Main Technical parametri
♦ High Reliability, Minimum ESR, High Literature Ripple Current
♦ Guaranteed pro MM horas ad CV ℃
♦ impletur cum Rohs Directive
♦ Latin superficies monte type
| project | proprium |
| Range of working temperatus | -55 ~ + CV ℃ |
| Rated Working Voltage | 6,3 ~ 25v |
| facultatem range | X ~ 2500UF 120Hz XX ℃ |
| Capacitas tolerantia | ± XX% (120Hz XX ℃) |
| damnum tangentem | 120Hz XX ℃ sub valorem in album of vexillum products |
| Leakage current ※ | Crimen ad II minutes at rated voltage sub valorem in album of Latin products ad XX ° C |
| Equivalent seriem resistentiam (ESR) | 100khz XX ° C infra valorem in album of Latin Products |
| Capacitance mutatio rate | ± XX% of initial valorem |
| Equivalent seriem resistentiam (ESR) | ≤150% of initial specie pretii |
| damnum tangentem | ≤150% of initial specie pretii |
| Leakage Current | ≤initial specie valorem |
| Capacitance mutatio rate | ± XX% of initial valorem |
| Equivalent seriem resistentiam (ESR) | ≤150% of initial specie pretii |
| damnum tangentem | ≤150% of initial specie pretii |
| Leakage Current | ≤initial specie valorem |
| Caliditas et humiditas | Quod productum debet occurrit conditionibus et LX ° C temperatus et XC% ~ XCV% RH humiditas sine applicando intentione, ponere illud pro M horas, et ponere ad XX ° C XVI horis |
| Diuturnitas | Quod productum debet occursum temperatus de CV ℃, applicare ad rated operationem voltage pro MM horas et post XVI horas ad XX ℃; |
Product Dimensional Drawing
Dimensionem (Unit: mm)
| Φd | B | C | A | H | E | K | a |
| 5 | 5.3 | 5.3 | 2.1 | 0.70 ± 0.20 | 1.3 | 0.5Max | ± 0.5 |
| 6,3 | 6.6 | 6.6 | 2.6 | 0.70 ± 0.20 | 1.8 | 0.5Max | |
| 8 | 8,3 | 8,3 | 3 | 0.90 ± 0.20 | 3,1 | 0.5Max | |
| 10 | 10,3 | 10,3 | 3.5 | 0.90 ± 0.20 | 4.6 | 0.7 0.2 |
Rated Ripple Current Frequency correctionem factor
| Frequency (HZ) | 120Hz | 1KHz | 10khz | 100khz | 500khz |
| Correptio factor | 0,05 | 0,3 | 0,7 | 1 | 1 |
Solidum chip aluminium electrolytic capacitorEst quaedam capacitor, quae habet commoda parvis magnitudine, lux pondus, stabilis qualitas humilis impedire et certa operatio, ita late in electronic cogitationes. Et haec sunt specifica applications solidum chip aluminium electrolytic capacitors:
I. Communication Equipment: in communicationis apparatu, capacitors non requiritur ad modulatum significationibus, generate oscillationes et processum annuit.Solidum chip aluminium electrolytic capacitorsHabere characteres parva magnitudine, lux pondus et certa operatio, ita conveniunt ad broadband communicationis, wireless communicationis et optical fibra communicationis et aliis agris.
II. Power Management: In virtute Management, Capacitors sunt opus ad smooth DC potentia et imperium voltage et vena. Solidum chip aluminium electrolytic capacitors sunt idoneam ad potestatem administratione et potest ad lenis intentione, imperium current et amplio potentia elementum, etc.
III. Automotive Electronics: in Books electronics, capacitors non requiritur ad industria repono et filtering. High qualitas stabilitatem humilis impeditance et pondusSolidum chip aluminium electrolytic capacitorsFacies eos idoneam ad eget electronics, ubi non possunt ad copia industria, filter, satus in engine, imperium motors et luminaria, etc.
IV. Smart Home: in Domus, Capacitors requiritur ad Smert Imperium et Networked Communication. Et parva magnitudine et excelsum capacitance valorem de solidum chip aluminium electrolytic capacitors faciunt eos idoneam ad agri dolor in domum suam, et potest esse ad animadverto intelligens imperium, networked communicationis et embedded systems, etc.
