Marine Cables
Transcription
Marine Cables
MARINE CABLES FINLAND Prysmian Cables & Systems Oy Kaapelitie 68, Pikkala P.O. BOX 13, FI-02401 Kirkkonummi Finland Tel. +358 10 77551 Fax +358 9 298 2204 GERMANY Prysmian Kabel und Systeme GmbH Austrasse 99 D-96465 Neustadt bei Coburg, Germany Tel. +49 9568 93 2697 Fax +49 9568 93 2527 ITALY Prysmian Cavi e Sistemi Energia Srl Via Sarca 222, 20126 Milan, Italy Tel. +39 02 64491 Fax +39 02 6449 2931 NORWAY Draka Norsk Kabel AS P.O. BOX 369, N-3001 Drammen Tel. +47 64 915 713 Fax +47 64 915 714 www.prysmian.fi RUSSIA Alexey Glushkov Representative for marine and offshore projects in Russia and the CIS countries V.O., line 22, building 3 199106, St. Petersburg T: +7 (812) 932 20 72 F: +7 (812) 640 01 91 M: +7 960 287 33 69 Prysmian Russia 125167, Russia, Moscow, 4th Str. Vosmogo Marta, 6a, build.1 Tel: +7(495) 933 70 36 Fax: +7(495) 933 70 35 Prysmian Russia 125167, Россия, Москва, 4-я улица Восьмого Марта, 6А, строение 1 Тел: +7(495) 933 70 36 Факс: +7(495) 933 70 35 HEAD OFFICE Prysmian Cables and Systems - Viale Sarca 222, 20126 Milano, Italy - tel. +39 02 6449 1, fax +39 02 6449 2931 - www.prysmian.com STURMAN OY / HANNUN TASAPAINO OY / 09-2011 / 1.000 Marine Cables About us The Prysmian Group is a world-class multinational company. Originally founded in 1872 as Ditta Pirelli & C., it has during over a century achieved the leading position in the international cable market, both Energy and Telecom. After the merger of Prysmian with Draka in 2011, the Prysmian group is the biggest cable maker in the world with 98 manufacturing facilities in 50 countries and a combined personnel of about 22000. Prysmian Energy Cables and Systems is a global solutions provider, offering a wide range of integrated solutions, such as cable systems, system design and engineering, project management, installation and post-sale services. Prysmian concentrates on continuous product innovation and on achieving a competitive edge by focusing on research and development. This is done through Prysmian’s own R&D centres and by co-operating with universities, scientific institutions and above all, our customers. Prysmian’s world-wide organisation makes and delivers advanced technological solutions to customers anywhere in the world. 2 Marine Cables Prysmian in Finland Prysmian Cables and Systems Oy has roots going back to 1912, when The Finnish Braiding Factory, the first cable factory in Finland, was founded in Helsinki. The company has since had many names, The Finnish Cable Factory, Nokia Cables, NK Cables and Pirelli Cables and Systems Oy. Since October 2005 it is Prysmian Cables and Systems Oy. In Finland there are two production facilities, the Pikkala cable factory and the Oulu cable factory. The Pikkala factory is situated in Kirkkonummi, about 40 km west of Helsinki along the coast. Production consists of marine cables, heating cables and low, medium and high voltage cables as well as submarine cables. The main customer groups are shipyards, installers, wholesalers, contractors, industry and power utilities. The Oulu factory is situated in the city of Oulu, about 800 km north of Helsinki by the northern end of the Gulf of Bothnia. The main products there are various telecom cables and house wiring cables. Martin Pekuri +358 10 77 55 605 martin.pekuri@ prysmian.com Olli Anttonen +358 10 77 55 603 olli.anttonen@ prysmian.com Katrine Dawson +358 10 77 55 606 katrine.dawson@ prysmian.com Jorma Ikäheimonen +358 10 77 55 496 jorma.ikaheimonen@ prysmian.com Satu Karmavalo +358 10 77 55 828 satu.karmavalo@ prysmian.com Seija Kurtén +358 10 77 55 604 seija.kurten@ prysmian.com Timo Pölkki +358 10 77 55 876 timo.polkki@ prysmian.com Vesa Riitaoja +358 10 77 55 472 vesa.riitaoja@ prysmian.com Susanne Welander +358 10 77 55 618 susanne.welander@ prysmian.com Alexey Glushkov +796 02 873 369 [email protected] Fax: +358 9 298 2204 CONTENTS General 4 > POWER & CONTROL CABLES LM-HF 0,6/1 (1,2) kV Unarmoured Power and Control Cable 6 LSM-HF 0,6/1 (1,2) kV Armoured Power and Control Cable 8 LSM-HF 1,8/3 (3,6) kV Armoured Power Cable 10 > INSTRUMENTATION CABLES LJST-HF 150/250 (300) V Armoured Instrumentation and Telecommunication Cable 12 LJT-HF 150/250 (300) V Screened Instrumentation and Telecommunication Cable 14 HFX-ISOSA/Cu 250 V Individually Screened Instrumentation and Telecommunication Cable 16 SIENOPYR-FR PROFIBUS M-02Y(ST)CHX 100 V Bus-Cable 18 > FIRE RESISTANT CABLES LM-FRHF 0,6/1 (1,2) kV Unarmoured Fire Resistant Power and Control Cable 20 LSM-FRHF 0,6/1 (1,2) kV Armoured Fire Resistant Power and Control Cable 22 SIENOPYR-FR FMHXCH FE 120 150/250 (300) V Armoured Fire Resistant Instrumentation, Communication and Control Cable 24 > MEDIUM VOLTAGE CABLES Approvals All above mentioned test are part of the IEC test procedures for marine cables. As a confirmation of the successfully passed test our products have type approval certificates from the following classification societies: ABS BV 5 DNV GL 5 LR5 RINA RMRS American Bureau of Shipping Bureau Véritas Det Norske Veritas Germanischer Lloyd Lloyd’s Register Registro Italiano Navale Russian Marine Register of Shipping MV-FHFX/A 6/10 (12) kV Armoured Medium Voltage Power Cable 26 MV-FHFX/A 12/20 (24) kV Armoured Medium Voltage Power Cable 28 > TECHNICAL INFORMATION Installation Current rating Identification colours Electrical data 30 32 33 34 3 GENERAL Marine Cables This is based on an amount of 7 litres of combustible material per metre. The bunch of cables has to be minimum 3.5 m high when it is in a test chamber subjected to fire from a burner directed at the cables for forty minutes. The cable bunch may not burn more than 2.5 m above the burner.Please see figure 2. Conductor Fire resistance tests are aimed at verifying the behaviour of a cable´s circuit integrity under fire conditions. The main three different test methods are IEC 60331-21 or IEC 60331-1 or IEC 60331-2, used for power and control cables. Marine cable standards require the IEC 60331-21 test, where the cable sample is subjected to a flame at 750 ˚C for 90 minutes followed by a 15 minutes cooling period while the rated voltage is being applied between the conductors. No breakdown or short circuit is permitted during the test. Please see figure 3. The optional test methods for cables with diameters over 20 mm, is the more rigorous IEC 60331-1 test, or for diameter not exceeding 20 mm IEC 60331-2, in which a bent cable, affected by mechanical shock, is subjected to a 830 ˚C flame for minimum 90 minutes. (ship wiring cables, ship board cables) Marine cables are for installations on board ships. They have been type approved by a classification society and they have a construction that follows standards for marine cables. Marine cable conductors are of stranded annealed copper combining the flexibility and small dimensions to provide excellent installability and economical solutions. To minimise the cable diameter and weight we use sector shaped conductors for bigger