Ubungakanani obuncinci, Umthamo omkhulu! Ii-YMIN Solid-State Capacitors zisombulula njani imingeni yoyilo lwezixhobo ze-elektroniki?

Kwiphulo lanamhlanje lokunciphisa izixhobo, i-capacitor enye inokuba sisitshixo sempumelelo okanye ukungaphumeleli kwemveliso.

Kwicandelo loyilo lwezixhobo ze-elektroniki, iinjineli zombane zihlala zijongene neengxaki ezifana nezi: ii-capacitors ezigqithisileyo xa zithwele umthwalo opheleleyo, ukusetyenziswa kwamandla okuphezulu, indawo enganeleyo ye-PCB, kunye nomthamo wokucoca obonakala unganeli. Ezi ngxaki zibonakala zincinci zinokuchaphazela ngokuthe ngqo ukusebenza kwemveliso kunye nokuthembeka kwayo.

Izisombululo ze-polymer solid-state capacitor zeShanghai YMIN Electronics, ezineenzuzo ezine eziphambili—i-ESR ephantsi kakhulu, i-ultra-low leakage current, i-thin profile, kunye ne-capacitance density ephezulu—ziba lolona khetho lukhethwayo kwiimveliso ezininzi ezaziwayo.

01 Uyilo oluThinteke kakhulu lusombulula imiqobo yendawo

Ii-capacitor ze-YMIN VP4 series solid-state zinobukhulu obuyi-3.95 mm kuphela, nto leyo enika ishishini isisombululo esincinci kakhulu. Olu bungakanani bokuphumelela buvumela ii-capacitor ukuba ziphumelele kwizicelo ezixinzelelweyo ezifana neebhanki zamandla kunye nee-adapter zokutshaja ngokukhawuleza.

Xa kuthelekiswa nee-capacitors zemveli, uthotho lwe-YMIN VPX lulinganisa i-Φ6.3×4.5 mm, lunciphisa ivolumu nge-22% kunye nokuphakama nge-1.3 mm, nto leyo ephucula ukusetyenziswa kwendawo phantse nge-30%.

I-Anker 14-in-1 Display Desktop Charging Dock isebenzisa ngokupheleleyo eli thuba, ibandakanya ii-capacitors ezininzi ze-YMIN thin ukuze ifikelele kulwakhiwo oluxineneyo lwee-ports ezili-14 ngaphakathi kwendawo encinci.

02 I-ESR Ephantsi Kakhulu Isusa Iingxaki Zokushushu Kakhulu

Amaqondo obushushu aphezulu “angumbulali ongabonakaliyo” wezixhobo ze-elektroniki. Ii-capacitor ze-YMIN solid-state zisebenzisa ii-polymers ezine-conductivity ephezulu kunye nezakhiwo ze-electrode ezilungisiweyo ukunciphisa ixabiso le-ESR ukuya kwi-20mΩ@100kHz.

Idatha yovavanyo lwehlabathi lokwenyani ibonisa ukuba kwi-adaptha yokutshaja ngokukhawuleza ye-65W GaN PD, ii-capacitors ze-YMIN zinciphisa ukulahleka kwamandla ukusuka kwi-0.16W ukuya kwi-0.08W, zinciphisa ngokuthe ngqo ukuveliswa kobushushu kwaye zigcina ubushushu obuphakathi bungaphantsi kwama-85℃.

Olu phawu lubaluleke kakhulu kwizicelo ezinamandla aphezulu ezifana neeseva ze-AI. Uthotho lwe-YMIN MPS lunokufikelela kwi-ESR ephantsi njenge-≤3mΩ, luhlangabezana neemfuno zempendulo ye-nanosecond-level transient.

03 Umsinga wokuvuza ophantsi kakhulu wandisa ixesha lokulinda

Kwizixhobo eziphathekayo, nokuba i-IC yokulawula ephambili ingena kwimo yokulala, umsinga wokuvuza we-capacitor uyaqhubeka nokusebenzisa amandla ebhetri. I-YMIN isebenzisa inkqubo yemizila emibini "yokwakheka kwe-electrolyte ekhethekileyo + ngokuchanekileyo" ukwenza umaleko we-oxide exineneyo, ithintela ngempumelelo ukufuduka komthwali.

Xa sithatha umzekelo we-VPX 25V 100μF, umgangatho ucacisa umsinga wokuvuza ≤5.0μA, ngelixa iisampulu ze-YMIN, emva kokutsalwa kwakhona kwe-soldering, zinomsinga wokuvuza ophakathi we-2.329μA kuphela, ongaphantsi kakhulu komgangatho woshishino we-25μA.

Ibhanki yamandla yokutshaja ngokukhawuleza ye-Anker eyi-10000mAh eyi-30W isebenzisa olu phawu ukwandisa ixesha lokulinda, ifezekisa amava omsebenzisi "amandla afumaneka lula kwaye ahlala ixesha elide."

04 Ubuninzi boMbane oPhezulu buphucula ukuphuma kwamandla

Ingxaki yokuba ii-capacitors zemveli azikwazi ukubonelela ngomthamo owaneleyo wokucoca kwindawo encinci isonjululwe yitekhnoloji ye-anode foil ye-YMIN ye-nano-level high-voltage anode. I-capacitor yayo ye-VPX/VPT 25V 220μF inobukhulu obuyi-6.35.8mm, ngelixa uninzi lweemveliso zabakhuphisana nazo zi-6.37.7mm.

Ibhanki yamandla yeFlashGet 170W Cyber ​​​​Prism ifumana amandla aphezulu ngaphakathi kwindawo encinci, isebenzisa ii-capacitor ezisixhenxe zeYMIN VPX 35V 100μF kunye nee-capacitor ezimbini ze-VP4 series.

Olu phawu luvumela abayili bemveliso ukuba bafikelele kubuninzi bamandla aphezulu kunye nemveliso yokusebenza ezinzileyo ngaphandle kokwandisa ubungakanani.

Ii-capacitor ze-YMIN solid-state zifumene ukuthandwa ziimpawu ezininzi ezaziwayo. Nokuba yi-Lenovo Legion gaming laptop fast-charging power bank okanye i-FlashGet 170W Cyber ​​​​Prism power bank, zombini zixhomekeke kwii-capacitor ze-YMIN ukuqinisekisa ukusebenza okuzinzileyo.

Ukukhetha i-YMIN akupheleli nje ekukhetheni into enokuthenjwa, kodwa kukwakukukhetha iqabane elinobuchule elinokunceda imveliso yakho iphumelele kwimpumelelo, ubomi bebhetri, ubungakanani, kunye nokuthembeka.