I-Cylindrical Super Capacitor
| Uhlobo | I-Cylindrical Super Capacitor |
| I gama le-brand | I-OEM |
| Uhlobo Lomhlinzeki | Umkhiqizi Woqobo |
| Izici | amandla aphezulu, i-ESR ephansi, ukungaguquguquki okuhle |
| Amandla | 1-3000 Farad |
| Ukubekezelelana | -20%~+80% |
| I-Voltage elinganiselwe | 2.7V |
| Izinga Lokushisa Lokusebenza | -20℃~+85℃ |
| Uhlobo Lwephakheji | NgeHole |
| Izinhlelo zokusebenza | RAM, Consumer Electronics, Wind Turbines, Smart Grid, Backup Power Supply, njll. |
| Izinhlobo | I-voltage elinganiselwe | Amandla okuzisholo | Ukumelana kwangaphakathi | Usayizi(mm) |
| (V) | (F) | (mΩ @1kHz) | ||
| I-Cylindrical | 2.7 | 1 | ≤400 | 8*13.3 |
| 2.7 | 2 | ≤300 | 8*20.2 | |
| 2.7 | 3 | ≤220 | 8*20.2 | |
| 2.7 | 3.3 | ≤220 | 8*20.2 | |
| 2.7 | 4.7 | ≤200 | 10*20.2 | |
| 2.7 | 6 | ≤120 | 10*20.2 | |
| 2.7 | 6.8 | ≤100 | 12.5*21 | |
| 2.7 | 8 | ≤90 | 12.5*21 | |
| 2.7 | 10 | ≤70 | 10*25.2 | |
| 2.7 | 10 | ≤70 | 10*30.2 | |
| 2.7 | 10 | ≤70 | 12.5*26.1 | |
| 2.7 | 15 | ≤50 | 12.5*30.7 | |
| 2.7 | 15 | ≤50 | 16*26.3 | |
| 2.7 | 30 | ≤30 | 16*32 | |
| 2.7 | 40 | ≤30 | 18*41.3 | |
| 2.7 | 50 | ≤25 | 18*41.3 | |
| 2.7 | 90 | ≤18 | 22*44.4 | |
| 2.7 | 100 | ≤16 | 22*49.5 | |
| 2.7 | 120 | ≤15 | 25*44.6 | |
| 2.7 | 150 | ≤14 | 25*49.5 | |
| 2.7 | 200 | ≤12 | 25*59.6 | |
| 2.7 | 300 | ≤10 | 35*54.6 | |
| 2.7 | 400 | ≤7 | 35*69.9 |
Isicelo
Isetshenziswa kakhulu kuma-electronics abathengi, i-inthanethi Yezinto, amamitha ahlakaniphile, amathoyizi kagesi, i-UPS, amaswishi alawulwa uhlelo, amarekhodi emoto
Izisetshenziswa Zokukhiqiza Ezithuthukile
Inkampani yethu yamukela imishini yokukhiqiza ethuthukisiwe namathuluzi, futhi ihlela ukukhiqizwa ngokuhambisana ngokuqinile nezidingo ze-ISO9001 kanye nezinhlelo ze-TS16949.Indawo yethu yokukhiqiza yamukela abaphathi be-"6S", okuqinisekisa ukuzinza nokuthembeka kwemikhiqizo.Sikhiqiza imikhiqizo enemininingwane ehlukahlukene ngokuhambisana ne-International Electrotechnical Standards (IEC) kanye ne-Chinese National Standards (GB).
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
Mayelana ne-JYH HSU
I-Dongguan Zhixu Electronic Co., Ltd. (nayo i-JYH HSU(JEC)) yasungulwa ngo-1988. Kuyibhizinisi elisha lesimanje eligxile ekukhiqizeni nasekuthengisweni kwama-capacitor amafilimu, ama-X/Y safety capacitor, ama-varistors/thermistors, naphakathi, high and low voltage ceramic capacitors.Kuyibhizinisi elisha lesimanje elinikezelwe ku-R&D, ukukhiqizwa nokuthengiswa kwezingxenye ze-elekthronikhi.
1. Uyini umehluko phakathi kwe-super capacitor nebhethri?
Ukufana konke kumayelana nokugcinwa kwamandla, kodwa umphumela uhluke kakhulu.Ama-Supercapacitors abonakala ngamandla amakhulu okukhipha, futhi ugesi ogciniwe ungakhishwa ngesikhathi esifushane kakhulu, kodwa awuqhubeki;izici zamabhethri ziphambene nje.Ibhethri idivayisi yokukhipha eqhubekayo enganikeza amandla isikhathi eside.Thatha imoto kagesi njengesibonelo.I-super capacitor ingasetshenziswa ukuqala imoto ngamandla ayo aphezulu.Kodwa lapho imoto ishayela emgwaqeni, isebenzisa ibhethri, engaqhubeka nokunikeza amandla.
