Uhlobo Lwenkinobho I-Super Capacitor
| Izinhlobo | I-voltage elinganiselwe | Amandla okuzisholo | Ukumelana kwangaphakathi | V uhlobo | H uhlobo | C uhlobo | ||||||
| (V) | (F) | (mΩ @1kHz) | øD | H | P | øD | H | P | øD | H | P | |
| Uhlobo Lwenkinobho | 5.5 | 0.1 | ≤65 | 9.5 | 14.1 | 4.5 | 9.5 | 8.6 | 10 | 13 | 13 | 5 |
| 5.5 | 0.1 | ≤50 | 11.5 | 16.5 | 4.5 | 11.5 | 8.6 | 10 | 13 | 13 | 5 | |
| 5.5 | 0.22 | ≤65 | 9.5 | 14.1 | 4.5 | 9.5 | 8.6 | 10 | 13 | 13 | 5 | |
| 5.5 | 0.22 | ≤50 | 11.5 | 16.5 | 4.5 | 11.5 | 8.6 | 10 | 13 | 13 | 5 | |
| 5.5 | 0.33 | ≤65 | 9.5 | 14.1 | 4.5 | 9.5 | 8.6 | 10 | 13 | 13 | 5 | |
| 5.5 | 0.33 | ≤50 | 11.5 | 16.5 | 4.5 | 11.5 | 8.6 | 10 | 13 | 13 | 5 | |
| 5.5 | 0.47 | ≤50(C Type≤30) | 11.5 | 16.5 | 4.5 | 11.5 | 8.6 | 10 | 20.5 | 12.5 | 5 | |
| 5.5 | 0.47 | ≤50(C Type≤30) | 12.5 | 17.5 | 4.5 | 12.5 | 8.6 | 10 | 20.5 | 12.5 | 5 | |
| 5.5 | 0.68 | ≤30 | 16 | 20 | 4.5 | 16 | 9.2 | 16 | 20.5 | 12.5 | 5 | |
| 5.5 | 1 | ≤20 | 19 | 23 | 4.5 | 19 | 9.2 | 19 | 20.5 | 12.5 | 5 | |
| 5.5 | 1.5 | ≤20 | 19 | 23 | 4.5 | 19 | 9.2 | 19 | 20.5 | 12.5 | 5 | |
| 5.5 | 4 | ≤16 | 25 | 29 | 6 | 25 | 9 | 25 | ||||
Izici Zokusebenza:
1. Isivinini sokushaja siyashesha, futhi amandla alinganiselwe angafinyelelwa phakathi nemizuzwana engama-30 yokushaja.
2. Impilo yomjikelezo omude, izikhathi ezingafika ku-500,000 zokusetshenziswa, nempilo yokuguqulwa isondele eminyakeni engama-30
3. Umthamo wokukhipha onamandla, ukusebenza kahle okuphezulu nokulahlekelwa okuphansi
4. Ukuminyana kwamandla okuphansi
5. Zonke izinto zokukhiqiza zihambisana ne-RoHS
6. Ukusebenza okulula nokugcinwa mahhala
7. Izici zokushisa ezinhle, zingasebenza ku -40 ℃ ngokuphansi ngangokunokwenzeka
8. Ukuhlola okulula
9. Yamukelekile njengemojula ye-super capacitor
Isicelo sohlobo lwenkinobho ye-Super Capacitor
Izinhlelo zokusebenza ezijwayelekile: I-RAM, izinto zikagesi zabathengi, iphimbo le-wind turbine, imboni yezempi, igridi ehlakaniphile, ukunikezwa kwamandla okusekelayo, amathoyizi, njll.
I-Advance Workshop
Asigcini nje ngokuba nenani lemishini yokukhiqiza ezenzakalelayo nemishini yokuhlola ezenzakalelayo kodwa futhi sinelabhorethri yethu yokuhlola ukusebenza nokuthembeka kwemikhiqizo yethu.
Izitifiketi
Isitifiketi
Amafekthri e-JEC aphumelele isitifiketi sokuphatha se-ISO9001 ne-ISO14001.Imikhiqizo ye-JEC isebenzisa ngokuqinile amazinga e-GB namazinga e-IEC.Ama-capacitor okuphepha e-JEC kanye nama-varistors aphumelele izitifiketi eziningi ezigunyaziwe ezihlanganisa i-CQC, i-VDE, i-CUL, i-KC , i-ENEC ne-CB.Izingxenye ze-elekthronikhi ze-JEC zithobela i-ROHS, REACH\SVHC, i-halogen nezinye iziqondiso zokuvikela imvelo, futhi zihlangabezana nezidingo zokuvikelwa kwemvelo ze-EU.
