I. Imiba exhalabisayo kubaYili/abavelisi
1. Uhlobo lweMba: Inkxaso yoYilo
Umbuzo: Kuyilo lwethemometha yeBluetooth, emva kokutshintsha iibhetri ze-lithium titanate ngee-supercapacitors ezineeleya ezimbini, ngaba icebo lolawulo lwamandla ngokubanzi kufuneka lilungiswe?
Impendulo: Ewe. Xa usebenzisa ii-supercapacitors ezimaleko amabini endaweni yeebhetri ze-lithium titanate, icebo lolawulo lwamandla ngokubanzi kufuneka lihlengahlengiswe. I-voltage yokukhupha ii-supercapacitors ezimaleko amabini iyancipha ngokuthe ngqo xa ikhutshwa, ngelixa iibhetri ze-lithium titanate zibonelela nge-voltage ezinzileyo. Oku kuthetha ukuba i-MCU kunye ne-Bluetooth module zisenokungasebenzi ngokuzinzileyo phantsi kweemeko ze-voltage ephantsi. Ke ngoko, kuyacetyiswa ukuqinisekisa uzinzo lwesixhobo kulo lonke umjikelo wokusebenza ngokongeza i-circuitry monitoring circuitry, usebenzisa i-DC-DC voltage regulator module, okanye ufake amaqhinga okukhusela i-voltage ephantsi kunye nokulungiswa okunamandla kwi-firmware.
2. Uhlobo lweMba: Inkxaso yoYilo
Umbuzo: Ngaba iimpawu zokutshaja ngokukhawuleza kunye nokukhupha ii-supercapacitors ezikwi-double-layer ziya kuchaphazela uzinzo okanye amandla esignali yosasazo lwe-BLE?
Impendulo: Hayi. Nangona iimpawu zokukhupha itshaja ngokukhawuleza ze-supercapacitors ezinamalaya amabini zinokubonelela ngombane ophezulu ixesha elifutshane, amandla okukhupha anganelanga ukugcina ukusebenza kwamandla aphezulu njengoko i-voltage yehla. Ukuba i-thermometer yeBluetooth isetyenziselwa ukusasaza okuqhubekayo okanye ukuhanjiswa kwedatha rhoqo, kuyacetyiswa ukuba kuphuculwe ulawulo lwamandla, njengokulungisa ixesha lokusasaza, ixesha lokuvavanya, okanye ukongeza indlela yokuqikelela amandla kwi-firmware ukuqinisekisa uzinzo lwesignali kunye nokuthembeka konxibelelwano.
3. Uhlobo lombuzo: Inkxaso yoyilo
Umbuzo: Ngaba ifestile yevolthi yokusebenza ye-supercapacitor enamaleko amabini (umz., 2.7V okanye 3.8V) yanele ukugubungela iimfuno zamandla ze-chip yokulawula ephambili yeBluetooth?
Impendulo: Ewe. Uluhlu lwevolthi yee-supercapacitors ezineeleya ezimbini luqhele ukuba phakathi kwe-2.7V ukuya kwi-3.8V. Ngexesha lesigaba soyilo, kuyimfuneko ukuqinisekisa ubuncinci bevolthi yokusebenza kunye nee-curves zokusetyenziswa kwamandla ze-thermometer main control chip kunye ne-Bluetooth module. Ukuba kuyimfuneko, i-boost converter ingongezwa okanye imo yokusebenza yevolthi ephantsi inokusetyenziswa ukuqinisekisa ukusebenza okuqhelekileyo kulo lonke umjikelo wokukhupha, kuthintelwe ukulahleka kombane okanye ukuqala kwakhona ngenxa yokuwa kwevolthi.
4. Uhlobo lombuzo: Uthelekiso loMsebenzi
Umbuzo: Kwiimeko zobushushu obugqithisileyo (umz., -40℃ ukuya kuma-85℃), ngaba ukusebenza kwee-supercapacitors ezinee-double-layer kuthembekile ngakumbi kuneebhetri ze-lithium titanate?
