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Capacitor film polypropylene adhartach metallized ann an tagraidhean cumhachd bholtachd àrd

Capacitor film polypropylene adhartach metallized ann an tagraidhean cumhachd bholtachd àrd Ìomhaigh sònraichte
  • Capacitor film polypropylene adhartach metallized ann an tagraidhean cumhachd bholtachd àrd
  • Capacitor film polypropylene adhartach metallized ann an tagraidhean cumhachd bholtachd àrd
  • Capacitor film polypropylene adhartach metallized ann an tagraidhean cumhachd bholtachd àrd

Tuairisgeul goirid:

Bidh luchd-gleidhidh film cumhachd polypropylene CRE gu tric air am fastadh ann an tagraidhean cumhachd bholtachd àrd air sgàth an neart dielectric àrd, tomad tomhas-lìonaidh ìosal, agus seasmhach dielectric gu math ìosal (tanδ).Bidh na capacitors againn cuideachd a’ faighinn call ìosal agus, a rèir iarrtasan tagraidh, faodar an dèanamh le uachdar rèidh no ceòthach.


Luchdaich sìos mar PDF

Mion-fhiosrachadh toraidh

Bathar Tags

Sreath DMJ-MC

Tha CRE na stiùiriche ann a bhith a’ leasachadh innleachdan capacitor film airson tagraidhean dealanach cumhachd.Bidh sinn a’ cleachdadh theicneòlasan pròiseas as fheàrr leis an fhuasgladh agus an teicneòlas gun samhail againn gus pasgan de luchd-coimhid eadar-dhealaichte a chruthachadh.

Tha comas aig capacitors film CRE air fuasglaidhean dealbhaidh earbsach a lìbhrigeadh airson raointean sònraichte gnìomhachais, coinneachadh ri grunn pharaimearan sònraichte a thaobh film meatailteach / stuthan film sgaraichte, giollachd proifeasanta agus dealbhadh.

Bidh na loidhnichean toraidh fèin-ghluasadach a’ dèanamh cinnteach gu bheil an lìbhrigeadh as luaithe.

4

Iarrtas

Tha innealan film cumhachd adhartach nan teicneòlas comasachaidh deatamach a tha gu gnìomhach a’ toirt taic do mean-fhàs leantainneach de lùth ath-nuadhachail àrd-bholtachd agus teicneòlasan clèithe snasail.Tha an comas air àrd-èifeachdas, beatha fhada, earbsachd sàr-mhath, buaidhean teodhachd cuibhrichte, an dùmhlachd cumhachd as àirde de theicneòlasan coimeasach, agus coileanadh bog deireadh-beatha - agus ged a dh’ fheumas iad glè bheag de chumail suas - gan dèanamh nam fuasgladh air leth freagarrach airson cothromachadh. na toraidhean cumhachd neo-sheasmhach bho stòran lùth ath-nuadhachail, a dh’ fhaodadh èifeachdas iomlan siostaman cumhachd a leasachadh gu mòr agus, às deidh sin, cuideachadh le bhith a’ luathachadh an dà chuid gabhail ris a’ mhargaidh agus a’ bhuaidh mu dheireadh air stòrasan lùtha eile leithid cumhachd grèine is gaoithe thairis air connadh fosail.

Mar as trice lorgar iad fèin-ghluasad gnìomhachais, solar cumhachd, electronics cumhachd, còmhdhail rèile, carbad lùtha ùr, luchd-tionndaidh cumhachd gaoithe agus inverters grèine mar cheangal DC (bufairean) agus / no sìoltachan.

