Ungawashintsha Kanjani Amabhethri e-Lithium Titanate Ngama-Supercapacitors Anezingqimba Ezimbili Ukuze Uxazulule Isitifiketi Sokuthumela Ngaphandle se-EU kanye Nezinselele Zokuphila Kwama-Thermometer e-Bluetooth?

I. Izindaba Ezikhathazayo Kubaklami/Abakhiqizi

1. Uhlobo Lodaba: Usekelo Lomklamo

Umbuzo: Ekwakhiweni kwe-thermometer ye-Bluetooth, ngemva kokushintsha amabhethri e-lithium titanate ngama-supercapacitor anezingqimba ezimbili, ingabe isu lokuphatha amandla lilonke lidinga ukulungiswa?

Impendulo: Yebo. Uma usebenzisa ama-supercapacitor anezingqimba ezimbili esikhundleni samabhethri e-lithium titanate, isu lokuphatha amandla lilonke lidinga ukuhlelwa kabusha. I-voltage yokukhipha yama-supercapacitor anezingqimba ezimbili iyancipha ngokulandelana ngokukhishwa, kuyilapho amabhethri e-lithium titanate enikeza i-voltage ezinzile. Lokhu kusho ukuthi i-MCU ne-Bluetooth module kungenzeka zingasebenzi kahle ngaphansi kwezimo ze-voltage ephansi. Ngakho-ke, kunconywa ukuqinisekisa ukuzinza kwedivayisi kulo lonke umjikelezo wokusebenza ngokungeza isekethe yokuqapha i-voltage, kusetshenziswa i-module yokulawula i-voltage ye-DC-DC, noma ukufaka amasu okuvikela i-voltage ephansi kanye nokulungiswa okunamandla ku-firmware.

2. Uhlobo Lodaba: Usekelo Lomklamo

Umbuzo: Ingabe izici zokushaja okusheshayo kanye nokukhishwa kwama-supercapacitor anezingqimba ezimbili zizothinta ukuzinza noma amandla esignali yokusakaza kwe-BLE?

Impendulo: Cha. Nakuba izici zokukhipha ishaja ngokushesha kwama-supercapacitor anezingqimba ezimbili zinganikeza amandla aphezulu isikhathi esifushane, amandla okukhipha angase anganele ukugcina ukusebenza kwamandla aphezulu njengoba i-voltage yehla. Uma i-thermometer ye-Bluetooth isetshenziselwa ukusakaza okuqhubekayo noma ukudluliselwa kwedatha okuvama kakhulu, kunconywa ukwenza ngcono ukuphathwa kwamandla, njengokulungisa isikhathi sokusakaza, isikhathi sokuthatha isampula, noma ukwengeza indlela yokubikezela amandla ku-firmware ukuqinisekisa ukuzinza kwesignali kanye nokuthembeka kokuxhumana.

3. Uhlobo Lombuzo: Usekelo Lomklamo

Umbuzo: Ingabe ifasitela le-voltage yokusebenza le-supercapacitor enezingqimba ezimbili (isb., 2.7V noma 3.8V) lanele ukumboza izidingo zamandla ze-chip yokulawula eyinhloko ye-Bluetooth?

Impendulo: Yebo. Ububanzi bamandla kagesi bama-supercapacitors anezingqimba ezimbili ngokuvamile bungu-2.7V kuya ku-3.8V. Ngesikhathi sesigaba sokuklama, kuyadingeka ukuqinisekisa ama-voltage asebenzayo amancane kanye nama-curve okusetshenziswa kwamandla e-thermometer main control chip kanye ne-Bluetooth module. Uma kudingeka, i-boost converter ingangezwa noma imodi yokusebenza ye-voltage ephansi ingasetshenziswa ukuqinisekisa ukusebenza okuvamile kulo lonke umjikelezo wokukhipha, ukugwema ukulahlekelwa amandla noma ukuqala kabusha ngenxa yokwehla kwamandla kagesi.

4. Uhlobo Lombuzo: Ukuqhathanisa Ukusebenza

Umbuzo: Ezindaweni zokushisa okukhulu (isb., -40℃ kuya ku-85℃), ingabe ukusebenza kwama-supercapacitor anezingqimba ezimbili kuthembeke kakhulu kunamabhethri e-lithium titanate?

