IiParamitha zoBugcisa eziPhambili
| Into | Uphawu | |
| Uluhlu lobushushu bokusebenza | -40~+85℃ | |
| Ixabiso leVoltage yokusebenza elilinganiselweyo | 2.7V | |
| Uluhlu Lomthamo Oqhelekileyo | 1.0F~70F | |
| 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 | |
| Isiqinisekiso seMveliso | Iyahambelana neemfuno ze-AEC-Q200 | |
Umzobo Wemilinganiselo Yemveliso
| L≤6 | a=1.5 |
| L>16 | a=2.0 |
| D | 8 | 10 | 12.5 | 16 | 18 |
| d | 0.6 | 0.6 | 0.6 | 0.8 | 0.8 |
| F | 3.5 | 5 | 5 | 7.5 | 7.5 |
Ukukhokela Ixesha Elitsha Lokugcina Amandla: Uhlalutyo Olunzulu lwe-YMIN SDH Series Electric Double-Layer Supercapacitors
Kule mihla yokufuna izisombululo zamandla ezisebenzayo nezizinzileyo, isixhobo esitshintshayo esidibanisa iimpawu zokugcina amandla aphezulu eebhetri kunye neempawu zamandla aphezulu ee-capacitor zemveli siya sisiba yinto ephambili kumashishini ahlukeneyo—i-supercapacitor yombane enezingqimba ezimbini (EDLC). Njengomnikeli obalaseleyo kweli candelo, i-YMIN's SDH series 2.7V radial lead type EDLC supercapacitor, esebenza kakuhle kakhulu, ukuthembeka kwayo okuqinileyo, kunye nokusebenza kwayo ngokubanzi, ichaza ngokutsha imida yokugcina amandla kwaye ifaka amandla amakhulu kwiimeko ezininzi zesicelo.
I-YMIN SDH series EDLC supercapacitor ayisiyonto iqhelekileyo ye-elektroniki; sisixhobo sokugcina amandla ngokuchanekileyo esisekelwe kumgaqo wombane oneengqimba ezimbini (EDLC). Ingcamango yayo ephambili yoyilo kukufezekisa ibhalansi efanelekileyo phakathi koxinano lwamandla kunye noxinano lwamandla ngaphakathi kwendawo encinci ebonakalayo.
1. Ukusebenza Kombane Okuqinileyo:
• Uluhlu olubanzi lobushushu bokusebenza (-40℃ ~ +85℃): Olu phawu luvumela uthotho lwe-SDH ukuba lukwazi ukujongana ngokuzithemba neendawo ezishushu kakhulu. Nokuba kusebusika obuqatha kwiindawo ezisemantla, ehlotyeni elishushu kwiindawo zoshishino ezisemazantsi, okanye kwiimeko zobushushu obuphezulu ngaphakathi kwigumbi leenjini zemoto, lusebenza ngokuzinzileyo, luqinisekisa ukuthembeka kwenkqubo phantsi kweemeko zemozulu ezihambelana nayo yonke into.
• I-Voltage Enereyithingi Ephezulu ye-2.7V: Xa kuthelekiswa nee-supercapacitors zemveli ze-2.5V okanye ze-2.3V eziphindwe kabini, i-voltage elinganiselweyo ye-2.7V ithetha ukuba isixhobo esinye sinokugcina amandla amaninzi, sinciphise ngempumelelo inani loqhagamshelo olufunekayo kwii-applications ze-voltage ephezulu, senze lula uyilo lwesekethe, kwaye siphucule ukusebenza kakuhle kwenkqubo kunye nokuthembeka kwayo yonke.
• Ukunyamezelana Okuqinileyo Nokuzinza: Ixabiso le-capacitance lilawulwa ngaphakathi koluhlu oluphakathi kwe--10% ukuya kwi-+30% kwi-20℃, kwaye naphantsi kotshintsho olukhulu lobushushu (-40℃ ukuya kwi-+85℃), izinga lotshintsho lwe-capacitance lilawulwa ngaphakathi kwe-±30%. Olu zinzo lubalulekile kwiisekethe ezifuna ixesha elichanekileyo, ugcino lwamandla, okanye imbuyekezo yamandla.
2. Ukuqina Okumangalisayo kunye nexesha elide lobomi:
Iinkcukacha zobomi be-SDH series zezinye zeenzuzo zayo eziqhayisayo.
