Main Technical parametri
| Item | proprium | ||||||||||
| Operating temperatus rhoncus | ≤120v -55 + CV ℃; 160-250V -40 + CV ℃ | ||||||||||
| Nominal voltage range | X ~ 250v | ||||||||||
| Capacitas tolerantia | ± XX% (XXV ± II ℃ 120Hz) | ||||||||||
| LC (UA) | 10-120WV | ≤ 0.01 CV vel 3UA quocum est maior C: nominis facultatem (UF) V: rated voltage (v) II minutes Lectio | ||||||||||
| 160-250WV | ≤0.02cVor10uaa c: nominis capacitatem (UF) V: rated voltage (v) II minutes Lectio | |||||||||||
| Damnum Tangent (XXV ± II ℃ 120Hz) | Rating voltage (V) | 10 | 16 | 25 | 35 | 50 | 63 | 80 | C | ||
| δ TG | 0,19 | 0.16 | 0,14 | 0.12 | 0.1 | 0,09 | 0,09 | 0,09 | |||
| Rating voltage (V) | CXX | CLX | CC | CCL | |||||||
| δ TG | 0,09 | 0,09 | 0,08 | 0,08 | |||||||
| Nam nominis capacitatem excedentia 1000, damnum tangens valorem crescit per 0,02 pro omnibus 1000uf augmentum. | |||||||||||
| Temperature characteres (120hz) | Rating voltage (V) | 10 | 16 | 25 | 35 | 50 | 63 | 80 | C | ||
| Impedance Ratio Z (-40 ℃) / Z (XX ℃) | 6 | 4 | 3 | 3 | 3 | 3 | 3 | 3 | |||
| Rating voltage (V) | CXX | CLX | CC | CCL | |||||||
| Impedance Ratio Z (-40 ℃) / Z (XX ℃) | 5 | 5 | 5 | 5 | |||||||
| Diuturnitas | In CV ℃ clibano, applicare ad rated voltage cum rated Ripple current ad certum tempus, tunc locus ad locus temperatus ad XVI horas et test. Test temperatus: XXV ± II ℃. In perficientur de capacitor debet occurrit sequenti requisitis | ||||||||||
| Facultatem mutatio rate | In prima XX% de valore | ||||||||||
| Damnum Tangent valorem | Infra CC% de certa pretii | ||||||||||
| Leakage Current | Infra valorem certa | ||||||||||
| Lond Vita | ≥Φ8 | (X) horis | |||||||||
| Summus temperatus repono | Store ad CV ℃ ad M horas, locus ad locus temperatus ad XVI horas et test ad XXV ± II ℃. In perficientur de capacitor debet occurrit sequenti requisitis | ||||||||||
| Facultatem mutatio rate | In prima XX% de valore | ||||||||||
| Damnum Tangent valorem | Infra CC% de certa pretii | ||||||||||
| Leakage Current | Infra CC% de certa pretii | ||||||||||
Dimensionem (Unit: mm)
| L = IX | A = 1.0 |
| L≤16 | A = 1.5 |
| L> XVI | A = 2.0 |
| D | 5 | 6,3 | 8 | 10 | 12,5 | 14.5 | 16 | 18 |
| d | 0,5 | 0,5 | 0.6 | 0.6 | 0,7 | 0,8 | 0,8 | 0,8 |
| F | 2 | 2.5 | 3.5 | 5 | 5 | 7.5 | 7.5 | 7.5 |
Rippele Current ultricies coefficientem
①frequency disciplinam factor
| Frequency (HZ) | 50 | CXX | 1K | 50k ~ 10K | 100k |
| Correptio factor | 0,4 | 0,5 | 0,8 | 0,9 | 1 |
②Tempature Correction coefficiens
| Temperature (℃) | L ℃ | LXX ℃ | LXXXV ℃ | CV ℃ |
| Correptio factor | 2.1 | 1.8 | 1.4 | 1 |
Latin Products List
