Ukuqhutywa ngamaza ezithuthi zamandla amatsha kunye nobukrelekrele, i-air-conditioning capacitors (i-Aircon Capacitor), njengezona nxalenye ziphambili zenkqubo yefriji, ziphantsi koluhlu olupheleleyo lwetekhnoloji yokuphindaphinda ukusuka kwizinto ezintsha ukuya kulawulo olukrelekrele.
Ukuthatha i-YMIN capacitors njengomzekelo, ukuveliswa kwayo kwezobuchwepheshe kunye nokuphumelela kokusebenza kwiifriji zemoto zamandla amatsha nazo zinika inkuthazo yokusebenza ngokufanelekileyo kweenkqubo zokupholisa umoya kunye nokuchaza kwakhona imigangatho yokusetyenziswa kwamandla kunye nemida yokuthembeka kwezixhobo zefriji.
Ukuphumelela ngeendlela ezimbini ekuqaliseni ubushushu obuphantsi kunye nokunyamezela ubushushu obuphezulu
Ii-capacitors ze-air-conditioning zemveli zivame ukubola okanye ukungaphumeleli kokutshisa kakhulu kumaqondo obushushu agqithisileyo, ngelixa **i-chip aluminiyamu ye-electrolytic capacitor ** ephuhliswe yi-YMIN inokuvelisa ngokukhawuleza okukhulu ngoku kwi--40 ℃ bume ngokusebenzisa i-low-temperature capacitance decay decay compression problem, ukusombulula iteknoloji yokucinezela.
Kwangaxeshanye, i-dielectric layer composite kunye ne-electrolyte eqinileyo esetyenziswa yi-capacitor igcina ixabiso le-capacitance lizinzile kwiqondo lokushisa eliphezulu le-105 ℃, ukwandisa kakhulu ubomi benkonzo ye-compressor ye-air-conditioning yesithuthi. Le ndlela-mbini yokumelana nobushushu yenza ukuba inkqubo yokupholisa umoya ikwazi ukuziqhelanisa neemeko zokusebenza ezinzima ukusuka kubanda kakhulu ukuya ehlotyeni.
Ukusebenzisana ngokubambisana komthwalo ophezulu kunye nokuphendula okuguquguqukayo
Iisistim zomoya omtsha zamandla kufuneka zijamelane nokuyeka rhoqo kunye nokutshintsha komthwalo oguqukayo. I-YMIN ye-polymer hybrid capacitors inciphisa ukulahlekelwa kwamandla nge-30% ngokusebenzisa i-ESR ephantsi (i-requivalent series resistance) uyilo, kwaye idibene neempawu ze-ripple current ephezulu (> 5A), ukunciphisa ukuguquguquka kwe-voltage xa i-compressor isebenza kwi-frequency ephezulu, ukuphepha ukuhla kokuphumelela kwefriji okubangelwa kukothuka kwangoku. Ngokomzekelo, kwii-compressors zomoya wemoto, i-capacitors enjalo inokumelana nokusebenza kwexesha elide lomthwalo ophezulu, kwaye izinga lokungaphumeleli liyancipha ngaphezu kwe-50% xa kuthelekiswa neemveliso zendabuko.
Ukudityaniswa okukrelekrele kunye nokuguqulwa kwamandla okusebenza kakuhle
Iinkqubo zomoya zanamhlanje zidibanisa ngokunzulu ii-capacitors kunye neeyunithi zolawulo lwe-elektroniki (ECUs) ukuphumeza ukulawulwa kwamandla aguqukayo. Xa i-sensor ibona ukuba i-compressor igcwele kakhulu, i-ECU inokusasaza ngengqondo imveliso ye-capacitor, ibeke phambili ukusebenza kwezinto eziphambili, kwaye yandise izinga lokusetyenziswa kwamandla ngokusebenzisa i-ripple suppression algorithms. Uphononongo lubonise ukuba ukusetyenziswa kwamandla okubanzi kweenkqubo zomoya zomoya ezixhotyiswe nge-YMIN capacitors ziphuculwe nge-15% -20%, ngakumbi kwiimoto zamandla amatsha kwiiplatifomu eziphezulu zombane.
Ukutshintshwa kwekhaya kunye nokuphuculwa kwemizi-mveliso
YMIN capacitorsbaye batshintsha i-Nichicon kunye nezinye iimpawu zamazwe ngamazwe kwiibhetshi kunye nokumelana nombane ophezulu (450V) kunye nobomi obude (> iiyure ze-8000), ukufezekisa impumelelo yasekhaya kwintsimi ye-air conditioning yezithuthi. Umendo wayo wobugcisa awukhuthazi kuphela ukuphuhliswa kweenkqubo zomoya ngokubhekiselele kwi-miniaturization kunye ne-oyile-free, kodwa iphinda iqonde ukubeka iliso okude kwimeko yempilo ye-capacitors nge-intanethi ye-teknoloji yezinto, ukubonelela ngenkxaso yedatha yokugcinwa kwangaphambili.
Ukuqukumbela
I-air conditioning capacitors isuka "kwii-functional components" ukuya "kwii-smart energy hubs". Inkqubo yezobugcisa ye-YMIN ibonisa ukuba ukuphumelela kabini kwezinto ezintsha kunye nokuhlanganiswa kwenkqubo akukwazi nje ukucombulula iintlungu zefriji kwiimeko ezintsha zamandla, kodwa kwakhona ukubeka i-benchmark ye-carbon ephantsi kunye nokuthembeka okuphezulu kwe-ecology yolawulo lwe-thermal. Kwixesha elizayo, ngokudityaniswa kwee-electrolyte eziqinileyo kunye ne-wide-bandgap semiconductor technologies, ii-capacitors ziya kukhulula amandla amakhulu kwi-revolution yokuphumelela kwamandla.
Ixesha lokuposa: Apr-18-2025