Quvvat uskunalari uchun alyuminiy silindrsimon korpusli bir fazali AC filtrli plyonkali kondansatör
ILOVALAR
AC filtri uchun ishlatiladigan quvvat elektron uskunalarida keng qo'llaniladi
Yuqori quvvatli UPSda, kommutatsiya quvvat manbai, inverter va AC filtri uchun boshqa uskunalar,
harmonika va quvvat faktorini boshqarishni yaxshilash
TEXNIK DATA
| Ishlash harorati oralig'i | Maks.Ishlash harorati.,Yuqori,maks: +85℃Yuqori toifadagi harorat: +70℃Pastki toifadagi harorat: -40℃ |
| Imkoniyatlar diapazoni | 20~200mkF |
| Nominal kuchlanish | 200V.AC~1000V.AC |
| Imkoniyatlarga tolerantlik | ±5% (J);±10% ( K ) |
| TestKuchlanishiterminallar o'rtasida | 1,5Urms / 10S |
| TestKuchlanishiterminaldan korpusga | 3000V.AC/ 2S,50/60Hz |
| Haddan tashqari kuchlanish | 1.1Urms(30% yoqilgan-yuk-dur.) |
| 1,15Urms(kuniga 30 daqiqa) | |
| 1.2Urms(kuniga 5 daqiqa) | |
| 1,3Urms(kuniga 1 daqiqa) | |
| Dissipatsiya omili | Tgd ≤0,002 f = 100Hz |
| O'z-o'zidan indüktans | <Qo'rg'oshin oralig'i mm uchun 70 nH |
| Izolyatsiyaga qarshilik | RS×C ≥10000S (20 da℃100V.DC) |
| Zarba oqimiga bardosh bering | Spetsifikatsiya varag'iga qarang |
| Irms | Spetsifikatsiya varag'iga qarang |
| O'rtacha umr ko'rish davomiyligi | Foydali ishlash muddati: >100000 soat UNDC va 70℃FIT: <10×10-9/soat (10 ga 109 komponent h) 0,5 da×UNDC,40℃ |
| Delektr | Metalllashtirilgan polipropilen |
| Qurilish | Inert gaz/silikon moy bilan to'ldirish, induktiv bo'lmagan, ortiqcha bosim |
| Case | Alyuminiy quti |
| Olovni kechiktirish | UL94V-0 |
| Malumot standarti | IEC61071, GB17702, UL810 |
XAVFSIZLIK TASDIQLARI
| E496566 | UL | UL810, kuchlanish chegaralari: Maks.4000VDC,85℃Sertifikat raqami: E496566 |
KONTUUR XARITA
XUSUSIYATLAR JADVALI
| CN (μF) | ΦD (mm) | H (mm) | Imaks (A) | Ip (A) | Is (A) | ESR (mΩ) | Rth(K/V) | P(mm) |
| Urms = 300V.AC,UN=420V.AC | ||||||||
| 150 | 76 | 175 | 29 | 1270 | 3810 | 2.83 | 5.21 | 35 |
| 200 | 76 | 235 | 28 | 1300 | 3900 | 2.2 | 6.63 | 35 |
| Urms =330V.AC,UN=460V.AC | ||||||||
| 80 | 76 | 105 | 20 | 890 | 2670 | 2.45 | 7.38 | 35 |
| 100 | 76 | 105 | 26 | 980 | 2940 | 2.68 | 6.52 | 35 |
| 200 | 86 | 175 | 33 | 1750 | 5250 | 1.5 | 5 | 35 |
| Urms =400V.AC,UN=560V.AC | ||||||||
| 50 | 76 | 110 | 29 | 785 | 2355 | 3.5 | 9.53 | 35 |
| 100 | 86 | 150 | 41 | 2648 | 7944 | 2.82 | 6.26 | 35 |
| 200 | 86 | 240 | 49 | 3467 | 10401 | 2.53 | 4.89 | 35 |