Impendulo: Ii-supercapacitors ezinee-layer ezimbini zihlala zithembekile ngakumbi kuneebhetri ze-lithium titanate kumaqondo obushushu aphezulu. Zingasebenza kumanqanaba obushushu abanzi (ngokubanzi -40℃ ukuya kuma-85℃), azibonakalisi ukubola komthamo omncinci kumaqondo obushushu aphezulu naphantsi, zinobomi obude bomjikelo, kwaye azibeki zingozi zokhuseleko ezifana nokubaleka kobushushu. Ngenxa yokuba ii-supercapacitors ezinee-layer ezimbini zizixhobo zokugcina amandla omzimba, azichaphazeleki kakhulu ngamaqondo obushushu aphantsi kwaye zinokugcina ukusebenza okuzinzileyo nokuba kuma-85℃ nangaphezulu, zibonisa ukumelana nobushushu okungcono kakhulu kuneebhetri ze-lithium titanate.
5. Uhlobo lombuzo: Umjikelo wobomi
Umbuzo: Ngaba kukho umngcipheko wokubola kwe-voltage okanye ukuvuza kwi-supercapacitors ezinezitezi ezimbini ngexesha lokugcina okanye ukuthuthwa kwexesha elide?
Impendulo: Ii-supercapacitors ezikwi-double-layer zizibonakalisa ngokwazo, kwaye i-voltage yazo iya kuncipha kancinci ngexesha lokugcina okanye ukuthuthwa kwexesha elide. Abavelisi badla ngokubonelela ngedatha eqhelekileyo yokuzikhupha kwaye bacebisa ukuba kufakwe imisebenzi yokutshaja ixesha elifutshane okanye yokuvuka ngokukhawuleza kuyilo ukuqinisekisa ukusebenza okuqhelekileyo kwesixhobo ngexesha lokwenziwa, ukuthuthwa, kunye nokulinda ixesha elide. Ii-supercapacitors ezihlanganisiweyo zibonisa ukusebenza okugqwesileyo kokuzikhupha, kunye nesantya sonyaka sokuzikhupha esingaphantsi kwe-10%; ii-supercapacitors eziqhelekileyo ezikwi-double-layer zinokuthunyelwa zingatshajwanga kwaye zitshajwe ngokukhawuleza kwimizuzwana embalwa.
6. Uhlobo lombuzo: Ingxaki yoLawulo
Umbuzo: Ngaba ukwamkela isisombululo se-supercapacitor esineengqimba ezimbini kuya kwenza kube lula iinkqubo zokuqinisekisa i-EU CE, i-RoHS, i-UN38.3, njl.njl.?
Impendulo: Ngokungafaniyo neebhetri ze-lithium titanate, ii-supercapacitors ezinee-layer ezimbini zizixhobo zokugcina amandla ezingezizo iikhemikhali, ezithunyelwa ngaphandle kokutshaja, kwaye zinokuthathwa njengeemveliso ze-elektroniki eziqhelekileyo zokuthumela ngaphandle, ezingafuni ziqinisekiso zintsonkothileyo. Xa kuthelekiswa neebhetri, ezifuna iziqinisekiso ezininzi ezifana ne-CE, i-RoHS, kunye ne-UN38.3 zokuthumela ngaphandle, ii-supercapacitors ezinee-layer ezimbini zifuna kuphela i-UN38.3 kunye nesatifikethi sokuthutha umoya/ulwandle kwiintlobo zokugcina amandla axutyiweyo (ii-supercapacitors ezinee-hybrid), nto leyo ebangela ukuba kubekho imida embalwa yokuthutha, ukuqaliswa kwemarike ngokukhawuleza, kunye nokuhanjiswa okuguquguqukayo ngakumbi.
7. Uhlobo lombuzo: Uthelekiso loMsebenzi
Umbuzo: Ngaba ii-supercapacitors ezinee-layer ezimbini zingahlangabezana neemfuno zokugcina amandla zee-thermometers zeBluetooth kwimodi yokulinda ixesha elide?
Impendulo: Kwimo yokulinda, ii-thermometer zeBluetooth zisebenza ngamandla aphantsi kakhulu e-microampere uninzi lwexesha, zifuna i-milliampere peak current kuphela ngexesha lokudluliselwa kwedatha yeBluetooth okwexeshana. Ii-supercapacitors ezinee-double-layer zinamandla aphezulu kakhulu, zixhasa ubomi bebhetri obuphantsi kwexesha elifutshane kwaye zibonelela ngee-pulses eziphezulu zonxibelelwano lweBluetooth. Xa zidibene neshedyuli ye-firmware ephuculiweyo kunye nolawulo lwamandla, ixesha lokulinda emva kokutshaja kube kanye linokwandiswa, ukuqinisekisa amava omsebenzisi afana nezisombululo zebhetri zemveli.
