Main Technical parametri
| Item | proprium | ||
| Range of working temperatus | -40 ~ + CV ℃ | ||
| Rated voltage range | 3500v CCCL ~ | ||
| Rated electrostatic capacity range | 120- M UF (XX ℃ 120Hz) | ||
| Licendable differentia in rated electrostatic capacity | ± XX% | ||
| Leakage Current (MA) | ≤3√cv (C: nominis facultatem; V: rated voltage aut 0,94MA, quicquid minor, probata pro V minuta @ XX ℃ | ||
| Maxime damnum (XX ℃) | 0,20 (XX ℃ 120Hz) | ||
| Temperature characteres (120hz) | C (-25 ℃) / C (+ XX ℃) ≥0.8; C (-40 ℃) / C (+ XX ℃) ≥0.65 | ||
| Impedance (120Hz) | Z (-25 ℃) / Z (+ XX ℃) ≤5; Z (-40 ℃) / Z (+ XX ℃) ≤8 | ||
| Nulla resistitur | Valorem metiri cum DC500V Nulla resistentia teger omnes terminales et insulating sleeve in continens operimentum et certa lorum installed est ≥100mω. | ||
| Voltage VOLTAGE | Non fuit deprauationem cum voltage of AC2000V erat applicari ad I minute inter omnes terminals et insulating sleeve in continens operimentum et certa lorum installed. | ||
| Diuturnitas | In environment de CV ° C, Rated Ripple Current est superimposed sine excedente rated voltage. Et rated intentione continuat onustum ad 3000H et rediit ad XX ° c. Test occursum sequenti elit. | ||
| Mutare facultatem rate (△ c | ≤ ± XX% of initial valorem | ||
| Damnum valorem (TG δ) | ≤200% of initial specificationem pretii | ||
| Leakage Current (LC) | ≤initial specie valorem | ||
| Caliditas non onus characteres | Postquam repono in environment de CV ℃ ad M horas et rediit ad XX ℃, in test occurreret sequenti requisitis. | ||
| Mutare facultatem rate (△ c | ≤ ± XV% of initial valorem | ||
| Damnum valorem (TG δ) | ≤150% of initial specie pretii | ||
| Leakage Current (LC) | ≤initial specie valorem | ||
| Voltage preconditioning non requiritur ante test: applicare a rated voltage ut utraque terminos capacitor per resistor de 1000Ω et custodiat eam in I hora. Post preteratment, resistor circiter 1ω / V est dimitti. Post fluxum est completum, locus ad locus temperatus pro XXIV horas antequam incipiens test. | |||
Product Dimensional Drawing
Products dimensionem (mm)
| Φd | Φ22 | Φ25 | Φ30 | Φ35 | Φ40 |
| B | 11,6 | 11,8 | 11,8 | 11,8 | 12,25 |
| C | 8,4 | 10 | 10 | 10 | 10 |
| Li | 6,5 | 6,5 | 6,5 | 6,5 | 6,5 |
Ripple Current disciplinam parametri
①frequency compensationem coefficientem
| frequentia | 50Hz | 120Hz | 500Hz | 1KHz | 10khz |
| Correptio factor | 0,8 | 1 | 1.2 | 1,25 | 1.4 |
②Tempature Compensation coefficientem
| Temperature (℃) | XL ℃ | LX ℃ | LXXXV ℃ | CV ℃ |
| coefficient | 2.7 | 2.2 | 1.7 | 1.0 |
Snap-in Capacitors: Foedus et Reliable Solutions ad Electrical Systems
Snap-in capacitors sunt necessaria components in modern electrica systems, offering pacto magnitudine, princeps capacitance, et reliability. In hoc articulus, ut youll 'dellvit in features, applications et beneficia ex Snap-in capacitors.
Features
Snap-in capacitors, etiam ut frangeretur-monte capacitors, quae disposito specialioribus terminalibus ut patitur ad velox et secure installation onto circuitu tabulas vel adscendens superficies. Hae capacitors typically habent cylindricum vel rectangula figuras, cum terminales featuring metallum frangitur quod securely in locum in insertionem.
Unus ex key features of frangeretur, in capacitors est princeps capacitance values, vndique ex microfarads ad FaDs. Hoc princeps capacitance facit ea specimen pro applications requiring significant crimen repono, ut potentia copiam unitates, inverters, motor agit, et audio Amplifiers.
