (ESR). Njengoko kubonisiwe kwiinkcukacha zemveliso, ixabiso lazo le-ESR linokuba liphantsi njenge-10mΩ. Ukumelana okuphantsi kwangaphakathi kuthetha ukulahleka kwamandla okuncinci ngexesha lokutshaja nokukhupha itshaja, nto leyo ebangela ukusebenza kakuhle. Oku akunciphisi nje kuphela ukwakheka kobushushu kwaye kuphucula ukuthembeka, kodwa okubaluleke ngakumbi, kuqinisekisa ukuba i-voltage ayiwi kakhulu xa kufuneka umbane omkhulu okhawulezileyo, ngaloo ndlela kuqinisekisa inkxaso yamandla eqinileyo nenamandla kumthwalo osezantsi.
2. Imigangatho yoVavanyo oluQolileyo lobomi bonke: Isiqinisekiso sokuthembeka
I-YMIN imisele imigangatho yovavanyo lobomi bonke kwiimveliso ze-SDL series ezidlula kakhulu imigangatho yoshishino. Umzekelo, emva kweeyure ezili-1000 zokusebenza komthwalo opheleleyo kwi-70°C, izinga lokutshintsha kwamandla (ΔC) lisengaphantsi kwe-30% yexabiso lokuqala, kwaye ukunyuka kokumelana kwangaphakathi kungaphantsi kwexabiso lokuqala ngokuphindwe kane. Ukongeza, kukho iimvavanyo zobomi bobushushu obumanzi obuzinzileyo (40°C, 90-95% RH, iiyure ezingama-240) kunye novavanyo lobomi bomjikelo wokukhupha itshaja olungama-50,000. Ezi datha zovavanyo ezingqongqo zibonelela iinjineli ngokuzithemba okuqinileyo xa beyila iinkqubo ezinokuthenjwa kakhulu.
3. I-Refined Product Matrix: Ukuhlangabezana neemfuno ezahlukeneyo
Uthotho lwe-SDL lubonelela ngoluhlu olubanzi lwe-capacitance ukusuka kwi-1.0F ukuya kwi-160F, kunye nobukhulu bobubanzi ukusuka kwi-8mm ukuya kwi-22mm. Le matrix yemveliso ecociweyo ivumela iinjineli ukuba zikhethe ngokuguquguquka ngokusekelwe kwimida ethile yendawo, iimfuno zamandla, kunye neemfuno zamandla. Nokuba zifuna amandla amancinci okugcina idatha ye-RAM okanye amandla amakhulu kakhulu okubuyisela amandla, uthotho lwe-SDL lubonelela ngezisombululo ezichanekileyo.
Iimpawu zee-SDL series supercapacitors zibenza bakhanye kwiindawo ezininzi zobuchwepheshe obuphambili.
1. Ii-Elektroniki zeeMoto: Ukuma okuQalayo okuBukrelekrele kunye nokuBuyisa amandla
Kwizithuthi zamandla ezintsha nakwizithuthi ezikrelekrele, ii-SDL supercapacitors zilungele iinkqubo ezikrelekrele zokuqalisa. Xa imoto imisiwe okwethutyana kwaye injini icinyiwe, i-supercapacitor ingazinika amandla iinkqubo ezifana ne-air conditioning kunye neenkqubo ze-audio ngoko nangoko; xa kufuneka iqalwe, inokubonelela ngombane omkhulu ngoko nangoko ukuqhuba i-starter motor, inciphise impembelelo kwibhetri kwaye yandise ubomi bebhetri. Kwiinkqubo zokubuyisela amandla eebhuleki, inokubamba ngokufanelekileyo kwaye igcine ngokukhawuleza amandla ebhuleki aveliswa ngoko nangoko ukuze ikhawulezise isantya esilandelayo, iphucule ngokufanelekileyo ukusetyenziswa kwamandla.