Clàr sònrachaidh

Bholtaids 450V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam (Kg)
380 76 75 50 10 3.8 11.4 45 2.2 4.5 32 0.5
500 76 100 40 8 4.0 12.0 65 1.5 3.2 32 0.6
750 76 130 50 5 3.8 11.3 65 1.6 3.0 32 0.75
500 86 75 50 8 4.0 12.0 55 1.8 3.7 32 0.8
1000 86 130 50 5 5.0 15.0 70 1.5 2.7 32 1.1
650 86 100 40 5 3.3 9.8 75 1.2 3.0 32 0.9
650 86 95 40 5 3.3 9.8 75 1.2 3.0 32 0.85
650 96 75 50 5 3.3 9.8 60 1.5 3.7 45 0.75
1250 96 130 50 4 5.0 15.0 80 1 3.1 45 1.2
1800 116 130 50 4 7.2 21.6 85 0.8 3.5 50 1.6
1450 86 190 60 4 5.8 17.4 90 0.9 2.7 32 1.55
2700 116 190 60 3 8.1 24.3 100 0.8 2.5 50 2.45
Bholtaids 600V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam (Kg)
250 76 75 40 15 3.8 11.3 40 3.1 4.0 32 0.5
320 76 100 40 10 3.2 9.6 40 2.2 5.7 32 0.6
470 76 130 45 12 5.6 16.9 60 1.8 3.1 32 0.75
330 86 75 40 15 5.0 14.9 45 2.4 4.1 32 0.8
600 86 120 45 12 7.2 21.6 60 1.3 4.3 32 1.05
650 86 130 50 12 7.8 23.4 70 1.2 3.4 32 1.1
650 86 95 50 15 9.8 29.3 65 1.2 3.9 32 0.85
1000 86 180 50 12 12.0 36.0 70 1.5 2.7 32 1.5
420 96 75 45 15 6.3 18.9 50 2 4.0 45 0.75
800 96 130 60 12 9.6 28.8 75 1.5 2.4 45 1.2
950 116 100 60 10 9.5 28.5 90 1.2 2.1 50 1.25
1200 116 130 70 8 9.6 28.8 80 1.2 2.6 50 1.6
1800 116 180 50 8 14.4 43.2 80 1.2 2.6 50 2.4
2700 116 260 70 5 13.5 40.5 100 0.9 2.2 50 3.2
2500 136 180 60 5 12.5 37.5 100 0.8 2.5 50 3.7
3750 136 260 70 4 15.0 45.0 115 0.7 2.2 50 4.7
Bholtaids 700V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
200 76 75 40 15 3.0 9.0 40 4 3.1 32 0.5
400 76 130 45 15 6.0 18.0 60 2 2.8 32 0.75
420 76 130 50 15 6.3 18.9 60 2 2.8 32 0.75
600 86 125 60 15 9.0 27.0 45 3.2 3.1 32 1.05
550 86 130 50 12 6.6 19.8 65 1.8 2.6 32 1.1
680 96 130 45 12 8.2 24.5 75 1.5 2.4 45 1.2
720 96 125 60 12 8.6 25.9 55 2.6 2.5 45 1.15
1000 116 130 50 10 10.0 30.0 80 1 3.1 50 1.6
1000 96 180 60 10 10.0 30.0 75 1.2 3.0 45 1.6
1500 116 180 60 7 10.5 31.5 85 0.9 3.1 50 2.4
2000 116 230 70 7 14.0 42.0 85 0.8 3.5 50 3
2000 136 180 60 7 14.0 42.0 90 0.75 3.3 50 3.7
3000 136 230 70 5 15.0 45.0 100 0.7 2.9 50 4.2
3300 136 260 70 5 16.5 49.5 120 0.6 2.3 50 4.7
Bholtaids 800V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam (Kg)
110 86 80 45 20 2.2 6.6 75 2 1.8 32 0.8
150 86 95 45 20 3.0 9.0 80 1.5 2.1 32 0.85
250 86 75 45 15 3.8 11.3 45 3.1 3.2 32 0.8
360 86 130 55 12 4.3 13.0 65 2.2 2.2 32 1.1
470 86 130 45 12 5.6 16.9 70 2.8 1.5 32 1.1