Impendulo: Ama-supercapacitor anezingqimba ezimbili ngokuvamile anokwethenjelwa okungcono kunamabhethri e-lithium titanate emazingeni okushisa aphezulu kakhulu. Angasebenza ebangeni lokushisa elibanzi (ngokuvamile -40℃ kuya ku-85℃), abonisa ukubola okuncane kwamandla emazingeni okushisa aphezulu naphansi, anempilo ende yomjikelezo, futhi awabeki izingozi zokuphepha njengokubaleka kokushisa. Ngenxa yokuthi ama-supercapacitor anezingqimba ezimbili ayimishini yokugcina amandla angokwenyama, awathinteki kakhulu emazingeni okushisa aphansi futhi angagcina ukusebenza okuzinzile ngisho noma ku-85℃ noma ngaphezulu, okubonisa ukumelana nokushisa okungcono kakhulu kunamabhethri e-lithium titanate.

5. Uhlobo Lombuzo: Umjikelezo Wokuphila

Umbuzo: Ingabe ikhona ingozi yokubola kwe-voltage noma ukuvuza kuma-supercapacitor anezingqimba ezimbili ngesikhathi sokugcina noma sokuthutha isikhathi eside?

Impendulo: Ama-supercapacitor anezingqimba ezimbili abonisa ukuzikhipha, futhi i-voltage yawo izoncipha kancane kancane ngesikhathi sokugcina noma sokuthutha isikhathi eside. Abakhiqizi bavame ukunikeza idatha ejwayelekile yokuzikhipha futhi batusa ukufaka imisebenzi yokushaja yesikhathi esifushane noma yokuvuka ngokushesha ekwakhiweni ukuqinisekisa ukusebenza okuvamile kwedivayisi ngesikhathi sokukhiqiza, ukuthutha, kanye nokulinda isikhathi eside. Ama-supercapacitor e-hybrid abonisa ukusebenza okuhle kakhulu kokuzikhipha, ngesilinganiso sonyaka sokuzikhipha esingu-<10%; ama-supercapacitor avamile anezingqimba ezimbili angathunyelwa engashajwanga futhi ashajwe ngokushesha ngemizuzwana.

6. Uhlobo Lombuzo: Inkinga Yokulawula

Umbuzo: Ingabe ukwamukela isisombululo se-supercapacitor esinezingqimba ezimbili kuzokwenza kube lula izinqubo zokuqinisekisa ze-EU CE, RoHS, UN38.3, njll.?

Impendulo: Ngokungafani namabhethri e-lithium titanate, ama-supercapacitor anezingqimba ezimbili ayizinto zokugcina amandla ezingezona ezamakhemikhali, athunyelwa ngaphandle kokushaja, futhi angabhekwa njengemikhiqizo ejwayelekile ye-elekthronikhi yokuthumela ngaphandle, engadingi zitifiketi eziyinkimbinkimbi. Uma kuqhathaniswa namabhethri, adinga izitifiketi eziningi ezifana ne-CE, i-RoHS, kanye ne-UN38.3 yokuthumela ngaphandle, ama-supercapacitor anezingqimba ezimbili adinga kuphela isitifiketi se-UN38.3 kanye nezokuthutha emoyeni/olwandle zezinhlobo zokugcina amandla ezihlanganisiwe (ama-supercapacitor e-hybrid), okuholela ekuncipheni kwemikhawulo yezokuthutha, ukwethulwa kwemakethe okusheshayo, kanye nochungechunge lokunikezwa oluguquguqukayo.

7. Uhlobo Lombuzo: Ukuqhathanisa Ukusebenza

Umbuzo: Ingabe ama-supercapacitor anezingqimba ezimbili angahlangabezana nezidingo zokugcina amandla zama-thermometer e-Bluetooth kwimodi yokulinda yesikhathi eside?

