Proprietates Praeclarae Seriei YMIN NP1
Series condensatorum electrolyticorum aluminii solidi plumbati YMIN NP1 plura commoda principalia integrat, quae eis permittit ut in ampla applicationum varietate excellant:
1. Stabilitas et Fiducia Excellens
Condensatores YMIN NP1 dielectricum polymericum solidum conductivum utuntur, operationem stabilem in ambitu altae temperaturae praebentes. Capacitas eorum typice minus quam 15% per totum ambitum temperaturae fluctuat, condensatores electrolyticos liquidos significanter superans. Haec impedantia stabilis per latum ambitum temperaturae eos ideales reddit ad filtrationem fontis potentiae, efficaciter fontem potentiae stabilem et sufficientem praebentes.
2. Longa Vita Utilis
Electrolytum solidum non evaporat neque expandit in ambitu altae temperaturae sicut electrolyti liquidi. Ad 85°C, condensatores solidi vitam utilem circiter 50 000 horarum (circiter 5.7 annorum) consequi possunt, comparate cum circiter 8 000 horis (circiter 0.9 annorum) pro condensatoribus liquidis sub eisdem condicionibus. Hoc vitam utilem circiter sexies maiorem quam condensatorum liquidorum repraesentat. Itaque seriem NP1 aptissimam reddit apparatibus quae operationem longam et continuam requirunt, ut computatra industrialia, infrastructura communicationum, et inversores photovoltaici.
3. ESR humilis et Ripple Current Rating alta
ESR (resistentia seriei aequivalentis) est mensura clavis pro effectu capacitoris. Condensatores YMIN NP1 ESR humilem habent, quod significat eos celerius onerari et exonerari, altas tensiones inter lineas electricas in circuitu generatas efficaciter absorbentes. Exempli gratia, in modernis circuitibus potentiae CPU altae efficaciae, CPU a statu parvae potentiae ad statum plenae oneris intra minus quam quinque millisecunda transire potest. Hoc tempore, capacitores NP1, suis celeritatis onerationis et exonerationis proprietatibus utentes, statim altas currentias maximas praebere possunt, stabilem operationem CPU praebentes.
4. Resistentia et Salus Altae Temperaturae
Condensatores status solidi temperaturas usque ad 260°C tolerare possunt. Etiam si temperatura condensatoris limitem tolerantiae excedit, electrolytum solidum tantum liquefacit sine ruptura involucri metallici, quod eos multo tutiores quam condensatores electrolyticos liquidos reddit.
Scenaria Applicationis Actualis
Series YMIN NP1, proprietatibus suis excellentibus praedita, partes magnas in pluribus campis agit:
• Instrumenta electronica ad usum domesticum: Late in computatris portatilibus, televisificis LCD, monitoribus tridimensionalibus, consolis ludorum electronicorum, et pluribus adhibentur. In tabulis matricibus computatralibus et chartis graphicis, condensatores NP1 in modulis filtrationis fontis potentiae pro CPU et GPU adhibentur, operationem processoris stabilem sub fluctuationibus magnis oneris praebentes.
• Usus Industriales: Idoneum ad fontes potentiae communicationis industrialis, inversores professionales, CNC et systemata servo. In systematibus moderandis ad energiam renovabilem generandam (velut energiam solarem et eolicam), longa vita et alta fides capacitorum NP1 necessitates sustentationis minuunt.
• Electronica Autocinetica et Vectura: In vectura ferriviaria, vehiculis novae energiae, aliisque campis, condensatores NP1 fluctuationibus temperaturae complexis et ambitus vibrationis accommodare possunt, stabilem sustentationem potentiae systematibus criticis praebentes.
• Administratio et Conversio Potentiae: In circuitibus filtrationis secundariis instrumentorum ut convertoribus DC-DC, fontibus potentiae communicationis, et regulatoribus tensionis, excellentes proprietates altae frequentiae et impedantiae humilis capacitorum NP1 undulationem exitus circuiti et generationem caloris significanter minuunt, ita stabilitatem circuiti et vitam operationis emendantes.