| Series | Volt range (V) | Capacitance (μf) | Dimensio D × L (mm) | Impedimentum (Π / X × × II ℃) | Ripple Current (Ma RMS / CV × 100HZ) |
| Lke | 10 | MD | X × XVI | 0.0308 | MDCCCL |
| Lke | 10 | MDCCC | X × XX | 0,0280 | MCMLX |
| Lke | 10 | MMCC | X × XXV | 0.0198 | MMCCL |
| Lke | 10 | MMCC | XIII × XVI | 0.076 | MD |
| Lke | 10 | MMMCCC | XIII × XX | 0.200 | MDCCLXXX |
| Lke | 10 | (IV) DCC | XIII × XXV | 0.0143 | MMMCDL |
| Lke | 10 | (IV) DCC | 14.5 × XVI | 0,0165 | MMMCDL |
| Lke | 10 | (VI) DCCC | 14.5 × XX | 0.018 | MMDCCLXXX |
| Lke | 10 | (VIII) CC | 14.5 × XXV | 0,016 | MMMCLX |
| Lke | 16 | M | X × XVI | 0.170 | M |
| Lke | 16 | MCC | X × XX | 0,0280 | MCMLX |
| Lke | 16 | MD | X × XXV | 0,0280 | MMCCL |
| Lke | 16 | MD | XIII × XVI | 0,0350 | MMCCCXXX |
| Lke | 16 | MMCC | XIII × XX | 0.104 | MD |
| Lke | 16 | MMMCCC | XIII × XXV | 0.081 | MMCD |
| Lke | 16 | MMMCM | 14.5 × XVI | 0,0165 | MMMCCL |
| Lke | 16 | (IV) DCC | 14.5 × XX | 0,255 | MMMCX |
| Lke | 16 | (VI) DCCC | 14.5 × XXV | 0.246 | MMMCCLXX |
| Lke | 25 | DCLXXX | X × XVI | 0.0308 | MDCCCL |
| Lke | 25 | M | X × XX | 0.140 | MCLV |
| Lke | 25 | M | XIII × XVI | 0,0350 | MMCCCXXX |
| Lke | 25 | MD | X × XXV | 0,0280 | MMCDLXXX |
| Lke | 25 | MD | XIII × XVI | 0,0280 | MMCDLXXX |
| Lke | 25 | MD | XIII × XX | 0,0280 | MMCDLXXX |
| Lke | 25 | MDCCC | XIII × XXV | 0,0165 | MMCM |
| Lke | 25 | MMCC | XIII × XXV | 0.0143 | MMMCDL |
| Lke | 25 | MMCC | 14.5 × XVI | 0,27 | MMDCXX |
| Lke | 25 | MMMCCC | 14.5 × XX | 0,25 | MMMCLXXX |
| Lke | 25 | (IV) DCC | 14.5 × XXV | 0,23 | MMMCCCL |
| Lke | 35 | CDLXX | X × XVI | 0.115 | M |
| Lke | 35 | DLX | X × XX | 0,0280 | MMCCL |
| Lke | 35 | DLX | XIII × XVI | 0,0350 | MMCCCXXX |
| Lke | 35 | DCLXXX | X × XXV | 0.0198 | MMCCCXXX |
| Lke | 35 | M | XIII × XX | 0.040 | MD |
| Lke | 35 | MD | XIII × XXV | 0,0165 | MMCM |
| Lke | 35 | MDCCC | 14.5 × XVI | 0.0143 | MMMDCXXX |
| Lke | 35 | MMCC | 14.5 × XX | 0,016 | MMMCL |
| Lke | 35 | MMMCCC | 14.5 × XXV | 0.015 | MMMCD |
| Lke | 50 | CCXX | X × XVI | 0,0460 | MCCCLXX |
| Lke | 50 | CCCXXX | X × XX | 0,0300 | MDLXXX |
| Lke | 50 | CCCXXX | XIII × XVI | 0,80 | CMLXXX |
| Lke | 50 | CDLXX | X × XXV | 0.0310 | MDCCCLXX |
| Lke | 50 | CDLXX | XIII × XX | 0,50 | ML |
| Lke | 50 | DCLXXX | XIII × XXV | 0,0560 | MMCDX |
| Lke | 50 | DCCCXX | 14.5 × XVI | 0.058 | MMCDLXXX |
| Lke | 50 | MCC | 14.5 × XX | 0.048 | MMDLXXX |
| Lke | 50 | MD | 14.5 × XXV | 0.03 | MMDCLXXX |
| Lke | 63 | CL | X × XVI | 0,2 | CMXCVIII |
| Lke | 63 | CCXX | X × XX | 0,50 | DCCCLX |
| Lke | 63 | CCLXX | XIII × XVI | 0,0804 | MCCL |
| Lke | 63 | CCCXXX | X × XXV | 0,0760 | MCDX |
