Kapasitor Film Filter AC Tiga Fase kanthi Wadah Silinder Aluminium kanggo Peralatan Listrik
APLIKASI
Digunakake sacara wiyar ing peralatan elektronik daya sing digunakake kanggo filter ACIng UPS daya dhuwur, catu daya switching, inverter lan peralatan liyane kanggo filter AC,harmonik lan ningkatake kontrol faktor daya.
TEKNIS DATA
| Rentang suhu operasi | Suhu operasi maksimal: +85℃Suhu kategori ndhuwur: +70℃Suhu kategori ngisor: -40℃ |
| Rentang kapasitansi | 3*17~3*200μF |
| Tegangan sing dirating | 400V.AC~850V.AC |
| Toleransi kapasitansi | ±5% (J); ±10% (K) |
| Tes voltase antarane terminal | 1.25UN(AC) / 10S utawa 1.75UN(DC) / 10S |
| Terminal voltase uji menyang casing | 3000V.AC / 2S,50/60Hz |
| Tegangan sing luwih dhuwur | 1.1Urms(30% saka beban sing lagi digunakake) |
| 1.15Urms(30 menit/dina) | |
| 1.2Urms(5 menit / dina) | |
| 1.3Urms(1 menit / dina) | |
| Faktor disipasi | Tgδ ≤ 0.002 f = 100Hz |
| Induktansi dhewe | <70 nH saben mm jarak timbal |
| Resistensi insulasi | RS×C ≥ 10000S (ing 20℃ 100V.DC) |
| Tahan arus serang | Deleng lembar spesifikasi |
| Irms | Deleng lembar spesifikasi |
| Pangarep-arep umur | Umur sing migunani: >100000 jam ing UNDClan 70℃COCOK: <10×10-9/jam(10 saben 109komponen h) ing 0,5×UNDC,40℃ |
| Dielektrik | Polipropilena sing dimetalisis |
| Konstruksi | Isi nganggo gas inert/lenga silikon, Non-induktif, tekanan berlebih |
| Kasus | Casing aluminium |
| Keterlambatan geni | UL94V-0 |
| Standar referensi | IEC61071,UL810 |
PERSETUJUAN KESELAMATAN
|
E496566 | UL | UL810, Watesan Tegangan: Maks. 4000VDC, 85℃Nomer Sertifikat: E496566 |
TPETA KONTUR
TABEL SPESIFIKASI
| CN (μF) | ΦD (mm) | H (mm) | Imax (A) | Ip (A) | Is (A) | ESR (Evaluasi Energi) (mΩ) | Katulik (K/W) |
| Urms=400V.AC | |||||||
| 3*17 | 65 | 150 | 20 | 450 | 1350 | 3*1.25 | 6.89 |
| 3*30 | 65 | 175 | 25 | 890 | 2670 | 3*1.39 | 6.25 |
| 3*50 | 76 | 205 | 33 | 1167 | 3501 | 3*1.35 | 4.85 |
| 3*66 | 76 | 240 | 40 | 1336 | 4007 | 3*1.45 | 3.79 |
| 3*166.7 | 116 | 240 | 54 | 1458 | 4374 | 3*0.69 | 3.1 |
| 3*200 | 136 | 240 | 58 | 2657 | 7971 | 3*0.45 | 2.86 |
| Urms=450V.AC | |||||||
| 3*50 | 86 | 205 | 30 | 802 | 2406 | 3*1.35 | 4.36 |
| 3*80 | 86 | 285 | 46 | 1467 | 4401 | 3*1.89 | 3.69 |
| 3*100 | 116 | 210 | 56 | 2040 | 6120 | 3*1.5 | 3.8 |
| 3*135 | 116 | 240 | 58 | 2680 | 8040 | 3*1.6 | 3.1 |
| 3*150 | 136 | 205 | 67 | 3060 | 9180 | 3*2.5 | 3.2 |
| 3*200 | 136 | 240 | 60 | 3730 | 11190 | 3*2 | 3.46 |
| Urms=530V.AC | |||||||
| 3*50 | 86 | 240 | 32 | 916 | 2740 | 3*1.75 | 3.64 |
| 3*66 | 96 | 240 | 44 | 1547 | 4641 | 3*1.36 | 3.32 |
| 3*77 | 106 | 240 | 48 | 1685 | 5055 | 3*1.16 | 3.21 |
| 3*100 | 116 | 240 | 65 | taun 2000 | 6000 | 3*1.87 | 4.2 |
| Urms=690V.AC | |||||||
| 3*25 | 86 | 240 | 29 | 697 | 2091 | 3*2.22 | 3.54 |
| 3*33.4 | 96 | 240 | 36 | 837 | 2511 | 3*1.81 | 3.21 |
| 3*55.7 | 116 | 240 | 44 | 1395 | 4185 | 3*1.24 | 3.04 |
| 3*75 | 136 | 240 | 53 | 2100 | 6300 | 3*1.31 | 2.87 |
| Urms=850V.AC | |||||||
| 3*25 | 96 | 240 | 30 | 679 | 2037 | 3*1.95 | 3.25 |
| 3*31 | 106 | 240 | 36 | 906 | 2718 | 3*1.57 | 2.98 |
| 3*55.7 | 136 | 240 | 49 | 1721 | 5163 | 3*0.9 | 2.56 |
| Urms=1200V.AC | |||||||
| 3*12 | 116 | 245 | 56 | 1300 | 3900 | 3*3.5 | 3.6 |
| 3*20 | 136 | 245 | 56 | 3300 | 9900 | 3*4 | 2.29 |
Peningkatan suhu komponen maksimal (ΔT), asil saka komponen kasebut'kekuwatandisipasi lan konduktivitas panas.
Peningkatan suhu komponen maksimum ΔT yaiku bedane antarane suhu sing diukur ing omah kapasitor lan suhu sekitar (cedhak karo kapasitor) nalika kapasitor digunakake sajrone operasi normal.
Sajrone operasi ΔT ora kena ngluwihi 15°C ing suhu sing dirating. ΔT cocog karo kenaikan komponen kasebutsuhu sing disebabake dening Irms. Supaya ora ngluwihi ΔT 15°C ing suhu sing dirating, Irms kudumudhun kanthi kenaikan suhu sekitar.
△T = P/G
△T = TC-Tamb
P = Irm2x ESR = disipasi daya (mW)
G = konduktivitas panas (mW/°C)
