IiParamitha zoBugcisa eziPhambili
| Into | Uphawu | |
| Uluhlu lobushushu bokusebenza | -20~+70℃ | |
| Ixabiso leVoltage yokusebenza elilinganiselweyo | 4.2V~2.5V | |
| Uluhlu Lomthamo Oqhelekileyo | 30F~1300F | |
| 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 | Ukutshaja rhoqo kwamandla ombane ukuya kwi-voltage elinganisiweyo uze emva koko utshaja rhoqo iiyure ezisi-8, i-open circuit ime; | umlinganiselo wokuzikhupha emzimbeni ≤1.5mV/ngosuku (ixesha lovavanyo >iintsuku ezingama-30) |
| 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
Ubukhulu Bomzimba (iyunithi:mm)
| L≤6 | a=1.5 |
| L>16 | a=2.0 |
| D | 5 | 6.3 | 8 | 10 | 12.5 | 16 | 18 |
| d | 0.5 | 0.5 | 0.6 | 0.6 | 0.6 | 0.8 | 1.0 |
| F | 2 | 2.5 | 3.5 | 5.0 | 5.0 | 7.5 | 7.5 |
Injongo Ephambili
◆Iicuba ze-elektroniki
◆Iimveliso ze-elektroniki zedijithali
◆ Ukutshintshwa kweebhetri ezinokutshajwa kwakhona
Iinkcukacha zeMveliso:
Uphuhliso lweTekhnoloji kunye namathemba okusetyenziswa kweYMIN SLD Series Hybrid Supercapacitors
Kwimimandla yanamhlanje ekhula ngokukhawuleza ye-elektroniki kunye namandla acocekileyo, izisombululo zokugcina amandla ezisebenzayo nezithembekileyo ziye zaba ngabaqhubi abaphambili benkqubela phambili kwezobuchwepheshe. Ii-supercapacitors ze-YMIN ze-SLD series hybrid zimveliso entsha ezelwe kule meko. Zidibanisa ngempumelelo iimpawu zamandla aphezulu ee-capacitors zendabuko kunye neenzuzo eziphezulu zamandla eebhetri ze-lithium-ion, zizisa izisombululo zokugcina amandla eziguqukayo kumashishini amaninzi.
Iimpawu zobugcisa:
Inzuzo ephambili yee-SLD series hybrid supercapacitors zikwiiparameter zazo zobugcisa eziphezulu. Olu luhlu lune-voltage elinganisiweyo ye-4.2V kunye nobubanzi bobushushu bokusebenza obubanzi kakhulu (-20℃ ukuya ku-+70℃), nto leyo eyenza ukuba lukwazi ukugcina ukusebenza okuzinzileyo kwiindawo ezixineneyo. Xa kuthelekiswa nezixhobo zemveli zokugcina amandla, uthotho lwe-SLD luphumelele kakhulu kwiinkalo ezahlukeneyo.
Ukuguquguquka okugqwesileyo kobushushu yenye yezona zinto zibalulekileyo zoluhlu lwe-SLD. Kwiimeko zobushushu obuphantsi ze--20℃, imveliso isenokutshajwa ngendlela eqhelekileyo, isombulula umngeni wobugcisa wokutshaja iibhetri ze-lithium-ion eziqhelekileyo kumaqondo obushushu aphantsi. Kwangaxeshanye, kwiindawo zobushushu obuphezulu ukuya kuthi ga kwi-+70℃, uthotho lwe-SLD alukhuphi nje kuphela ngendlela eqhelekileyo kodwa lugcina uzinzo lwexesha elide. Uvavanyo lokuqina lubonisa ukuba emva kweeyure ezili-1000 zokusebenza okuqhubekayo kwi-+70°C, izinga lokutshintsha kwamandla lihlala ngaphakathi kwe-±30% yexabiso lokuqala, kwaye ukunyuka kokumelana kwangaphakathi (ESR) akudluli kane kunomgangatho wokuqala. Olu phawu luyenza ifaneleke ngakumbi ukusetyenziswa phantsi kweemeko ezinzima.
Ubomi bomjikelo omde kakhulu lolunye uphawu oluphambili lothotho lwe-SLD. Le mveliso inokumelana nemijikelo yokutshaja engaphezulu kwama-20,000, idlula kakhulu ixesha lobomi beebhetri zemveli ezinokutshaja. Oku kuthetha ukuba phantsi kweemeko zokusebenza eziqhelekileyo, uthotho lwe-SLD lunokubonelela ngenkonzo ezinzileyo iminyaka eliqela, nto leyo enciphisa kakhulu iindleko zokugcinwa kulo lonke ixesha lobomi besixhobo. Olu phawu lubaluleke kakhulu kwizicelo ezifuna imijikelo yokutshaja rhoqo.
