FIREGUARD Flame Retardant Cables


Fire retardant cable(Fireguard)

600/1000V PVC Insulated, PVC Sheathed, Unarmoured Power Cables (2-5 Cores & Multicore)

FGD400 1VV-R (CU/PVC/PVC 600/1000V Class 2)

VDE Code: NYY

Application

The cables are mainly use in fixed installations in industrial areas, buildings and similar applications but not for

burial in the ground, either directly or in ducts.

Standards

Basic design adapted to IEC 60502-1

FGD400 1VV-R (CU/PVC/PVC 600/1000V Class 2)

Fire Performance

Flame Retardance (Single Vertical Wire Test)

IEC 60332-1

Voltage Rating

600/1000V

Cable Construction

Conductor:Annealed copper wire, stranded according to BS EN 60228 class 2.

Insulation:PVC/A according to IEC 60502-1.

Inner Covering Option:Extruded PVC or polymeric compound.

Outer Sheath:Extruded PVC Type ST1/ST2 according to IEC 60502-1.

Outer Sheath Option:UV resistance, hydrocarbon resistance, oil resistance, anti rodent and anti termite

properties can be offered as option. Compliance to fire performance standard (IEC 60332-1, IEC 60332-3, UL

1581, UL 1666 etc) depends on the oxygen index of the PVC compound and the overall cable design. LSPVC can

also be provided upon request.

Colour Code

Insulation Colour

Two-core: Brown, blue
Three-core: Brown, black, grey. Alternatively, green-and-yellow, blue, brown
Four-core: Blue, brown, black, grey. Alternatively, green-and-yellow, brown, black, grey
Five-core: Green-and-yellow, blue, brown, black, grey
Note: Depending on their intended use, the cables might be subject to the core colour requirements specified
in BS 7671 or other standards, or in statutory requirements.

Sheath Colour

Black, other colours can be offered upon request

Physical AND THERMAL PROPERTIES

Maximum temperature range during operation (PVC)

70°C

Maximum short circuit temperature (5 Seconds)

Conductor cross-section ≤300 mm2

160°C

Conductor cross-section >300 mm2

140°C

 

Minimum bending radius

 12 x Overall Diameter

Construction Parameters

Conductor

FGD400 1VV-R

No. of Cores x Cross Section

Class of Conductor

Nominal Insulation Thickness

Nominal
Sheath Thickness

Nominal Overall Diameter

Approx. Weight

No.xmm2

 

mm 

mm

mm

mm

2 Cores

2x1.5

2

0.8

1.8

9.6

120

2x2.5

2

0.8

1.8

10.4

151

2x4.0

2

1.0

1.8

12.2

212

2x6.0

2

1.0

1.8

13.2

266

2x10

2

1.0

1.8

14.8

370

2x16

2

1.0

1.8

16.6

510

2x25

2

1.2

1.8

19.6

740

2x35

2

1.2

1.8

21.8

986

2x50

2

1.4

1.8

25.2

1355

2x70

2

1.4

1.9

28.1

1798

2x95

2

1.6

2.0

32.4

2419

2x120

2

1.6

2.1

35.4

3003

2x150

2

1.8

2.2

39.2

3696

2x185

2

2.0

2.4

43.3

4536

2x240

2

2.2

2.5

48.9

5849

2x300

2

2.4

2.7

54.0

7223

2x400

2

2.6

2.9

61.5

9566

3 Cores

3x1.5

2

0.8

1.8

10.1

149

3x2.5

2

0.8

1.8

10.9

192

3x4.0

2

1.0

1.8

12.9

277

3x6.0

2

1.0

1.8

13.9

354

3x10

2

1.0

1.8

15.7

503

3x16

2

1.0

1.8

17.6

707

3x25

2

1.2

1.8

20.8

1040

3x35

2

1.2

1.8

23.2

1401

3x50

2

1.4

1.8

26.9

1942

3x70

2

1.4

1.9

30.1

2589

3x95

2

1.6

2.1

34.7

3514

3x120

2

1.6

2.2

38

4372

3x150

2

1.8

2.3

42.1

5390

3x185

2

2.0

2.5

46.5

6615

3x240

2

2.2

2.7

52.5

8576

3x300

2

2.4

2.8

58

10564

3x400

2

2.6

3.1

66.1

14049

3 Cores+1 Earth Conductor

 

 

 

 

 

 

power conductor

earth  conductor

 

 

 