| 350 | 116 | 210 | 68 | 3200 | 9600 | 1 | 4.2 | 35 |
| Urms =480V.AC,UN=680V.AC | ||||||||
| 70 | 76 | 145 | 50 | 4000 | 12000 | 2 | 6.23 | 35 |
| 100 | 96 | 125 | 80 | 3500 | 10500 | 2 | 3.9 | 35 |
| 160 | 86 | 200 | 36 | 3000 | 9000 | 1.5 | 4.8 | 35 |
| 250 | 96 | 240 | 55 | 2700 | 8100 | 1.21 | 4.25 | 35 |
| 300 | 86 | 285 | 78 | 2500 | 7500 | 1.2 | 3.85 | 35 |
| Urms =500V.AC,UN=700V.AC | ||||||||
| 33 | 76 | 115 | 29 | 752 | 2256 | 3.86 | 9.05 | 35 |
| 60 | 76 | 150 | 33 | 953 | 2859 | 3.72 | 7.23 | 35 |
| 100 | 76 | 200 | 37 | 1047 | 3141 | 3.05 | 6.78 | 35 |
| 133 | 86 | 200 | 40 | 1392 | 4176 | 2.87 | 6.41 | 35 |
| 200 | 96 | 220 | 45 | 3800 | 11400 | 1.25 | 3.89 | 35 |
| 250 | 96 | 240 | 50 | 4000 | 12000 | 1.15 | 3.56 | 35 |
| Urms =550V.AC,UN=780V.AC | ||||||||
| 22 | 63.5 | 90 | 24 | 500 | 1500 | 4.01 | 12.4 | 35 |
| 50 | 63.5 | 140 | 34 | 980 | 2940 | 3.58 | 7.1 | 35 |
| 100 | 76 | 200 | 50 | 3500 | 10500 | 1.6 | 6.84 | 35 |
| 133 | 86 | 200 | 55 | 4000 | 12000 | 1.5 | 6.84 | 35 |
| Urms =600V.AC,UN=850V.AC | ||||||||
| 150 | 96 | 240 | 52 | 3000 | 9000 | 2.1 | 3.87 | 35 |
| 200 | 116 | 240 | 55 | 3200 | 9600 | 1.89 | 3.12 | 35 |
| Urms =640V.AC,UN=900V.AC | ||||||||
| 15 | 63.5 | 90 | 22 | 350 | 1050 | 5.7 | 10.74 | 35 |
| 2 | 76 | 130 | 29 | 680 | 2040 | 4.28 | 7.93 | 35 |
| 33 | 76 | 130 | 33 | 800 | 2400 | 3.56 | 7.39 | 35 |
| 68 | 86 | 240 | 45 | 1496 | 4488 | 2.56 | 5.61 | 35 |
| Urms =850V.AC,UN=1200V.AC | ||||||||
| 50 | 96 | 240 | 62 | 2700 | 8100 | 1 | 4.05 | 35 |
| Urms =1000V.AC,UN=1400V.AC | ||||||||
| 30 | 86 | 175 | 38 | 650 | 1950 | 3.68 | 5.44 | 35 |
| Urms =1400V.AC,UN=1900V.AC | ||||||||
| 15 | 116 | 150 | 35 | 740 | 2220 | 2.5 | 5.21 | 35 |
n Komponent haroratining maksimal oshishi (ΔT), komponentdan kelib chiqadi's kuchi
tarqalish va issiqlik o'tkazuvchanligi.
Komponentning maksimal harorati o'sishi DT - bu kondansatörning normal ishlashi paytida kondansatörning korpusida o'lchangan harorat va atrof-muhit harorati (kondensatorga yaqin) o'rtasidagi farq.
Ishlash vaqtida nominal haroratda DT 15°C dan oshmasligi kerak.DT komponentning ko'tarilishiga mos keladi
Irms sabab bo'lgan harorat.Nominal haroratda DT 15 ° C dan oshmasligi uchun Irms bo'lishi kerak
atrof-muhit haroratining oshishi bilan kamayadi.
△T = P/G
△T = TC - Tamb
P = Irms2x ESR = quvvat sarfi (mVt)
G = issiqlik o'tkazuvchanligi (mVt/°C)