cross-section. Insulation Material XLPE (cross-linked polyethylene) is used as the main insulation material. It withstands higher temperatures than ordinary thermoplastic polyethylene. It is resistant against deformation and various chemicals. It has excellent mechanical and electrical properties. The maximum conductor temperature stipulated by IEC 60092-351 marine cable standard is 90 ˚C. Sheathing Material The sheath (jacket) is composed of halogen free, flame retardant thermoplastic compound. It fulfils the criterion of SHF1 according to IEC 60092-359. In case of fire the sheathing material offers advantages such as reduced emission of smoke and corrosive toxic gasses. Quality Control Each manufactured cable goes through a test procedure according to the IEC 60092-300 series standards. Fire Testing Methods Flame retardance of a single cable is tested in accordance with IEC 60332-1-2. It is performed on a 60 cm cable sample with a gas flame for 1-8 min depending on the cable diameter. The cable has to be self-extinguishing within certain limits to fulfil the test. Please see figure 1. Flame spread is tested on bunched cables in accordance with IEC 60332-3-22, simulating the fire behaviour of the cables installed in a bunch. The main category that is used is A. Bunched cables being tested for flame spread. 4 4 Marine Cables Smoke density is tested according to IEC 61034-1 (apparatus) and IEC 61034-2 (procedure and requirements). It is done by placing cable in a ”smoke cube” (3x3x3 m). When the cable is burning, the light transmittance is measured using a photometric system. This test is aimed at simulating visibility when cables are burning on board a ship 60 % (70 % for a single cable) visibility is satisfactory if it is attained throughout the test. Halogens. To test whether a material is halogen free or not, the tests IEC 60754-1 and 60754-2 are used. The acidity of the gasses from burning materials is measured. Being halogen-free means that the materials used in the cables do not contain any halogens – such as chlorine, bromine, iodine and fluorine. In order to attain the self-extinguishing effects that halogens have in cables, ATH (aluminium trihydroxide) based materials are used instead. This way the negative effects of halogens are avoided (corrosivity, toxicity etc.) Test methods (IEC 60331-1 and -2) for fire with shock at a temperature of at least 830 °C Vertical flame propagation test 300 ± 25 Cable sample IEC 60332-1-2 50 1200 ± 25 600 ± 25550 ± 25 475 540 Max. length of downward limit of charred surface Support arm and copper wire wrapping 50 Figure 1. 1 kW burner, 45º angle flame/sample Vertical flame spread of bunched cables IEC 60332-3-22 cat.A Round Steel Rungs 1000 ± 100 Touching Configuration Smoke Outlet (300 ± 30) x (1000 ± 100) 150 Metal Wire Ties 4000 ± 100 Centre Line of Burner Air Inlet (800 ± 20) x (400 ± 10) 600 ± 5 500 ± 5 400 ± 5 Floor 2000 ± 100 Rig raised above ground level Maximum Width Figure 2. Fire resistance test IEC 60331-21 Clamp Cable Sample Support Arm 70 ± 10 Figure 3. Temperature 750 °C Flow Rates (1 bar, 20 °C): Air 80 ± 5 Propane 5 ± 0,25 45 5 Power and Control Cables LM-HF 0,6/1(1,2) kV (TEMA) 6 Marine Cables Unarmoured Power and Control Cable Design > > > > Conductor Annealed stranded plain copper - round 1,5 to 16 mm2 - round compacted 25 to 240 mm2 - sector shaped in 3-4 cores 35 to 240 mm2 Insulation Extruded XLPE - See page 33 for core identification colours Sheath Extruded black halogen free polyolefine, SHF1 Installation