Praeterea, frangeretur, in capacitors sunt available in variis intentione ratings ad sectam diversis voltage campester in electrica systems. Sunt disposito ad sustinere altum temperaturis, vibrationes, et electrica passiones, cursus fidelibus perficientur in exposcens environments.
Applications
Snap-in Capacitorors invenire latos applications per varia industries et electrica systems. Sunt communiter in potestate copiam unitates, ubi auxilium ad lenis de voltage fluctuations et amplio stabilitas de output voltages. In inverters et motor agitet, frangeretur, in capacitors adiuvaret in filtering et industria repono, conferunt ad efficientem operationem potentiae conversionem systems.
Praeterea, frangeretur, in capacitoribus sunt assuetudo in audio Amplifiers et electronic ballasts, ubi ludere discrimine roles in signum filtering et potentia elementum correctionem. In pacto magnitudine et excelsum capacitance faciunt ea specimen pro spatio-coactus applications, permittens ad efficient usum PCB (typis circuitu tabula) verus praedium.
Beneficia
Snap in capacitors offer pluribus beneficia quae faciunt eos malle electiones in multis applications. Eorum frangeretur in terminalibus facilitate velox et facilis installation, reducendo conventus et laboris costs. Praeterea, eorum pacto magnitudine et humilis profile activare agentibus PCB layout et spatium-salute consilia.
Ceterum frangeretur in capacitoribus cognoverunt ad altum reliability et longa muneris vita, faciens idoneam usum missionis, discrimine applications. Sunt disposito ad occursum storent qualitas signa et subeundi rigorous probato ut consistent perficientur et diuturnitatem.
Conclusio
In conclusione, frangeretur, in capacitoribus sunt versatile components quod providere pacto, reliable, et efficient solutiones pro amplis electrica systems. Cum eorum princeps capacitance values, voltage ratings et robust constructione, conferunt ad lenis operationem et perficientur potentia copiam unitates, inverters, motor agit, audio amplifiers, et magis.
Utrum in Industrial Automation, Consumer Electronics, Telecommunications, aut Automotive Applications, Snap-in Capacitors Play Vital Roles in ensuring firmum potestate partus, signum filtering, et industria repono. Otium of installation, pacto magnitudine, et alta reliability faciunt ea necessaria components in modern electrica consilia.
