Pelagus technica parametri
| Item | proprium | ||||||||||
| Operans temperatus range | ≤120V -55~+105℃ ; 160-250V -40~+105℃ | ||||||||||
| Nominal voltage range | 10~ 250V | ||||||||||
| capacitas tolerantia | ±20% (25±2℃ 120Hz) | ||||||||||
| LC(uA) | 10-120WV |≤ 0.01 CV vel 3uA uter maior C: capacitas nominalis (uF) V: aestimatio intentionis (V) 2 minuta lectio | ||||||||||
| 160-250WV|≤0.02CVor10uA C: capacitatem nominalem (uF) V: aestimavit voltage (V) 2 minutes reading | |||||||||||
| Tangens iactura (25± 2℃ 120Hz) | Ratum intentione (V) | 10 | 16 | 25 | 35 | 50 | 63 | 80 | 100 | ||
| tg δ | 0.19 | 0.16 | 0.14 | 0.12 | 0.1 | 0.09 | 0.09 | 0.09 | |||
| Ratum intentione (V) | 120 | 160 | 200 | 250 | |||||||
| tg δ | 0.09 | 0.09 | 0.08 | 0.08 | |||||||
| Pro capacitate nominale 1000uF excedens, damnum tangens valorem auget 0.02 pro omni augmento 1000uF. | |||||||||||
| Temperatus notae (120Hz) | Ratum intentione (V) | 10 | 16 | 25 | 35 | 50 | 63 | 80 | 100 | ||
| Impedimentum ratio Z (-40℃)/Z (20℃) | 6 | 4 | 3 | 3 | 3 | 3 | 3 | 3 | |||
| Ratum intentione (V) | 120 | 160 | 200 | 250 | |||||||
| Impedimentum ratio Z (-40℃)/Z (20℃) | 5 | 5 | 5 | 5 | |||||||
| Diuturnitatem | In clibano 105℃, intentionem aestimatam adhibe cum tremore currentis aestimati ad tempus praefinitum, pone ad cella temperiem per 16 horas et experimentum. Temperatus test: 25±2℃. Faciendi capacitor sequenti requisita occurrere debet | ||||||||||
| Facultatem mutare rate | Intra XX% ad valorem | ||||||||||
| Damnum tangens valorem | Infra CC% ad certum valorem | ||||||||||
| Lacus current | Infra valorem certa | ||||||||||
| Onus vitae | ≥Φ8 | Horae (X) | |||||||||
| Princeps temperatus repono | Condite in 105℃ per 1000 horas, locus temperatus per 16 horas et proba ante 25±2℃. Faciendi capacitor sequenti requisita occurrere debet | ||||||||||
| Facultatem mutare rate | Intra XX% ad valorem | ||||||||||
| Damnum tangens valorem | Infra CC% ad certum valorem | ||||||||||
| Lacus current | Infra CC% ad certum valorem | ||||||||||
Dimensio (unitas: mm)
| L=9 | a=1.0 |
| L≤16 | a=1.5 |
| L>16 | 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 |
Ripple current ultricies coefficientis
Frequency correctio factor
| Frequentia (Hz) | 50 | 120 | 1K | 10K~50K | 100K |
| Correctio factor | 0.4 | 0.5 | 0.8 | 0.9 | 1 |
Temperate correptionem coefficientem
| Temperatus (℃) | 50℃ | 70℃ | 85 | 105℃ |
| Correctio factor | 2.1 | 1.8 | 1.4 | 1 |
Latin Products List
| Series | Volt range(V) | Capacitance(μF) | Dimension D×L(mm) | Impedimentum (Ωmax/10×25×2℃) | Ripple Current (mA rms/105×100KHz) |
| LKE | 10 | 1500 | 10×16 | 0.0078 | 1850 |
| LKE | 10 | 1800 | 10×20 | 0.093 | 1960 |
| LKE | 10 | MMCC | 10×25 | 0.0198 | 2250 |
| LKE | 10 | MMCC | 13×16 | 0.093 | 1500 |
| LKE | 10 | 3300 | 13×20 | 0.200 | 1780 |
| LKE | 10 | 4700 | 13×25 | 0.0143 | 3450 |
| LKE | 10 | 4700 | 14.5×16 | 0.0165 | 3450 |
| LKE | 10 | 6800 | 14.5×20 | 0.018 | 2780 |
| LKE | 10 | 8200 | 14.5×25 | 0.016 | 3160 |
| LKE | 16 | 1000 | 10×16 | 0.170 | 1000 |
| LKE | 16 | 1200 | 10×20 | 0.093 | 1960 |
| LKE | 16 | 1500 | 10×25 | 0.093 | 2250 |
| LKE | 16 | 1500 | 13×16 | 0.093 | 2330 |
| LKE | 16 | MMCC | 13×20 | 0.104 | 1500 |
| LKE | 16 | 3300 | 13×25 | 0.093 | 2400 |
| LKE | 16 | 3900 | 14.5×16 | 0.0165 | 3250 |
| LKE | 16 | 4700 | 14.5×20 | 0.255 | 3110 |