Impendulo: Kumodi yokulinda, ama-thermometer e-Bluetooth asebenza ngokusetshenziswa kwamandla e-microampere okuphansi kakhulu isikhathi esiningi, edinga amandla kagesi aphezulu e-milliampere kuphela ngesikhathi sokudluliswa kwedatha ye-Bluetooth okwesikhashana. Ama-supercapacitor anezingqimba ezimbili anamandla amakhulu kakhulu, asekela impilo yebhethri ephansi yesikhathi esifushane futhi ahlinzeka ngama-pulse wamandla aphezulu okuxhumana kwe-Bluetooth. Kuhlanganiswe nokuhlela kwe-firmware okulungiselelwe kanye nokuphathwa kwamandla, isikhathi sokulinda ngemva kokushaja okukodwa singandiswa, kuqinisekiswe ulwazi lomsebenzisi olufana nezixazululo zebhethri zendabuko.

8. Uhlobo Lombuzo: Ukuqhathaniswa Kwezindleko

Umbuzo: Kusukela embonweni wezindleko ze-BOM kanye nenqubo yokukhiqiza, ingabe i-supercapacitor enezingqimba ezimbili inikeza inzuzo yezindleko ngaphezu kwamabhethri e-lithium titanate?

Impendulo: Ama-supercapacitor anezingqimba ezimbili anikeza izinzuzo ezibalulekile ngaphezu kwamabhethri e-lithium titanate kuma-thermometer e-Bluetooth: ukususa isidingo sama-IC okuvikela ibhethri kanye nezingxenye zebhethri zamakhemikhali kwenza inqubo yokukhiqiza ibe lula futhi kunciphisa izindleko ze-BOM; impilo yomjikelezo ephezulu inciphisa izindleko zokugcinwa kwesikhathi eside; futhi adlula amabhethri e-lithium titanate ngokusebenza kahle, ukuphepha, ubungane bemvelo, ukumelana nokushisa okuphezulu, kanye nokusebenza kahle kwezindleko jikelele.

9. Uhlobo Lombuzo: Umjikelezo Wokuphila

Umbuzo: Ngokuphathelene nokugcinwa kwemishini noma imijikelezo yokushintshwa, ingabe ama-supercapacitor anezingqimba ezimbili angandisa kakhulu isikhathi sokuphila komkhiqizo?

Impendulo: Yebo, ukusebenzisa ama-supercapacitor anezingqimba ezimbili kwandisa isikhathi sokuphila se-thermometer futhi kunciphisa kakhulu izinkinga zokushintsha noma zokungasebenzi kahle okubangelwa ukuguga kwebhethri. Ama-supercapacitor anezingqimba ezimbili agcina amandla ngokomzimba, afinyelela imijikelezo engu-500,000 yokushaja nokukhipha noma ngaphezulu, okudlula kakhulu isikhathi sokuphila somklamo womkhiqizo. Imikhiqizo efana nochungechunge lwe-SLX ne-SDS lwe-YMIN inikeza isikhathi sokuphila eside kakhulu uma kuqhathaniswa namabhethri, okufeza ngempela ukusebenza okungenakulungiswa.

II. Ukukhathazeka Kwabasebenzisi

1. Uhlobo Lombuzo: Ukuqhathaniswa Kokusebenza

Umbuzo: Uma i-thermometer ye-Bluetooth isebenzisa i-supercapacitor enezingqimba ezimbili esikhundleni sebhethri, kuthatha cishe isikhathi esingakanani ukushaja ngokugcwele? Ingabe ukushaja okufushane kusekela ukusetshenziswa okuningana kokupheka noma kokulinganisa izinga lokushisa?

Impendulo: 1. Uma i-thermometer ye-Bluetooth isebenzisa i-supercapacitor enezingqimba ezimbili esikhundleni sebhethri, isikhathi sokushaja esigcwele sincike kakhulu kumthamo we-capacitor kanye nomthamo wokushaja. Isibonelo, i-supercapacitor enezingqimba ezimbili engu-3.8V, 1~10F ithatha imizuzwana embalwa kuya kwemizuzu embalwa ukushaja ngokugcwele ngaphansi kokushaja okuvamile kwe-USB (100~500 mA). Izici zayo zokushaja okusheshayo kanye nokukhipha zivumela ukuthi isekele ukusetshenziswa okuningana kokupheka noma kokulinganisa izinga lokushisa ngisho noma ishaja ifushane. Ama-supercapacitor anezingqimba ezimbili nawo anezinzuzo zokuphila isikhathi eside kanye nokumelana nokushisa okukhulu.