• Uvavanyo lokuQina koBushushu obuPhezulu obungama-85℃: Emva kokuba isoloko iphantsi kombane olinganiselweyo we-2.7V kangangeeyure ezili-1000 kwindawo ephezulu njenge-85℃, izinga lokutshintsha kwamandla ayo lihlala lingaphakathi kwe-±30% yexabiso lokuqala, kwaye ukunyuka kokumelana nochungechunge olulinganayo (ESR) akudluli kane kunomgangatho wokuqala. Oku kubonisa ukumelana kwayo okuphezulu ekuwohlokeni phantsi kokusebenza okuqhubekayo komthwalo ophezulu.
• Ubomi Bomjikelo Omde: I-supercapacitor yombane enamaleko amabini inokumelana namakhulu amawaka okanye nezigidi zemijikelo yokukhupha itshaja, idlula kakhulu nayiphi na ibhetri yamakhemikhali. Oku kuthetha ukuba kulo lonke ixesha lobomi besixhobo, akukho mfuneko yokukhathazeka malunga nokutshintsha izinto zokugcina amandla ngenxa yokwaluphala, okunciphisa kakhulu iindleko zokulungisa kunye namazinga okungaphumeleli.
3. Ukulungelelaniswa Okugqwesileyo Kwezinto Eziphilayo Nezokusingqongileyo:
• Ulwakhiwo Oluqinileyo: Iphakheji yohlobo lwe-radial lead yenza kube lula ukutywina ibhodi ye-PCB, kwaye isakhiwo esomeleleyo sinokumelana nokungcangcazela okuthile koomatshini kunye nokutshotshozela.
• Ukumelana nokufuma okugqwesileyo: Kwindawo enzima enobushushu obuyi-25℃ kunye nokufuma okumalunga ne-90%, emva kweeyure ezingama-500 zokusebenza okuqhubekayo, ukwehla kokusebenza kuhlala kukwinqanaba elilawulekayo, okubonisa ukumelana kwayo okunamandla neemeko ezifumileyo.
• Ukuthobela iNdalo: Iimveliso zithobela ngokupheleleyo imiyalelo yeRoHS kunye neREACH, nto leyo ebonisa uxanduva lwentlalo lwe-YMIN lokukhusela indalo kunye nempilo yoluntu.
Uluhlu olwahlukeneyo lweemodeli (ezifana ne-SDH2R7L1050812, i-SDH2R7L7061850, njl.njl.) ezinobubanzi obuvela kwi-8mm ukuya kwi-18mm kunye namaxabiso e-capacitance ukusuka kwi-1F ukuya kwi-70F anika iinjineli ukhetho oluguquguqukayo ukuhlangabezana neemfuno ezahlukeneyo zendawo kunye nokusebenza.
Xa kuthelekiswa neebhetri zemveli ze-lead-acid kunye ne-lithium-ion, iingenelo ze-SDH series double-layer supercapacitors zibonakala ngakumbi:
• Isiphumo samandla aphezulu ngoko nangoko: Iibhetri ze-lithium-ion zivelisa ilahleko enkulu yangaphakathi xa zikhupha imisinga emikhulu ngoko nangoko, nto leyo ekhokelela ekutshiseni kakhulu, kuncitshiswe ubomi, kwaneengozi zokhuseleko. Ii-SDH double-layer supercapacitors, ezine-ESR ephantsi kakhulu (ukuya kuthi ga kwi-20mΩ), zinokusingatha ngokulula iimfuno zamandla aphezulu ngoko nangoko, njengokuqalisa imoto kunye nokukhawulezisa izixhobo, ngokusebenza kakuhle kakhulu.
• Ukutshaja nokukhupha ngokukhawuleza kakhulu: Ixesha lokutshaja linokwehliswa ukusuka kwiiyure (kwiibhetri) ukuya kwimizuzwana okanye imizuzu. Olu lutshintsho olukhulu kwizicelo ezifuna ukuphinda kuzaliswe amandla rhoqo nangokukhawuleza. • Uluhlu lobushushu bokusebenza olubanzi kakhulu: Iibhetri zeLithium zifumana ukwehla okukhulu ekusebenzeni kumaqondo obushushu aphantsi, ngamanye amaxesha zide zingasebenzi, ngelixa uthotho lwe-SDH lugcina ukusebenza okugqwesileyo nakwiindawo ezibandayo kakhulu ukuya kuthi ga kwi -40°C.
• Ayinakugcinwa ngokwenene: Ubomi bayo bomjikelo obungenamda buyenza ibe sisisombululo sokugcina amandla "esigqityiweyo" kanye, esifanelekileyo ngakumbi kwizixhobo ekunzima ukuzifikelela emva kokufakwa okanye ezineendleko eziphezulu kakhulu zokugcinwa.