V. Electrical adjumenta et instrumenta: in electrica adjumenta et instrumenta, capacitors non requiritur ad copia industria, filter voltage et terminum current. CommodaSolidum chip aluminium electrolytic capacitorsUt parva magnitudine, lux pondus, humilis impedimentis et stabilis qualitas idoneam electrica adjumenta et instrumenta et potest ad reponere industria, filter voltage, terminus current, etc.
VI. Medical Equipment: In Medical Equipment, Capacitors non requiritur ad efficiendum timers, timers, frequency calculis, etc. solidae aluminium electrolytic capacitors sunt idoneam medicinae apparatu, et non potest esse ad efficiendum, et teners, frequency, et non potest esse in mensers, etc.
Ut sum sursum,Solidum chip aluminium electrolytic capacitorsApta variis electronic cogitationes et circuitus, et parva magnitudine et operantes reliability faciunt eos necessaria parte electronics industria.
| Products codice | Temperature (℃) | Rating voltage (V.DC) | Capacitance (UF) | Diameter (mm) | Altitudo (mm) | Leakage Current (UA) | ESR / Impedance [ωmage] | Vita (HRS) |
| Vp1d1701e681mvtm | -55 ~ CV | 25 | DCLXXX | 8 | 17 | MMMCD | 0,016 | MM |
| Vp1e1301e821mvtm | -55 ~ CV | 25 | DCCCXX | 10 | 13 | (IV) C | 0,016 | MM |
| Vp1e1701e102mvtm | -55 ~ CV | 25 | M | 10 | 17 | (V) | 0,016 | MM |
| Vp1c085j101mvtm | -55 ~ CV | 6,3 | C | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1c0850j151mvtm | -55 ~ CV | 6,3 | CL | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1c0850j181mvtm | -55 ~ CV | 6,3 | CLXXX | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1d0900j181mvtm | -55 ~ CV | 6,3 | CLXXX | 8 | 9 | D | 0.008 | MM |
| Vp1d1250j181mvtm | -55 ~ CV | 6,3 | CLXXX | 8 | 12,5 | D | 0.008 | MM |
| Vp1b1100j221mvtm | -55 ~ CV | 6,3 | CCXX | 5 | 11 | D | 0.01 0.01 | MM |
| Vp1c0850j221mvtm | -55 ~ CV | 6,3 | CCXX | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1d0900j221mvtm | -55 ~ CV | 6,3 | CCXX | 8 | 9 | D | 0.008 | MM |
| Vp1d1250j21mvtm | -55 ~ CV | 6,3 | CCXX | 8 | 12,5 | D | 0.008 | MM |
| Vp1b1100j271mvtm | -55 ~ CV | 6,3 | CCLXX | 5 | 11 | D | 0.01 0.01 | MM |
| Vp1c0850j271mvtm | -55 ~ CV | 6,3 | CCLXX | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1d0900j271mvtm | -55 ~ CV | 6,3 | CCLXX | 8 | 9 | D | 0.008 | MM |
| Vp1d1250j271mvtm | -55 ~ CV | 6,3 | CCLXX | 8 | 12,5 | D | 0.008 | MM |