8. Uhlobo Lombuzo: Uthelekiso lweendleko
Umbuzo: Ukusuka kwimbono yeendleko ze-BOM kunye nenkqubo yokuvelisa, ngaba i-supercapacitor enamaleko amabini inika inzuzo yeendleko ngaphezu kweebhetri ze-lithium titanate?
Impendulo: Ii-supercapacitor ezinee-double-layer zibonelela ngeenzuzo ezibalulekileyo kuneebhetri ze-lithium titanate kwii-thermometers zeBluetooth: ukuphelisa imfuneko yokukhusela ii-IC kunye neenxalenye zebhetri yamakhemikhali kwenza kube lula inkqubo yokuvelisa kwaye kunciphisa iindleko ze-BOM; ubomi obuphezulu bomjikelo bunciphisa iindleko zokugcinwa kwexesha elide; kwaye ziphumelela ngaphezu kweebhetri ze-lithium titanate ekusebenzeni, kukhuseleko, kubuhlobo nokusingqongileyo, kukumelana nobushushu obuphezulu, kunye nokusebenza kakuhle kweendleko ngokubanzi.
9. Uhlobo lombuzo: Umjikelo wobomi
Umbuzo: Ngokuphathelele ukugcinwa kwezixhobo okanye imijikelo yokutshintshwa, ngaba ii-supercapacitors ezineengqimba ezimbini zingandisa ubomi bemveliso ngokubonakalayo?
Impendulo: Ewe, ukusebenzisa ii-supercapacitors ezimaleko amabini kwandisa ubomi be-thermometer kwaye kunciphisa kakhulu iingxaki zokutshintshwa okanye ukungasebenzi kakuhle okubangelwa kukuguga kwebhetri. Ii-supercapacitors ezimaleko amabini zigcina amandla ngokwasemzimbeni, zifikelela kwimijikelo yokukhupha itshaja engama-500,000 okanye ngaphezulu, zidlula kakhulu ubomi boyilo lwemveliso. Iimveliso ezifana ne-YMIN's SLX kunye ne-SDS series zibonelela ngobomi obude kakhulu xa kuthelekiswa neebhetri, zifezekisa ukusebenza okungenakulungiswa.
II. Iinkxalabo zabasebenzisi
1. Uhlobo lombuzo: Uthelekiso loMsebenzi
Umbuzo: Ukuba i-thermometer yeBluetooth isebenzisa i-supercapacitor enezingqimba ezimbini endaweni yebhetri, kuthatha ixesha elingakanani ukutshaja ngokupheleleyo? Ngaba ukutshaja okufutshane kunokunceda ukupheka okanye ukulinganisa ubushushu ngeendlela ezahlukeneyo?
Impendulo: 1. Ukuba i-thermometer yeBluetooth isebenzisa i-supercapacitor enezingqimba ezimbini endaweni yebhetri, ixesha elipheleleyo lokutshaja lixhomekeke kakhulu kumthamo we-capacitor kunye nomsinga wokutshaja. Umzekelo, i-supercapacitor enezingqimba ezimbini ye-3.8V, 1 ~ 10F ithatha imizuzwana embalwa ukuya kwimizuzu embalwa ukutshaja ngokupheleleyo phantsi kokutshaja okuqhelekileyo kwe-USB (100 ~ 500 mA). Iimpawu zayo zokutshaja ngokukhawuleza kunye nokukhupha zivumela ukuba ixhase ukusetyenziswa okuliqela kokupheka okanye ukulinganisa ubushushu nokuba itshaja emfutshane. Ii-supercapacitor ezinezingqimba ezimbini nazo zineengenelo zobomi obude kunye nokumelana nobushushu obugqithisileyo.
