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Single Phase AC Filter Film Capacitor With Aluminum Cylindrical Case For Power Equipments

Short Description:

Features:

  • Aluminum cylindrical housing package, Sealed with resin
  • Copper nut / screw leads, insulated plastic cover positioning,easy installation
  • Large capacity, small size
  • Resistance to high voltage, with self-healing
  • High ripple current, high dv / dt withstand capability

 


Product Detail

Product Tags

APPLICATIONS                                 

Widely used in power electronic equipment used for the AC filter

In the high-power UPS, switching power supply, inverter and other equipment for the AC filter,

harmonics and improve power factor control

 

TECHNICAL DATA

Operating temperature range Max.Operating temperature.,Top,max : +85Upper category temperature : +70Lower category temperature : -40
Capacitance range 20~200μF
Rated voltage 200V.AC~1000V.AC
Capacitance tolerance ±5% ( J )  ;  ±10% ( K )
Test voltage between terminals 1.5Urms / 10S
Test voltage terminal to case 3000V.AC / 2S,50/60Hz
Over voltage 1.1Urms ( 30% of on – load – dur. )
1.15Urms ( 30min / day )
1.2Urms ( 5min / day )
1.3Urms (1min / day )
Dissipation factor Tgδ ≤ 0.002  f = 100Hz
Self inductance 70 nH per mm of lead spacing
Insulation resistance RS×C ≥ 10000S  ( at 20100V.DC )
Withstand strike current See the specification sheet
Irms See the specification sheet
Life time expectancy Useful life time: 100000h at UNDC and 70FIT: 10×10-9/h(10 per 109 component h) at 0.5×UNDC,40
Dielectric Metallized polypropylene
Construction Filling with inert gas/ silicone oil, Non-inductive, over-pressure
Case Aluminum case
Flame retardation UL94V-0
Reference standard IEC61071,GB17702,UL810

 

 

 

SAFETY APPROVALS

E496566

UL

UL810, Voltage Limits: Max. 4000VDC, 85Certificate No.: E496566

 

THE CONTOUR MAP

 

SPECIFICATION TABLE

CN

(μF)

ΦD

(mm)

H

(mm)

Imax

(A)

Ip

(A)

Is

(A)

ESR

(mΩ)

RthK/W

Pmm

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 Maximum increase of the component temperature (ΔT), resulting from the components power

dissipation and heat conductivity.

The maximum component temperature-increase ΔT is the difference between the temperature measured on the capacitor’s housing and the ambient temperature (in proximity to the capacitor) when the capacitor is working during normal operation.

During operation ΔT must not exceed 15°C at rated temperature. ΔT corresponds the rise of the component

temperature caused by the Irms. In order not to exceed ΔT of 15°C at rated temperature, the Irms must be

decreased with an increase of the ambient temperature.

 

T = P/G

T = TC - Tamb

P = Irms2 x ESR = power dissipation (mW)

G = heat conductivity (mW/°C)


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