| Vp1b1100j331mvtm | -55 ~ CV | 6,3 | CCCXXX | 5 | 11 | D | 0.01 0.01 | MM |
| Vp1c0850j331mvtm | -55 ~ CV | 6,3 | CCCXXX | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1d0900j331mvtm | -55 ~ CV | 6,3 | CCCXXX | 8 | 9 | D | 0.008 | MM |
| Vp1d1250j331mvtm | -55 ~ CV | 6,3 | CCCXXX | 8 | 12,5 | D | 0.008 | MM |
| Vp1c0850j391mvtm | -55 ~ CV | 6,3 | CCCXC | 6,3 | 8,5 | D | 0.008 | MM |
| Vp1c0950j391mvtm | -55 ~ CV | 6,3 | CCCXC | 6,3 | 9,5 | D | 0.008 | MM |
| Vp1d0900j391mvtm | -55 ~ CV | 6,3 | CCCXC | 8 | 9 | D | 0.008 | MM |
| Vp1d1250j391mvtm | -55 ~ CV | 6,3 | CCCXC | 8 | 12,5 | D | 0.008 | MM |
| Vp1c0950j471mvtm | -55 ~ CV | 6,3 | CDLXX | 6,3 | 9,5 | DXCII | 0.008 | MM |
| Vp1c1100j471mvtm | -55 ~ CV | 6,3 | CDLXX | 6,3 | 11 | DXCII | 0.008 | MM |
| Vp1d0900j471mvtm | -55 ~ CV | 6,3 | CDLXX | 8 | 9 | DXCII | 0.008 | MM |
| Vp1d1250j471mvtm | -55 ~ CV | 6,3 | CDLXX | 8 | 12,5 | DXCII | 0.008 | MM |
| Vp1c0950j561mvtm | -55 ~ CV | 6,3 | DLX | 6,3 | 9,5 | DCCVI | 0.008 | MM |
| Vp1d0900j561mvtm | -55 ~ CV | 6,3 | DLX | 8 | 9 | DCCVI | 0.008 | MM |
| Vp1d1250j561mvtm | -55 ~ CV | 6,3 | DLX | 8 | 12,5 | DCCVI | 0.008 | MM |
| Vp1c1100j681mvtm | -55 ~ CV | 6,3 | DCLXXX | 6,3 | 11 | DCCCLVII | 0.008 | MM |
| Vp1d0900j681mvtm | -55 ~ CV | 6,3 | DCLXXX | 8 | 9 | DCCCLVII | 0.008 | MM |
| Vp1d1250j681mvtm | -55 ~ CV | 6,3 | DCLXXX | 8 | 12,5 | DCCCLVII | 0.008 | MM |
| Vp1e1300j681mvtm | -55 ~ CV | 6,3 | DCLXXX | 10 | 13 | DCCCLVII | 0.008 | MM |
| VP1D1250J821MVTM | -55 ~ CV | 6,3 | DCCCXX | 8 | 12,5 | MXXXIII | 0.008 | MM |
| Vp1e1300j821mvtm | -55 ~ CV | 6,3 | DCCCXX | 10 | 13 | MXXXIII | 0.008 | MM |
| Vp1d1250j102mvtm | -55 ~ CV | 6,3 | M | 8 | 12,5 | MCCLX | 0.008 | MM |
| Vp1e1300j102mvtm | -55 ~ CV | 6,3 | M | 10 | 13 | MCCLX | 0.008 | MM |
| Vp1d1250j122mvtm | -55 ~ CV | 6,3 | MCC | 8 | 12,5 | MDXII | 0.008 | MM |
| Vp1e1300j122mvtm | -55 ~ CV | 6,3 | MCC | 10 | 13 | MDXII | 0.008 | MM |
| Vp1e1300j152mvtm | -55 ~ CV | 6,3 | MD | 10 | 13 | MDCCCXC | 0.008 | MM |
| Vp1e1300j202mvtm | -55 ~ CV | 6,3 | MM | 10 | 13 | MMDXX | 0.008 | MM |
| Vp1e1300j22mvtm | -55 ~ CV | 6,3 | MMCC | 10 | 13 | MMDCCLXXII | 0.008 | MM |
| Vp1e1300j252mvtm | -55 ~ CV | 6,3 | MMD | 10 | 13 | MMMCL | 0.008 | MM |
| Vp1b0850l271mvtm | -55 ~ CV | 7.5 | CCLXX | 5 | 8,5 | CDV | 0.012 | MM |
| VP1B1100L331mvtm | -55 ~ CV | 7.5 | CCCXXX | 5 | 11 | CDXCV | 0.012 | MM |