Uxinano olukhulu lwamandla kunye nokukwazi ukukhupha itshaja ngokukhawuleza kwenza uthotho lwe-SLD lube lolwahlukileyo kwicandelo lokugcina amandla. Uxinano lwayo lwamandla luphindwe kalishumi elinesihlanu kunolwe-capacitor enezingqimba ezimbini enobukhulu obufanayo, ngelixa igcina iimpawu zokukhupha itshaja ngokukhawuleza ze-supercapacitor. Olu dibaniso luvumela uthotho lwe-SLD ukuba lubonelele ngokugcinwa kwamandla aphezulu kunye nokukhululwa kwamandla kwangoko kunye nokufunxwa, ukuhlangabezana neemfuno eziphezulu zezixhobo ze-elektroniki zanamhlanje kwiinkqubo zamandla.
Izicelo Ezisebenzayo: Ukunika Amandla Ubuchule Bobuchwepheshe Kwiinkalo Ezininzi
Ngokusekelwe kwiimpawu zobugcisa ezikhankanyiweyo apha ngasentla, ii-SLD series hybrid supercapacitors zibonisa amathuba amaninzi okusetyenziswa kwiindawo ezahlukeneyo.
Kwicandelo leemveliso ze-elektroniki kunye neemveliso zedijithali eziphathwayo, ubungakanani obuncinci kunye noxinano oluphezulu lwamandla lwe-SLD series luyenza ibe ngumthombo wamandla ofanelekileyo. Ukuthatha umzekelo wemodeli ye-SLD4R2L7060825, ububanzi bayo yi-8mm kuphela kwaye ubude bayo yi-25mm, kodwa inika amandla angama-30mAh kunye nokumelana okuphezulu kwangaphakathi kwe-500mΩ. Olu yilo luncinci lunceda abavelisi bezixhobo ukuba bafezekise ubomi bebhetri obude ngaphakathi kwendawo encinci, ngelixa ixesha lokulinda lomsebenzisi lincitshiswa kakhulu ngenxa yamandla ayo okutshaja ngokukhawuleza.
Kwishishini lezithuthi zombane, uthotho lwe-SLD lungasetyenziselwa iinkqubo zamandla ezincedisayo, ukubuyiswa kwamandla okuvuselela, kunye nokuhlawula amandla ngoko nangoko. Ingakumbi kwiinkqubo zokumisa isithuthi, uthotho lwe-SLD lunokufunxa kwaye lukhulule amandla okuqhobosha ngokufanelekileyo, luphucula ukusebenza kakuhle kwamandla esithuthi. Ukuguquguquka kobushushu balo ngokubanzi kuqinisekisa ukusebenza okuqhelekileyo kwindawo enobushushu obuphezulu yecandelo leenjini kunye nendawo enobushushu obuphantsi kwimimandla ebandayo, nto leyo ephucula ukuthembeka kwezithuthi zombane.
Kwindawo yokugcina amandla avuselelekayo, iimpawu zokuphendula ngokukhawuleza kolu chungechunge lwe-SLD zenza ukuba lube lolona lufanelekileyo ekuthambiseni ukuguquguquka kokuveliswa kwamandla elanga nawomoya. Xa kuthelekiswa neebhetri zemveli, olu chungechunge lwe-SLD lunokusingatha imijikelo yokukhupha itshaja rhoqo ngokufanelekileyo, nto leyo eyandisa ubomi benkqubo. Kwangaxeshanye, ukuzinza kwalo kumaqondo obushushu aphezulu kunciphisa isidingo seenkqubo zokupholisa, kunciphisa iindleko zokusebenza kunye nokugcinwa kweenkqubo zokugcina amandla.
Kulawulo lwamandla emizi-mveliso, uthotho lwe-SLD lungasetyenziselwa ukuhlawula amandla aphezulu, ukhuseleko lokucinywa kombane, kunye nokuzinzisa i-voltage. Umzekelo, kwimigca yemveliso ezenzekelayo, uthotho lwe-SLD lunokubonelela ngamandla akhawulezileyo kwizixhobo ezihlangabezana nokunyuka kwamandla aphezulu ngequbuliso, nto leyo ethintela impembelelo kwigridi yombane ephambili. Ubomi bayo obude bunciphisa kakhulu ukugcinwa rhoqo kunye neendleko kubasebenzisi bemizi-mveliso.