2. Uhlobo Lombuzo: Ukuqhathanisa Ukusebenza

Umbuzo: Ingabe i-thermometer ye-Bluetooth esebenza nge-supercapacitor enezingqimba ezimbili ingasebenza ngokuqhubekayo ngesikhathi sokubhaka kancane noma ukubhema okuhlala amahora angu-6 ~ 12?

Impendulo: Ama-thermometer e-Bluetooth asebenzisa ama-Bluetooth chips anamandla aphansi. Ama-supercapacitor anezingqimba ezimbili angashajwa ngokugcwele ngokushesha ngemizuzwana noma imizuzu. Esebenzisa izici zawo zokushaja okusheshayo, ama-supercapacitor anezingqimba ezimbili angabuyisa amandla ngokushesha ngesikhathi esifushane, ngakho-ke asikho isidingo sokukhathazeka ngempilo yebhethri.

3. Uhlobo Lombuzo: Isimiso Sobuchwepheshe

Umbuzo: Uma amandla e-supercapacitor enezingqimba ezimbili esephelile, ingabe idivayisi izolahlekelwa amandla ngokuzumayo? Ingabe izokwazisa ngebhethri eliphansi kusenesikhathi, njengedivayisi yebhethri?

Impendulo: Ngokungafani namabhethri, ama-supercapacitor anezingqimba ezimbili awanayo i-plateau yokukhipha. Abonisa izici zokukhipha eziqondile kunoma iyiphi i-voltage, okuvumela ukuqapha okulula nokulula kokushaja okusele ngokuqapha i-voltage uma kuqhathaniswa namabhethri.

4. Uhlobo Lombuzo: Ukuqhathanisa Ukusebenza

Umbuzo: Ama-supercapacitor anezingqimba ezimbili aqhathaniswa kanjani namabhethri e-lithium titanate ngokuya ngokumelana nokushisa nokuthembeka?

Impendulo: Ngokuphathelene nokusebenza, ama-supercapacitor anezingqimba ezimbili athembele ekugcinweni kwamandla angokwenyama, okwenza angathinteki kakhulu amazinga okushisa aphansi kunamabhethri e-lithium titanate. Agcina ukusebenza okuhle ngisho nasemazingeni okushisa aphezulu angama-85℃ noma ngaphezulu, okwandisa kakhulu ukumelana kwawo nokushisa uma kuqhathaniswa namabhethri e-lithium titanate.

5. Uhlobo Lombuzo: Ukuqhathanisa Ukusebenza

Umbuzo: Uma i-thermometer ingasetshenziswa isikhathi eside (isb., amasonto ambalwa), ingabe ama-supercapacitor anezingqimba ezimbili azoba sengozini enkulu yokuvuza noma yokulahlekelwa amandla kunabalingani bawo bebhethri?

Impendulo: Uma kusetshenziswa i-supercapacitor eyi-hybrid, inamandla aphezulu okukhipha ibhethri, ifinyelela kubhethri, futhi ikhipha ibhethri minyaka yonke ngaphansi kwe-10%. Ngaphandle kwalokho, i-supercapacitor enezingqimba ezimbili ingasetshenziswa, ethunyelwa ingashajwanga futhi ingashajwa ngokugcwele ngokushesha ngemizuzwana.

6. Uhlobo Lombuzo: Umjikelezo Wokuphila

Umbuzo: Ingabe ukusebenzisa i-supercapacitor enezingqimba ezimbili kuzokwandisa isikhathi sokuphila kwe-thermometer? Ingabe kuzonciphisa izinkinga zokushintsha noma zokungasebenzi kahle okubangelwa ukuguga kwebhethri?

Impendulo: Yebo, ukusebenzisa i-supercapacitor enezingqimba ezimbili kuzokwandisa isikhathi sokuphila se-thermometer futhi kunciphise kakhulu izinkinga zokushintsha noma zokungasebenzi kahle okubangelwa ukuguga kwebhethri. Ama-supercapacitor anezingqimba ezimbili agcina amandla ngokomzimba, afinyelele imijikelezo yokushaja engu-500,000 noma ngaphezulu, okudlula kakhulu isikhathi sokuphila somklamo womkhiqizo. Imikhiqizo efana nochungechunge lwe-SLX ne-SDS lwe-YMIN inikeza isikhathi sokuphila esikhuliswe kakhulu uma kuqhathaniswa namabhethri, okufeza ngempela ukusebenza okungenakulungiswa.