information and electrical data on pages 30-35 Standards > > > > > > > > Construction IEC 60092-353 and IEC 60092-350 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-353 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) or (n G mm2) Conductor Diameter/Height approx. (mm) Cable Width approx. (mm) Diameter approx. (mm) Weight approx. (kg/km) Bending Radius min. (mm) POWER CABLES 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 1x300 2x1,5 2x2,5 3x1,5 3x2,5 3x4 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 5x1,5 5x2,5 – – – – 3G1,5 3G2,5 3G4 3G6 4G1,5 4G2,5 4G4 4G6 4G10 4G16 4G25 4G35 4G50 4G70 4G95 4G120 5G1,5 5G2,5 5G6 5G10 5G16 5G25 5,0 5,8 6,9 8,0 9,7 11,3 12,7 14,1 15,7 18,1 20,2 1,6 2,0 1,6 2,0 2,6 3,1 4,0 5,0 5,8 5,6 6,5 7,9 9,3 10,5 11,6 1,6 2,0 2,6 3,1 4,0 5,0 5,8 6,2 7,2 8,6 10,2 11,5 1,6 2,0 3,1 4,0 5,0 5,8 9,2 10,7 12,8 15,1 17,0 18,9 – – – – – – – 8,6 9,9 12,0 14,1 15,8 – – – – – – 9,0 10,5 11,5 13,0 15,0 16,5 18,5 20,5 23,0 25,5 29,0 8,5 9,5 9,0 10,5 11,5 12,5 14,5 17,5 20,0 20,5 23,0 27,0 31,0 34,0 38,0 10,0 11,0 13,0 14,0 16,5 19,0 22,5 23,0 26,5 31,0 35,0 39,0 11,0 12,5 15,5 18,0 21,0 25,0 200 290 385 510 720 970 1210 1490 1840 2390 3100 80 105 100 140 200 260 420 620 940 1170 1550 2200 2950 3700 4600 130 175 260 340 550 800 1200 1550 2050 2900 3900 4900 155 215 430 660 1000 1500 70 85 90 100 120 130 150 160 180 200 230 35 40 40 45 45 50 60 70 80 160 185 215 250 270 300 40 45 55 55 65 75 90 185 210 250 280 310 45 50 65 75 85 100 1,6 1,6 1,6 1,6 2,0 2,0 2,0 – – – – – – – 13,0 16,0 19,0 22,5 14,5 18,0 21,0 220 325 480 670 305 460 690 55 65 75 90 60 75 85 9,9 11,0 13,5 15,2 17,2 18,9 21,8 – – – – – – – 15,0 17,0 19,0 21,0 24,0 26,0 30,0 550 770 1000 1250 1550 1880 2450 90 100 115 125 145 155 180 – – – – – – – – – – – – – – – – – – CONTROL CABLES 7x1,5 12x1,5 19x1,5 27x1,5 7x2,5 12x2,5 19x2,5 CLASS 5 CONDUCTOR 1x50 1x70 1x95 1x120 1x150 1x185 1x240 7 Power and Control Cables LSM-HF 0,6/1(1,2) kV (TEMA-A) 8 Marine Cables Armoured Power and Control Cable Design > > > > > Conductor Annealed stranded plain copper - round 1,5 to 16 mm2 - round compacted 25 to 240 mm2 - sector shaped in 3-4 cores 35 to 240 mm2 Insulation Extruded XLPE - See page 33 for core identification colours Armour Braid of copper wires designed to act as collective screen Sheath Extruded black halogen free polyolefine, SHF1 Installation information and electrical data on pages 30-35 Standards > > > > > > > > Construction IEC 60092-353 and IEC 60092-350 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-353 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) or (n G mm2) Conductor Diameter/Height approx. (mm) Diameter over Braid approx. (mm) Diameter approx. (mm) – – – – – – – – – – – – – – – – – – – 9,2 10,7 12,8 15,1 17,0 18,9 – – – – – – – 8,6 9,9 12,0 14,1 15,8 – – 8,5 9,5 10,5 12,0 14,0 16,0 17,5 19,5 21,5 24,0 7,5 8,5 8,0 9,0 10,0 11,0 13,5 16,0 18,5 19,0 21,5 25,0 28,0 31,5 35,0 8,5 10,0 11,5 13,0 15,5 17,5 20,5 21,5 24,5 28,0 32,0 36,0 9,5 11,0 11,0 12,5 13,5 15,0 17,5 19,0 21,0 23,0 25,0 28,0 10,0 11,0 10,5 11,5 13,0 14,0 16,5 19,0 22,0 23,0 25,5 29,0 33,0 36,5 41,0 11,0 12,5 14,0 16,0 18,5 21,0 24,0 25,5 29,0 33,0 37,0 41,0 12,0 13,5 270 365 470 620 850 1130 1400 1700 2070 2650 130 160 155 195 270 320 520 740 1050 1350 1750 2400 3200 4100 5000 180 250 320 450 670 940 1350 1750 2300 3200 4300 5300 220 290 90 100 110 120 140 150 170 180 200 220 60 65 65 70 80 85 100 115 135 185 205 230 260 290 330 70 80 85 95 115 130 145 200 230 265 300 