I-RTC ibizwa nge-“clock chip” futhi isetshenziselwa ukurekhoda nokulandelela isikhathi. Umsebenzi wayo ophazamisayo ungavusa amadivayisi kunethiwekhi ngezikhathi ezithile, okuvumela amanye amamojula wedivayisi ukuthi alale isikhathi esiningi, ngaleyo ndlela kunciphisa kakhulu ukusetshenziswa kwamandla okuphelele kwedivayisi.
Njengoba isikhathi sedivayisi singeke sibe nokuchezuka, izimo zokusetshenziswa kwamandla kagesi wewashi le-RTC ziya ngokuya ziba ziningi, futhi zisetshenziswa kabanzi ekuqaphelweni kwezokuphepha, okokusebenza kwezimboni, amamitha ahlakaniphile, amakhamera, imikhiqizo ye-3C neminye imikhakha.
Isixazululo esingcono sokunikezwa kwamandla kwe-RTC · I-SMD supercapacitor
I-RTC isesimweni sokusebenza esingaphazamiseki. Ukuze uqinisekise ukuthi i-RTC isengasebenza ngokujwayelekile ngaphansi kokunqamuka kukagesi noma ezinye izimo ezingavamile, ukunikezwa kwamandla okuyisipele (ibhethri/i-capacitor) kuyadingeka ukuze kuhlinzekwe ukunikezwa kwamandla okuzinzile. Ngakho-ke, ukusebenza komthombo wamandla oyisipele kunquma ngokuqondile ukuthi i-RTC ingasebenza ngokuzinza nangokuthembekile. Indlela yokwenza imojula ye-RTC izuze ukusetshenziswa kwamandla okuphansi nempilo ende, ukunikezwa kwamandla okusekelayo kudlala indima ebalulekile kuyo.
Ukunikezwa kwamandla okusekelayo kwama-chip wewashi e-RTC emakethe ikakhulukazi amabhethri enkinobho ye-CR. Kodwa-ke, amabhethri enkinobho ye-CR awavamile ukushintshwa ngokuhamba kwesikhathi ngemva kokuphela kwawo, okuvame ukuba nomthelela okuhlangenwe nakho komsebenzisi kwawo wonke umshini. Ukuze kuxazululwe leli phuzu lobuhlungu, i-YMIN yenze ucwaningo olunzulu ngezidingo zangempela zezinhlelo zokusebenza ezihlobene newashi le-RTC futhi yanikeza isisombululo samandla esipele esingcono -I-SDV chip supercapacitor.
I-SDV chip supercapacitor · Izinzuzo zohlelo lokusebenza
Uchungechunge lwe-SDV:
Ukumelana nokushisa okuphezulu nokuphansi
I-SDV chip supercapacitor inokuvumelana nezimo lokushisa okuhle kakhulu, enebanga lokushisa elibanzi lokusebenza elingu -25℃~70℃. Azesabi izimo zemvelo ezinzima ezifana nokubanda okukhulu noma ukushisa okukhulu, futhi zihlala zisebenza ngokuzinzile ukuze kuqinisekiswe ukwethembeka kwemishini.
Akukho ukumiselela nokugcinwa okudingekayo:
Amabhethri enkinobho ye-CR adinga ukushintshwa ngemva kokuthi esekhathele. Akugcini nje ngokushintsha ngemva kokushintshwa, kodwa ngokuvamile kubangela ukuba iwashi lilahlekelwe inkumbulo, futhi idatha yewashi iba nesiphithiphithi lapho idivayisi iqalwa kabusha. Ukubhekana nale nkinga,I-SDV chip supercapacitorsbabe nezici zempilo yomjikelezo omude kakhulu (izikhathi ezingaphezu kuka-100,000 kuya kwezingu-500,000), ezingashintshwa futhi zingakhathalelwa impilo yakho yonke, ziqinisekise ngempumelelo ukugcinwa kwedatha okuqhubekayo nokuthembekile, kanye nokuthuthukisa isipiliyoni somshini sisonke sekhasimende.
Okuluhlaza kanye nemvelo:
Ama-chip supercapacitor e-SDV angangena esikhundleni samabhethri enkinobho ye-CR futhi ahlanganiswe ngokuqondile nesixazululo sewashi le-RTC. Zithunyelwa nawo wonke umshini ngaphandle kwesidingo samabhethri engeziwe. Lokhu akunciphisi nje umthwalo wemvelo olethwa ukusetshenziswa kwebhethri, kodwa futhi kuthuthukisa izinqubo zokukhiqiza nezokuhlela, okunomthelela ekuthuthukisweni okuluhlaza nokusimeme.
Ukukhiqiza okuzenzakalelayo:
Ihluke kumabhethri enkinobho ye-CR kanye nama-supercapacitor avamile adinga ukushiselwa ngesandla, ama-supercapacitor e-SMD asekela ukukhweza okuzenzakalelayo ngokugcwele futhi angangena ngokuqondile inqubo yokugeleza kabusha, athuthukise kakhulu ukusebenza kahle kokukhiqiza ngenkathi kunciphisa izindleko zabasebenzi futhi esiza ekuthuthukiseni ukukhiqiza okuzenzakalelayo.
Isifinyezo
Njengamanje, izinkampani zaseKorea nezaseJapan kuphela ezingakhiqiza ama-capacitor angama-414 angenisiwe. Ngenxa yemikhawulo yokungenisa, isidingo sokwenziwa kwasendaweni sesiseduze.
I-YMIN SMD supercapacitorskuyisinqumo esingcono sokuvikela ama-RTC, esikhundleni sontanga bamazwe ngamazwe kanye nokuba i-RTC-mounted capacitor evamile.
Isikhathi sokuthumela: Apr-01-2025