Ii-supercapacitors ze-YMIN SDH ezisebenzisa ii-double-layer series zinezicelo ezibanzi kakhulu, ziphucula ngokuthe cwaka yonke into yobomi bethu.
1. Iimitha ezikrelekrele kunye ne-Intanethi yezinto (IoT): Kwiimitha zamanzi ezikrelekrele, iimitha zegesi, kunye neemitha zombane, ii-SDH supercapacitors ezinee-layer ezimbini zisebenza njengemithombo yamandla exhasayo. Ngexesha lokusilela okanye ukutshintshwa kwebhetri ephambili, zibonelela ngamandla afunekayo ukuze kufakwe idatha yokugqibela kwiimodyuli zonxibelelwano (ezifana neLoRa kunye ne-NB-IoT), ziqinisekisa ukuba idatha ebalulekileyo yokulinganisa ayilahleki. Ubomi bazo obude buhambelana ngokugqibeleleyo nobomi bemitha obungaphezulu kweminyaka elishumi, ziphepha ukugcinwa rhoqo ngenxa yokuphelelwa yibhetri.
2. Iimoto ze-elektroniki kunye nezithuthi zamandla amatsha:
• Ukuqhoboshela Okuvuselelayo: Kwizithuthi ezintsha zamandla, ii-supercapacitors ezinee-layer ezimbini zinokubamba ngokufanelekileyo amandla aphezulu akhutshwayo ngexesha lokuqhoboshela kwaye ziwakhulule ngokukhawuleza ukuze kukhawuleziswe, nto leyo ephucula ukusebenza kakuhle kwamandla.
• Uncedo Lokuqalisa: Kwizithuthi ezixutyiweyo okanye izithuthi ezinkulu zedizili, ii-supercapacitors ezinee-layer ezimbini zinokudityaniswa ngaxeshanye nebhetri yokuqalisa ukuze zinike amandla aphezulu ngexesha lokuqalisa okubandayo, ukunciphisa umthwalo kwibhetri ephambili kunye nokuphucula izinga lempumelelo yokuqalisa, ingakumbi ukusebenza kakuhle kwiindawo ezinobushushu obuphantsi.
• Iinkqubo ze-elektroniki ezikwi-Onboard: Zibonelela ngokhuseleko lokucinywa kombane ngoko nangoko kwiinkqubo zoncedo lomqhubi eziphambili (i-ADAS), iinkqubo zokuzonwabisa, njl.njl., zithintela ukuqalisa kwakhona kwenkqubo okanye ukulahleka kwedatha ngenxa yokwehla kwe-voltage.
3. Ulawulo lweMizi-mveliso oluzenzekelayo kunye noLawulo lwaMandla:
• Intlawulo yamandla ePeak: Kwizixhobo zokwenza izinto ngokuzenzekelayo zefektri, xa iimoto ezininzi ze-servo ziqala okanye zibhuleka ngaxeshanye, zinokubangela impembelelo enkulu kwigridi yamandla. Ii-SDH supercapacitors ezineleya ephindwe kabini zinokusebenza njenge "pool yamandla," zikhupha amandla xa kufuneka ukuze zithambise umthwalo wegridi kwaye zikhusele izixhobo ezinobuthathaka.
• Ubonelelo lwaMandla olungenakuphazamiseka (UPS): Kwiziko ledatha okanye kwiinkqubo zolawulo lwemizi-mveliso, i-UPS yongeza iinkqubo ezinkulu ze-UPS, inika inkxaso ebalulekileyo ngexesha "lefestile" elifutshane xa umbane ophambili uphazamisekile kwaye iijenereyitha zogcino zingekaqali, ukuqinisekisa ukutshintsha kwemizuzwana embalwa kunye nokusebenza okungaphazanyiswa.
• I-Smart Grid: Isetyenziselwa ulawulo lozinzo lwexesha elifutshane lwegridi yamandla, ihlawula ngokukhawuleza amandla asebenzayo kunye nokuphucula umgangatho wegridi.
4. Izixhobo ze-elektroniki zabathengi kunye nezixhobo zokhuseleko:
• Izibane ezingxamisekileyo kunye neeFlashlights: Ivumela ukutshaja ngokukhawuleza kunye nokukhanya okuphezulu okukhawulezileyo kwiikhamera zedijithali kunye neeflashlights. Ibonelela ngokukhanya okuthembekileyo ixesha elide emva kokucima kombane kwizibane ezingxamisekileyo kunye neempawu zokuphuma zokhuseleko.