| LKE | 16 | 6800 | 14.5×25 | 0.246 | 3270 |
| LKE | 25 | 680 | 10×16 | 0.0078 | 1850 |
| LKE | 25 | 1000 | 10×20 | 0.140 | 1155 |
| LKE | 25 | 1000 | 13×16 | 0.093 | 2330 |
| LKE | 25 | 1500 | 10×25 | 0.093 | 2480 |
| LKE | 25 | 1500 | 13×16 | 0.093 | 2480 |
| LKE | 25 | 1500 | 13×20 | 0.093 | 2480 |
| LKE | 25 | 1800 | 13×25 | 0.0165 | 2900 |
| LKE | 25 | MMCC | 13×25 | 0.0143 | 3450 |
| LKE | 25 | MMCC | 14.5×16 | 0.27 | 2620 |
| LKE | 25 | 3300 | 14.5×20 | 0.25 | 3180 |
| LKE | 25 | 4700 | 14.5×25 | 0.23 | 3350 |
| LKE | 35 | 470 | 10×16 | 0.115 | 1000 |
| LKE | 35 | 560 | 10×20 | 0.093 | 2250 |
| LKE | 35 | 560 | 13×16 | 0.093 | 2330 |
| LKE | 35 | 680 | 10×25 | 0.0198 | 2330 |
| LKE | 35 | 1000 | 13×20 | 0.041 | 1500 |
| LKE | 35 | 1500 | 13×25 | 0.0165 | 2900 |
| LKE | 35 | 1800 | 14.5×16 | 0.0143 | 3630 |
| LKE | 35 | MMCC | 14.5×20 | 0.016 | 3150 |
| LKE | 35 | 3300 | 14.5×25 | 0.014 | 3400 |
| LKE | 50 | 220 | 10×16 | 0.0435 | 1370 |
| LKE | 50 | 330 | 10×20 | 0.093 | 1580 |
| LKE | 50 | 330 | 13×16 | 0.80 | 980 |
| LKE | 50 | 470 | 10×25 | 0.093 | 1870 |
| LKE | 50 | 470 | 13×20 | 0.50 | 1050 |
| LKE | 50 | 680 | 13×25 | 0.093 | 2410 |
| LKE | 50 | 820 | 14.5×16 | 0.093 | 2480 |
| LKE | 50 | 1200 | 14.5×20 | 0.041 | 2580 |
| LKE | 50 | 1500 | 14.5×25 | 0.03 | 2680 |
| LKE | 63 | 150 | 10×16 | 0.2 | 998 |
| LKE | 63 | 220 | 10×20 | 0.50 | 860 |
| LKE | 63 | 270 | 13×16 | 0.0802 | 1250 |
| LKE | 63 | 330 | 10×25 | 0.093 | 1410 |
| LKE | 63 | 330 | 13×20 | 0.45 | 1050 |
| LKE | 63 | 470 | 13×25 | 0.45 | 1570 |
| LKE | 63 | 680 | 14.5×16 | 0.093 | 1620 |
| LKE | 63 | 1000 | 14.5×20 | 0.018 | 2180 |
| LKE | 63 | 1200 | 14.5×25 | 0.2 | 2420 |
| LKE | 80 | 100 | 10×16 | 1.00 | 550 |
| LKE | 80 | 150 | 13×16 | 0.14 | 975 |
| LKE | 80 | 220 | 10×20 | 1.00 | 580 |
| LKE | 80 | 220 | 13×20 | 0.45 | 890 |
| LKE | 80 | 330 | 13×25 | 0.45 | 1050 |
| LKE | 80 | 470 | 14.5×16 | 0.093 | 1460 |
| LKE | 80 | 680 | 14.5×20 | 0.093 | 1720 |
| LKE | 80 | 820 | 14.5×25 | 0.2 | 1990 |
| LKE | 100 | 100 | 10×16 | 1.00 | 560 |
| LKE | 100 | 120 | 10×20 | 0.8 | 650 |
| LKE | 100 | 150 | 13×16 | 0.50 | 700 |
| LKE | 100 | 150 | 10×25 | 0.2 | 1170 |
| LKE | 100 | 220 | 13×25 | 0.093 | 1620 |
| LKE | 100 | 330 | 13×25 | 0.093 | 1620 |
| LKE | 100 | 330 | 14.5×16 | 0.041 | 1500 |
| LKE | 100 | 390 | 14.5×20 | 0.093 | 1750 |
| LKE | 100 | 470 | 14.5×25 | 0.0480 | 2210 |
| LKE | 100 | 560 | 14.5×25 | 0.0420 | 2270 |
| LKE | 160 | 47 | 10×16 | 2.65 | 650 |
| LKE | 160 | 56 | 10×20 | 2.65 | 920 |
| LKE | 160 | 68 | 13×16 | 2.27 | 1280 |
| LKE | 160 | 82 | 10×25 | 2.65 | 920 |
| LKE | 160 | 82 | 13×20 | 2.27 | 1280 |
| LKE | 160 | 120 | 13×25 | 1.43 | 1550 |
| LKE | 160 | 120 | 14.5×16 | 4.50 | 1050 |
| LKE | 160 | 180 | 14.5×20 | 4.00 | 1520 |
| LKE | 160 | 220 | 14.5×25 | 3.50 | 1880 |
| LKE | 200 | 22 | 10×16 | 3.24 | 400 |
| LKE | 200 | 33 | 10×20 | 1.65 | 340 |
| LKE | 200 | 47 | 13×20 | 1.50 | 400 |
| LKE | 200 | 68 | 13×25 | 1.25 | 1300 |
| LKE | 200 | 82 | 14.5×16 | 1.18 | 1420 |
| LKE | 200 | 100 | 14.5×20 | 1.18 | 1420 |
| LKE | 200 | 150 | 14.5×25 | 2.85 | 1720 |
| LKE | 250 | 22 | 10×16 | 3.24 | 400 |
| LKE | 250 | 33 | 10×20 | 1.65 | 340 |
| LKE | 250 | 47 | 13×16 | 1.50 | 400 |
| LKE | 250 | 56 | 13×20 | 1.40 | 500 |
| LKE | 250 | 68 | 13×20 | 1.25 | 1300 |
| LKE | 250 | 100 | 14.5×20 | 3.35 | 1200 |