Mayelana NATHI
Umsunguli wenkampani ubambe iqhaza ocwaningweni lwe-capacitor kanye nentuthuko kanye nokwakhiwa kwesekethe iminyaka engaphezu kwengama-20.Le nkampani isebenzise umqondo omusha wenkonzo yomzanyana embonini, esiza amakhasimende ngokukhululekile ocwaningweni nasekuthuthukisweni kwesekethe, ukukhetha okwenziwe ngokwezifiso kwe-capacitor, ukwenziwa ngcono kwesekethe yamakhasimende kanye nokuthuthukiswa, ukuhlaziya inkinga engavamile yokusetshenziswa komkhiqizo, futhi inikeza amaklayenti ethu imodeli entsha yehlukile futhi eyingqayizivele. izinkonzo ezicabangelayo.
1. Iyini i-capacitor kagesi enezingqimba ezimbili?
I-Super capacitor ibizwa nangokuthi i-electric double layer capacitor.Iqukethe amapuleti amabili, futhi insimu kagesi ikhiqizwa phakathi kwamapuleti amabili.
Inzuzo yayo eyinhloko ukushaja okusheshayo nokukhipha, futhi inamandla amakhulu kakhulu (ngokuvamile ngaphakathi kwebanga le-Farad), ngakho-ke ingasetshenziswa ezimotweni zikagesi ezifana nezimoto zeTesla ngenxa yejubane layo lokusebenza nokunye.
2. Iyini ukusetshenziswa kwama-capacitor aphindwe kabili kagesi?
Ama-capacitor angama-double layer capacitor (EDLC) asetshenziswa kabanzi.Zingasetshenziswa njengomthombo wamandla webhalansi yamandla wamadivayisi okuphakamisa, anganikeza amandla amanje amakhulu kakhulu;angasetshenziswa njengomthombo wamandla oqala imoto, ngoba ukusebenza kahle kwawo kokuqala nokwethembeka kuphakeme kunamabhethri endabuko, futhi angawashintsha ngokugcwele noma ngokwengxenye amabhethri endabuko;zingasetshenziswa njengomthombo wamandla okudonsa ezimotweni;zingasetshenziswa empini ukuze kuqinisekiswe ukuqala okushelelayo kwamathangi, izimoto ezihlomile namanye amathangi (ikakhulukazi ebusika obubandayo), njengamandla okushaya kwezikhali ze-laser.Ngaphezu kwalokho, zingasetshenziswa futhi njengamandla okugcina amandla kwezinye izinto zokusebenza ze-electromechanical.
3. Iyini i-capacitor kagesi enezingqimba ezimbili?
I-Electric Double-layer Capacitor iwuhlobo lwama-supercapacitor, okuwuhlobo olusha lwedivayisi yokugcina amandla.
I-capacitor ye-double-layer capacitor kagesi iphakathi kwebhethri ne-capacitor, futhi umthamo wayo omkhulu kakhulu ungasetshenziswa njengebhethri.
Uma kuqhathaniswa namabhethri asebenzisa izimiso ze-electrochemical, ama-capacitor kagesi anengqimba ephindwe kabili awabandakanyi izinguquko zezinto ezibonakalayo nhlobo enqubweni yokushaja nokukhipha, ngakho anezici zesikhathi esifushane sokushaja, impilo ende yesevisi, izici ezinhle zokushisa, ukonga amandla nokuvikelwa kwemvelo.
Ama-capacitor kagesi anezingqimba eziphindwe kabili anezikhala ezincane kakhulu zikagesi ezinezingqimba eziphindwe kabili, okuholela ku-voltage ekwazi ukumelana namandla, ngokuvamile engadluli ku-20V, ngakho-ke ngokuvamile asetshenziswa njengama-elementi okugcina amandla ku-DC ene-low-voltage noma izinhlelo zokusebenza zefrikhwensi ephansi.
4. Yiziphi izinzuzo kanye nokubi ama-super capacitor?
Uma kuqhathaniswa namabhethri endabuko, ama-supercapacitor anezinzuzo eziningi: ijubane lokushaja elisheshayo, elingashajwa ngaphezu kuka-95% womthamo walo olinganiselwe kumasekhondi angu-10 kuya kumaminithi angu-10;ukuminyana kwamandla kungafinyelela ku-(102~104) W/kg, okuphindwe izikhathi ezingu-10 kunamabhethri e-lithium.Inamandla okukhipha okuphezulu kwamandla aphezulu;ingasetshenziselwa imijikelezo eyi-100,000 kuye kwezingama-500,000 futhi inokuphila kwenkonzo ende;inesici esiphezulu sokuphepha futhi ayikhathaleli ukusetshenziswa isikhathi eside.Kodwa-ke, uma kuqhathaniswa namabhethri esibabule ajwayelekile, isabhekene nebubi bezindleko eziphezulu kanye nokuminyana kwamandla aphansi.