| Lke | 63 | CCCXXX | XIII × XX | 0.45 | ML |
| Lke | 63 | CDLXX | XIII × XXV | 0.45 | MDLXX |
| Lke | 63 | DCLXXX | 14.5 × XVI | 0.056 | MDCXX |
| Lke | 63 | M | 14.5 × XX | 0.018 | MMCLXXX |
| Lke | 63 | MCC | 14.5 × XXV | 0,2 | MMCDXX |
| Lke | 80 | C | X × XVI | 1.00 | DL |
| Lke | 80 | CL | XIII × XVI | 0,14 | CMLXXV |
| Lke | 80 | CCXX | X × XX | 1.00 | DLXXX |
| Lke | 80 | CCXX | XIII × XX | 0.45 | DCCCXC |
| Lke | 80 | CCCXXX | XIII × XXV | 0.45 | ML |
| Lke | 80 | CDLXX | 14.5 × XVI | 0.076 | MCDLX |
| Lke | 80 | DCLXXX | 14.5 × XX | 0.063 | MDCCXX |
| Lke | 80 | DCCCXX | 14.5 × XXV | 0,2 | MCMXC |
| Lke | C | C | X × XVI | 1.00 | DLX |
| Lke | C | CXX | X × XX | 0,8 | DCL |
| Lke | C | CL | XIII × XVI | 0,50 | DCC |
| Lke | C | CL | X × XXV | 0,2 | MCLXX |
| Lke | C | CCXX | XIII × XXV | 0,0660 | MDCXX |
| Lke | C | CCCXXX | XIII × XXV | 0,0660 | MDCXX |
| Lke | C | CCCXXX | 14.5 × XVI | 0.057 | MD |
| Lke | C | CCCXC | 14.5 × XX | 0,0640 | MDCCL |
| Lke | C | CDLXX | 14.5 × XXV | 0,0480 | MMCCX |
| Lke | C | DLX | 14.5 × XXV | 0,0420 | MMCCLXX |
| Lke | CLX | 47 | X × XVI | 2.65 | DCL |
| Lke | CLX | 56 | X × XX | 2.65 | CMXX |
| Lke | CLX | 68 | XIII × XVI | 2.27 | MCCLXXX |
| Lke | CLX | 82 | X × XXV | 2.65 | CMXX |
| Lke | CLX | 82 | XIII × XX | 2.27 | MCCLXXX |
| Lke | CLX | CXX | XIII × XXV | 1.43 | MDL |
| Lke | CLX | CXX | 14.5 × XVI | 4.50 | ML |
| Lke | CLX | CLXXX | 14.5 × XX | 4.00 | MDXX |
| Lke | CLX | CCXX | 14.5 × XXV | 3.50 | MDCCCLXXX |
| Lke | CC | 22 | X × XVI | 3.24 | CD |
| Lke | CC | 33 | X × XX | 1.65 | CCCXL |
| Lke | CC | 47 | XIII × XX | 1.50 | CD |
| Lke | CC | 68 | XIII × XXV | 1,25 | MCCC |
| Lke | CC | 82 | 14.5 × XVI | 1.18 | MCDXX |
| Lke | CC | C | 14.5 × XX | 1.18 | MCDXX |
| Lke | CC | CL | 14.5 × XXV | 2.85 | MDCCXX |
| Lke | CCL | 22 | X × XVI | 3.24 | CD |
| Lke | CCL | 33 | X × XX | 1.65 | CCCXL |
| Lke | CCL | 47 | XIII × XVI | 1.50 | CD |
| Lke | CCL | 56 | XIII × XX | 1.40 | D |
| Lke | CCL | 68 | XIII × XX | 1,25 | MCCC |
| Lke | CCL | C | 14.5 × XX | 3.35 | MCC |
| Lke | CCL | CXX | 14.5 × XXV | 3.05 | MCCLXXX |
A Liquid duce-genus electrolytic capacitor est genus capacitor late in electronic cogitationes. Structuram praesertim ex aluminium testa, electrodes, liquida electrolyte, ducit et signantes components. Comparari ad alia genera electrolytic capacitors, Liquid plumbum-genus electrolytic capacitors habent unicum characteristics, ut princeps capacitance, optimum frequency characteres, et humilis seriem resistentiam (ESR).
Basic structuram et opus principium