| LKE | 250 | 120 | 14.5×25 | 3.05 | 1280 |
Genus plumbi liquidum capacitorem electrolyticum est genus capacitatis late in electronicis artibus adhibitum. Eius structura principaliter consistit in concha aluminii, electrodes, liquida electrolytici, plumbi et signandi partes. Cum aliis capacitatibus electronico-typis comparati, capaces liquidi plumbei-typi electrolytici, proprietates singulares habent, ut capacitas alta, indoles frequentiae optimae, et humilis series aequivalens resistentia (ESR).
Basic Structure et Opus Principium
Liquor plumbi typus capacitor electrolytici maxime comprehendit anode, cathode et dielectrica. Anode plerumque aluminium puritatis altae conficitur, quae anodizing patitur tenui cinematographico aluminii oxydatum stratum formare. Hoc cinematographicum fungitur ut dielectricae capacitatis. Cathode typice facta est aluminii claua et electrolytici, cum electronico serviens tam materia cathode quam media ad regenerationem dielectricam. Praesentia electrolytici permittit capacitorem ad bonas operationes etiam ad altas temperaturas conservandas.
Designatio-typus plumbeus indicat hunc capacitorem cum ambitu per ducatum connectere. Hae viae typice factae sunt ex filo aeneo striato, ut bonum connectivity electricam in solidatorio.
Clavis Commoda
1. Capacitantia: Liquid plumbi genus capacitatis electrolytici capacitatem altam praebent, eas valde efficaces in applicationibus eliquationibus, coitu, et industria repono applicationes faciens. Magnam facultatem in parvo volumine praebere possunt, quod maxime interest in electronicis machinis spatiis constrictis.
2. ** Minimum equivalent Series Resistentia (ESR)**: Usus liquoris electrolytici in low ESR consequitur, potentiam amissionis et caloris generationis minuendo, ita ut efficientiam et stabilitatem capacitatis augeat. Haec factura populares facit eos in mutandi potestate summus frequentia commeatus, armorum audio, et alia applicationes quaerunt summus frequentiae effectus.
3. Characteres eximii Frequentiae: Hi capaciores praestantem observantiam in frequentiis altis exhibent, et efficaciter sonum frequentiae altum suppressis. Ideo communiter adhibentur in circuitibus quae requirunt altam frequentiam stabilitatem et sonum humilem, ut potentiae ambitus et instrumenti communicationis.
4. Longe Vitaspan: Electrolyti utendo et processibus fabricandis provectis, liquidi plumbi typus capacitores electrolytici plerumque longam vitam habent. Sub condicionibus operariis normalibus, eorum vita complura milia ad decem milia horarum pervenire potest, postulationibus maxime applicationibus occurrentibus.
Application Areas
Liquidum plumbi genus capacitores electrolytici late usi sunt in variis electronicis machinis, praesertim in circuitu potentiarum, instrumentorum audio, machinis communicationis, electronicis autocinetis. Solent usui sunt in eliquare, copulatione, decouptione, ac industria repositionis circuitus ad augendam observantiam et firmitatem instrumenti.
In summa, ob altam capacitatem, humilis ESR, notae frequentiae praeclarae, et longae vitae, liquidi plumbi typo electrolytici capacitores necessarii facti sunt in electronicis machinis. Cum progressibus in technologia, persecutio et applicationis ampliatio harum facultatum ampliare perget.
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