| Vp1b1100l391mvtm | -55 ~ CV | 7.5 | CCCXC | 5 | 11 | DLXXXV | 0.01 0.01 | MM |
| Vp1c0950l681mvtm | -55 ~ CV | 7.5 | DCLXXX | 6,3 | 9,5 | MXX | 0.009 | MM |
| Vp1d1250l102mvtm | -55 ~ CV | 7.5 | M | 8 | 12,5 | MD | 0.008 | MM |
| Vp1c0581a330mvtm | -55 ~ CV | 10 | 33 | 6,3 | 5,8 | CCC | 0.03 | MM |
| Vp1c0581a390mvtm | -55 ~ CV | 10 | 39 | 6,3 | 5,8 | CCC | 0.03 | MM |
| Vp1c0851a470mvtm | -55 ~ CV | 10 | 47 | 6,3 | 8,5 | CCC | 0.012 | MM |
| Vp1c0851a680mvtm | -55 ~ CV | 10 | 68 | 6,3 | 8,5 | CCC | 0.012 | MM |
| Vp1c0851a820mvtm | -55 ~ CV | 10 | 82 | 6,3 | 8,5 | CCC | 0.012 | MM |
| VP1C0851A101MVTM | -55 ~ CV | 10 | C | 6,3 | 8,5 | CCC | 0.012 | MM |
| Vp1b0851a10ng | -55 ~ CV | 10 | C | 5 | 8,5 | CCC | 0.015 | MM |
| Vp1c0851a151mvtm | -55 ~ CV | 10 | CL | 6,3 | 8,5 | CCC | 0.012 | MM |
| Vp1c0951a181mvtm | -55 ~ CV | 10 | CLXXX | 6,3 | 9,5 | CCCLX | 0.012 | MM |
| Vp1d0901a181mvtm | -55 ~ CV | 10 | CLXXX | 8 | 9 | CCCLX | 0.01 0.01 | MM |
| Vp1d1251a181mvtm | -55 ~ CV | 10 | CLXXX | 8 | 12,5 | CCCLX | 0.009 | MM |
| Vp1c0951a221mvtm | -55 ~ CV | 10 | CCXX | 6,3 | 9,5 | CDXL | 0.012 | MM |
| Vp1d0901a221mvtm | -55 ~ CV | 10 | CCXX | 8 | 9 | CDXL | 0.01 0.01 | MM |
| Vp1d1251a221mvtm | -55 ~ CV | 10 | CCXX | 8 | 12,5 | CDXL | 0.009 | MM |
| Vp1c0951a271mvtm | -55 ~ CV | 10 | CCLXX | 6,3 | 9,5 | DXL | 0.012 | MM |
| Vp1d0901a271mvtm | -55 ~ CV | 10 | CCLXX | 8 | 9 | DXL | 0.01 0.01 | MM |
| Vp1d1251a271mvtm | -55 ~ CV | 10 | CCLXX | 8 | 12,5 | DXL | 0.009 | MM |
| Vp1d0901a331mvtm | -55 ~ CV | 10 | CCCXXX | 8 | 9 | DCLX | 0.01 0.01 | MM |
| Vp1d1251a331mvtm | -55 ~ CV | 10 | CCCXXX | 8 | 12,5 | DCLX | 0.009 | MM |
| Vp1d0901a391mvtm | -55 ~ CV | 10 | CCCXC | 8 | 9 | DCCLXXX | 0.01 0.01 | MM |
| Vp1d1251a391mvtm | -55 ~ CV | 10 | CCCXC | 8 | 12,5 | DCCLXXX | 0.009 | MM |
| Vp1d0901a471mvtm | -55 ~ CV | 10 | CDLXX | 8 | 9 | CMXL | 0.01 0.01 | MM |
| Vp1d1251a471mvtm | -55 ~ CV | 10 | CDLXX | 8 | 12,5 | CMXL | 0.009 | MM |
| Vp1d1251a561mvtm | -55 ~ CV | 10 | DLX | 8 | 12,5 | MCXX | 0.009 | MM |
| Vp1d1251a681mvtm | -55 ~ CV | 10 | DCLXXX | 8 | 12,5 | MCCCLX | 0.009 | MM |
| Vp1e1301a681mvtm | -55 ~ CV | 10 | DCLXXX | 10 | 13 | MCCCLX | 0.009 | MM |
| Vp1e1301a821mvtm | -55 ~ CV | 10 | DCCCXX | 10 | 13 | MDCXL | 0.009 | MM |
| Vp1e1301a102mvtm | -55 ~ CV | 10 | M | 10 | 13 | MM | 0.009 | MM |