• Iintsimbi Zeengcango Zevidiyo kunye neeKhamera Zokujonga: Kwiintsimbi zevidiyo ezingenazingcingo, ii-supercapacitors ezineengqimba ezimbini zinokutshaja ngokukhawuleza, zixhasa iifowuni zevidiyo ezinde okanye iirekhodi, zisombulula iindawo ezibuhlungu zokutshaja kancinci kunye nexesha elifutshane lokulinda kwizixhobo ezisebenzisa ibhetri.
5. Umkhosi kunye neenqwelo-moya: Kule mimandla ineemfuno zokuthembeka okuphezulu kakhulu, uluhlu lobushushu olubanzi kakhulu lwe-SDH series, ubomi obude, kunye nokuthembeka okuphezulu kwenza ukuba ibe ngumthombo wamandla oncedisayo okanye oncedisayo wezixhobo ezibalulekileyo ezifana nezixhobo zomoya, iinkqubo zonxibelelwano, kunye neenkqubo zokhokelo lwee-missile.
Ngophuhliso olukhawulezileyo lwetekhnoloji efana ne-5G, i-Intanethi yezinto, izithuthi ezintsha zamandla, kunye nobukrelekrele bokwenziwa, imfuno yokugcina amandla ngokufanelekileyo iya kukhula. I-YMIN, ngokuqokelelwa kwayo okunzulu kwetekhnoloji kunye nolawulo oluqinileyo lomgangatho, ibeke isiseko esiqinileyo setekhnoloji salo mbono wexesha elizayo ngeemveliso zayo zochungechunge lwe-SDH. Ukukhetha i-YMIN akupheleli nje ekukhetheni imveliso ekumgangatho ophezulu, kodwa kukwakhetha iqabane elithembekileyo elizimisele ukuqhuba utshintsho lwamandla kunye nokudala ihlabathi eliluhlaza nelikrelekrele. Nokuba iinjineli ezinamava zenza uyilo olujonge phambili okanye amashishini afuna ukuphuculwa kwemveliso, ii-supercapacitors ezimbini ze-SDH zochungechunge lwe-YMIN lukhetho oluthembekileyo nolukrelekrele.
| 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-SDH | 2.7 | 1 | 8×11.5 | 160 | 4 | 0.26 | 1.09 | 3.6 | SDH2R7L1050812 |
| 2.7 | 2 | 8×13 | 120 | 5 | 0.5 | 1.99 | 7.3 | SDH2R7L2050813 | |
| 2.7 | 3.3 | 8×20 | 80 | 8 | 0.83 | 3.19 | 12 | SDH2R7L3350820 | |
| 2.7 | 3.3 | 10×13 | 70 | 8 | 0.83 | 3.31 | 12 | SDH2R7L3351013 | |
| 2.7 | 5 | 10×20 | 60 | 15 | 1.24 | 4.66 | 18.2 | I-SDH2R7L5051020 | |
| 2.7 | 7 | 10×20 | 50 | 20 | 1.71 | 6.2 | 25.5 | SDH2R7L7051020 | |
| 2.7 | 10 | 10×25 | 40 | 30 | 2.41 | 8.44 | 36.5 | SDH2R7L1061025 | |
| 2.7 | 10 | 12.5×20 | 35 | 30 | 2.44 | 8.85 | 36.5 | SDH2R7L1061320 | |
| 2.7 | 15 | 12.5×25 | 30 | 40 | 3.57 | 12.09 | 54.7 | SDH2R7L1561325 | |
| 2.7 | 20 | 12.5×30 | 28 | 50 | 4.62 | 14.67 | 72.9 | SDH2R7L2061330 | |
| 2.7 | 25 | 16×25 | 25 | 60 | 5.68 | 17.42 | 91.1 | SDH2R7L2561625 | |
| 2.7 | 30 | 16×30 | 24 | 70 | 6.66 | 19.47 | 109.4 | SDH2R7L3061630 | |
| 2.7 | 35 | 16×35 | 22 | 80 | 7.68 | 21.93 | 127.6 | SDH2R7L3561635 | |
| 2.7 | 40 | 18×40 | 20 | 90 | 8.71 | 24.55 | 145.8 | SDH2R7L4061840 | |
| 2.7 | 50 | 18×40 | 18 | 110 | 10.63 | 28.72 | 182.3 | SDH2R7L5061840 | |
| 2.7 | 60 | 18×40 | 16 | 130 | 12.58 | 33.2 | 218.7 | SDH2R7L6061840 | |
| 2.7 | 70 | 18.0×50 | 15 | 150 | 14.37 | 36.7 | 255.2 | SDH2R7L7061850 |