Iingenelo zobugcisa: Ukuthelekiswa nezixhobo zokugcina amandla zemveli
Xa kuthelekiswa nee-capacitors zombane zemveli ezineeleya ezimbini kunye neebhetri ze-lithium-ion, ii-SLD series hybrid supercapacitors zibonisa iingenelo ezibalulekileyo kwiinkalo ezahlukeneyo.
Xa kuthelekiswa nee-capacitors zombane ezineeleya ezimbini, uthotho lwe-SLD lunoxinano lwamandla oluphindwe kaninzi, oko kuthetha ukuba amandla amaninzi anokugcinwa kumthamo ofanayo. Kwangaxeshanye, i-voltage yokusebenza yothotho lwe-SLD (4.2V) iphezulu kakhulu kunee-supercapacitors zemveli (ngesiqhelo yi-2.5-2.7V), okunciphisa inani loqhagamshelo lothotho kunye nokuphucula ukuthembeka kwenkqubo.
Xa kuthelekiswa neebhetri ze-lithium-ion, olu luhlu lwe-SLD lunezinga lokutshaja/lokukhupha ibhetri ngokukhawuleza, ubomi bomjikelo omde, kunye nokhuseleko oluphuculweyo. Uxinano lwamandla alo luphezulu kakhulu kuneebhetri ze-lithium-ion, nto leyo eyenza ukuba ikwazi ukumelana nemisinga yokubetha ngamandla aphezulu. Ngokuphathelele ukhuseleko, olu luhlu lwe-SLD lusebenzisa inkqubo yezinto ezizinzileyo ngakumbi, luphepha iingozi zokubaleka kobushushu ezifumaneka kwiibhetri zemveli ze-lithium-ion.
Iinkcukacha eziBanzi: Ukuhlangabezana neemfuno ezahlukeneyo
Uthotho lwe-YMIN SLD lubonelela ngeentlobo ngeentlobo zamandla ukusuka kwi-70F ukuya kwi-1300F, kunye nobukhulu obuqala kwi-8mm ukuya kwi-18mm ububanzi, obuhambelana nemida yendawo kunye neemfuno zokusebenza kwezicelo ezahlukeneyo. Umzekelo, i-compact SLD4R2L1071020 (ububanzi be-10mm, ubude be-20mm) ifanelekile kwizixhobo eziphathwayo ezixineneyo, ngelixa amandla amakhulu e-SLD4R2L1381840 (ububanzi be-18mm, ubude be-40mm) ifanelekile kwizicelo zoshishino ezifuna amandla amaninzi.
Imodeli nganye ivavanywa ngokungqongqo ukuqinisekisa ukuthotyelwa kwemigangatho yokusingqongileyo yeRoHS kunye neREACH, nto leyo ebonisa ukuzibophelela kweYMIN ekukhuselweni kokusingqongileyo kunye nophuhliso oluzinzileyo.
Ngophuhliso olukhawulezileyo lwe-Intanethi yezinto (i-IoT), izithuthi zombane, kunye namandla avuselelekayo, imfuno yezisombululo zokugcina amandla ezisebenzayo iya kuqhubeka ikhula. Ii-supercapacitors ze-YMIN ze-SLD series hybrid, kunye neenzuzo zazo zobugcisa ezikhethekileyo, kulindeleke ukuba zidlale indima enkulu kwezi ndawo zilandelayo:
Kwizixhobo zekhaya ezikrelekrele kunye ne-IoT, ubomi obude be-SLD series kunye neempawu ezingenayo i-maintenance zifanelekile ngokukodwa kwiinethiwekhi ze-sensor ezisasazwe, nto leyo enciphisa kakhulu iindleko zokulungisa.
Kwizixhobo ze-elektroniki zonyango, apho iimfuno zokuthembeka nokhuseleko lwezixhobo zamandla ziphezulu kakhulu, ukhuseleko oluphezulu lwe-SLD series kunye nokuguquguquka kobushushu obubanzi kwenza kube lolona khetho lufanelekileyo.
Kwicandelo leenqwelo-moya nezokhuselo, kukho iimfuno ezikhethekileyo zokuziqhelanisa nokusingqongileyo okugqithisileyo kunye nokuthembeka kwezixhobo zokugcina amandla, kwaye iimpawu zobugcisa zoluhlu lwe-SLD ziyahambelana kakhulu nezi mfuno.
