
		Airport Cable

ULV Cables

600/1000V Mica+XLPE Insulated, LSZH Sheathed Power Cables

FFX300 1mRZ1-R (CU/MGT+XLPE/LSZH 600/1000V Single Core)

APPLICATION

Airport cable is designed for areas where the integrity of the electrical properties circuit is critical in maintaining

power supply. Applications can be found in emergency lightings, control and power circuits, power stations, fire

alarm systems, underground tunnels, communications systems, sewage treatment plants, lifts, escalators, and

high-rise buildings.

STANDARDS

Basic design to IEC 60502-1

FIRE PERFORMANCE

Circuit Integrity	IEC60331-21;BS6387 CWZ;DINVDE0472-814(FE180); CEI20-36/2-1; SS229-1;NBNC30-004 (cat.F3);NF C32-070-2.3(CR1)
SystemCircuitIntegrity	DIN4102-12, E30depending on lay system
Flame Retardance (SingleVerticalWireTest)	EN60332-1-2; IEC60332-1-2; BSEN60332-1-2;VDE0482-332-1 ; NBNC30-004 (cat.F1); NF C32-070-2.1(C2); CEI 20-35/1-2; EN50265-2-1;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;NBNC30-004(cat.F2);NFC32-070-2.2(C1);CEI 20-22/3-4; EN 50266-2-4*; 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Note: Asterisk * denotes superseded standard.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

600/1000 V

CABLE CONSTRUCTION

Conductor: Plain annealed copper wire, stranded according to IEC 60228 class 2

Insulation: Mica glass tape covered by 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

Dielectric Test: 3500 Vr.m.s.x 5’(core/core)

Insulation Resistance: 1000 MΩ x km ( at 20°C )

Short circuit Temperature: 250°C ( up to5secs) CONSTRUCTION PARAMETERS

Cale Code	Conductor				Approx. Overall Diameter	Approx. Weight
Cale Code	Nominal CrossSection Area	No./ Nominal Diameter of Strands	Dia.of Conductor	Nominal Insulation Thickness	Approx. Overall Diameter	Approx. Weight
	mm2	No./mm	mm	mm	mm	kg/km
FFX300 1mRZ1-R1G1.5	1.5	7/0.53	1.59	0.7	6.5	54
FFX300 1mRZ1-R1G2.5	2.5	7/0.67	2.01	0.7	6.8	67
FFX300 1mRZ1-R1G4	4	7/0.85	2.55	0.7	7.5	86
FFX300 1mRZ1-R1G6	6	7/1.04	3.12	0.7	8.1	110
FFX300 1mRZ1-R1G10	10	7/1.35	4.05	0.7	9.2	155
FFX300 1mRZ1-R1G16	16	7/1.70	5.1	0.7	10.2	220
FFX300 1mRZ1-R1G25	25	7/2.14	6.42	0.9	11.9	325
FFX300 1mRZ1-R1G35	35	19/1.53	7.65	0.9	13.2	425
FFX300 1mRZ1-R1G50	50	19/1.78	8.9	1	14.6	600
FFX300 1mRZ1-R1G70	70	19/2.14	10.7	1.1	16.6	820
FFX300 1mRZ1-R1G92	95	19/2.52	12.6	1.1	18.7	1100
FFX300 1mRZ1-R1G120	120	37/2.03	14.21	1.2	20.5	1350
FFX300 1mRZ1-R1G150	150	37/2.25	15.75	1.4	22.7	1640
FFX300 1mRZ1-R1G185	185	37/2.52	17.64	1.6	25.5	2040
FFX300 1mRZ1-R1G240	240	61/2.25	20.25	1.7	28.5	2650
FFX300 1mRZ1-R1G300	300	61/2.52	22.68	1.8	31.5	3260
FFX300 1mRZ1-R1G400	400	65/2.85	25.65	2	35.4	4130
FFX300 1mRZ1-R1G500	500	61/3.20	28.8	2.2	39	5200
FFX300 1mRZ1-R1G630	630	127/2.52	32.76	2.4	43.5	6600
FFX300 1mRZ1-R1G800	800	127/2.85	37.05	2.6	48.5	8300
FFX300 1mRZ1-R1G1000	1000	127/3.20	41.6	2.8	53.5	10000