2. Uhlobo lombuzo: Uthelekiso loMsebenzi
Umbuzo: Ngaba i-thermometer yeBluetooth esebenza yi-supercapacitor enamaleko amabini ingasebenza ngokuqhubekayo ngexesha lokugcada okanye ukutshaya okucothayo okuhlala iiyure ezi-6 ukuya kwezi-12?
Impendulo: Ii-thermometer zeBluetooth zisebenzisa iitships zeBluetooth ezinamandla aphantsi. Ii-supercapacitors ezinee-double-layer zinokutshajwa ngokupheleleyo ngokukhawuleza kwimizuzwana okanye imizuzu. Zisebenzisa iimpawu zazo zokutshaja ngoko nangoko, ii-supercapacitors ezinee-double-layer zinokubuyisa amandla ngokukhawuleza ngexesha elifutshane, ngoko ke akukho mfuneko yokukhathazeka malunga nobomi bebhetri.
3. Uhlobo lombuzo: Umgaqo woBugcisa
Umbuzo: Xa amandla e-supercapacitor enamaleko amabini ephelile, ngaba isixhobo siza kuphelelwa ngamandla ngequbuliso? Ngaba siza kukwazisa ngebhetri ephantsi kwangethuba, njengesixhobo sebhetri?
Impendulo: Ngokungafaniyo neebhetri, ii-supercapacitors ezineeleya ezimbini azinawo umgangatho wokukhupha umbane. Zibonisa iimpawu zokukhupha umbane ezithe ngqo kuyo nayiphi na i-voltage, nto leyo evumela ukuba kube lula kwaye kube lula ukujonga itshaja eseleyo ngokujonga i-voltage xa kuthelekiswa neebhetri.
4. Uhlobo lombuzo: Uthelekiso loMsebenzi
Umbuzo: Ii-supercapacitors ezinee-double-layer zithelekiswa njani neebhetri ze-lithium titanate ngokubhekiselele ekumelaneni nobushushu kunye nokuthembeka?
Impendulo: Ngokuphathelele ukusebenza, ii-supercapacitors ezinee-layer ezimbini zixhomekeke kugcino lwamandla omzimba, nto leyo eyenza zingachaphazeleki kakhulu ngamaqondo obushushu aphantsi kuneebhetri ze-lithium titanate. Zigcina ukusebenza kakuhle nokuba kumaqondo obushushu aphezulu angama-85℃ nangaphezulu, nto leyo eyonyusa kakhulu ukumelana kwazo nobushushu xa kuthelekiswa neebhetri ze-lithium titanate.
5. Uhlobo lombuzo: Uthelekiso loMsebenzi
Umbuzo: Ukuba i-thermometer ayisetyenziswa ixesha elide (umz., iiveki ezimbalwa), ngaba ii-supercapacitors ezinee-double-layer ziya kuba sengozini yokuvuza okanye ukulahleka kwamandla kuneebhetri zazo?
Impendulo: Ukuba kusetyenziswa i-hybrid supercapacitor, isebenza kakuhle kakhulu xa iphuma, isondela kwebhetri, kwaye iphuma rhoqo ngonyaka ingaphantsi kwe-10%. Kungenjalo, i-double-layer supercapacitor ingasetyenziswa, ethunyelwa ngaphandle kokutshaja kwaye inokutshaja ngokupheleleyo ngokukhawuleza kwimizuzwana embalwa.
6. Uhlobo lombuzo: Umjikelo wobomi
Umbuzo: Ngaba ukusebenzisa i-supercapacitor enamaleko amabini kuya kwandisa ubomi be-thermometer? Ngaba kuya kunciphisa iingxaki zokutshintshwa okanye ukungasebenzi kakuhle okubangelwa kukuguga kwebhetri?
Impendulo: Ewe, ukusebenzisa i-supercapacitor enamaleko amabini kuya kwandisa ubomi be-thermometer iyonke kwaye kunciphisa kakhulu imiba yokutshintshwa okanye ukungasebenzi kakuhle okubangelwa kukuguga kwebhetri. Ii-supercapacitor ezinamaleko amabini zigcina amandla ngokwasemzimbeni, zifikelela kwimijikelo yokukhupha itshaja engama-500,000 okanye ngaphezulu, zidlula kakhulu ubomi boyilo lwemveliso. Iimveliso ezifana ne-YMIN's SLX kunye ne-SDS series zibonelela ngobomi obuphuculweyo kakhulu xa kuthelekiswa neebhetri, nto leyo efezekisa ukusebenza ngaphandle kokugcinwa.