Ductor Selectionis et Applicationis
Cum condensatores seriei YMIN NP1 eligis et uteris, haec nota:
• Compatibilitas Circuitus: Parametri clavis, ut capacitas nominalis condensatoris, tensio tolerabilis, ESR, undulatio nominalis, et ambitus temperaturae operativae, considerandi sunt.
• Momentum Connexionis Polaritatis: Condensatores electrolytici aluminii solidi polaritatem habent. Cum in usu sunt, anodus (terminus positivus) cum termino positivo fontis potentiae coniungendus est. Conexio inversa condensatorem laedet.
• Cautiones in Soldando et Installando: Pro condensatoribus plumbeis, commendatur ut curvatura 1.5mm in filis relinquatur dum soldatur ad tensionem minuendam. Temperatura soldandi infra 350°C conservanda est et tempus soldandi minus quam 3 secundis esse debet ne nimium calefiat et condensatori damnum inferatur.
• Comparatio cum Condensatoribus Liquidis: Condensatores solidi fortasse non tam boni sunt quam condensatores electrolytici liquidi altae qualitatis quod ad responsum frequentiae humilis attinet. In applicationibus cum requisitis specificis responsi frequentiae humilis, ut in circuitibus audio, considerationes comprehensivae necessariae sunt. Praeterea, resistentia tensionis condensatorum solidorum nunc plerumque ad circa 50V terminatur, dum condensatores liquidi plus quam 500V attingere possunt, cautionem in applicationibus altae tensionis requirens. Condensatores solidi etiam plerumque cariores sunt quam condensatores liquidi.
Prospectus Mercatus
Mercatus condensatorum electrolyticorum aluminii solidi spem praebet. Mercatus Sinensis condensatorum electrolyticorum aluminii solidi aestimatus est ad valorem circiter 6.2 miliardorum Yuan anno 2023 et exspectatur ut ad 8.8 miliarda Yuan anno 2029 perveniat. In mercato globali, productio condensatorum status solidi pro usoribus publicis exspectatur crescere ab circiter 19.533 miliardis unitatum anno 2022 ad circiter 27.823 miliardis unitatum anno 2028. Haec incrementatio impellitur evolutione industriae informationis electronicae, emendatione electronicorum usorum publicorum, automatione industriali, electrificatione autocinetica, et adoptione lata novarum fontium energiae, quae omnia augent postulationem qualitatis, stabilitatis, et durabilitatis partium electronicarum.
Summarium
Condensatores electrolytici aluminii solidi plumbati seriei NP1 ab YMIN fabricati, electrolyto solido polymerico in nucleo instructi, stabilitatem magnam, vitam longam, ESR humilem, facultatem undulationis currentis magnae, stabilitatem thermalem excellentem, et salutem offerunt. Sunt partes clavis in apparatibus electronicis modernis exigentibus, augentes efficaciam et firmitatem generalem.
