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   600/1000V XLPE Insulated, LSZH Sheathed Power Cables (Single Core)

FTX300 1RZ1-R (CU/XLPE/LSZH 600/1000V Single Core)

APPLICATION
The cables is mainly used in power stations, mass transit underground passenger systems,
airports, petrochemical plants, hotels, hospitals, and high-rise buildings.
STANDARDS
Basic design to IEC 60502-1
FIRE PERFORMANCE

 

Flame Retardance (SingleVerticalWireTest)

EN60332-1-2; IEC60332-1-2; BSEN 60332-1-2; VDE0482-332-1; NBN C30-004 (cat.F1);NF C32-070-2.1(C2);

CEI 20-35/1-2; EN 50265-2-1*; DIN VDE 0482-265-2-1*

Reduced FirePropagation(Vertically-mountedbundledwires&cabletest)

EN60332-3-24 (cat.C); IEC60332-3-24;BSEN60332-3-24; VDE0482-332-3; NBN C30-004 (cat.F2);NF C32-070-

2.2(C1); CEI 20-22/3-4; EN50266-2-4*;DIN VDE 0482-266-

2-4

 

Halogen Free

IEC60754-1; EN 50267-2-1; DIN VDE 0482-267-2-1;CEI20-37/2-1;BS6425-1*

 

NoCorrosive GasEmission

IEC60754-2; EN 50267-2-2; DIN VDE 0482-267-2-2;CEI20-37/2-2;BS6425-2*

 

MinimumSmokeEmission

IEC61034-1&2; EN 61034 -1&2; DIN VDE 0482-1034-1&2;CEI20-37/3-1&2; EN50268-1&2*;BS 7622-1&2*

NoToxic Gases

NES02-713;NF C 20-454

Note: Asterisk * denotes superseded standard.
VOLTAGE RATING
600/1000V

CABLE CONSTRUCTION
Conductor: Plain annealed copper wire, stranded according to IEC 60228 class 2.
Insulation: Extruded cross-linked XLPE compound.
Outer Sheath: Thermoplastic LSZH compound type LTS3 as per BS 7655-6.1.
COLOUR CODE
Insulation Colour: Natural
Sheath Colour: Black (other colors upon request)
Physical AND THERMAL PROPERTIES
Temperature Range During Operation: -30°C ~ 90°C
Temperature Range during Installation : -5°C ~ 50°C
Minimum Bending Radius: 6 x OD
Electrical PROPERTIES

DielectricTest:

3500 Vr.m.s.x 5’(core/core)

Insulation Resistance

500 MΩ x km ( at 20°C )

ShortcircuitTemperature

250°C ( up to5secs)

CONSTRUCTION PARAMETERS

 

Cable
Code

Conductor

Nominal
Insulation Thickness

Nominal
Overall Diameter

 

Approx. Weight

No.of Core XCross Section

No./Nominal

Diameterof
Strands

 

mm2

No./mm

mm

mm

kg/km

FTX300 1RZ1-R1G1.5

1x1.5

7/0.53

0.7

6

48

FTX300 1RZ1-R1G2.5

1x2.5

7/0.67

0.7

6.4

63

FTX300 1RZ1-R1G4

1x4

7/0.85

0.7

7.0

78

FTX300 1RZ1-R1G6

1x6

7/1.04

0.7

7.5

105

FTX300 1RZ1-R1G10

1x10

7/1.35

0.7

8.5

151

FTX300 1RZ1-R1G16

1x16

7/1.70

0.7

9.5

211

FTX300 1RZ1-R1G25

1x25

7/2.14

0.9

11.2

315

FTX300 1RZ1-R1G35

1x35

7/2.52

0.9

12.4

416

FTX300 1RZ1-R1G50

1x50

19/1.78

1.0

14

569

FTX300 1RZ1-R1G70

1x70

19/2.14

1.1

16

792

FTX300 1RZ1-R1G95

1x95

19/2.52

1.1

18

1068

FTX300 1RZ1-R1G120

1x120

37/2.03

1.2

20

1325

FTX300 1RZ1-R1G150

1x150

37/2.25

1.4

22

1627

FTX300 1RZ1-R1G185

1x185

37/2.52

1.6

24.4

2021

FTX300 1RZ1-R1G240

1x240

61/2.25

1.7

27.5

2617

FTX300 1RZ1-R1G300

1x300

61/2.52

1.8

30.3

3252

FTX300 1RZ1-R1G400

1x400

61/2.85

2.0

33.9

4131

FTX300 1RZ1-R1G500

1x500

61/3.20

2.2

37.6

5175

FTX300 1RZ1-R1G630

1x630

127/2.52

2.4

42.4

6631

FTX300 1RZ1-R1G800

1x800

127/2.85

2.6

47.3

8412

FTX300 1RZ1-R1G1000

1x1000

127/3.20

2.8

52.4

10530

Electrical PROPERTIES
Conductor Operating Temperature : 90°C
Ambient Temperature : 30°C
Current-Carrying Capacities (Amp)

 Conductor
cross- sectional area

Reference
Method4
(enclosed inconduitin thermally
insulating
walletc)

Reference
Method3
(enclosed inconduitona
wallorin
trunkingetc)

 Reference
Method1
(clipped
direct)

 Reference
Method11
(onaperforated cabletray,
horizontal
orvertical)

Reference
Method 12 (freeair)

 Horizontalflat spaced

 Verticalflat spaced

  Trefoil

 2
cables, single- phase
a.c.ord.c.

 3 or 4cables, 3-phasea.c.

 2cables, single- phase

a.c.ord.c

 3 or 4cables, 3-phasea.c.