7. Uhlobo lombuzo: Ingxaki yoLawulo
Umbuzo: Xa kuthelekiswa nezisombululo zebhetri, ngaba ii-supercapacitors ezinee-double-layer zinganciphisa imiqathango yokuthutha, yokugcina, okanye iziqinisekiso zokuthumela ngaphandle ze-EU (ezifana ne-UN38.3)?
Impendulo: Ewe, ukuthunyelwa kwebhetri kwamanye amazwe kufuna iziqinisekiso ezahlukeneyo ezintsonkothileyo. Nangona kunjalo, ii-supercapacitors ezinee-layer ezimbini, zisebenzisa indlela yokugcina amandla ebonakalayo kwaye zithunyelwa ngaphandle kokutshaja. Zingathunyelwa ngaphandle njengeemveliso ze-elektroniki ngokubanzi ngaphandle kwesiqinisekiso. Ii-supercapacitors ze-hybrid, eziluhlobo lwe-hybrid energy storage type double-layer supercapacitors, zifuna kuphela iziqinisekiso ze-UN38.3 kunye nezothutho lomoya/lolwandle, kwaye azithintelwanga kuthutho lomoya okanye lolwandle.
8. Uhlobo Lombuzo: Inkxaso Yoyilo
Umbuzo: Ngaba inguqulelo ye-supercapacitor enezingqimba ezimbini ye-thermometer ingasebenzisa itshaja ye-USB eqhelekileyo okanye ifowuni ephathwayo? Ngaba i-adaptha ekhethekileyo iyafuneka?
Impendulo: Ewe, zombini ii-supercapacitors ezine-double-layer kunye ne-hybrid supercapacitors kufuneka zibe ne-voltage yazo yokutshaja elinganiselweyo. Akukho IC yokutshaja ezinikeleyo efunekayo kulawulo. Ukutshaja rhoqo kunye nokutshaja rhoqo kwe-voltage kwanele, okususa imfuneko yolawulo oluntsonkothileyo lwe-charge/discharge njengeebhetri.
9. Uhlobo lombuzo: Ukhuseleko lweNdalo
Umbuzo: Ngaba iinguqulelo zemveliso ze-supercapacitor ezinee-layer ezimbini zingcono kuneenguqulelo zebhetri ngokubhekiselele kukhuseleko lokusingqongileyo, ukhuseleko, okanye ukuphinda zisetyenziswe?
Impendulo: Ewe, zonke izinto ezisetyenziswa kwi-supercapacitors ezinezitebhisi ezimbini ziyahambelana neziqinisekiso zeRoHS kunye neREACH, nto leyo ezenza zibe ziimveliso zamandla aluhlaza ngokwenene. Zibonelela ngeenzuzo ezibalulekileyo ngokubhekiselele kukhuseleko lokusingqongileyo. Akukho nanye kwinxalenye yazo equlethe iikhemikhali eziyingozi, ngoko azingcolisi okusingqongileyo, kwaye ukuphinda kusetyenziswe kulula. Zingaphinda zisetyenziswe njengayo nayiphi na imveliso ye-elektroniki.
10. Uhlobo Lombuzo: Ukhuseleko Lokusingqongileyo
Umbuzo: Ii-supercapacitors ezinee-layer ezimbini zineengenelo ezibalulekileyo kuneebhetri ze-lithium titanate kuzo zonke iinkalo zokusebenza. Ngaba zibiza kakhulu kuneebhetri?
Impendulo: Kwii-thermometers zeBluetooth, ii-supercapacitors ezinee-layer ezimbini zibonelela ngomlinganiselo ophezulu weendleko-ukusebenza xa kuthelekiswa neebhetri ze-lithium titanate. Nokuba ngokwendlela esebenza ngayo imveliso, ukhuseleko, ubuhlobo nokusingqongileyo, ubomi bomjikelo, ukumelana nobushushu obuphezulu, okanye ixabiso, ii-supercapacitors ezinee-layer ezimbini zingcono kuneebhetri ze-lithium titanate.
Ixesha leposi: Jan-14-2026