ElectricAl PROPERTIES

Conductor Operating Temperature : 90°C

Ambient Temperature : 30°C

Current-Carrying Capacities (Amp)

Conductor cross- section area	Reference Method4 (enclosed inconduitin thermally insulating walletc)		Reference Method3 (enclosed inconduiton a wallorin trunkingetc)		Reference Method1 (clipped direct)		Reference Method11 (onaperforated cabletray, horizon talorvertical)		Reference Method 12 (free air)
Conductor cross- section area					Reference Method1 (clipped direct)				Horizontal flat spaced	Vertical flat spaced	Trefoil
	2cables, 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- phasea .c.ord.c.flat andtouching	3 or 4cables, 3-phasea.c. flat and touching or trefoil	2cables, single- phasea.c.ord.c. orflat and touching	3 or 4 cables, 3-phase a.c. flat and touching or trefoil	2cables, single- phasea.c. ord.c. or3 cables three phase	2cables, single- phasea.c. or d.c. or 3cables 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)

Nominal CrossSection Area	2cablesd.c.	2cables, single-phasea.c.						3or 4cables, 3-phase a.c.
		Ref. Methods3 and 4(enclosed inconduitetc ,inoron a wall)			Ref. Methods1 and11(clipped directoron traystouching)			Ref. Methods3 and 4(enclosed inconduitetc, inoron a wall)			Ref. Methods1,			Ref. Methods1and11
		Ref. Methods3 and 4(enclosed inconduitetc ,inoron a wall)			Ref. Methods1 and11(clipped directoron traystouching)			Ref. Methods3 and 4(enclosed inconduitetc, inoron a wall)			11 and12 (intrefoil)			(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	1.9	1.85	0.19	1.85	1.6	0.27	1.65	1.6	0.165	1.6	1.6	0.19	1.6
35	1.35	1.35	0.29	1.35	1.35	0.18	1.35	1.15	0.25	1.15	1.15	0.155	1.5	1.15	0.18	1.15
50	0.99	1	0.29	1.05	0.99	0.18	1	0.87	0.25	0.9	0.86	0.155	0.87	0.86	0.18	0.87
70	0.68	0.7	0.28	0.75	0.68	0.175	0.71	0.6	0.24	0.65	0.59	0.15	0.61	0.59	0.175	0.62
95	0.49	0.51	0.27	0.58	0.49	0.17	0.52	0.44	0.23	0.5	0.43	0.145	0.45	0.43	0.17	0.46
120	0.39	0.41	0.26	0.48	0.39	0.165	0.43	0.35	0.23	0.42	0.34	0.14	0.37	0.34	0.165	0.38
150	0.32	0.33	0.26	0.43	0.32	0.165	0.36	0.29	0.23	0.37	0.28	0.14	0.31	0.28	0.165	0.32
185	0.25	0.27	0.26	0.37	0.26	0.165	0.3	0.23	0.23	0.32	0.22	0.14	0.26	0.22	0.165	0.28
240	0.19	0.21	0.26	0.33	0.2	0.16	0.25	0.185	0.22	0.29	0.17	0.14	0.22	0.17	0.165	0.24
300	0.155	0.175	0.25	0.31	0.16	0.16	0.22	0.15	0.22	0.27	0.14	0.14	0.195	0.135	0.16	0.21
400	0.12	0.14	0.25	0.29	0.13	0.155	0.2	0.125	0.22	0.25	0.11	0.135	0.175	0.11	0.16	0.195
500	0.093	0.12	0.25	0.28	0.105	0.155	0.185	0.1	0.22	0.24	0.09	0.135	0.16	0.088	0.16	0.18
630	0.072	0.1	0.25	0.27	0.086	0.155	0.175	0.088	0.21	0.23	0.074	0.135	0.15	0.071	0.16	0.17
800	0.056	-	-	-	0.072	0.15	0.17	-	-	-	0.062	0.13	0.145	0.059	0.155	0.165
1000	0.045	-	-	-	0.063	0.15	0.165	-	-	-	0.055	0.13	0.14	0.05	0.155	0.165

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