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| Codex Productorum | Temperatura (℃) | Tensio Aestimata (V.DC) | Capacitas (µF) | Diameter (mm) | Altitudo (mm) | Fluxus fluxus (uA) | ESR/Impedentia [Ωmax] | Vita (Horae) | Certificatio producti |
| NP1C0700J101MJTM | -55~105 | 6.3 | centum | 6.3 | 7 | 280 | 0.008 | MM | - |
| NP1C0700J151MJTM | -55~105 | 6.3 | CL | 6.3 | 7 | 280 | 0.008 | MM | - |
| NP1C0700J181MJTM | -55~105 | 6.3 | CLXXX | 6.3 | 7 | 280 | 0.008 | MM | - |
| NP1D0800J181MJTM | -55~105 | 6.3 | CLXXX | 8 | 8 | 280 | 0.008 | MM | - |
| NP1D1100J181MJTM | -55~105 | 6.3 | CLXXX | 8 | 11 | 280 | 0.008 | MM | - |
| NP1B0900J221MJTM | -55~105 | 6.3 | 220 | 5 | 9 | 280 | 0.01 | MM | - |
| NP1C0700J221MJTM | -55~105 | 6.3 | 220 | 6.3 | 7 | 280 | 0.008 | MM | - |
| NP1D0800J221MJTM | -55~105 | 6.3 | 220 | 8 | 8 | 280 | 0.008 | MM | - |
| NP1D1100J221MJTM | -55~105 | 6.3 | 220 | 8 | 11 | 280 | 0.008 | MM | - |
| NP1B0900J271MJTM | -55~105 | 6.3 | 270 | 5 | 9 | 340 | 0.01 | MM | - |
| NP1C0700J271MJTM | -55~105 | 6.3 | 270 | 6.3 | 7 | 340 | 0.008 | MM | - |
| NP1D0800J271MJTM | -55~105 | 6.3 | 270 | 8 | 8 | 340 | 0.008 | MM | - |
| NP1D1100J271MJTM | -55~105 | 6.3 | 270 | 8 | 11 | 340 | 0.008 | MM | - |
| NP1B0900J331MJTM | -55~105 | 6.3 | 330 | 5 | 9 | 416 | 0.01 | MM | - |
| NP1B1100J331MJTM | -55~105 | 6.3 | 330 | 5 | 11 | 416 | 0.01 | MM | - |
| NP1C0700J331MJTM | -55~105 | 6.3 | 330 | 6.3 | 7 | 416 | 0.008 | MM | - |
| NP1D0800J331MJTM | -55~105 | 6.3 | 330 | 8 | 8 | 416 | 0.008 | MM | - |
| NP1D1100J331MJTM | -55~105 | 6.3 | 330 | 8 | 11 | 416 | 0.008 | MM | - |
| NP1C0700J391MJTM | -55~105 | 6.3 | 390 | 6.3 | 7 | 491 | 0.008 | MM | - |
| NP1C0900J391MJTM | -55~105 | 6.3 | 390 | 6.3 | 9 | 491 | 0.008 | MM | - |
| NP1D0800J391MJTM | -55~105 | 6.3 | 390 | 8 | 8 | 491 | 0.008 | MM | - |
| NP1D1100J391MJTM | -55~105 | 6.3 | 390 | 8 | 11 | 491 | 0.008 | MM | - |
| NP1C0900J471MJTM | -55~105 | 6.3 | 470 | 6.3 | 9 | 592 | 0.008 | MM | - |
| NP1C1000J471MJTM | -55~105 | 6.3 | 470 | 6.3 | 10 | 592 | 0.008 | MM | - |
| NP1D0800J471MJTM | -55~105 | 6.3 | 470 | 8 | 8 | 592 | 0.008 | MM | - |
| NP1D1100J471MJTM | -55~105 | 6.3 | 470 | 8 | 11 | 592 | 0.008 | MM | - |
| NP1C0900J561MJTM | -55~105 | 6.3 | 560 | 6.3 | 9 | DCCVI | 0.008 | MM | - |
| NP1D0800J561MJTM | -55~105 | 6.3 | 560 | 8 | 8 | DCCVI | 0.008 | MM | - |