2. Iiseva zeDatha ze-AI kunye nezixhobo zoNxibelelwano: Ukuphatha iiNqanaba zamandla ezikhawulezileyo
Iiseva ze-AI, izitishi zesiseko ze-5G, kunye nezinye izixhobo zivelisa iipulse zamandla aphezulu ngoko nangoko ngexesha lokubala okanye ukucubungula isignali. Iinkqubo zamandla zemveli ziyasokola ukuphendula kutshintsho olukhawulezayo lwemfuno, olunokukhokelela ekwehleni kwe-voltage, ukungazinzi kwenkqubo, okanye nokuba ziingozi zenkqubo. Ukudibanisa ii-SDL supercapacitors ngaxeshanye nombane ophambili kusebenza njenge "pool yamandla ekhawulezileyo," kugcwalisa ngokukhawuleza umsantsa xa inkqubo ifuna amandla aphezulu, igcina uzinzo lwe-voltage, kwaye iqinisekisa ukusebenza okungaphazanyiswayo kwezixhobo ezibalulekileyo iiyure ezingama-24 ngosuku, iintsuku ezisixhenxe ngeveki.
3. Iirobhothi kunye nokuZenzekela kweMizi-mveliso: Ukuqinisekisa uKhuseleko kunye nokuChaneka
Kwiirobhothi zoshishino, ii-AGV (Izithuthi Ezikhokelwayo Ezizenzekelayo), kunye needroni, ii-SDL supercapacitors zingasetyenziswa njengamandla okuxhasa ngexesha likaxakeka. Xa umbane ophambili uphazamiseka ngokungalindelekanga, unokubonelela ngamandla ngoko nangoko, uvumele irobhothi ukuba igqibezele isenzo sayo sangoku kwaye ime ngokukhuselekileyo, okanye ivumele idrone ukuba ifike ngexesha likaxakeka, iphephe umonakalo wepropathi kunye nokwenzakala komntu. Kwangaxeshanye, inika amandla aphezulu kwiimoto eziqhubayo, iqinisekisa isantya kunye nokuchaneka kweentshukumo zerobhothi.
4. Iimitha ezikrelekrele kunye nezixhobo ze-IoT: Ukuqinisekisa "ukugcinwa kwedatha"
Kwiimitha ezikrelekrele, iimitha zamanzi, kunye neemitha zegesi, ii-SDL supercapacitors zingasebenza njengomthombo wamandla wokukhusela ukucima kombane. Xa umbane we-mains ungasebenzi, ngoko nangoko uthatha umbane, uvumela imitha ukuba igqibezele ukurekhoda kwayo kokugqibela kwedatha kwaye ilayishe ulwazi lwe-alamu, iqinisekisa ukuthembeka kunye nokuchaneka kwedatha yokulinganisa. Ubomi bayo obude kakhulu buhambelana ngokupheleleyo nobomi benkonzo yemitha engaphezu kweminyaka eli-10.
5. Iinkqubo Ezintsha Zokugcina Amandla Namandla: Ukuguquguquka Kwamandla Okuthambisa
Kwiinkqubo ezifana nezibane zelanga kunye nokuveliswa kwamandla omoya, ukungazinzi kwelanga kunye nomoya kunokubangela ukuguquguquka kwamandla okukhupha. Ii-SDL supercapacitors zinokutshaja kwaye zikhuphe ngokukhawuleza, zilungise olu tshintsho kwaye zibonelele ngomthombo wamandla ozinzileyo ngakumbi kwiibhetri ezilandelayo okanye kwigridi yamandla. Oku kukhusela iibhetri ekonakaleni okubangelwa kukutshaja nokukhupha rhoqo, okwandisa ubomi benkqubo yonke.
IV. Izizathu Zokukhetha Uthotho lwe-YMIN SDL
I-YMIN ayiboneleli nje kuphela ngeemveliso ze-SDL series ezisebenza kakuhle kodwa ikwabonelela ngezisombululo ze-capacitor ezine-stop-stop. Le nkampani inenkqubo yolawulo lomgangatho opheleleyo, amandla ophando nophuhliso oluqinileyo, kunye nomgca wemveliso otyebileyo, ukusuka kwii-capacitors ze-aluminium electrolytic ukuya kwii-MLCC kunye nee-supercapacitors, ezikwaziyo ukuhlangabezana neemfuno zabathengi ezahlukeneyo. Isiseko sayo semveliso esiseShanghai siqinisekisa amandla okuvelisa azinzileyo kunye nekhonkco lokubonelela. Ukukhetha i-YMIN kuthetha ukukhetha iqabane lobuchwepheshe elithembekileyo, kungekuphela nje umthengisi wecandelo.