7. Uhlobo Lombuzo: Inkinga Yokulawula

Umbuzo: Uma kuqhathaniswa nezixazululo zebhethri, ingabe ama-supercapacitor anezingqimba ezimbili anganciphisa imikhawulo kwezokuthutha, isitoreji, noma izitifiketi zokuthumela ngaphandle ze-EU (njenge-UN38.3)?

Impendulo: Yebo, ukuthunyelwa kwebhethri kwamanye amazwe kudinga izitifiketi ezahlukahlukene eziyinkimbinkimbi. Nokho, ama-supercapacitor anezingqimba ezimbili asebenzisa indlela yokugcina amandla ebonakalayo futhi athunyelwa ngaphandle kokushaja. Angathunyelwa kwamanye amazwe njengemikhiqizo ejwayelekile ye-elekthronikhi ngaphandle kwesitifiketi. Ama-supercapacitor e-hybrid, angama-supercapacitor anezingqimba ezimbili kuphela, adinga kuphela izitifiketi ze-UN38.3 kanye nezokuthutha emoyeni/olwandle, futhi awavinjelwe yizokuthutha emoyeni noma olwandle.

8. Uhlobo Lombuzo: Ukusekelwa Komklamo

Umbuzo: Ingabe inguqulo ye-supercapacitor enezingqimba ezimbili ye-thermometer isakwazi ukusebenzisa ishaja ejwayelekile ye-USB noma ifoni ephathekayo? Ingabe i-adaptha ezinikele iyadingeka?

Impendulo: Yebo, ama-supercapacitor amabili kanye nama-hybrid adinga kuphela ukuthi i-voltage yawo yokushaja inqunyelwe. Akukho i-IC yokushaja ezinikele edingekayo ekuphathweni. Ukushaja kwamanje okuqhubekayo kanye nokushaja kwe-voltage okuqhubekayo kwanele, okususa isidingo sokuphathwa kokushaja/ukukhipha okuyinkimbinkimbi njengamabhethri.

9. Uhlobo Lombuzo: Ukuvikelwa Kwemvelo

Umbuzo: Ingabe izinhlobo zemikhiqizo ezinezingqimba ezimbili ze-supercapacitor zingcono kunezinhlobo zebhethri maqondana nokuvikelwa kwemvelo, ukuphepha, noma ukuphinde kusetshenziswe?

Impendulo: Yebo, zonke izinto ezisetshenziswa kuma-supercapacitor anezingqimba ezimbili zihambisana nezitifiketi ze-RoHS kanye ne-REACH, okwenza kube imikhiqizo yamandla aluhlaza ngempela. Zinikeza izinzuzo ezibalulekile maqondana nokuvikelwa kwemvelo nokuphepha. Azikho izingxenye zazo eziqukethe amakhemikhali ayingozi, ngakho azingcolisi imvelo, futhi ukuphinda kusetshenziswe kulula. Zingaphinde zisetshenziswe njenganoma yimuphi omunye umkhiqizo we-elekthronikhi.

10. Uhlobo Lombuzo: Ukuvikelwa Kwemvelo

Umbuzo: Ama-supercapacitor anezingqimba ezimbili anezinzuzo ezibalulekile ngaphezu kwamabhethri e-lithium titanate kuzo zonke izici zokusebenza. Ingabe abiza kakhulu kunamabhethri?

Impendulo: Kuma-thermometer e-Bluetooth, ama-supercapacitor anezingqimba ezimbili anikeza isilinganiso esikhulu sezindleko nokusebenza uma kuqhathaniswa namabhethri e-lithium titanate. Kungakhathaliseki ukuthi ngokusebenza komkhiqizo, ukuphepha, ubungane nemvelo, impilo yomjikelezo, ukumelana nokushisa okuphezulu, noma izindleko, ama-supercapacitor anezingqimba ezimbili adlula kakhulu amabhethri e-lithium titanate.