| NP1D1100J561MJTM | -55~105 | 6.3 | 560 | 8 | 11 | DCCVI | 0.008 | MM | - |
| NP1C1000J681MJTM | -55~105 | 6.3 | DCCLXXX | 6.3 | 10 | DCCCLVII | 0.008 | MM | - |
| NP1D0800J681MJTM | -55~105 | 6.3 | DCCLXXX | 8 | 8 | DCCCLVII | 0.008 | MM | - |
| NP1D1100J681MJTM | -55~105 | 6.3 | DCCLXXX | 8 | 11 | DCCCLVII | 0.008 | MM | - |
| NP1E1200J681MJTM | -55~105 | 6.3 | DCCLXXX | 10 | 12 | DCCCLVII | 0.008 | MM | - |
| NP1D1100J821MJTM | -55~105 | 6.3 | DCCCXX | 8 | 11 | 1033 | 0.008 | MM | - |
| NP1E1200J821MJTM | -55~105 | 6.3 | DCCCXX | 10 | 12 | 1033 | 0.008 | MM | - |
| NP1D1100J102MJTM | -55~105 | 6.3 | mille | 8 | 11 | 1260 | 0.008 | MM | - |
| NP1E1200J102MJTM | -55~105 | 6.3 | mille | 10 | 12 | 1260 | 0.008 | MM | - |
| NP1D1100J122MJTM | -55~105 | 6.3 | 1200 | 8 | 11 | MDXII | 0.008 | MM | - |
| NP1E1200J122MJTM | -55~105 | 6.3 | 1200 | 10 | 12 | MDXII | 0.008 | MM | - |
| NP1E1200J152MJTM | -55~105 | 6.3 | 1500 | 10 | 12 | MDCCCXC | 0.008 | MM | - |
| NP1E1200J202MJTM | -55~105 | 6.3 | MM | 10 | 12 | 2520 | 0.008 | MM | - |
| NP1E1200J222MJTM | -55~105 | 6.3 | MMCC | 10 | 12 | 2772 | 0.008 | MM | - |
| NP1E1200J252MJTM | -55~105 | 6.3 | 2500 | 10 | 12 | 3150 | 0.008 | MM | - |
| NP1B0700L271MJTM | -55~105 | 7.5 | 270 | 5 | 7 | 405 | 0.012 | MM | - |
| NP1B0900L331MJTM | -55~105 | 7.5 | 330 | 5 | 9 | 495 | 0.012 | MM | - |
| NP1B1000L391MJTM | -55~105 | 7.5 | 390 | 5 | 10 | 585 | 0.01 | MM | - |
| NP1B1100L471MJTM | -55~105 | 7.5 | 470 | 5 | 11 | DCCV | 0.01 | MM | - |
| NP1C0900L681MJTM | -55~105 | 7.5 | DCCLXXX | 6.3 | 9 | 1020 | 0.009 | MM | - |
| NP1C1100L681MJTM | -55~105 | 7.5 | DCCLXXX | 6.3 | 11 | 1020 | 0.008 | MM | - |
| NP1D1100L102MJTM | -55~105 | 7.5 | mille | 8 | 11 | 1500 | 0.008 | MM | - |
| NP1C0501A330MJTM | -55~105 | 10 | 33 | 6.3 | 5 | 280 | 0.03 | MM | - |
| NP1C0501A390MJTM | -55~105 | 10 | 39 | 6.3 | 5 | 280 | 0.03 | MM | - |
| NP1C0701A470MJTM | -55~105 | 10 | 47 | 6.3 | 7 | 280 | 0.012 | MM | - |
| NP1C0701A680MJTM | -55~105 | 10 | 68 | 6.3 | 7 | 280 | 0.012 | MM | - |
| NP1C0701A820MJTM | -55~105 | 10 | 82 | 6.3 | 7 | 280 | 0.012 | MM | - |
| NP1C0701A101MJTM | -55~105 | 10 | centum | 6.3 | 7 | 280 | 0.012 | MM | - |
| NP1B0701A101MJTM | -55~105 | 10 | centum | 5 | 7 | 280 | 0.015 | MM | - |
| NP1B1101A151MJTM | -55~105 | 10 | CL | 5 | 11 | trecenti | 0.012 | MM | - |
| NP1C0701A151MJTM | -55~105 | 10 | CL | 6.3 | 7 | trecenti | 0.012 | MM | - |