600 96 130 55 10 6.0 18.0 75 2.2 1.6 45 1.2
730 86 180 55 10 7.3 21.9 70 1.8 2.3 32 1.5
750 86 180 55 12 9.0 27.0 75 1.8 2.0 32 1.5
1000 96 180 60 10 10.0 30.0 75 1.3 2.7 45 1.6
900 116 130 65 7 6.3 18.9 80 1.4 2.2 50 1.6
1400 116 180 65 7 9.8 29.4 80 0.9 3.5 50 2.4
1000 116 125 60 7 7.0 21.0 70 1.4 2.9 50 1.55
2000 116 230 65 5 10.0 30.0 85 0.9 3.1 50 3
2800 136 230 70 5 14.0 42.0 100 0.8 2.5 50 4.2
Bholtaids 900V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam (Kg)
160 76 75 40 15 3.0 9.0 35 3 5.4 32 0.5
320 76 130 50 15 5.0 14.9 60 3.2 1.7 32 0.75
350 76 125 50 15 5.0 15.0 40 2.8 4.5 32 0.75
210 86 75 40 15 3.2 9.5 40 2.2 5.7 32 0.8
450 86 125 45 12 5.4 16.2 50 2.7 3.0 32 1.1
420 86 130 45 12 5.0 15.1 65 2.5 1.9 32 1.1
490 86 120 45 10 4.9 14.7 70 1.8 2.3 32 1.05
510 86 120 45 10 5.1 15.3 70 1.8 2.3 32 1.05
660 86 180 50 10 6.6 19.8 70 2 2.0 32 1.5
900 86 230 50 10 9.0 27.0 65 2.1 2.3 32 1.8
580 96 125 50 10 5.8 17.4 55 3.3 2.0 45 1.2
540 96 130 50 7 3.8 11.3 75 1.5 2.4 45 1.2
630 116 100 55 7 4.4 13.2 60 2 2.8 50 1.3
860 116 125 55 7 6.0 18.1 60 2.2 2.5 50 1.55
810 116 130 60 7 5.7 17.0 80 1.2 2.6 50 1.6
1250 116 180 60 7 8.8 26.3 80 1.2 2.6 50 2.4
1700 116 230 60 5 8.5 25.5 80 1.1 2.8 50 3
1700 136 180 65 6 10.2 30.6 100 0.9 2.2 50 3.7
2400 136 230 70 5 12.0 36.0 100 0.95 2.1 50 4.2
Bholtaids 1100V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
130 76 75 40 15 1.9 5.6 35 4.5 3.6 32 0.5
260 76 130 45 15 3.8 11.3 60 2.8 2.0 32 0.75
280 76 125 50 12 3.3 9.9 35 4 4.1 32 0.75
170 86 75 50 15 2.6 7.7 45 5 2.0 32 0.8
360 86 125 55 12 4.3 13.0 35 2.5 6.5 32 1.1
330 86 130 45 15 5.0 15.0 65 2.8 1.7 32 1.1
420 86 136 45 12 5.0 15.0 60 2 2.8 32 1.15
420 86 155 45 12 5.0 15.0 65 1.5 3.2 32 1.25
470 86 180 60 10 4.7 14.1 70 1.8 2.3 32 1.5
500 86 180 60 10 5.0 15.0 70 1.8 2.3 32 1.5
600 86 225 60 10 6.0 18.0 80 1.2 2.6 32 1.8
600 86 225 70 10 6.0 18.0 60 2.2 2.5 32 1.8
600 116 130 50 10 6.0 18.0 75 1.8 2.0 50 1.6
680 86 225 70 12 8.2 24.5 65 2.5 1.9 32 1.8
720 86 230 70 12 8.6 25.9 65 2.5 1.9 32 1.8
460 96 125 65 10 4.6 13.8 55 3.2 2.1 45 1.2
520 96 180 65 12 6.2 18.7 75 1.5 2.4 45 1.6
500 116 100 70 10 5.0 15.0 55 2.5 2.6 50 1.3
680 116 125 70 10 6.8 20.4 60 2.8 2.0 50 1.6
650 116 130 75 10 6.5 19.5 75 1.3 2.7 50 1.6
1000 116 180 75 12 12.0 36.0 75 1.5 2.4 50 2.4
1200 116 230 80 8 9.6 28.8 80 1.5 2.1 50 3