| Products Number | Operating temperatus (℃) | Voltage (V.DC) | Capacitance (UF) | Diameter (mm) | Longitudo (mm) | Leakage Current (UA) | Rated Ripple Current [MA / RMS] | ESR / Impedance [ωmage] | Vita (HRS) |
| Cw6h2m391mnag01s2 | -40 ~ CV | DC | CCCXC | 35 | 70 | MCDLI | MMCC | 0.823 | (VI) |
| Cw6h2m471mnbbs09s2 | -40 ~ CV | DC | CDLXX | 40 | 60 | MDXCIII | MMCCL | 0.683 | (VI) |
| Cw6h2v121mnzs02s2 | -40 ~ CV | CCCL | CXX | 22 | 25 | DCXV | DCLXX | 1.497 | (VI) |
| Cw6h2v151mnzs03s2 | -40 ~ CV | CCCL | CL | 22 | 30 | DCLXXXVII | DCCC | 1.197 | (VI) |
| Cw6h2v181mnys03s2 | -40 ~ CV | CCCL | CLXXX | 25 | 30 | DCCLIII | CMX | 0.997 | (VI) |
| Cw6h2v221mnzs05s2 | -40 ~ CV | CCCL | CCXX | 22 | 40 | DCCCXXXIII | ML | 0.815 | (VI) |
| Cw6h2v221mnnys03s2 | -40 ~ CV | CCCL | CCXX | 25 | 30 | DCCCXXXIII | MXXX | 0.815 | (VI) |
| Cw6h2v221mnnxs02s2 | -40 ~ CV | CCCL | CCXX | 30 | 25 | DCCCXXXIII | MXXX | 0.815 | (VI) |
| Cw6h2v271mnzs06s2 | -40 ~ CV | CCCL | CCLXX | 22 | 45 | CMXXII | MCXC | 0.664 | (VI) |
| Cw6h2v271mnnys04s2 | -40 ~ CV | CCCL | CCLXX | 25 | 35 | CMXXII | MCXC | 0.664 | (VI) |
| Cw6h2v271mnnxs03s2 | -40 ~ CV | CCCL | CCLXX | 30 | 30 | CMXXII | 1184,3 | 0.664 | (VI) |
| Cw6h2v271mnas02s2 | -40 ~ CV | CCCL | CCLXX | 35 | 25 | CMXXII | MCLX | 0.664 | (VI) |
| Cw6h2v331mnzs07s2 | -40 ~ CV | CCCL | CCCXXX | 22 | 50 | MXX | MCCCXX | 0.543 | (VI) |
| Cw6h2v331mnys05s2 | -40 ~ CV | CCCL | CCCXXX | 25 | 40 | MXX | 1311,4 | 0.543 | (VI) |
| Cw6h2v331mnnxs04s2 | -40 ~ CV | CCCL | CCCXXX | 30 | 35 | MXX | MCCXC | 0.543 | (VI) |
| Cw6h2v391mnys06s2 | -40 ~ CV | CCCL | CCCXC | 25 | 45 | MCVIII | MCDLXX | 0.459 | (VI) |
| Cw6h2v391mnnxs05s2 | -40 ~ CV | CCCL | CCCXC | 30 | 40 | MCVIII | MCDLXX | 0.459 | (VI) |
| Cw6h2v391mnas03s2 | -40 ~ CV | CCCL | CCCXC | 35 | 30 | MCVIII | MCDL | 0.459 | (VI) |
| Cw6h2v471mnys08s2 | -40 ~ CV | CCCL | CDLXX | 25 | 55 | MCCXVII | MDCCCXC | 0,38 | (VI) |
| Cw6h2v471mnnxs06s2 | -40 ~ CV | CCCL | CDLXX | 30 | 45 | MCCXVII | MDCCCXC | 0,38 | (VI) |
| Cw6h2v471mnas04s2 | -40 ~ CV | CCCL | CDLXX | 35 | 35 | MCCXVII | MDCCCLXX | 0,38 | (VI) |
| Cw6h2v561mnnxs07s2 | -40 ~ CV | CCCL | DLX | 30 | 50 | MCCCXXVIII | MCMXXX | 0,32 | (VI) |
| Cw6h2v561mnas05s2 | -40 ~ CV | CCCL | DLX | 35 | 40 | MCCCXXVIII | MCMXL | 0,32 | (VI) |
| Cw6h2v681mnas06s2 | -40 ~ CV | CCCL | DCLXXX | 35 | 45 | MCDLXIV | MMCCC | 0.263 | (VI) |
| Cw6h2v821mnas07s2 | -40 ~ CV | CCCL | DCCCXX | 35 | 50 | MDCVII | MMD | 0.218 | (VI) |