| NP1B1101A181MJTM | -55~105 | 10 | CLXXX | 5 | 11 | 360 | 0.012 | MM | - |
| NP1C0901A181MJTM | -55~105 | 10 | CLXXX | 6.3 | 9 | 360 | 0.012 | MM | - |
| NP1D0801A181MJTM | -55~105 | 10 | CLXXX | 8 | 8 | 360 | 0.01 | MM | - |
| NP1D1101A181MJTM | -55~105 | 10 | CLXXX | 8 | 11 | 360 | 0.009 | MM | - |
| NP1C0901A221MJTM | -55~105 | 10 | 220 | 6.3 | 9 | 440 | 0.012 | MM | - |
| NP1D0801A221MJTM | -55~105 | 10 | 220 | 8 | 8 | 440 | 0.01 | MM | - |
| NP1D1101A221MJTM | -55~105 | 10 | 220 | 8 | 11 | 440 | 0.009 | MM | - |
| NP1C0901A271MJTM | -55~105 | 10 | 270 | 6.3 | 9 | 540 | 0.012 | MM | - |
| NP1C1101A271MJTM | -55~105 | 10 | 270 | 6.3 | 11 | 540 | 0.009 | MM | - |
| NP1D0801A271MJTM | -55~105 | 10 | 270 | 8 | 8 | 540 | 0.01 | MM | - |
| NP1D1101A271MJTM | -55~105 | 10 | 270 | 8 | 11 | 540 | 0.009 | MM | - |
| NP1C1101A331MJTM | -55~105 | 10 | 330 | 6.3 | 11 | DCCLX | 0.009 | MM | - |
| NP1D0801A331MJTM | -55~105 | 10 | 330 | 8 | 8 | DCCLX | 0.01 | MM | - |
| NP1D1101A331MJTM | -55~105 | 10 | 330 | 8 | 11 | DCCLX | 0.009 | MM | - |
| NP1C1101A391MJTM | -55~105 | 10 | 390 | 6.3 | 11 | DCCLXXX | 0.009 | MM | - |
| NP1D0801A391MJTM | -55~105 | 10 | 390 | 8 | 8 | DCCLXXX | 0.01 | MM | - |
| NP1D1101A391MJTM | -55~105 | 10 | 390 | 8 | 11 | DCCLXXX | 0.009 | MM | - |
| NP1C1101A471MJTM | -55~105 | 10 | 470 | 6.3 | 11 | 940 | 0.009 | MM | - |
| NP1D0801A471MJTM | -55~105 | 10 | 470 | 8 | 8 | 940 | 0.01 | MM | - |
| NP1D1101A471MJTM | -55~105 | 10 | 470 | 8 | 11 | 940 | 0.009 | MM | - |
| NP1D1101A561MJTM | -55~105 | 10 | 560 | 8 | 11 | 1120 | 0.009 | MM | - |
| NP1D1101A681MJTM | -55~105 | 10 | DCCLXXX | 8 | 11 | 1360 | 0.009 | MM | - |
| NP1E1201A681MJTM | -55~105 | 10 | DCCLXXX | 10 | 12 | 1360 | 0.009 | MM | - |
| NP1E1201A821MJTM | -55~105 | 10 | DCCCXX | 10 | 12 | 1640 | 0.009 | MM | - |
| NP1E1201A102MJTM | -55~105 | 10 | mille | 10 | 12 | MM | 0.009 | MM | - |
| NP1E1201A122MJTM | -55~105 | 10 | 1200 | 10 | 12 | 2400 | 0.009 | MM | - |
| NP1E1201A152MJTM | -55~105 | 10 | 1500 | 10 | 12 | tria milia | 0.009 | MM | - |
| NP1C0701C220MJTM | -55~105 | 16 | 22 | 6.3 | 7 | 280 | 0.015 | MM | - |
| NP1C0701C330MJTM | -55~105 | 16 | 33 | 6.3 | 7 | 280 | 0.015 | MM | - |
| NP1C0701C470MJTM | -55~105 | 16 | 47 | 6.3 | 7 | 280 | 0.015 | MM | - |
| NP1C0701C680MJTM | -55~105 | 16 | 68 | 6.3 | 7 | 280 | 0.015 | MM | - |