Isiphelo
Ii-supercapacitors ze-SDL ze-YMIN, ezinamandla aphezulu, ubomi obude, ukuthembeka okuphezulu, kunye nokukwazi ukuphendula ngokukhawuleza, ziba yinxalenye ebalulekileyo kuyilo lwenkqubo ye-elektroniki yanamhlanje. Zisombulula ngobuchule ibhalansi phakathi kweemfuno zamandla aphezulu ezikhawulezileyo kunye nokuthembeka kwexesha elide, zibonelela iinjineli ngokuguquguquka okukhulu koyilo. Phantsi kweendlela eziphambili zobuchule, umbane, kunye noqhagamshelo, ii-supercapacitors ze-SDL series ngokuqinisekileyo ziya kunika amandla usetyenziso olutsha kumashishini amaninzi ngokusebenza kwazo okuphezulu, zikhupha amandla obuchwepheshe angenamkhawulo.
| Uthotho | I-Voltage elinganisiweyo (V) | Ubungakanani (F) | Ubukhulu beMveliso ΦD×L (mm) | I-ESR (mΩ/20℃, 1kHz) | Ukuvuza kwangoku kwi-72h (μA) | Umbane oQhubekekayo (A) | Umsinga oPhezulu (A) | Amandla agciniweyo (J) | Inombolo yeMveliso |
| I-SDL | 2.7 | 1 | 8×11.5 | 160 | 2 | 0.26 | 1.09 | 3.6 | I-SDL2R7L1050812 |
| 2.7 | 2 | 8×13 | 120 | 4 | 0.5 | 1.99 | 7.3 | I-SDL2R7L2050813 | |
| 2.7 | 3.3 | 8×20 | 80 | 6 | 0.83 | 3.19 | 12 | I-SDL2R7L3350820 | |
| 2.7 | 3.3 | 10×16 | 70 | 6 | 0.83 | 3.31 | 12 | I-SDL2R7L3351016 | |
| 2.7 | 5 | 10×20 | 60 | 10 | 1.24 | 4.66 | 18.2 | I-SDL2R7L5051020 | |
| 2.7 | 7 | 10×20 | 50 | 14 | 1.71 | 6.2 | 25.5 | I-SDL2R7L7051020 | |
| 2.7 | 10 | 10×25 | 40 | 20 | 2.41 | 8.44 | 36.5 | I-SDL2R7L1061025 | |
| 2.7 | 10 | 12.5×20 | 35 | 20 | 2.44 | 8.85 | 36.5 | I-SDL2R7L1061320 | |
| 2.7 | 15 | 12.5×25 | 30 | 30 | 3.57 | 12.09 | 54.7 | I-SDL2R7L1561325 | |
| 2.7 | 20 | 12.5×30 | 28 | 40 | 4.62 | 14.67 | 72.9 | I-SDL2R7L2061330 | |
| 2.7 | 25 | 16×25 | 26 | 50 | 5.65 | 17.09 | 91.1 | I-SDL2R7L2561625 | |
| 2.7 | 30 | 16×30 | 24 | 60 | 6.66 | 19.47 | 109.4 | I-SDL2R7LL3061630 | |
| 2.7 | 35 | 16×35 | 22 | 80 | 7.68 | 21.93 | 127.6 | I-SDL2R7L3561635 | |
| 2.7 | 40 | 18×40 | 20 | 90 | 8.71 | 24.55 | 145.8 | I-SDL2R7L4061840 | |
| 2.7 | 50 | 18×40 | 18 | 100 | 10.63 | 28.72 | 182.3 | I-SDL2R7L5061840 | |
| 2.7 | 60 | 18×40 | 16 | 110 | 12.58 | 33.2 | 218.7 | I-SDL2R7L6061840 | |
| 2.7 | 100 | 22×45 | 14 | 120 | 19.01 | 43.55 | 364.5 | I-SDL2R7L1072245 | |
| 2.7 | 120 | 22×50 | 12 | 130 | 22.63 | 51.27 | 437.4 | I-SDL2R7L1272250 | |
| 2.7 | 160 | 22×55 | 10 | 140 | 29.19 | 63.53 | 583.2 | I-SDL2R7L1672255 |