Isiphelo
Ii-supercapacitors ze-SLD series ze-YMIN zimele inkqubela phambili ebalulekileyo kubuchwepheshe bokugcina amandla, zisombulula ngempumelelo ingxaki yezixhobo zokugcina amandla zemveli ekufezekiseni uxinano olukhulu lwamandla, uxinano lwamandla, ubomi bomjikelo, kunye nobubanzi bobushushu bokusebenza. Ngokukhula okuqhubekayo kwemfuno yehlabathi yokusetyenziswa kwamandla okucocekileyo nokusebenzayo, uchungechunge lwe-SLD kulindeleke ukuba ludlale indima ebalulekileyo kumashishini amaninzi, lubonelela ngenkxaso eqinileyo yotshintsho lwamandla kunye nenkqubela phambili yetekhnoloji.
Ngokusebenzisa ubuchule obuqhubekayo betekhnoloji kunye nokwandiswa kwezicelo, i-YMIN izibophelele ekuboneleleni abathengi behlabathi ngezisombululo zokugcina amandla ezikumgangatho ophezulu nezithembekileyo, nto leyo eqhuba uphuhliso oluzinzileyo lwemizi-mveliso ye-elektroniki kunye namandla acocekileyo. Ii-supercapacitors ze-SLD series hybrid azimeli nje kuphela ukuqhubela phambili kwetekhnoloji kodwa zikwabonisa inyathelo elibalulekileyo eliya kwikamva lamandla asebenzayo nanobuhlobo nokusingqongileyo.
| Uthotho | I-Voltage elinganisiweyo (V) | Umthamo we-Electrostatic (F) | Ubukhulu beMveliso ΦD×L (mm) | I-ESR (mΩ/20℃, i-AC 1kHz) | Umthamo (3.8 – 2.5V) (mAh) | Ukuvuza kwangoku (72h) (μA) | Ukukhutshwa Okuphezulu Kwangoku | I-Voltage yokutshaja ephezulu / I-Max yokutshaja yangoku | Inombolo yeMveliso | |
| I-Continuous Current | I-Pulse Current | |||||||||
| I-SLD | 4.2 | 30 | 5×35 | 1500 | 12 | 3 | 0.08 A | 0.4 A | 4.2V/0.2A | SLD4R2O3060535 |
| 4.2 | 40 | 6.3×22 | 1200 | 15 | 4 | 0.12 A | 0.5 A | 4.2V/0.2A | SLD4R204060622 | |
| 4.2 | 70 | 8×25 | 500 | 30 | 4 | 0.15A | 0.6A | 4.2V/0.3A | SLD4R207060825 | |
| 4.2 | 100 | 10×20 | 300 | 40 | 5 | 0.20 A | 0.9A | 4.2V/0.4A | SLD4R201071020 | |
| 4.2 | 120 | 10×25 | 200 | 50 | 5 | 0.25A | 1.0 A | 4.2V/0.5A | SLD4R201271025 | |
| 4.2 | 150 | 10×30 | 150 | 60 | 6 | 0.35 A | 1.5 A | 4.2V/0.7A | SLD4R201571030 | |
| 4.2 | 200 | 10×35 | 100 | 80 | 6 | 0.45 A | 2.0 A | 4.2V/0.9A | SLD4R2O2071035 | |
| 4.2 | 300 | 10×40 | 80 | 120 | 8 | 0.70 A | 2.5 A | 4.2V/1.5A | SLD4R2O3071040 | |
| 4.2 | 400 | 10×45 | 70 | 160 | 8 | 0.90 A | 3.5 A | 4.2V/1.8A | SLD4R204071045 | |
| 4.2 | 500 | 12.5×35 | 60 | 200 | 10 | 1.0 A | 4.5 A | 4.2V/2.0A | I-SLD⁴R205071330 | |
| 4.2 | 750 | 12.5×50 | 50 | 300 | 20 | 1.5 A | 6.5 A | 4.2V/3.0A | SLD4R207571350 | |
| 4.2 | 1100 | 16×50 | 40 | 450 | 25 | 2.5 A | 10 A | 4.2V/5.0A | SLD4R201181650 | |
| 4.2 | 1300 | 18×40 | 30 | 550 | 30 | 3.0 A | 12 A | 4.2V/6.0A | SLD4R201381840 | |
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