SCP super compact busbar

– 4 conductor (aluminium)

technical data

n

3L + N + PE aluminium

112

Rated current

I

n

[A]

630

800

1000

1250

1600

2000

2500

3200

4000

Casing overall dimensions

L x H [mm] 130x130 130x130 130x130 130x130 130x170 130x220 130x380 130x440 130x480

Operating voltage

[V]

1000

1000

1000

1000

1000

1000

1000

1000

1000

Insulation voltage

U

i

[V]

1000

1000

1000

1000

1000

1000

1000

1000

1000

Frequency

[Hz]

50/60

50/60

50/60

50/60

50/60

50/60

50/60

50/60

50/60

Rated short-time current for three-phase fault (1 s) I

cw

[kA]rms

36

42

50

75

80

80

150

160

160

Allowable peak current for three-phase fault

I

pk

[kA]

76

88

110

165

176

176

330

352

352

Rated short-time current for single-phase fault (1 s) I

cw

[kA]rms

22

25

30

45

48

48

90

96

96

Allowable peak current for single-phase fault

I

pk

[kA]

48

55

66

99

106

106

198

211

211

Allowable specific energy for three-phase fault

I

2

t [MA

2

s]

1296

1764

2500

5625

6400

6400

22500

25600

25600

Phase resistance

R

20

[m

Ω

/m] 0·077

0·058

0·058

0·047

0·035

0·027

0·022

0·017

0·014

Phase reactance (50 Hz)

X [m

Ω

/m]

0·023

0·017

0·017

0·015

0·014

0·011

0·006

0·006

0·006

Phase impedance

Z [m

Ω

/m]

0·080

0·060

0·060

0·049

0·037

0·029

0·022

0·018

0·015

Phase resistance at thermal conditions

R

t

[m

Ω

/m] 0·084

0·064

0·069

0·056

0·041

0·032

0·025

0·020

0·017

Phase impedance at thermal conditions

Z [m

Ω

/m]

0·087

0·066

0·071

0·058

0·043

0·034

0·026

0·021

0·018

Neutral resistance

R

20

[m

Ω

/m] 0·077

0·058

0·058

0·047

0·035

0·027

0·022

0·017

0·014

Resistance of the protective conductor (PE 1)

R

PE

[m

Ω

/m] 0·125

0·125

0·125

0·125

0·113

0·101

0·075

0·069

0·065

Resistance of the protective conductor (PE 2)

R

PE

[m

Ω

/m] 0·036

0·036

0·036

0·036

0·028

0·023

0·014

0·012

0·011

Resistance of the protective conductor (PE 3)

R

PE

[m

Ω

/m] 0·050

0·050

0·050

0·050

0·041

0·033

0·021

0·018

0·017

Reactance of the protective conductor (50 Hz)

X

PE

[m

Ω

/m] 0·080

0·078

0·078

0·048

0·039

0·028

0·020

0·015

0·016

Resistance of the fault loop (PE 1)

R

o

[m

Ω

/m] 0·209

0·189

0·194

0·181

0·154

0·133

0·100

0·089

0·082

Resistance of the fault loop (PE 2)

R

o

[m

Ω

/m] 0·120

0·100

0·105

0·092

0·069

0·055

0·039

0·032

0·028

Resistance of the fault loop (PE 3)

R

o

[m

Ω

/m] 0·134

0·114

0·119

0·106

0·082

0·065

0·046

0·038

0·034

Reactance of the fault loop (50 Hz)

X

o

[m

Ω

/m]

0·10

0·10

0·10

0·06

0·05

0·04

0·03

0·02

0·02

Impedance of the fault loop (PE 1)

Z

o

[m

Ω

/m] 0·233

0·212

0·216

0·192

0·163

0·139

0·103

0·092

0·085

Impedance of the fault loop (PE 2)

Z

o

[m

Ω

/m] 0·158

0·138

0·142

0·112

0·087

0·068

0·047

0·038

0·036

Impedance of the fault loop (PE 3)