| Vp1e1301a122mvtm | -55 ~ CV | 10 | MCC | 10 | 13 | MMCD | 0.009 | MM |
| Vp1e1301a152mvtm | -55 ~ CV | 10 | MD | 10 | 13 | MMM MMM | 0.009 | MM |
| Vp1c0851c220mvtm | -55 ~ CV | 16 | 22 | 6,3 | 8,5 | CCC | 0.015 | MM |
| Vp1c0851c330mvtm | -55 ~ CV | 16 | 33 | 6,3 | 8,5 | CCC | 0.015 | MM |
| VP1C0851C470mvtm | -55 ~ CV | 16 | 47 | 6,3 | 8,5 | CCC | 0.015 | MM |
| Vp1c0851c680mvtm | -55 ~ CV | 16 | 68 | 6,3 | 8,5 | CCC | 0.015 | MM |
| VP1C0851C820MVTM | -55 ~ CV | 16 | 82 | 6,3 | 8,5 | CCC | 0.015 | MM |
| Vp1c0851c1mvtm | -55 ~ CV | 16 | C | 6,3 | 8,5 | CCCXX | 0.015 | MM |
| Vp1d1251c10mvtm | -55 ~ CV | 16 | C | 8 | 12,5 | CCCXX | 0.01 0.01 | MM |
| VP1C1101c151mvtm | -55 ~ CV | 16 | CL | 6,3 | 11 | CDLXXX | 0.01 0.01 | MM |
| Vp1d0901c151mvtm | -55 ~ CV | 16 | CL | 8 | 9 | CDLXXX | 0.012 | MM |
| Vp1c0851c181mvtm | -55 ~ CV | 16 | CLXXX | 6,3 | 8,5 | DLXXVI | 0.015 | MM |
| Vp1d0901c181mvtm | -55 ~ CV | 16 | CLXXX | 8 | 9 | DLXXVI | 0.012 | MM |
| Vp1d1251c181mvtm | -55 ~ CV | 16 | CLXXX | 8 | 12,5 | DLXXVI | 0.01 0.01 | MM |
| Vp1c1101c221mvtm | -55 ~ CV | 16 | CCXX | 6,3 | 11 | DCCIV | 0.01 0.01 | MM |
| Vp1d0901c221mvtm | -55 ~ CV | 16 | CCXX | 8 | 9 | DCCIV | 0.012 | MM |
| Vp1d1251c221mvtm | -55 ~ CV | 16 | CCXX | 8 | 12,5 | DCCIV | 0.01 0.01 | MM |
| Vp1c1101c271mvtm | -55 ~ CV | 16 | CCLXX | 6,3 | 11 | DCCCLXIV | 0.01 0.01 | MM |
| Vp1d0901c271mvtm | -55 ~ CV | 16 | CCLXX | 8 | 9 | DCCCLXIV | 0.012 | MM |
| Vp1d1251c271mvtm | -55 ~ CV | 16 | CCLXX | 8 | 12,5 | DCCCLXIV | 0.01 0.01 | MM |
| Vp1e1301c271mvtm | -55 ~ CV | 16 | CCLXX | 10 | 13 | DCCCLXIV | 0.01 0.01 | MM |
| Vp1d0901c331mvtm | -55 ~ CV | 16 | CCCXXX | 8 | 9 | MLVI | 0.012 | MM |
| Vp1d1251c331mvtm | -55 ~ CV | 16 | CCCXXX | 8 | 12,5 | MLVI | 0.01 0.01 | MM |
| Vp1e1301c331mvtm | -55 ~ CV | 16 | CCCXXX | 10 | 13 | MLVI | 0.01 0.01 | MM |
| Vp1d0901c391mvtm | -55 ~ CV | 16 | CCCXC | 8 | 9 | MCCXLVIII | 0.012 | MM |
| Vp1d1251c391mvtm | -55 ~ CV | 16 | CCCXC | 8 | 12,5 | MCCXLVIII | 0.01 0.01 | MM |
| Vp1e1301c391mvtm | -55 ~ CV | 16 | CCCXC | 10 | 13 | MCCXLVIII | 0.01 0.01 | MM |
| Vp1d1251c471mvtm | -55 ~ CV | 16 | CDLXX | 8 | 12,5 | MDIV | 0.01 0.01 | MM |
| Vp1e1301c471mvtm | -55 ~ CV | 16 | CDLXX | 10 | 13 | MDIV | 0.01 0.01 | MM |
| Vp1d1251c561mvtm | -55 ~ CV | 16 | DLX | 8 | 12,5 | MDCCXCII | 0.01 0.01 | MM |
