Umkhiqizo wenkanyezi: Inqaba eqinile egada amamitha amanzi ahlakaniphile—YMIN 3.8V supercapacitor

Amathemba Emakethe Amamitha Amanzi Ahlakaniphile

Ngokusheshisa ukukhula kwedolobha, ukuthuthukiswa kwamazinga okuphila, kanye nokuqwashisa okwandayo kokuvikelwa kwemvelo, isidingo samamitha amanzi ahlakaniphile siyaqhubeka nokukhula. Imibiko ikhombisa ukuthi usayizi wemakethe wamamitha amanzi ahlakaniphile uyakhula, ikakhulukazi ezindaweni ezifana nokuthuthukiswa kwezindawo zokuphakela amanzi kanye nemiklamo emisha yezindawo zokuhlala, ehlinzeka ngamathemba abanzi okufaka isicelo.

I-YMIN 3.8v umsebenzi we-super capacitor

Amamitha amanzi ahlakaniphile ngokuvamile adinga ukugcina idatha, enze izilinganiso, futhi anike amandla ukuxhumana okukude ngaphandle komthombo wamandla wangaphandle. Ama-Supercapacitor, njengezingxenye zokugcina amandla aphezulu-amandla, asetshenziswa ngokuhambisana namabhethri e-lithium-thionyl chloride kumamitha wamanzi e-NB-IoT. Bangakwazi ukunxephezela ukungakwazi kwamabhethri e-lithium-thionyl chloride ukuhlinzeka ngokukhipha amandla aphezulu ngokushesha futhi kuvinjwe izinkinga zokudlula ibhethri, kuqinisekiswe ukuthi amamitha amanzi ahlakaniphile angakwazi ukuqedela ukulayishwa kwedatha noma imisebenzi yokulungisa uhlelo ngesikhathi esifushane.

3.8V-supercapacitor

 

Izinzuzo ze-YMIN 3.8V supercapacitor

1. Ukumelana Nokushisa Okuphansi

Ama-Supercapacitor anebanga lokushisa elibanzi lokusebenza, elifana -40°C kuya +70°C. Lokhu kwenza i-YMIN3.8V supercapacitorekwazi ukusebenza ngokuzinzile ezindaweni ezihlukahlukene ezinokhahlo, ikakhulukazi ezindaweni ezibandayo, iqinisekisa ukutholakala kukagesi okuvamile ngaphansi kwezimo zezinga lokushisa eliphansi, ukugcina ukulinganisa nemisebenzi yokudlulisa idatha.

2. Ukuphila Okude

Uma kuqhathaniswa namabhethri e-lithium endabuko, ama-supercapacitor anempilo yesevisi ende kakhulu kanye nokuzinza komjikelezo ngenxa yesimiso sawo sokugcina amandla esingewona amakhemikhali. Ama-supercapacitor e-YMIN aziwa ngokuphila kwawo okude. Uma isetshenziswa kumamitha wamanzi ahlakaniphile, anganciphisa kakhulu izindleko zokunakekela kanye nemithelela engaba khona yemvelo ebangelwa ukushintshwa kwebhethri.

3. Izinga Lokuzikhulula Eliphansi Kakhulu

Ama-supercapacitor e-YMIN afaka ukusebenza kokuzikhipha okuphansi kakhulu, nokusetshenziswa kwamandla amile okuphansi njengo-1-2μA, okuqinisekisa ukusetshenziswa kwamandla okumile okuphansi kwayo yonke idivayisi nempilo ende yebhethri.

4. Ayinasondlo

Ukusebenzisa ama-supercapacitor ngokuhambisana namabhethri kumamitha wamanzi ahlakaniphile kusebenzisa amandla okukhipha amandla e-supercapacitors, ukuminyana kwamandla aphezulu kakhulu, izici ezinhle zezinga lokushisa eliphansi, nokusebenza okuphansi kakhulu kokuzikhulula. Le nhlanganisela namabhethri e-lithium-thionyl chloride iba yisixazululo esilungile samamitha amanzi e-NB-IoT.

Isiphetho

I-YMIN 3.8V supercapacitor, nezinzuzo zayo zokumelana nezinga lokushisa eliphansi, ukuphila isikhathi eside, ukuzikhipha ngokweqile, kanye nezakhiwo ezingenakulungiswa, isetshenziswa kabanzi ekwakhiweni kwamamitha amanzi ahlakaniphile. Ihlinzeka ngezixazululo zamandla ezinokwethenjelwa ezinhlelweni zamanzi ahlakaniphile, iqinisekisa ukuthi amamitha amanzi angakwazi ukwenza ukulinganisa kanye nezinsizakalo zokuxhumana ezikude ngokuzinza endaweni engagadiwe isikhathi eside.


Isikhathi sokuthumela: May-23-2024