| NP1C0701C820MJTM | -55~105 | 16 | 82 | 6.3 | 7 | 280 | 0.015 | MM | - |
| NP1C0701C101MJTM | -55~105 | 16 | centum | 6.3 | 7 | CCCXX | 0.015 | MM | - |
| NP1C1101C101MJTM | -55~105 | 16 | centum | 6.3 | 11 | CCCXX | 0.01 | MM | - |
| NP1D1101C101MJTM | -55~105 | 16 | centum | 8 | 11 | CCCXX | 0.01 | MM | - |
| NP1C1001C151MJTM | -55~105 | 16 | CL | 6.3 | 10 | 480 | 0.01 | MM | - |
| NP1D0801C151MJTM | -55~105 | 16 | CL | 8 | 8 | 480 | 0.012 | MM | - |
| NP1C0701C181MJTM | -55~105 | 16 | CLXXX | 6.3 | 7 | 576 | 0.015 | MM | - |
| NP1C1101C181MJTM | -55~105 | 16 | CLXXX | 6.3 | 11 | 576 | 0.01 | MM | - |
| NP1D0801C181MJTM | -55~105 | 16 | CLXXX | 8 | 8 | 576 | 0.012 | MM | - |
| NP1D1101C181MJTM | -55~105 | 16 | CLXXX | 8 | 11 | 576 | 0.01 | MM | - |
| NP1C1001C221MJTM | -55~105 | 16 | 220 | 6.3 | 10 | DCCIV | 0.01 | MM | - |
| NP1D0801C221MJTM | -55~105 | 16 | 220 | 8 | 8 | DCCIV | 0.012 | MM | - |
| NP1D1101C221MJTM | -55~105 | 16 | 220 | 8 | 11 | DCCIV | 0.01 | MM | - |
| NP1C1001C271MJTM | -55~105 | 16 | 270 | 6.3 | 10 | DCCCLXIV | 0.01 | MM | - |
| NP1D0801C271MJTM | -55~105 | 16 | 270 | 8 | 8 | DCCCLXIV | 0.012 | MM | - |
| NP1D1101C271MJTM | -55~105 | 16 | 270 | 8 | 11 | DCCCLXIV | 0.01 | MM | - |
| NP1E1201C271MJTM | -55~105 | 16 | 270 | 10 | 12 | DCCCLXIV | 0.01 | MM | - |
| NP1D0801C331MJTM | -55~105 | 16 | 330 | 8 | 8 | 1056 | 0.012 | MM | - |
| NP1D1101C331MJTM | -55~105 | 16 | 330 | 8 | 11 | 1056 | 0.01 | MM | - |
| NP1E1201C331MJTM | -55~105 | 16 | 330 | 10 | 12 | 1056 | 0.01 | MM | - |
| NP1D0801C391MJTM | -55~105 | 16 | 390 | 8 | 8 | 1248 | 0.012 | MM | - |
| NP1D1101C391MJTM | -55~105 | 16 | 390 | 8 | 11 | 1248 | 0.01 | MM | - |
| NP1E1201C391MJTM | -55~105 | 16 | 390 | 10 | 12 | 1248 | 0.01 | MM | - |
| NP1D1101C471MJTM | -55~105 | 16 | 470 | 8 | 11 | MDIV | 0.01 | MM | - |
| NP1E1201C471MJTM | -55~105 | 16 | 470 | 10 | 12 | MDIV | 0.01 | MM | - |
| NP1D1101C561MJTM | -55~105 | 16 | 560 | 8 | 11 | MDCCXCII | 0.01 | MM | - |
| NP1E1201C561MJTM | -55~105 | 16 | 560 | 10 | 12 | MDCCXCII | 0.01 | MM | - |
| NP1E1201C681MJTM | -55~105 | 16 | DCCLXXX | 10 | 12 | 2176 | 0.01 | MM | - |
| NP1E1201C821MJTM | -55~105 | 16 | DCCCXX | 10 | 12 | 2624 | 0.01 | MM | - |
| NP1E1201C102MJTM | -55~105 | 16 | mille | 10 | 12 | 3200 | 0.01 | MM | - |
| NP1D1601C102MJTM | -55~105 | 16 | mille | 8 | 16 | 3200 | 0.008 | MM | - |