330 75 85 1,6 1,6 1,6 1,6 2,0 2,0 2,0 – – – – – – – 11,5 14,5 17,0 21,0 13,5 16,5 19,5 14,5 17,5 20,5 24,5 16,5 20,0 23,0 300 470 650 870 430 620 900 105 110 125 145 100 120 140 9,9 11,0 13,5 15,2 17,2 18,9 21,8 – – – – – – – 15,0 17,0 19,0 21,0 24,0 26,0 30,0 17,5 19,0 21,0 23,5 26,0 28,5 32,0 700 920 1170 1450 1550 1770 2700 105 115 125 140 155 170 190 Width approx. (mm) Cable Weight approx. (kg/km) Bending Radius min. (mm) POWER CABLES 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 2x1,5 2x2,5 3x1,5 3x2,5 3x4 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 5x1,5 5x2,5 3G1,5 3G2,5 4G1,5 4G2,5 4G4 4G6 4G10 4G16 4G25 4G35 4G50 4G70 4G95 4G120 5G1,5 5G2,5 5,0 5,8 6,8 7,9 9,6 11,3 12,7 14,1 15,7 18,1 1,6 2,0 1,6 2,0 2,6 3,1 4,0 5,0 5,8 5,6 6,5 7,9 9,3 10,5 11,6 1,6 2,0 2,6 3,1 4,0 5,0 5,8 6,2 7,2 8,6 10,2 11,5 1,6 2,0 CONTROL CABLES 7x1,5 12x1,5 19x1,5 27x1,5 7x2,5 12x2,5 19x2,5 CLASS 5 CONDUCTOR 1x50 1x70 1x95 1x120 1x150 1x185 1x240 9 Power Cables LSM-HF 1,8/3(3,6) kV (TEMA-A) 10 Marine Cables Armoured Power Cable Design > > > > > Conductor Annealed stranded plain copper - round compacted 25 to 240 mm2 Insulation Extruded XLPE - See page 33 for core identification colours - Plastic coated copper tape under the braid in 3-core cables Armour Braid of copper wires Inner covering Extruded halogen free polyolefine in 3-core cables Sheath Extruded black halogen free polyolefine, SHF1 Standards > > > > > > > > Construction IEC 60092-353 and IEC 60092-350 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-353 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) Conductor Diameter approx. (mm) Diameter over Braid approx. (mm) Diameter approx. (mm) Cable Weight approx. (kg/km) Bending Radius min. (mm) LSM-HF 3 kV 1x185 1x240 15,7 18,1 23 25 27 29 2100 2700 330 350 11,3 12,7 14,1 11,3 12,7 38 42 46 36 39 44 48 52 42 45 4700 5700 6700 4200 5200 400 430 470 380 410 LSM-HF 3 kV EMC 3x 95/35 3x120/40 3x150/40 3x 95+3G16 3x120+3G25 11 Instrumentation Cables LJST-HF 150/250 (300) V (TEMA-TA) 12 Marine Cables Armoured Instrumentation and Telecommunication Cable Design > > > > > Conductor Stranded annealed plain copper conductor Insulation Extruded XLPE Pair White and blue cores are twisted to pair (see page 33) Armour (common screen) Combined electrical and mechanical protection Braid of copper wires - Drain conductor Sheath Extruded grey halogen free polyolefine, SHF1 Standards > > > > > > > Construction IEC 60092-376 and IEC 60092-350 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-376 Maximum conductor temperature +90 °C Size (n x 2 x mm2) Conductor Diameter approx. (mm) 1x2x0,5 2x2x0,5 (quad) 4x2x0,5 7x2x0,5 8x2x0,5 10x2x0,5 14x2x0,5 19x2x0,5 24x2x0,5 1x2x0,75 2x2x0,75 (quad) 4x2x0,75 7x2x0,75 8x2x0,75 10x2x0,75 14x2x0,75 19x2x0,75 24x2x0,75 Screen Diameter approx. (mm) 0,9 0,9 0,9 0,9 0,9 0,9 0,9 0,9 0,9 1,1 1,1 1,1 1,1 1,1 1,1 1,1 1,1 1,1 5,5 6,5 10,0 11,5 12,5 14,0 16,0 18,0 20,0 5,7 6,7 10,5 12,5 13,5 15,0 17,5 20,0 23,0 Diameter approx. (mm) Cable 7,5 8,5 12,0 14,0 15,0 17,0 19,0 21,5 24,0 8,0 9,0 13,5 15,0 16,5 18,5 21,0 24,0 27,0 Weight approx. (kg/km) 80 105 190 250 270 350 450 570 680 90 125 230 300 350 450 570 730 890 Bending Radius min. (mm) 45 55 75 85 90 105 115 130 145 50 55 85 95 70 115 130 150 165 (quad) construction used in two pair cables: Electrical data (according to IEC 60092-376) n x 2 x mm2 Conductor resistance at 20 ˚C max W/km Characteristic properties (approximate values) Insulation resistance min MW x km Variable