Liquid plumbum-genus electrolytic capacitor maxime complectitur anodes, cathode et dielectric. Anode est plerumque ex summus puritate aluminium, quae subit anodizing formare tenui layer aluminium cadmiae amet. Haec film acts ut Dielectric de Capacitor. Et cathode est typically factum de aluminium ffoyle et electrolytici, cum electrolytici servientes sicut et cathodem materiale et medium ad Dielectric regenerationem. In praesentia de electrolyte concedit in capacitor ad ponere bonum perficientur etiam ad altum temperaturis.
Plumbum genus consilium indicat quod capacitor coniungit ad circuitu per ducit. Haec ducit typically facta de tinnulatur aeris filum, ensuring bonum electrica connectivity in solidatorium.
ACTIO
I. ** High Capacitance **: Liquid duce-genus electrolytic capacitors offer alta capacitance, faciens eos altus effective in filtering, coitus, et industria repono applications. Potest providere magnam capacitance in parva volumine, quae maxime momenti in spatio coactus electronic cogitationes.
II. ** humilis equivalent seriem resistentiam (ESR) **: usum liquidae electrolyticum eventus in humilis ESR, reducendo potestatem damnum et calorem generationem, ita improving efficientiam et stabilitatem in capacitor. Hoc pluma facit eos popularibus in summus frequency switching potentia commeatus, audio apparatu et aliis applications requiring summus frequency perficientur.
III. Optimum ** Frequency characteres **: haec capacitors exhibent optimum perficientur ad altum frequentiis, efficaciter suppressing summus frequency strepitu. Ideo communiter in circuits requiring summus frequency stabilitatem et humilis strepitu, ut potentia circuitus et communicationis apparatu.
IV. ** Long Lifespan **: per usura summus qualitas electrolytes et provectus vestibulum processus, liquidum plumbum-genus electrolytic capacitors plerumque habere diu muneris vitae. Sub normalis operating conditionibus, lifespan potest pervenire pluribus millia millia horas occurrens postulat maxime applications.
Applicationem locis
Liquid plumbum-genus electrolytic capacitors sunt late in variis electronic cogitationes, praesertim in virtute circuits, audio apparatu, communicationis cogitationes, et automotive electronics. Sunt typically in filtering, coitus, decoupling et industria repono circuits ad augendae perficientur et reliability in apparatu.
In summary, debitum ad altum capacitance, humilis ESR, optimum frequency characteres, et longa lifespan, liquidum plumbum-genus electrolytic capacitors facti sunt necessaria components in electronic cogitationes. Cum progreditur in technology, in perficientur et applicationem range horum capacitors et permanere expand.