2. Ingabe ama-super capacitor ayingozi?
Amandla kagesi e-super capacitor aphansi kakhulu, ngokuvamile acishe abe ngu-2.3V-3.0V.Ayikho ingozi uma ubamba izikhonkwane zocingo ezimbili noma usebenzisa ama-super capacitor ezintweni zikagesi.I-Super capacitor ngokwayo ngeke iqhume, kodwa ngezinye izikhathi ingase ibangele ukujikeleza okufushane kanye nenhlansi ebhethrini.
3. Ingabe ama-super capacitor ahlukanisiwe?
Yebo.Ama-Super capacitor ane-polarity engaguquki.Udinga ukuqinisekisa i-polarity ngaphambi kokuwasebenzisa.
4. Kuyini ukuphila kwama-super capacitor?
Impilo yama-supercapacitor ithintwa yizimo ezithile zokusebenza.Ngokuvamile, i-supercapacitor entsha engenawo amaphutha ekusebenzeni, endaweni yaselabhorethri (cishe 25℃), ingashajwa futhi ikhishwe imijikelezo engamakhulu ezinkulungwane.Uma ucabanga ukuthi impilo yayo yomjikelezo iyimijikelezo engu-500,000, khona-ke ungakwazi ukulinganisa isikhathi sokuphila ngokuhlukanisa imvamisa yokushaja nokukhipha (n imijikelezo/usuku).Ukuphakama kwezinga lokushisa kwe-ambient, kukhulu ukushaja nokukhipha amandla, futhi impilo ehambisanayo izoncishiswa.
5. I-super capacitor yenziwe ngani?
Ama-Supercapacitor ama-capacitor kagesi anengqimba ephindwe kabili.Zinkulu (in capacitance) kuma-capacitor kagesi anengqimba ephindwe kabili.Ama-electrode acushiwe e-carbon porous kanye ne-electrolyte asetshenziselwa ukwakha uhlaka oluphindwe kabili.
6. Iyini izinga lokushisa lokusebenza kwe-supercapacitor?
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-super capacitor likhuphuka ngo-10C, impilo ye-super capacitor izofinyezwa ngesigamu.
7. Ingabe i-electrolyte ku-super capacitor izovuza?Yiziphi izinyathelo zokuphepha lapho usebenzisa futhi uthumela?
Ukuvuza kwe-Electrolyte: Uma i-supercapacitor ifakwe endaweni engenangqondo, kulula ukubangela ukuvuza kwe-electrolyte nezinye izinkinga, ezizolimaza ukusebenza kwesakhiwo se-capacitor.
Lapho uthutha futhi uphatha, sicela ugcine ipuleti lokuvala liphezulu.Ngisho nokunyakaza okufushane okuya phansi kungase kufinyeze ubude besikhathi se-supercapacitor.
8. Yiziphi izinhlelo zokusebenza eziyinhloko zama-supercapacitor?
Izinhlelo zokusebenza ezimbili eziyinhloko zama-supercapacitor: izinhlelo zokusebenza ze-pulse zamandla aphezulu kanye nokugcinwa kwamandla okusheshayo.Izici ze-high-power pulse applications: ukugeleza okusheshayo kwamandla amakhulu kumthwalo;izici zezinhlelo zokusebenza zokugcina amandla ngokushesha: kudinga ukunikezwa kwamandla okuqhubekayo ekulayisheni, futhi ubude besikhathi ngokuvamile imizuzwana embalwa noma imizuzu embalwa.Uhlelo lokusebenza olujwayelekile lokugcina amandla ngokushesha: ukusetha kabusha kwekhanda ledrayivu yediski lapho amandla evaliwe.
9. Kungani ukumelana kwangaphakathi kwama-supercapacitor kubalulekile?
Ingxenye enkulu yesizathu sokuthi kungani ama-super capacitor angasetshenziswa kabanzi ukuthi anezinzuzo zokuminyana kwamandla aphezulu kanye nesikhathi esifushane sokushaja.Lokhu kungenxa yokuthi ama-super capacitor awatholi ukusabela kwamakhemikhali phakathi nenqubo yokugcina amandla, futhi ukufuduka kwe-electron kuphela kwenzeka.Ngakho ukumelana kwangaphakathi kwama-super capacitor kuthinteka kuphela ukumelana kwangaphakathi kwe-ohmic.Ngenxa yalesi sizathu, ukumelana kwangaphakathi kuyipharamitha ebalulekile yokusebenza kwe-supercapacitor, futhi ukunemba kokuhlolwa kokumelana kwangaphakathi kuyinkomba ebalulekile yokuhlola i-capacitance.
