I-RTC ibizwa ngokuthi “i-clock chip” futhi isetshenziselwa ukuqopha nokulandelela isikhathi. Umsebenzi wayo wokuphazamisa ungavusa amadivayisi kunethiwekhi ngezikhathi ezithile, okuvumela amanye amamojula edivayisi ukuthi alale isikhathi esiningi, ngaleyo ndlela kunciphisa kakhulu ukusetshenziswa kwamandla okuphelele kwedivayisi.
Njengoba isikhathi sedivayisi singenakuba nokuphambuka, izimo zokusetshenziswa kwamandla ewashi le-RTC ziya ngokuya ziba ziningi, futhi zisetshenziswa kabanzi ekuqapheni ukuphepha, imishini yezimboni, amamitha ahlakaniphile, amakhamera, imikhiqizo ye-3C kanye neminye imikhakha.
Isixazululo esingcono sokunikezwa kwamandla okusekelayo kwe-RTC · I-SMD supercapacitor
I-RTC isesimweni sokusebenza esingaphazanyiswa. Ukuze kuqinisekiswe ukuthi i-RTC isakwazi ukusebenza ngokujwayelekile ngaphansi kokuphazamiseka kukagesi noma ezinye izimo ezingavamile, kudingeka ugesi oyisipele (ibhethri/i-capacitor) ukuze kuhlinzekwe ugesi ozinzile. Ngakho-ke, ukusebenza kogesi oyisipele kunquma ngqo ukuthi i-RTC ingasebenza kahle nangokuthembekile. Indlela yokwenza imodyuli ye-RTC ifinyelele ukusetshenziswa kwamandla okuphansi nokuphila isikhathi eside, ugesi oyisipele udlala indima ebalulekile kuyo.
Ukunikezwa kwamandla okusekelayo kwama-chip ewashi e-RTC emakethe ikakhulukazi amabhethri enkinobho ye-CR. Kodwa-ke, amabhethri enkinobho ye-CR avame ukungashintshwa ngesikhathi ngemva kokuphelelwa yisikhathi, okuvame ukuthinta ulwazi lomsebenzisi lomshini wonke. Ukuze kuxazululwe leli phuzu elibuhlungu, i-YMIN yenze ucwaningo olujulile ngezidingo zangempela zezinhlelo zokusebenza ezihlobene ne-chip yewashi le-RTC futhi yanikeza ikhambi lamandla okusekelayo elingcono -I-SDV chip supercapacitor.
I-SDV chip supercapacitor · Izinzuzo zohlelo lokusebenza
Uchungechunge lwe-SDV:
Ukumelana nokushisa okuphezulu nokuphansi
Ama-supercapacitor e-SDV chip ayakwazi ukuzivumelanisa nezimo zokushisa ezinhle kakhulu, anezinga lokushisa elibanzi lokusebenza elingu--25℃ ~ 70℃. Azesabi izimo zemvelo ezinzima njengokubanda okukhulu noma ukushisa okukhulu, futhi asebenza kahle njalo ukuqinisekisa ukuthembeka kwemishini.
Akukho ukushintshwa nokulungiswa okudingekayo:
Amabhethri enkinobho ye-CR adinga ukushintshwa ngemva kokuphelelwa amandla. Akukhona nje ukuthi awashintshi ngemva kokushintsha, kodwa avame ukubangela ukuthi iwashi lilahlekelwe yinkumbulo, futhi idatha yewashi iba yinxushunxushu lapho idivayisi iqala kabusha. Ukuze kuxazululwe le nkinga,Ama-supercapacitor e-SDV chipzinezimpawu zokuphila komjikelezo omude kakhulu (izikhathi ezingaphezu kuka-100,000 kuya ku-500,000), ezingashintshwa futhi zingagcinwa isikhathi eside, okuqinisekisa ngempumelelo ukugcinwa kwedatha okuqhubekayo nokuthembekile, kanye nokuthuthukisa ulwazi lomshini jikelele lwamakhasimende.
Okuluhlaza futhi okunobungani nemvelo:
Ama-SDV chip supercapacitors angathatha indawo yamabhethri enkinobho ye-CR futhi ahlanganiswe ngqo nesisombululo sewashi le-RTC. Athunyelwa nomshini wonke ngaphandle kwesidingo samabhethri engeziwe. Lokhu akugcini nje ngokunciphisa umthwalo wemvelo olethwa ukusetshenziswa kwebhethri, kodwa futhi kuthuthukisa izinqubo zokukhiqiza nezokuthutha, okufaka isandla entuthukweni eluhlaza neqhubekayo.
Ukukhiqiza okuzenzakalelayo:
Ngokungafani namabhethri ezinkinobho ze-CR kanye nama-supercapacitor ajwayelekile adinga ukushiswa ngesandla, ama-supercapacitor e-SMD asekela ukufakwa okuzenzakalelayo ngokugcwele futhi angangena ngqo enkambisweni yokuphinda asebenze, athuthukisa kakhulu ukusebenza kahle kokukhiqiza ngenkathi enciphisa izindleko zabasebenzi futhi esiza ekuthuthukiseni ukuzenzekela kokukhiqiza.
Isifinyezo
Njengamanje, izinkampani zaseKorea nezaseJapan kuphela ezingakhiqiza ama-capacitor angama-button angu-414 angenisiwe. Ngenxa yemikhawulo yokungenisa, isidingo sokwenziwa kwendawo siseduze.
Ama-supercapacitor e-YMIN SMDkuyisinqumo esingcono sokuvikela ama-RTC, sithathe indawo yontanga abasezingeni eliphezulu bamazwe ngamazwe futhi sibe yi-capacitor eyinhloko efakwe kwi-RTC.
Isikhathi sokuthunyelwe: Ephreli-01-2025