Iskimu sokukhetha i-YMIN capacitor kulawulo olukude olusezantsi
Ulawulo olukude lokukhanya okuphantsi
Ngophuhliso olukhawulezayo lwekhaya elilumkileyo kunye ne-Intanethi yeZinto, ulawulo olukude lwemveli lujongene neengxaki ezinjengokutshintshwa kwebhetri rhoqo kunye nokubola kweendawo zoqhagamshelwano ezilungileyo nezingalunganga zekhompatimenti yebhetri xa ingasetyenziswa ixesha elide. Ukuze kulungiswe la manqaku entlungu, ulawulo olukude olunokukhanya okuphantsi lwenzeka. Ngokungafaniyo nolawulo olukude lwendabuko oluxhomekeke kwiibhetri ezomileyo kunye neempawu ze-infrared, ulawulo olukude oluphantsi luzilawula ngokwalo kwindawo yokukhanya okuphantsi, etshintsha ngokupheleleyo indlela yokusebenzisa ulawulo olukude lwendabuko. Isebenzisa amandla okukhanya okuphantsi ukufezekisa ukuzitshaja, ukuphepha ukutshintshwa kwebhetri kunye neengxaki zokubola, kwaye yamkele uyilo lwamandla aphantsi ukwandisa ubomi benkonzo, ehambelana nokukhuselwa kwendalo kunye neendlela zokulondoloza amandla. Ulawulo olukude olunokukhanya okuphantsi aluphuculi nje kuphela ukusebenziseka lula kunye nokuchaneka kokusebenza, kodwa lukwabonelela nezisombululo ezikrelekrele nezihambelana nokusingqongileyo kwikhaya elilumkileyo, i-automation ye-ofisi, ukuzonwabisa komntu kunye nezinye iinkalo.
Amacandelo aphambili olawulo olukude lwelizwi lweBluetooth ngaphandle kwebhetri
Ulawulo olukude lwelizwi lweBluetooth olungenabhetri sisizukulwana esitsha solawulo olukude oluhambelana nokusingqongileyo. Isebenzisa iipaneli zelanga ukuqokelela ukukhanya okuphantsi, kwaye i-chip yokubuyisela amandla iguqula amandla okukhanya kumandla ombane, agcinwe kwi-lithium-ion capacitors. Yenza eyona ndibaniselwano kunye ne-ultra-low power chip yeBluetooth kwaye ayisasebenzisi bhetri. Iyahambelana nokusingqongileyo, yonga amandla, ikhaphukhaphu, ikhuselekile, kwaye ayikukhathaleli ubomi bonke.
Intshayelelo yetyala: Imodyuli yolawulo olukude lwebhetri engenabhetri ye-BF530
① Ukusetyenziswa kwamandla aphantsi kakhulu (umatshini wonke usezantsi njenge-100nA), esona sisombululo sisezantsi sokusetyenziswa kwamandla amileyo anokuveliswa ngobuninzi kwimarike ukuza kuthi ga ngoku.
② Isixa simalunga ne-0.168mAH, malunga ne-31% yesisombululo se-RTL8 */TLSR.
③ Phantsi kweemeko ezifanayo, izixhobo ezincinci zokugcina amandla kunye neepaneli zelanga ezincinci zingasetyenziswa.
Iimpawu eziphambili zeYMIN i-lithium-ion supercapacitors
01 Umjikelo wobomi obude – umjikelo omde kakhulu
Umjikelezo wobomi ongaphezu kwe-100,000 amaxesha e-YMIN ixhomekeke kwiinzuzo zolawulo lwe-IATF16949 inkqubo yokukhuthaza ngamandla ulawulo olusulungekileyo kunye nokuzama ukuphucula ukusebenza kwemveliso. Ubomi bomjikelezo weemveliso ze-lithium-ion capacitor zingaphezulu kwamaxesha e-100,000.
02 Ukuzikhupha okuphantsi
I-Ultra-low self-discharge <1.5mV / imini ye-YMIN igxile kwiimveliso ze-lithium-ion capacitor: ukusuka kwiinkcukacha zekhonkco nganye yokuvelisa ukuqinisekisa ukukhutshwa kwe-ultra-low self-discharge yemveliso, ukuhambisa iimeko zesicelo esiphantsi kwamandla.
03 Ivumelana nokusingqongileyo kwaye iyathengiseka kumazwe angaphandle
I-YMIN i-lithium-ion capacitors inokusebenza okuphezulu kokhuseleko, akukho bungozi bokhuseleko, inokuthuthwa ngomoya, kwaye izinto ezisetyenzisiweyo zigqithise i-RoHS kunye ne-REACH isatifikethi. Ziluhlaza, zinobuhlobo kwindalo, kwaye azinangcoliseko.
04 Iyahambelana nokusingqongileyo kwaye ayinakutshintshwa
YMIN i-lithium-ion capacitorsukubonelela ngenkxaso yamandla ezinzileyo kunye nehlala ixesha elide kunye neenzuzo zobomi obude, ukuhambelana nokusingqongileyo kunye nokungenakutshintshwa, iindleko zokugcinwa okuphantsi kunye nokusebenza kakuhle kwamandla, ukunciphisa ukutshintshwa rhoqo kunye nomthwalo wokusingqongileyo weebhetri zendabuko.
Ingcebiso yemveliso ye-YMIN capacitor
Isishwankathelo
Iimveliso ze-YMIN 4.2V eziphezulu ze-voltage zine-ultra-high high density kwaye zibonelela ngokusebenza okugqwesileyo kunye nokuthembeka. Inokuhlawuliswa kwi--20 ° C kwaye inokukhutshwa ngokuzinzileyo kwindawo ukuya kuthi ga +70 ° C, ilungele iimeko ezahlukeneyo zokusetyenziswa ukusuka kubanda kakhulu ukuya kumaqondo obushushu aphezulu. Ngexesha elifanayo, le capacitor ineempawu zokuzikhupha eziphantsi kakhulu, eziqinisekisa ukuba zisenokugcina ukukhutshwa kwamandla okusebenzayo emva kokugcinwa kwexesha elide. Xa kuthelekiswa ne-double-layer capacitors yomthamo ofanayo, umthamo wayo uphezulu ngamaxesha angama-15, uphucula kakhulu ukugcinwa kwamandla okusebenza.
Ukongezelela, ukusetyenziswa koyilo lwezixhobo ezikhuselekileyo kuqinisekisa ukuba imveliso ayiyi kuqhuma okanye ibambe umlilo phantsi kwayo nayiphi na imeko, ukubonelela abasebenzisi ngamava akhuselekileyo kunye nokuthembeka ngakumbi. Ukukhetha i-YMIN ayikhethi kuphela ukusebenza okuphezulu kunye nokuthembeka, kodwa kunye nesinyathelo sokuxhasa ingcamango yokukhuselwa kokusingqongileyo okuluhlaza. Izixhobo zayo ezihambelana nokusingqongileyo, ukuzikhupha okuphantsi kunye noyilo loxinaniso lwamandla aphezulu kunciphisa kakhulu inkunkuma yobutyebi kunye nomthwalo wokusingqongileyo. Sizibophelele ekudaleni izisombululo zamandla ezizinzileyo kwixesha elizayo, ukuvumela ukutsha kwezobuchwepheshe kunye nophuhliso lokukhuselwa kokusingqongileyo ukuba kuhambisane kunye nokukhuthaza ngokubambisana ukwakhiwa komhlaba oluhlaza.
Ixesha lokuposa: Apr-11-2025