3x 16/10

2

1.0

1.0

1.8

19.0

764

3x 25/16

2

1.2

1.0

1.8

22.6

1137

3x 35/16

2

1.2

1.0

1.8

25.3

1494

3x 50/25

2

1.4

1.2

1.9

29.6

2120

3x 70/35

2

1.4

1.2

2.0

33.2

2862

3x 95/50

2

1.6

1.4

2.2

38.4

3917

3x120/70

2

1.6

1.4

2.3

42.0

4973

3x150/70

2

1.4

1.2

2.5

46.6

5861

3x185/95

2

1.6

1.4

2.6

51.6

7321

3x240/120

2

1.6

1.4

2.9

58.3

9433

3x300/150

2

1.8

1.6

3.1

64.5

11714

3x400/185

2

2.0

1.6

3.3

73.5

15404

4 Cores

4x1.5

2

0.8

1.8

10.8

180

4x2.5

2

0.8

1.8

11.8

236

4x4.0

2

1.0

1.8

14

346

4x6.0

2

1.0

1.8

15.2

447

4x10

2

1.0

1.8

17.1

642

4x16

2

1.0

1.8

19.3

910

4x25

2

1.2

1.8

22.9

1347

4x35

2

1.2

1.8

25.6

1824

4x50

2

1.4

1.9

29.9

2553

4x70

2

1.4

2.0

33.5

3409

4x95

2

1.6

2.2

38.7

4628

4x120

2

1.6

2.3

42.3

5763

4x150

2

1.8

2.5

46.9

7132

4x185

2

2.0

2.6

51.9

8723

4x240

2

2.2

2.9

58.6

11344

4x300

2

2.4

3.1

64.8

14012

4x400

2

2.6

3.3

73.8

18590

Multicore

5x1.5

2

0.8

1.8

11.7

213

7x1.5

2

0.8

1.8

12.6

270

10x1.5

2

0.8

1.8

15.6

371

12x1.5

2

0.8

1.8

16.1

424

14x1.5

2

0.8

1.8

16.8

480

19x1.5

2

0.8

1.8

18.6

619

21x1.5

2

0.8

1.8

19.5

676

24x1.5

2

0.8

1.8

21.6

769

30x1.5

2

0.8

1.8

22.8

927

40x1.5

2

0.8

1.8

27.7

1196

48x1.5

2

0.8

1.9

28.2

1430

61x1.5

2

0.8

1.9

30.9

1773

5x2.5

2

0.8

1.8

12.8

281

7x2.5

2

0.8

1.8

13.8

363

10x2.5

2

0.8

1.8

17.2

503

12x2.5

2

0.8

1.8

17.7

580

14x2.5

2

0.8

1.8

18.6

660

19x2.5

2

0.8

1.8

20.6

860

21x2.5

2

0.8

1.8

21.6

941

24x2.5

2

0.8

1.8

24

1072

30x2.5

2

0.8

1.8

25.4

1302

40x2.5

2

0.8

2.0

31.1

1720

48x2.5

2

0.8

2.0

31.7

2039

61x2.5

2

0.8

2.1

34.7

2557

ELECTRICAL PROPERTIES

Conductor Operating Temperature

70°C

Ambient Temperature

30°C

Current-Carrying Capacities (Amp) according to BS 7671 table 4D2A


Conductor cross- sectional area

Reference Method A
(enclosed in conduit in
thermally insulating wall etc)

Reference Method B
(enclosed in conduit on a
wall or in trunking etc)

Reference Method C
(clipped direct)

Reference Method G (in free air)
Spaced by one cable
diameter

1 two-core
cables*,
single-phase
a.c. or
d.c.

1 three-core
cable* or 1
four-core
cable,
three
-phase
a.c.

1 two-core
cables*,
singlephase
a.c. or
d.c.

1 three-core
cable* or 1
four-core
cable,
three
-phase
a.c.

1 two-core
cables*,
single-phase
a.c. or
d.c.

1 three-core
cable* or 1
four-core
cable,
three
-phase
a.c.

1 two-core
cables*,
single-phase
a.c. or
d.c.

1 three-core
cable* or 1
four-core
cable,
three
-phase
a.c.

1

2

3

4

5

6

7

8

9

mm2

A

A

A

A

A

A

A

A

1.5

14

13

16.5

15

19.5

17.5

22

18.5

2.5

18.5

17.5

23

20

27

24

30

25

4.0

25

23

30

27

36

32

40

34

6.0

32

29

38

34

46

41

51

43

10

43

39

52

46

63

57

70

60

16

57

52

69

62

85

76

94

80

25

75

68

90

80

112

96

119

101

35

92

83

111

99

138

119

148

126

50

110

99

133

118

168

144

180

153

70

139

125

168

149

213

184

232

196

95

167

150

201

179

258

223

282

238

120

192

172

232

206

299

259

328

276

150

219

196

258

225

344

299

379

319

185

248

223

294

255

392

341

434

364

240

291

261

344

297

461

403

514

430

300

334

298

394

339

530

464

593

497

400

-

-

470

402

634

557

715

597

* with or without a protective conductor
Voltage Drop (Per Amp Per Meter) according to BS 7671 table 4D2B


Nominal Cross Section  Area

Two-core cable d.c.

Two-core cable, single-phase a.c.

Three- or four-core cable, three-phase a.c.

1

2

3

4

mm2

mV/A/m

mV/A/m

mV/A/m

1.5

29

29

25

2.5

18

18

15

4.0

11

11

9.5

6.0

7.3

7.3

6.4

10

4.4

4.4

3.8

16

2.8

2.8

2.4

 

 

r

x

z

r

x

z

25

1.75

1.75

0.170

1.75

1.50

0.145

1.50

35

1.25

1.25

0.165

1.25

1.10

0.145

1.10

50

0.93

0.93

0.165

0.94

0.80

0.140

0.81

70

0.63

0.63

0.160

0.65

0.55

0.140

0.57

95

0.46

0.47

0.155

0.50

0.41

0.135

0.43

120

0.36

0.38

0.155

0.41

0.33

0.135

0.35

150

0.29

0.30

0.155

0.34

0.26

0.130

0.29

185

0.23

0.25

0.150

0.29

0.21

0.130

0.25

240

0.180

0.190

0.150

0.24

0.165

0.130

0.21

300

0.145

0.155

0.145

0.21

0.135

0.130

0.185

400

0.105

0.115

0.145

0.185

0.100

0.125

0.160

Note: *Spacings larger than one cable diameter will result in a large voltage drop.
r = conductor resistance at operating temperature
x = reactance
z = impedance