5. Iyini i-super capacitor?
Ama-Supercapacitor angabuye abizwe ngokuthi ama-capacitor amakhulu, ama-capacitor okugcina amandla, ama-capacitor egolide, ama-capacitor aphindwe kabili kagesi kagesi noma ama-farad capacitors.Ikakhulukazi ithembele kuzingqimba zikagesi eziphindwe kabili kanye nama-redox pseudocapacitor ukugcina amandla kagesi.Akukho ukusabela kwamakhemikhali ohlelweni lokugcina amandla ngakho-ke le nqubo yokugcina amandla iyabuyiselwa emuva, futhi kungenxa yalokhu i-supercapacitor ingashajwa ngokuphindaphindiwe futhi ikhishwe izikhathi ezingamakhulu ezinkulungwane.
6. Kungani i-supercapacitor ingukuthuthukiswa kwama-capacitor endabuko?
Ama-Flat capacitors akhiwe ngamapuleti amabili ensimbi e-electrode ahlanganiswe komunye nomunye.I-capacitance ilingana nendawo yamapuleti e-electrode futhi ilingana ngokuphambene nobukhulu begebe phakathi kwamapuleti e-electrode.Isakhiwo se-supercapacitor sifana nese-capacitor eyisicaba.Ama-electrode ayo ayizinto ezisetshenziswa yi-porous carbon-based.Isakhiwo se-porous sezinto ezibonakalayo sivumela ukuthi ibe nendawo engaphezulu kwamamitha ayizinkulungwane eziningana ngegremu yesisindo.Ibanga phakathi kwe-capacitor ne-charge linqunywa ubukhulu be-ion ku-electrolyte.Indawo enkulu engaphezulu ehlanganiswe nebanga elincane kakhulu phakathi kwamashaji yenza ama-supercapacitor abe nomthamo omkhulu.Umthamo wama-supercapacitor ungasukela ku-1 farad ukuya kuma-farad ayizinkulungwane ezimbalwa.
7. IZITHOMBE ZOKUSEBENZA
• Ukugcinwa kwamandla
Ukugcinwa- -mahhala kocingo kungenzeka
I-Memory Backup, i-Motor Staring, umshayeli we-LED ogcina amandla elanga.
• Okokufaka kwamandla aphezulu / okukhiphayo
Amandla akhiqizwe kabusha kanye nokusiza Amandla kungenzeka
I-UPS encane, Ukusiza Amandla Okubuyisela Amandla
(Imoto eyiHybrid, i-Fuel cell, isizukulwane samandla emvelo).
• Imikhiqizo Esetshenziswayo
I-Rubycon inikeza amayunithi okuphakela amandla nge-UPS encane eyakhelwe ngaphakathi.
Amaphakheji alula (amamojula), amamojula aphezulu kagesi/amandla amakhulu (anamasekhethi okulinganisa) ayatholakala uma kuceliwe.
8. Uma izinga lokushisa le-super capacitor liphezulu kakhulu, ingabe umthamo wayo uzokwehla?
Izinga lokushisa elivamile lokusebenza lama-supercapacitor wamandla ngu -25 ℃-70 ℃, futhi izinga lokushisa elivamile lokusebenza lama-supercapacitor amandla ngu -40 ℃-60 ℃.Izinga lokushisa kanye ne-voltage kunomthelela empilweni yama-supercapacitor.Ngokuvamile, njalo lapho izinga lokushisa le-ambient le-supercapacitor likhuphuka ngo-10°C, isikhathi sokuphila se-supercapacitor sizofinyezwa ngesigamu.Okusho ukuthi, uma kungenzeka, sebenzisa ama-supercapacitors ekushiseni okuphansi kakhulu ngangokunokwenzeka, khona-ke ukuncishiswa kwe-capacitor nokwanda kwe-ESR kungancishiswa.Uma iphansi kunendawo evamile yokushisa kwekamelo, i-voltage ingancishiswa ukuze isuse umthelela omubi wokushisa okuphezulu ku-capacitor.
9. Kungani i-super capacitor enamandla amakhulu kodwa i-voltage encane yokumelana?
I-capacitance ye-capacitor incike endaweni yamapuleti e-electrode amahle futhi angalungile we-capacitor kanye nobukhulu bengqimba yokuvikela amapuleti.Ama-Capacitor namabhethri ahluke kakhulu.Ama-Capacitor athembele kumapuleti ezindawo ezinkulu ukuze agcine amanani, futhi amapuleti aqondile noma angalungile adinga ukuvaleka futhi ahlukaniswe.Ubukhulu besendlalelo se-insulating buthinta ngokuqondile amandla ensimu kagesi yamapuleti amahle futhi angalungile.Lapho ungqimba oluvikela amapuleti luba mncane, yilapho inkundla kagesi iba namandla.Lapho amandla epuleti egcina ukushaja anamandla, amandla engeziwe angawagcina.Kodwa isendlalelo se-plate insulation sincane kakhulu, futhi kulula ukudiliza lapho i-voltage ikhuphuka, ngakho-ke i-voltage yokumelana ye-capacitor ivame ukuba yincane.