1200 116 230 75 12 14.4 43.2 105 0.9 2.0 50 3
1250 116 230 75 12 15.0 45.0 80 1.5 2.1 50 3
1300 116 230 75 12 15.6 46.8 80 1.5 2.1 50 3
1400 136 180 70 7 9.8 29.4 85 1.3 2.1 50 3.7
1700 136 230 70 5 8.5 25.5 100 1.4 1.4 50 4.2
1900 136 230 75 5 9.5 28.5 100 1.2 1.7 50 4.2
2800 136 335 80 5 14.0 42.0 120 0.8 1.7 50 6.1
3060 136 345 80 5 15.3 45.9 120 0.9 1.5 50 6.2
3200 136 335 80 5 16.0 48.0 120 0.85 1.6 50 6.1
Bholtaids 1200V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam (Kg)
170 86 75 50 15 2.6 7.7 45 4.5 2.2 32 0.8
420 76 145 50 15 6.3 18.9 30 12 1.9 32 0.85
330 86 130 45 15 5.0 15.0 65 2.8 1.7 32 1.1
420 86 136 45 12 5.0 15.0 65 2 2.4 32 1.15
420 86 155 45 12 5.0 15.0 70 1.5 2.7 32 1.25
420 116 95 55 10 4.2 12.6 80 1.4 2.2 50 1.2
450 86 160 55 12 5.4 16.2 70 2.9 1.4 32 1.3
470 86 180 60 12 5.6 16.9 70 2.8 1.5 32 1.5
470 86 225 60 12 5.6 16.9 70 2.8 1.5 32 1.8
550 86 145 55 12 6.6 19.8 40 11 1.1 32 1,2
600 86 225 60 10 6.0 18.0 80 1.2 2.6 32 1.8
600 86 225 70 10 6.0 18.0 60 2.2 2.5 32 1.8
600 116 130 50 10 6.0 18.0 75 1.8 2.0 50 1.6
680 86 225 70 12 8.2 24.5 65 2.5 1.9 32 1.8
500 116 100 65 10 5.0 15.0 55 2.6 2.5 50 1.2
680 116 125 65 10 6.8 20.4 50 2.8 2.9 50 1.55
650 116 130 65 10 6.5 19.5 80 1.8 1.7 50 1.6
1000 116 180 70 7 7.0 21.0 75 1.3 2.7 50 2.4
1200 116 230 70 7 8.4 25.2 75 1.3 2.7 50 3
1250 116 230 70 7 8.8 26.3 75 1.2 3.0 50 3
1400 136 180 75 7 9.8 29.4 85 1.1 2.5 50 3.7
1700 136 230 80 5 8.5 25.5 85 1 2.8 50 4.2
850 136 125 70 8 6.8 20.4 75 1.6 2.2 50 1.9
950 136 125 60 8 7.6 22.8 80 1.1 2.8 50 2.4
1200 116 180 80 8 9.6 28.8 80 1 3.1 50 2.4
1200 116 180 60 5 6.0 18.0 100 0.8 2.5 50 2.4
1500 136 180 70 5 7.5 22.5 100 0.9 2.2 50 3.7
2700 136 335 80 5 13.5 40.5 110 0.85 1.9 50 6.1
Bholtaids 1300V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
230 86 125 50 15 5.7 17.1 35 5 3.3 32 1.1
210 86 130 50 15 3.2 9.5 70 2 2.0 32 1.1
330 86 180 60 15 5.0 14.9 65 3 1.6 32 1.5
470 86 230 65 12 5.6 16.9 65 3.2 1.5 32 1.8
410 116 130 65 12 4.9 14.8 80 1.8 1.7 50 1.6
650 116 180 65 10 6.5 19.5 85 2 1.4 50 2.4
880 116 230 80 10 8.8 26.4 85 2.2 1.3 50 3
900 136 180 70 7 6.3 18.9 100 1.6 1.3 50 3.7
1200 136 230 80 7 8.4 25.2 105 1.5 1.2 50 4.2
Bholtaids 1500V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
160 86 125 50 15 5.7 17.1 35 5 3.3 32 1.1
160 86 130 50 15 2.4 7.2 60 3.5 1.6 32 1.1