| Cw6h2v102mnas08s2 | -40 ~ CV | CCCL | M | 35 | 55 | MDCCLXXV | MMDCLXX | 0.179 | (VI) |
| Cw6h2g121mnzs03s2 | -40 ~ CV | CD | CXX | 22 | 30 | DCLVII | DCLX | 1.634 | (VI) |
| Cw6h2g151mnzs04s2 | -40 ~ CV | CD | CL | 22 | 35 | DCCXXXV | DCCXC | 0.972 | (VI) |
| Cw6h2g151mnys03s2 | -40 ~ CV | CD | CL | 25 | 30 | DCCXXXV | DCCLXX | 0.972 | (VI) |
| Cw6h2g181mnzs05s2 | -40 ~ CV | CD | CLXXX | 22 | 40 | DCCCV | CMX | 0,81 | (VI) |
| Cw6h2g181mnys03s2 | -40 ~ CV | CD | CLXXX | 25 | 30 | DCCCV | CMXX | 0,81 | (VI) |
| Cw6h2g181mnxs02s2 | -40 ~ CV | CD | CLXXX | 30 | 25 | DCCCV | CMXX | 0,81 | (VI) |
| Cw6h2g221mnzs06s2 | -40 ~ CV | CD | CCXX | 22 | 45 | DCCCXC | ML | 0.663 | (VI) |
| Cw6h2g221mnnys04s2 | -40 ~ CV | CD | CCXX | 25 | 35 | DCCCXC | MX | 0.663 | (VI) |
| Cw6h2g221mnas02s2 | -40 ~ CV | CD | CCXX | 35 | 25 | DCCCXC | MLX | 0.663 | (VI) |
| Cw6h2g271mnzs07s2 | -40 ~ CV | CD | CCLXX | 22 | 50 | CMLXXXVI | MCC | 0,54 | (VI) |
| Cw6h2g271mnnys06s2 | -40 ~ CV | CD | CCLXX | 25 | 45 | CMLXXXVI | MCCXXX | 0,54 | (VI) |
| Cw6h2g271mnnxs03s2 | -40 ~ CV | CD | CCLXX | 30 | 30 | CMLXXXVI | MCLX | 0,54 | (VI) |
| Cw6h2g331mnnys07s2 | -40 ~ CV | CD | CCCXXX | 25 | 50 | MXC | MCDX | 0.441 | (VI) |
| Cw6h2g331mnnxs04s2 | -40 ~ CV | CD | CCCXXX | 30 | 35 | MXC | MCCCLXX | 0.441 | (VI) |
| Cw6h2g331mnas03s2 | -40 ~ CV | CD | CCCXXX | 35 | 30 | MXC | MCDXXX | 0.441 | (VI) |
| Cw6h2g391mnxs05s2 | -40 ~ CV | CD | CCCXC | 30 | 40 | MCLXXXV | MDXXX | 0.365 | (VI) |
| Cw6h2g391mnas04s2 | -40 ~ CV | CD | CCCXC | 35 | 35 | MCLXXXV | MDXL | 0.365 | (VI) |
| Cw6h2g471mnnxs06s2 | -40 ~ CV | CD | CDLXX | 30 | 45 | MCCCI | MDCCL | 0.302 | (VI) |
| Cw6h2g471mnas05s2 | -40 ~ CV | CD | CDLXX | 35 | 40 | MCCCI | MDCCCX | 0.302 | (VI) |
| Cw6h2g561mnas06s2 | -40 ~ CV | CD | DLX | 35 | 45 | MCDXX | MML | 0,253 | (VI) |
| Cw6h2g681mnas07s2 | -40 ~ CV | CD | DCLXXX | 35 | 50 | MDLXV | MMCCCXL | 0.209 | (VI) |
| Cw6h2g821mnas08s2 | -40 ~ CV | CD | DCCCXX | 35 | 55 | MDCCXVIII | MMDC | 0.173 | (VI) |
| Cw6h2g102mnas10s2 | -40 ~ CV | CD | M | 35 | 65 | MDCCCXCVII | MMCMLXX | 0.141 | (VI) |
| Cw6h2w121mnzs04s2 | -40 ~ CV | CDL | CXX | 22 | 35 | DCXCVII | DCLX | 1.38 | (VI) |
| Cw6h2w151mnzs05s2 | -40 ~ CV | CDL | CL | 22 | 40 | DCCLXXIX | DCCLXX | 1.104 | (VI) |
| Cw6h2w151mnnys03s2 | -40 ~ CV | CDL | CL | 25 | 30 | DCCLXXIX | DCCLX | 1.104 | (VI) |
| Cw6h2w151mnnxs02s2 | -40 ~ CV | CDL | CL | 30 | 25 | DCCLXXIX | DCCLX | 1.104 | (VI) |