| Vp1e1301c561mvtm | -55 ~ CV | 16 | DLX | 10 | 13 | MDCCXCII | 0.01 0.01 | MM |
| Vp1e1301c681mvtm | -55 ~ CV | 16 | DCLXXX | 10 | 13 | MMCLXXVI | 0.01 0.01 | MM |
| Vp1e1301c821mvtm | -55 ~ CV | 16 | DCCCXX | 10 | 13 | MMDCXXIV | 0.01 0.01 | MM |
| Vp1e1301c102mvtm | -55 ~ CV | 16 | M | 10 | 13 | MMMCC | 0.01 0.01 | MM |
| Vp1c0851e100mvtm | -55 ~ CV | 25 | 10 | 6,3 | 8,5 | CCC | 0,016 | MM |
| Vp1c0851e150mvtm | -55 ~ CV | 25 | 15 | 6,3 | 8,5 | CCC | 0,016 | MM |
| Vp1c0851e220mvtm | -55 ~ CV | 25 | 22 | 6,3 | 8,5 | CCC | 0,016 | MM |
| Vp1c0951e220mvtm | -55 ~ CV | 25 | 22 | 6,3 | 9,5 | CCC | 0,016 | MM |
| Vp1c0951e330mvtm | -55 ~ CV | 25 | 33 | 6,3 | 9,5 | CCC | 0,016 | MM |
| Vp1c0951e390mvtm | -55 ~ CV | 25 | 39 | 6,3 | 9,5 | CCC | 0,016 | MM |
| Vp1d0901e390mvtm | -55 ~ CV | 25 | 39 | 8 | 9 | CCC | 0,016 | MM |
| Vp1d1251e390mvtm | -55 ~ CV | 25 | 39 | 8 | 12,5 | CCC | 0,016 | MM |
| Vp1d0901e470mvtm | -55 ~ CV | 25 | 47 | 8 | 9 | CCC | 0,016 | MM |
| Vp1d1251e470mvtm | -55 ~ CV | 25 | 47 | 8 | 12,5 | CCC | 0,016 | MM |
| Vp1d0901e680mvtm | -55 ~ CV | 25 | 68 | 8 | 9 | CCCXL | 0,016 | MM |
| Vp1d1251e680mvtm | -55 ~ CV | 25 | 68 | 8 | 12,5 | CCCXL | 0,016 | MM |
| Vp1d0901e820mvtm | -55 ~ CV | 25 | 82 | 8 | 9 | CDX | 0,016 | MM |
| Vp1d1251e820mvtm | -55 ~ CV | 25 | 82 | 8 | 12,5 | CDX | 0,016 | MM |
| Vp1d1251e101mvtm | -55 ~ CV | 25 | C | 8 | 12,5 | D | 0,016 | MM |
| Vp1e1301e101mvtm | -55 ~ CV | 25 | C | 10 | 13 | D | 0,016 | MM |
| Vp1d1251e151mvtm | -55 ~ CV | 25 | CL | 8 | 12,5 | DCCL | 0,016 | MM |
| Vp1e1301e151mvtm | -55 ~ CV | 25 | CL | 10 | 13 | DCCL | 0,016 | MM |
| Vp1d1251e181mvtm | -55 ~ CV | 25 | CLXXX | 8 | 12,5 | CM | 0,016 | MM |
| Vp1e1301e181mvtm | -55 ~ CV | 25 | CLXXX | 10 | 13 | CM | 0,016 | MM |
| Vp1d1251e221mvtm | -55 ~ CV | 25 | CCXX | 8 | 12,5 | MC | 0,016 | MM |
| Vp1e1301e221mvtm | -55 ~ CV | 25 | CCXX | 10 | 13 | MC | 0,016 | MM |
| Vp1d1251e271mvtm | -55 ~ CV | 25 | CCLXX | 8 | 12,5 | MCCCL | 0,016 | MM |
| Vp1e1301e271mvtm | -55 ~ CV | 25 | CCLXX | 10 | 13 | MCCCL | 0,016 | MM |
| Vp1e1301e331mvtm | -55 ~ CV | 25 | CCCXXX | 10 | 13 | MDCL | 0,016 | MM |
| Vp1e1301e391mvtm | -55 ~ CV | 25 | CCCXC | 10 | 13 | MCML | 0,016 | MM |
| Vp1e1301e471mvtm | -55 ~ CV | 25 | CDLXX | 10 | 13 | MMCCCL | 0,016 | MM |
| Vp1e1301e561mvtm | -55 ~ CV | 25 | DLX | 10 | 13 | MMDCCC | 0,016 | MM |