Z

o

[m

Ω

/m] 0·169

0·149

0·152

0·123

0·098

0·076

0·053

0·044

0·041

Zero-sequence resistance phase - N

R

o

[m

Ω

/m] 0·306

0·257

0·257

0·238

0·172

0·140

0·107

0·080

0·070

Zero-sequence reactance phase - N

X

o

[m

Ω

/m] 0·174

0·160

0·160

0·128

0·106

0·108

0·083

0·073

0·060

Zero-sequence Impedance phase - N

Z

o

[m

Ω

/m] 0·352

0·303

0·303

0·270

0·202

0·177

0·135

0·108

0·092

Zero-sequence resistance phase - PE

R

o

[m

Ω

/m] 0·581

0·519

0·519

0·369

0·321

0·270

0·217

0·196

0·164

Zero-sequence reactance phase - PE

X

o

[m

Ω

/m] 0·263

0·229

0·229

0·191

0·175

0·212

0·155

0·148

0·146

Zero-sequence Impedance phase - PE

Z

o

[m

Ω

/m] 0·638

0·567

0·567

0·416

0·366

0·343

0·267

0·246

0·22

cos

ϕ

= 0·70 65·1

49·5

52·5

43·3

33·6

26·3

18·8

15·9

14·2

cos

ϕ

= 0·75 67·7

51·5

54·7

45·1

34·7

27·2

19·6

16·5

14·6

cos

ϕ

= 0·80 70·1

53·3

56·8

46·7

35·7

28·0

20·4

17·1

15·1

cos

ϕ

= 0·85 72·3

55·1

58·7

48·2

36·6

28·7

21·1

17·6

15·4

cos

ϕ

= 0·90 74·1

56·5

60·4

49·4

37·3

29·2

21·7

18·0

15·7

cos

ϕ

= 0·95 75·3

57·5

61·6

50·3

37·6

29·4

22·1

18·2

15·8

cos

ϕ

= 1·00 72·7

55·6

60·0

48·6

35·6

27·8

21·6

17·4

14·9

Weight (PE 1)

p [kg/m]

17·5

18·3

18·3

19·8

24·2

29·6

40·1

48·0

54·9

Weight (PE 2)

p [kg/m]

20·7

21·5

21·5

23·0

28·4

35·0

48·3

57·6

65·6

Weight (PE 3)

p [kg/m]

18·5

19·3

19·3

20·9

25·6

31·4

42·8

51·1

58·4

Fire load

[kWh/m]

4·5

5·5

5·5

6·0

8·5

10·5

16·0

19·0

21·0

Degree of protection

IP

55

55

55

55

55

55

55

55

55

Thermal resistance class of the insulating materials

–

B/F

1

B/F

1

B/F

1

B/F

1

B/F

1

B/F

1

B/F

1

B/F

1

B/F

1

Joule effect losses at rated current

P [W/m]

100

123

208

263

315

386

468

618

827

Min./max. ambient temperature

[°C]

-5/50

-5/50

-5/50

-5/50

-5/50

-5/50

-5/50

-5/50

-5/50

Voltage drop factor with

distributed load

k [V/m/A]10

-6

∆

V = k.L.Ie.10

-6

[V]

Single bar

Aluminium

Double bar

Regulations and conformity :

IEC/EN 60439-1 and 2; DIN VDE 0660 500 and 502

Product suitable for Constant/Cyclic Warm, humid climates :

DIN IEC 68 part 2-3; DIN IEC 68 part 2-30

Degree of protection :

IP 55; IP x7 carrying lines available with accessories, on request - +44 (0) 845 600 6266

Insulation and surface treatment of the conductors :

Insulated conductors for the whole length, aluminum copper-plated and tin-plated

Busbar casing material :

1·5 mm galvanised steel plate, pre-painted or stainless steel

(available, if required, with special paint and/or with thickness 2 mm)

1 : Class F thermal resistance (155°C) available on request

-

+44 (0) 845 600 6266

In : rated current referred to a room temperature of 40°C

PE 1

Standard version

PE 2

Extra earth - copper

PE 3

Extra earth - aluminium

N

PE L3 L2 L1

130

H