| Cw6h2w181mnzs06s2 | -40 ~ CV | CDL | CLXXX | 22 | 45 | DCCCLIV | DCCCXC | 0,92 | (VI) |
| Cw6h2w181mnys04s2 | -40 ~ CV | CDL | CLXXX | 25 | 35 | DCCCLIV | DCCCXC | 0,92 | (VI) |
| Cw6h2w181mnnxs03s2 | -40 ~ CV | CDL | CLXXX | 30 | 30 | DCCCLIV | DCCCLX | 0,92 | (VI) |
| Cw6h2w181mnas02s2 | -40 ~ CV | CDL | CLXXX | 35 | 25 | DCCCLIV | DCCCL | 0,92 | (VI) |
| Cw6h2w221mnnys05s2 | -40 ~ CV | CDL | CCXX | 25 | 40 | CMXLIV | CMLXXX | 0.752 | (VI) |
| Cw6h2w221mnnxs04s2 | -40 ~ CV | CDL | CCXX | 30 | 35 | CMXLIV | MXXX | 0.752 | (VI) |
| Cw6h2w221mnas03s2 | -40 ~ CV | CDL | CCXX | 35 | 30 | CMXLIV | MLXX | 0.752 | (VI) |
| Cw6h2w271mnnys06s2 | -40 ~ CV | CDL | CCLXX | 25 | 45 | MXLVI | MCXL | 0.612 | (VI) |
| Cw6h2w271mnnxs05s2 | -40 ~ CV | CDL | CCLXX | 30 | 40 | MXLVI | MCLXXX | 0.612 | (VI) |
| Cw6h2w271mnas04s2 | -40 ~ CV | CDL | CCLXX | 35 | 35 | MXLVI | MCCXXX | 0.612 | (VI) |
| Cw6h2w331mnnxs06s2 | -40 ~ CV | CDL | CCCXXX | 30 | 45 | MCLVI | MCCCXC | 0,501 | (VI) |
| Cw6h2w391mnnxs07s2 | -40 ~ CV | CDL | CCCXC | 30 | 50 | MCCLVII | MDLXX | 0,501 | (VI) |
| Cw6h2w391mnas05s2 | -40 ~ CV | CDL | CCCXC | 35 | 40 | MCCLVII | MDLX | 0,501 | (VI) |
| Cw6h2w471mnas05s2 | -40 ~ CV | CDL | CDLXX | 35 | 40 | MCCCLXXX | MDCC | 0.415 | (VI) |
| Cw6h2w561mnas07s2 | -40 ~ CV | CDL | DLX | 35 | 50 | MDVI | MMXX | 0.348 | (VI) |
| Cw6h2w681mnas08s2 | -40 ~ CV | CDL | DCLXXX | 35 | 55 | MDCLX | MMCCLXXX | 0.286 | (VI) |
| Cw6h2w821mnas09s2 | -40 ~ CV | CDL | DCCCXX | 35 | 60 | MDCCCXXII | MMDLXX | 0.237 | (VI) |
| Cw6h2w102mnag01s2 | -40 ~ CV | CDL | M | 35 | 70 | MMXIII | MMCMX | 0.195 | (VI) |
| Cw6h2h121mnys05s2 | -40 ~ CV | D | CXX | 25 | 40 | DCCXXXV | DCL | 1.543 | (VI) |
| Cw6h2h151mnys07s2 | -40 ~ CV | D | CL | 25 | 50 | DCCCXXII | DCCXC | 1.235 | (VI) |
| Cw6h2h151mnnxs04s2 | -40 ~ CV | D | CL | 30 | 35 | DCCCXXII | DCCLX | 1.235 | (VI) |
| Cw6h2h151mnas03s2 | -40 ~ CV | D | CL | 35 | 30 | DCCCXXII | DCCLXXX | 1.235 | (VI) |
| Cw6h2h181mnxs04s2 | -40 ~ CV | D | CLXXX | 30 | 35 | CM | DCCCXX | 1.029 | (VI) |
| Cw6h2h181mnas03s2 | -40 ~ CV | D | CLXXX | 35 | 30 | CM | DCCCL | 1.029 | (VI) |
| Cw6h2h221mnnxs05s2 | -40 ~ CV | D | CCXX | 30 | 40 | CMXCV | CMLX | 0.841 | (VI) |
| Cw6h2h221mnas04s2 | -40 ~ CV | D | CCXX | 35 | 35 | CMXCV | CMXC | 0.841 | (VI) |
| Cw6h2h271mnnxs07s2 | -40 ~ CV | D | CCLXX | 30 | 50 | MCII | MCLX | 0.685 | (VI) |