| NP1C0701E100MJTM | -55~105 | 25 | 10 | 6.3 | 7 | 280 | 0.016 | MM | - |
| NP1C0701E150MJTM | -55~105 | 25 | 15 | 6.3 | 7 | 280 | 0.016 | MM | - |
| NP1C0701E220MJTM | -55~105 | 25 | 22 | 6.3 | 7 | 280 | 0.016 | MM | - |
| NP1C0901E220MJTM | -55~105 | 25 | 22 | 6.3 | 9 | 280 | 0.016 | MM | - |
| NP1C0901E330MJTM | -55~105 | 25 | 33 | 6.3 | 9 | 280 | 0.016 | MM | - |
| NP1C0901E390MJTM | -55~105 | 25 | 39 | 6.3 | 9 | 280 | 0.016 | MM | - |
| NP1D0801E390MJTM | -55~105 | 25 | 39 | 8 | 8 | 280 | 0.016 | MM | - |
| NP1D1101E390MJTM | -55~105 | 25 | 39 | 8 | 11 | 280 | 0.016 | MM | - |
| NP1C1101E470MJTM | -55~105 | 25 | 47 | 6.3 | 11 | 280 | 0.02 | MM | - |
| NP1D0801E470MJTM | -55~105 | 25 | 47 | 8 | 8 | 280 | 0.016 | MM | - |
| NP1D1101E470MJTM | -55~105 | 25 | 47 | 8 | 11 | 280 | 0.016 | MM | - |
| NP1D0801E680MJTM | -55~105 | 25 | 68 | 8 | 8 | 340 | 0.016 | MM | - |
| NP1D1101E680MJTM | -55~105 | 25 | 68 | 8 | 11 | 340 | 0.016 | MM | - |
| NP1D0801E820MJTM | -55~105 | 25 | 82 | 8 | 8 | 410 | 0.016 | MM | - |
| NP1D1101E820MJTM | -55~105 | 25 | 82 | 8 | 11 | 410 | 0.016 | MM | - |
| NP1D1101E101MJTM | -55~105 | 25 | centum | 8 | 11 | quingenti | 0.016 | MM | - |
| NP1E1201E101MJTM | -55~105 | 25 | centum | 10 | 12 | quingenti | 0.016 | MM | - |
| NP1D1101E151MJTM | -55~105 | 25 | CL | 8 | 11 | DCCCL | 0.016 | MM | - |
| NP1E1201E151MJTM | -55~105 | 25 | CL | 10 | 12 | DCCCL | 0.016 | MM | - |
| NP1D1101E181MJTM | -55~105 | 25 | CLXXX | 8 | 11 | 900 | 0.016 | MM | - |
| NP1E1201E181MJTM | -55~105 | 25 | CLXXX | 10 | 12 | 900 | 0.016 | MM | - |
| NP1D1101E221MJTM | -55~105 | 25 | 220 | 8 | 11 | 1100 | 0.016 | MM | - |
| NP1E1201E221MJTM | -55~105 | 25 | 220 | 10 | 12 | 1100 | 0.016 | MM | - |
| NP1D1101E271MJTM | -55~105 | 25 | 270 | 8 | 11 | 1350 | 0.016 | MM | - |
| NP1E1201E271MJTM | -55~105 | 25 | 270 | 10 | 12 | 1350 | 0.016 | MM | - |
| NP1E1201E331MJTM | -55~105 | 25 | 330 | 10 | 12 | 1650 | 0.016 | MM | - |
| NP1E1201E391MJTM | -55~105 | 25 | 390 | 10 | 12 | MCML | 0.016 | MM | - |
| NP1E1201E471MJTM | -55~105 | 25 | 470 | 10 | 12 | 2350 | 0.016 | MM | - |
| NP1E1201E561MJTM | -55~105 | 25 | 560 | 10 | 12 | 2800 | 0.016 | MM | - |
| NP1D1601E681MJTM | -55~105 | 25 | DCCLXXX | 8 | 16 | 3400 | 0.016 | MM | - |
| NP1E1201E821MJTM | -55~105 | 25 | DCCCXX | 10 | 12 | 4100 | 0.016 | MM | - |
| NP1E1601E102MJTM | -55~105 | 25 | mille | 10 | 16 | Quinque milia | 0.016 | MM | - |