240 86 180 55 15 3.6 10.8 65 5 0.9 32 1.5
320 86 230 55 12 3.8 11.5 60 3.5 1.6 32 1.8
300 116 130 55 12 3.6 10.8 75 2 1.8 50 1.6
470 116 180 60 10 4.7 14.1 75 2.8 1.3 50 2.4
650 116 230 60 10 6.5 19.5 80 2.8 1.1 50 3
660 136 180 60 7 4.6 13.9 100 1.8 1.1 50 3.7
900 136 230 60 6 5.4 16.2 105 1.2 1.5 50 4.2
1000 136 260 70 5 5.0 15.0 120 0.9 1.5 50 4.7
Bholtaids 1800V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
130 86 125 55 15 5.7 17.1 35 5 3.3 32 1.1
120 86 130 55 15 1.8 5.4 60 2.5 2.2 32 1.1
180 86 180 60 15 2.7 8.1 65 2 2.4 32 1.5
260 86 230 60 12 3.1 9.4 60 3 1.9 32 1.8
230 116 130 60 12 2.8 8.3 80 2 1.6 50 1.6
360 116 180 65 10 3.6 10.8 80 3.2 1.0 50 2.4
500 116 230 70 10 5.0 15.0 75 3 1.2 50 3
510 136 180 70 7 3.6 10.7 100 2 1.0 50 3.7
680 136 230 70 7 4.8 14.3 95 2 1.1 50 4.2
Bholtaids 2000V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
100 86 125 55 15 1.5 4.5 35 3.8 4.3 32 1.1
90 86 130 55 15 1.4 4.1 65 2.5 1.9 32 1.1
150 86 180 60 15 2.3 6.8 60 3.5 1.6 32 1.5
200 86 230 60 12 2.4 7.2 65 2 2.4 32 1.8
180 116 130 65 10 1.8 5.4 75 2.5 1.4 50 1.6
280 116 180 70 10 2.8 8.4 70 2 2.0 50 2.4
380 116 230 80 10 3.8 11.4 80 2 1.6 50 3
400 136 180 60 7 2.8 8.4 100 1.6 1.3 50 3.7
550 136 230 70 7 3.9 11.6 100 1.5 1.3 50 4.2
850 136 335 80 5 4.3 12.8 120 1.1 1.3 50 6.1
Bholtaids 2200V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
320 116 230 70 12 3.8 11.5 85 2 1.4 50 2.4
385 116 295 75 10 3.9 11.6 115 1.1 1.4 50 3.1
450 136 230 75 7 3.2 9.5 100 1.3 1.5 50 4.2
670 136 335 80 5 3.4 10.1 120 1 1.4 50 6.1
Bholtaids 2800V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
160 116 180 70 30 4.8 14.4 75 2.2 1.6 50 2.4
210 116 230 75 25 5.3 15.8 70 2.8 1.5 50 3
225 136 180 75 20 4.5 13.5 85 2 1.4 50 3.7
300 136 230 80 15 4.5 13.5 80 2.5 1.3 50 4.2
Bholtaids 3200V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
115 116 180 70 40 4.6 13.8 70 3.5 1.2 50 2.4
160 116 230 75 35 5.6 16.8 70 3.2 1.3 50 3
160 136 180 75 30 4.8 14.4 85 3 0.9 50 3.7
225 136 230 80 25 5.6 16.9 80 3.5 0.9 50 4.2
Bholtaids 4000V.DC
Cn(uF) φD H ESL(nH) dv/dt(V/μS) Ip(KA) Tha (KA) Irms (A) 50 ℃ ESR (mΩ) @ 1KHz Rth(K/W) P(mm) cuideam
70 116 180 70 50 3.5 10.5 70 3.5 1.2 50 2.4
95 116 230 75 40 3.8 11.4 70 3.6 1.1 50 3
100 136 180 75 35 3.5 10.5 85 3 0.9 50 3.7
135 136 230 80 30 4.1 12.2 80 3.5 0.9 50 4.2
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