| Cw6h2h271mnas05s2 | -40 ~ CV | D | CCLXX | 35 | 40 | MCII | MCL | 0.685 | (VI) |
| Cw6h2h331mnnxs08s2 | -40 ~ CV | D | CCCXXX | 30 | 55 | MCCXIX | MCCCXXX | 0,56 | (VI) |
| Cw6h2h391mnxs10s2 | -40 ~ CV | D | CCCXC | 30 | 65 | MCCCXXV | MDL | 0.473 | (VI) |
| Cw6h2h391mnas07s2 | -40 ~ CV | D | CCCXC | 35 | 50 | MCCCXXV | MDX | 0.473 | (VI) |
| Cw6h2h471mnas08s2 | -40 ~ CV | D | CDLXX | 35 | 55 | MCDLIV | MDCCXX | 0.392 | (VI) |
| Cw6h2h561mnas10s2 | -40 ~ CV | D | DLX | 35 | 65 | MDLXXXVIII | MM | 0.328 | (VI) |
| Cw6h2h681mnag02s2 | -40 ~ CV | D | DCLXXX | 35 | 75 | MDCCXLIX | MMCCCXXX | 0,27 | (VI) |
| Cw6h2h821mnag05s2 | -40 ~ CV | D | DCCCXX | 35 | 90 | MCMXXI | MMDCCXL | 0.223 | (VI) |
| Cw6h2l121mnxs03s2 | -40 ~ CV | DL | CXX | 30 | 30 | DCCLXXI | CML | 1.776 | (VI) |
| Cw6h2l151mnxs04s2 | -40 ~ CV | DL | CL | 30 | 35 | DCCCLXII | MXC | 1.42 | (VI) |
| Cw6h2l181mnxs05s2 | -40 ~ CV | DL | CLXXX | 30 | 40 | CMXLIV | MCCXX | 1.183 | (VI) |
| Cw6h2l181mnas03s2 | -40 ~ CV | DL | CLXXX | 35 | 30 | CMXLIV | MCL | 1.183 | (VI) |
| Cw6h2l221mnnxs07s2 | -40 ~ CV | DL | CCXX | 30 | 50 | MXLIV | MCDX | 0.967 | (VI) |
| Cw6h2l221mnas05s2 | -40 ~ CV | DL | CCXX | 35 | 40 | MXLIV | MCCCXL | 0.967 | (VI) |
| Cw6h2l271mnas06s2 | -40 ~ CV | DL | CCLXX | 35 | 45 | MCLVI | MDXX | 0,787 | (VI) |
| Cw6h2l331mnas07s2 | -40 ~ CV | DL | CCCXXX | 35 | 50 | MCCLXXVIII | MDCCXX | 0.643 | (VI) |
| Cw6h2l391mnas09s2 | -40 ~ CV | DL | CCCXC | 35 | 60 | MCCCLXXXIX | MCMXL | 0.545 | (VI) |
| Cw6h2l471mnas10s2 | -40 ~ CV | DL | CDLXX | 35 | 65 | CLXXV | MMCCCXXX | 0.452 | (VI) |
| Cw6h2m121mnnxs05s2 | -40 ~ CV | DC | CXX | 30 | 40 | DCCCV | M | 2.673 | (VI) |
| Cw6h2m121mnas03s2 | -40 ~ CV | DC | CXX | 35 | 30 | DCCCV | CMXC | 2.673 | (VI) |
| Cw6h2m151mnxs06s2 | -40 ~ CV | DC | CL | 30 | 45 | CM | MCL | 2.137 | (VI) |
| Cw6h2m151mnas04s2 | -40 ~ CV | DC | CL | 35 | 35 | CM | MCXX | 2.137 | (VI) |
| Cw6h2m181mnxs07s2 | -40 ~ CV | DC | CLXXX | 30 | 50 | CMLXXXVI | MCCLXXX | 1.78 | (VI) |
| Cw6h2m181mnas05s2 | -40 ~ CV | DC | CLXXX | 35 | 40 | CMLXXXVI | MCCLXXX | 1.78 | (VI) |
| Cw6h2m221mnnxs09s2 | -40 ~ CV | DC | CCXX | 30 | 60 | MXC | MCDLXX | 1.456 | (VI) |
| Cw6h2m221mnas06s2 | -40 ~ CV | DC | CCXX | 35 | 45 | MXC | MCDXL | 1.456 | (VI) |
| Cw6h2m271mnas07s2 | -40 ~ CV | DC | CCLXX | 35 | 50 | MCCVIII | MDCXXX | 1.187 | (VI) |
| Cw6h2m331mnas09s2 | -40 ~ CV | DC | CCCXXX | 35 | 60 | MCCCXXXV | MDCCCLXX | 0.971 | (VI) |