 2cables, single- phase
a.c.or
d.c. flat
and
touching

 3 or 4cables, 3-phase
a.c. flat
and
touching or trefoil

 2cables,
single- phase
a.c.or
d.c.orflat and touching

 3 or 4cables, 3-phase
a.c. flat
and
touching or trefoil

 2cables, single- phase

a.c.ord.c.or 3cablesthree phase

2
cables, single- phase
a.c.ord.c.or 3
cables three phase

 3cables, trefoil
3-phasea.c.

1

2

3

4

5

6

7

8

9

10

11

12

mm2

A

A

A

A

A

A

A

A

A

A

A

1.5

18

17

22

19

25

23

-

-

-

-

-

2.5

24

23

30

26

34

31

-

-

-

-

-

4

33

30

40

35

46

41

-

-

-

-

-

6

43

39

51

45

59

54

-

-

-

-

-

10

58

53

71

63

81

74

-

-

-

-

-

16

76

70

95

85

109

99

-

-

-

-

-

25

100

91

126

111

143

130

158

140

183

163

138

35

125

111

156

138

176

161

195

176

226

203

171

50

149

135

189

168

228

209

293

215

274

246

209

70

189

170

240

214

293

268

308

279

351

318

270

95

228

205

290

259

355

326

375

341

426

389

330

120

263

235

336

299

413

379

436

398

495

453

385

150

300

270

375

328

476

436

505

461

570

524

445

185

341

306

426

370

545

500

579

530

651

600

511

240

400

358

500

433

644

590

686

630

769

711

606

300

459

410

573

493

743

681

794

730

886

824

701

400

-

-

684

584

868

793

915

849

1065

994

820

500

-

-

783

666

990

904

1044

973

1228

1150

936

630

-

-

900

764

1130

1033

1191

1115

1423

1338

1069

800

-

-

-

-

1288

1179

1358

1275

1580

1485

1214

1000

-

-

-

-

1443

1323

1520

1436

1775

1671

1349

Voltage Drop (Per Amp Per Meter)

 Sizeof
conductor

 2

cables d.c.

2cables,single-phasea.c.

3or 4cables,3-phase a.c.

 Ref.
Methods3
and 4(enclosedin
conduitetc, inoron a wall)

 Ref.
Methods1
and11(clipped
director ontray
stouching)

 Ref.
Methods3
and 4(enclosed
inconduitetc,
inoron a wall)

 Ref.
Methods1,11 and12 (intrefoil)

 Ref.
Methods1
and11
(Flat and touching)

1

2

3

4

5

6

7

mm2

mV/A/m

mV/A/m

mV/A/m

mV/A/m

mV/A/m

mV/A/m

1.5

31

31

27

27

27

27

2.5

19

19

16

16

16

16

4

33

12

10

10

10

10

6

7.8

7.9

6.8

6.8

6.8

6.8

10

4.7

4.7

4.7

4

4

4

16

2.9

2.9

2.9

2.5

2.5

2.5

 

 

r

x

z

r

x

z

r

x

z

r

x

z

r

x

z

25

1.85

1.85

0.31

1.90

1.85

0.190

1.85

1.60

0.27

1.65

1.600

0.165

1.600

1.600

0.190

1.600

35

1.35

1.35

0.29

1.35

1.35

0.180

1.35

1.15

0.25

1.15

1.150

0.155

1.50

1.150

0.180

1.150

50

0.99

1.00

0.29

1.05

0.99

0.180

1.00

0.87

0.25

0.90

0.860

0.155

0.870

0.860

0.180

0.870

70

0.68

0.70

0.28

0.75

0.68

0.175

0.71

0.60

0.24

0.65

0.590

0.150

0.610

0.590

0.175

0.620

95

0.49

0.51

0.27

0.58

0.49

0.170

0.52

0.44

0.23

0.50

0.430

0.145

0.450

0.430

0.170

0.460

120

0.39

0.41

0.26

0.48

0.39

0.165

0.43

0.35

0.23

0.42

0.340

0.140

0.370

0.340

0.165

0.380

150

0.32

0.33

0.26

0.43

0.32

0.165

0.36

0.29

0.23

0.37

0.280

0.140

0.310

0.280

0.165

0.320

185

0.25

0.27

0.26

0.37

0.26

0.165

0.30

0.23

0.23

0.32

0.220

0.140

0.260

0.220

0.165

0.280

240

0.19

0.21

0.26

0.33

0.20

0.160

0.25

0.185

0.22

0.29

0.170

0.140

0.220

0.170

0.165

0.240

300

0.155

0.175

0.25

0.31

0.16

0.160

0.22

0.150

0.22

0.27

0.140

0.140

0.195

0.135

0.160

0.210

400

0.12

0.140

0.25

0.29

0.13

0.155

0.20

0.125

0.22

0.25

0.110

0.135

0.175

0.110

0.160

0.195

500

0.093

0.120

0.25

0.28

0.105

0.155

0.185

0.100

0.22

0.24

0.090

0.135

0.160

0.088

0.160

0.180

630

0.072

0.100

0.25

0.27

0.086

0.155

0.175

0.088

0.21

0.23

0.074

0.135

0.150

0.071

0.160

0.170

800

0.056

-

-

-

0.072

0.150

0.170

-

-

-

0.062

0.130

0.145

0.059

0.155

0.165

1000

0.045

-

-

-

0.063

0.150

0.165

-

-

-

0.055

0.130

0.140

0.050

0.155

0.165

Note :
r = conductor resistance at operating temperature
x = reactance
z = impedance