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Nuper Designata Power Electronic Capacitor cum Sui Sanationis Facultate (DKMJ-S)

Description:

Capacitor Model: DKMJ-S

Features:

1. Aeris nucis / ANISOCYCLUM electrodes, facilem institutionem

2. Repleti aridae resinae metallicae packaging

3. Magna capacitas in parva corporis magnitudine

4. Resistentia ad altum voltage cum sui sanitatem facultatem

5. Facultas operandi in altum tremor current

6. Vitae longioris exspectatio et melior euismod Comparata ad Electrolytic Capacitors

Applicationes:

1. Energy Storage et Filtering in DC-Link Circuit

2. VSC-HVDC Applications secundum IGBT (Voltage Sourced Converter) Transmittendi Power Underground per Longam distantiam

3. Shore Power commeatus insulis

4. Photovoltaic Inverter (P.), Ventus Power Converter

5. Electric Vehicula (EVs) et Hybrid Vehicula Electric (HEVs)

6. Omnia genera Frequency Converters et Inverters

7. SVG, SVC Energy Management Devices


Product Detail

Product Tags

Technical data

Operans temperatus range Max.Operating temperatura
facultatem range

100μF~20000μF

Un/Rated voltage Un

600V.DC~4000V.DC

Cap.tol

±5%(J);±10%(K)

sustinere voltage

Vt-t

1.5Un DC/60S

Vt-c

1000+2×Un/√2 V.AC) 60S(min 3000 V.AC)

Plus intentione

1.1Un(30% of on-load-dur.)

1.15Un(30min/day)

1.2Un(5min/day)

1.3Un(1min/day)

1.5Un(100ms omni tempore, 1000times in vita sua)

Dissipatio factor

tgδ≤0.003 f=100Hz

tgδ≤0.0002

Esl

<150 nH

Flamma retardatio

UL94V-0

Maximum aititude

2000m

Cum altitudo supra 2000m ad infra 5000m sit, oportet considerare usum quantitatis imminutae. (pro unoquoque incremento 1000m, voltatio et vena per 10%) reducetur.

Vitae probabilitas

100000h(Un; Θhotspot ≤70 °F )

Reference vexillum

IEC 61071 ;

Feature

1. Testa metallica encapsulation, infusio resinae aridae;

2. Aeris nucis / cochlea ducit, facilem institutionem;

3. Magnae capacitatis, parvae magnitudinis;

4. Resistentia ad alta intentione, cum auto-healing;

5. Alte laniatus vena, alta dv/dt contagia facultatem.

Applicationem

1. tractus ferriviarius;
2. Pv invertere;
3. venti vim convertunt;
4. Omnis species virtutis frequentiae convertentis et invertentis copiam;
V. Cars purus electrica et hybrid;
6. SVG, SVC machinis
7. ceterae potentiae species administratio.

8. fodienda potentia converter

Typical circuitus

1 2

Vitae probabilitas

3

Forma drawing

 

4

Voltage Un 800V.DC Nobis 1200V Ur 200V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms(A)50℃@10KHz ESR (mΩ) @1KHz Rth (K/W) pondus Kg)
4000 340 125 190 5 20.0 120 1.1 0.9 17.6
8000 340 125 350 4 32.0 180 0.72 0.6 31.2
6000 420 125 245 5 30.0 150 0.95 0.7 26.4
10000 420 125 360 4 40.0 200 0.72 0.5 39.2
12000 420 235 245 4 48.0 250 0.9 0.3 49.6
20000 420 235 360 3 60.0 300 0.6 0.3 73.6

 

Voltage Un 1200V.DC Us 1800V Ur 300V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms(A)50℃@10KHz ESR (mΩ) @1KHz Rth (K/W) pondus Kg)
2500 340 125 190 8 20.0 120 1.1 0.9 17.6
3300 340 125 245 8 26.4 150 0.95 0.7 22.4
5000 420 125 300 7 35.0 180 0.8 0.6 32.8
7500 420 125 430 5.5 41.3 200 0.66 0.6 44.8
5000 340 235 190 8 40.0 200 1.1 0.3 32.8
10000 340 235 350 6 60.0 250 0.8 0.3 58.4
5000 420 235 175 8 40.0 200 1 0.4 36
7500 420 235 245 7 52.5 250 0.9 0.3 49.6
10000 420 235 300 7 70.0 250 0.8 0.3 61.6
15000 420 235 430 5 75.0 300 0.6 0.3 84

 

Voltage Un 1500V.DC Nobis 2250V Ur 450V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms(A)50℃@10KHz ESR (mΩ) @1KHz Rth (K/W) pondus Kg)
1200 340 125 190 10 12.0 120 1.1 0.9 17.6
3000 340 125 420 8 24.0 180 0.66 0.7 37.6
2000 420 125 245 10 20.0 150 0.95 0.7 26.4
4000 420 125 430 8 32.0 200 0.66 0.6 44.8
5000 340 235 350 8 40.0 250 0.8 0.3 58.4
4000 420 235 245 10 40.0 250 0.9 0.3 49.6
8000 420 235 430 8 64.0 300 0.6 0.3 84

 

Voltage Un 2000V.DC Nobis 3000V Ur 600V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms(A)50℃@10KHz ESR (mΩ) @1KHz Rth (K/W) pondus Kg)
1000 340 125 245 12 12.0 150 0.95 0.7 22.4
1500 340 125 350 10 15.0 180 0.72 0.6 31.2
2000 420 125 360 10 20.0 200 0.72 0.5 39.2
2400 420 125 430 9 21.6 200 0.66 0.6 44.8
3200 340 235 350 10 32.0 250 0.8 0.3 46.4
4000 420 235 360 10 40.0 280 0.7 0.3 58.4
4800 420 235 430 9 43.2 300 0.6 0.3 67.2

 

Voltage Un 2200V.DC Nobis 3300V Ur 600V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms (A) max ESR (mΩ) Rth (K/W) pondus Kg)
2000 420 235 245 12 24 150 0.9 0.040740751 40
2750 420 235 300 10 27.5 200 0.8 0.46875 49.6
3500 420 235 360 10 35 200 0.7 0.5357148 58.4

 

Voltage Un 3000V.DC Nobis 4500V Ur 800V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms (A) max ESR (mΩ) Rth (K/W) pondus Kg)
1050 420 235 245 20 21 150 0.9 0.040740751 40
1400 420 235 300 15 21 200 0.8 0.46875 49.6
1800 420 235 360 15 27 200 0.7 0.5357148 58.4

 

Voltage Un 4000V.DC Nobis 6000V Ur 1000V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms (A) max ESR (mΩ) Rth (K/W) pondus Kg)
600 420 235 245 20 12 150 0.9 0.040740751 40
800 420 235 300 20 16 200 0.8 0.46875 49.6
1000 420 235 360 20 20 200 0.7 0.5357148 58.4

 

Voltage Un 2800V.DC Nobis 4200V Ur 800V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms(A)50℃@10KHz ESR (mΩ) @1KHz Rth (K/W) pondus Kg)
2×1000 560 190 310 20 2×20 2×350 1 0.2 60

 

Voltage Un 3200V.DC Nobis 4800V Ur 900V
Cn. W (mm) T (mm) H (mm) dv/dt (V/μS) Ip (KA) Irms(A)50℃@10KHz ESR (mΩ) @1KHz Rth (K/W) pondus Kg)
2×1200 340 175 950 15 2×18 2×200 1.0 0.5 95

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