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Solutio condensatoris sicci ad usum fabricati pro tractione ferriviaria 3000VDC

Solutio condensatoris sicci ad usum fabricati pro tractione ferriviaria 3000VDC. Imago Praecipua.
  • Solutio condensatoris sicci ad usum fabricati pro tractione ferriviaria 3000VDC
  • Solutio condensatoris sicci ad usum fabricati pro tractione ferriviaria 3000VDC
  • Solutio condensatoris sicci ad usum fabricati pro tractione ferriviaria 3000VDC

Descriptio Brevis:

Condensator tractionis ferriviariae series DKMJ-S

1. Condensator sui iuris et sicci cum involucro chalybis inoxidabilis

2. Pellicula PP metallica segmentata quae inductionem propriam humilem praestat

3. Alta resistentia rupturae et alta fides

4. Disiunctio propter pressionem excessivam non necessaria habetur.

5. Summum condensatoris resina epoxydica oecologica, quae seipsam exstinguere potest, obsignatum est.

6. Technologia patentis CRE inductionem propriam infimam praestat.


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Detalia Producti

Etiquettae Productarum

Data technica

Capacitas aestimata

CN 

1500μF ± 5%

Tensio aestimata

UN

3000V.DC

Tensio impulsiva non recurrentis

Us

4500V

Maxima intensitas

Imaximum 

250A

Maxima intensitas maxima

Î

22.5KA

Maxima impetus currentis

Is

80KA

Resistentia seriei

Rs 

≤0.35mΩ

Tangens damni

fuscusδ

0.002 (100Hz)

Tangens anguli amissionis

fuscusδ0

0.0002

Constans temporis auto-exonerationis

C × Ris

10000S (100VDC 60S)

Autoinductantia

Le

≤50nH

Resistentia thermalis

Rth

0.7K/W

Minima temperatura operandi

Èminutum

-40°C

Temperatura maxima operandi

Èmaximum

70°C

Temperatura repositionis

Èrepositorium

-40~85°C

Vita utilis(apud Èlocus calidus)

100000 horae (≤70°C)

quota defectus

100Fit
     
Data probationis    

Examen tensionis inter terminales

Vtt

4500V.DC/10S

Terminalis/receptaculum probationis tensionis AC

Vt-c

10000V.AC/60S
     

Altitudo operandi

2000m (maxime)

Momentum torquens maximum

25Nm (maxime)

Pondus

≈45kg

Tabula specificationum

Tensio electrica Un 800V. DC US 1200V Ur 200V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A) 50℃ @ 10KHz ESR (mΩ) @1KHz Rth (K/W) Pondus (kg)
Quadringenta milia 340 125 190 5 20.0 CXX 1.1 0.9 17.6
Octo milia 340 125 350 4 32.0 CLXXX 0.72 0.6 31.2
Sex milia 420 125 245 5 30.0 CL 0.95 0.7 26.4
Decem milia 420 125 360 4 40.0 ducenti 0.72 0.5 39.2
Duodecim milia 420 235 245 4 48.0 250 0.9 0.3 49.6
Viginti milia 420 235 360 3 60.0 trecenti 0.6 0.3 73.6
Tensio electrica Un 1200V. DC Us 1800V Ur 300V
Cn (μF) Latitudo (mm) T (mm) Altitudo (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 CXX 1.1 0.9 17.6
3300 340 125 245 8 26.4 CL 0.95 0.7 22.4
Quinque milia 420 125 trecenti 7 35.0 CLXXX 0.8 0.6 32.8
7500 420 125 430 5.5 41.3 ducenti 0.66 0.6 44.8
Quinque milia 340 235 190 8 40.0 ducenti 1.1 0.3 32.8
Decem milia 340 235 350 6 60.0 250 0.8 0.3 58.4
Quinque milia 420 235 CLXXV 8 40.0 ducenti 1 0.4 36
7500 420 235 245 7 52.5 250 0.9 0.3 49.6
Decem milia 420 235 trecenti 7 70.0 250 0.8 0.3 61.6
Quindecim milia 420 235 430 5 75.0 trecenti 0.6 0.3 84
Tensio electrica Un 1500V. DC US 2250V Ur 450V
Cn (μF) Latitudo (mm) T (mm) Altitudo (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 CXX 1.1 0.9 17.6
tria milia 340 125 420 8 24.0 CLXXX 0.66 0.7 37.6
MM 420 125 245 10 20.0 CL 0.95 0.7 26.4
Quadringenta milia 420 125 430 8 32.0 ducenti 0.66 0.6 44.8
Quinque milia 340 235 350 8 40.0 250 0.8 0.3 58.4
Quadringenta milia 420 235 245 10 40.0 250 0.9 0.3 49.6
Octo milia 420 235 430 8 64.0 trecenti 0.6 0.3 84
Tensio electrica Un 2000V. DC US 3000V Ur 600V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A) 50℃ @ 10KHz ESR (mΩ) @1KHz Rth (K/W) Pondus (kg)
mille 340 125 245 12 12.0 CL 0.95 0.7 22.4
1500 340 125 350 10 15.0 CLXXX 0.72 0.6 31.2
MM 420 125 360 10 20.0 ducenti 0.72 0.5 39.2
2400 420 125 430 9 21.6 ducenti 0.66 0.6 44.8
3200 340 235 350 10 32.0 250 0.8 0.3 46.4
Quadringenta milia 420 235 360 10 40.0 280 0.7 0.3 58.4
4800 420 235 430 9 43.2 trecenti 0.6 0.3 67.2
Tensio electrica Un 2200V. DC US 3300V Ur 600V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A)max ESR (mΩ) Rth (K/W) Pondus (kg)
MM 420 235 245 12 24 CL 0.9 0.740740741 40
2750 420 235 trecenti 10 27.5 ducenti 0.8 0.46875 49.6
3500 420 235 360 10 35 ducenti 0.7 0.535714286 58.4
Tensio electrica Un 3000V. DC US 4500V Ur 800V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A)max ESR (mΩ) Rth (K/W) Pondus (kg)
1050 420 235 245 20 21 CL 0.9 0.740740741 40
1400 420 235 trecenti 15 21 ducenti 0.8 0.46875 49.6
MDCCC 420 235 360 15 27 ducenti 0.7 0.535714286 58.4
Tensio electrica Un 4000V. DC US 6000V Ur 1000V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A)max ESR (mΩ) Rth (K/W) Pondus (kg)
DC 420 235 245 20 12 CL 0.9 0.740740741 40
DCCC 420 235 trecenti 20 16 ducenti 0.8 0.46875 49.6
mille 420 235 360 20 20 ducenti 0.7 0.535714286 58.4
Tensio electrica Un 2800V. DC US 4200V Ur 800V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A) 50℃ @ 10KHz ESR (mΩ) @1KHz Rth (K/W) Pondus (kg)
2×1000 560 190 CCCX 20 2×20 2×350 1 0.2 60
Tensio electrica Un 3200V. DC US 4800V Ur 900V
Cn (μF) Latitudo (mm) T (mm) Altitudo (mm) dv/dt (V/μS) Ip (KA) Irms (A) 50℃ @ 10KHz ESR (mΩ) @1KHz Rth (K/W) Pondus (kg)
2×1200 340 CLXXV 950 15 2×18 2×200 1.0 0.5 95
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