Mutual capacitance n x 2 x 0,5 40,4 1030 n x 2 x 0,75 26,0 1020 Value single pair multi pair Loop inductance 60 nF/km 50 nF/km 0,7 mH/km Troitsky Bridge Courtesy of Admiralty Shipyard 13 Instrumentation Cables LJT-HF 150/250 (300) V (TEMA-TO) 14 Marine Cables Screened Instrumentation and Telecommunication Cable Design > > > > > Conductor Stranded annealed plain copper conductor Insulation Extruded XLPE - See page 33 for core identification colours and numbers Pair White and blue cores are twisted to pair (see page 33) Common screen Plastic coated aluminium tape - Tinned copper drain wire - Coverage 100 % Sheath Extruded grey halogen free polyolefine, SHF1 Standards > > > > > > > Construction IEC 60092-376 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-376 Maximum conductor temperature +90 °C (n x 2 x mm2) Conductor Diameter approx. (mm) 1x2x0,5 2x2x0,5 (quad) 4x2x0,5 7x2x0,5 8x2x0,5 10x2x0,5 14x2x0,5 19x2x0,5 24x2x0,5 1x2x0,75 2x2x0,75 (quad) 4x2x0,75 7x2x0,75 8x2x0,75 10x2x0,75 14x2x0,75 19x2x0,75 24x2x0,75 0,9 0,9 0,9 0,9 0,9 0,9 0,9 0,9 0,9 1,1 1,1 1,1 1,1 1,1 1,1 1,1 1,1 1,1 Size Diameter approx. (mm) Cable 6,6 7,5 11,5 13,5 14,5 15,5 17,5 20,0 22,0 7,5 8,5 12,5 14,5 15,5 17,0 19,5 22,0 24,5 Weight approx. (kg/km) 45 65 120 180 200 240 330 400 500 55 85 155 230 270 320 420 560 690 Bending Radius min. (mm) 55 60 90 110 120 125 145 170 185 60 70 100 120 125 140 160 180 200 (quad) construction used in two pair cables: Electrical data (according to IEC 60092-375) n x 2 x mm2 Conductor resistance at 20 ˚C max W/km Insulation resistance min MW x km n x 2 x 0,5 n x 2 x 0,75 40,4 26,0 1030 1020 Characteristic properties (approximate values) Value Variable Mutual capacitance Loop inductance single pair multi pair 0,5 multi pair 0,75 60 nF/km 45 nF/km 50 nF/km 0,7 mH/km 15 Instrumentation Cables HFX-ISOSA/Cu 250 V (TEMA-TIOA) 16 Marine Cables Individually Screened Instrumentation and Telecommunication Cable Design > > > > > > Conductor Stranded annealed plain copper conductor Insulation Extruded XLPE - Number identification Pair Black and blue cores are twisted to pair Sreen Individual and collective screen of plastic laminated aluminium tape - tinned copper drain wires Armour Braid of plain copper wires Sheath Extruded orange halogen free polyolefine, SHF1 Standards > > > > > > > Construction IEC 60092-375, -376 and 92-3 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-375, -376 Maximum conductor temperature +90 °C Size (n x 2 x mm2) 250 V 2 x 2 x 0,75 4 x 2 x 0,75 7 x 2 x 0,75 10 x 2 x 0,75 14 x 2 x 0,75 19 x 2 x 0,75 24 x 2 x 0,75 Conductor Resistance Diameter max. approx. (Ω/km) (mm) 26,0 26,0 26,0 26,0 26,0 26,0 26,0 1,1 1,1 1,1 1,1 1,1 1,1 1,1 Diameter max. (mm) 13,6 17,0 20,1 24,9 27,1 30,1 34,1 Cable Weight approx. (kg/km) Bending Radius min. (mm) 170 300 420 630 760 1000 1190 109 136 161 199 217 241 273 17 Instrumentation Cables Marine Cables SIENOPYR-FR PROFIBUS M-02Y(ST)CHX Bus-Cable 100V (TEMAPROFIBUS) 18 Design > > > > > > > > Conductor 7 bare copper wires, E-Cu58 F21 to DIN 40500 part 4 cross section: 0,35 mm2 (AWG 22 = 0,325 mm2) Insulation Polyethylene foam (cellular HDPE) Core identification - a core: red - b core: green Laying Laying of the both copper cores with two blind cores Core assembly wrapping Nonwoven plastic textile band Multi layer screen 1. layer: laminated aluminium foil, 2. layer: tinned copper wire braid Inner Sheath according VDE 0207 part 24 Halogen free polymer (HM4) diameter: 8 mm (nominal) Outer Sheath according IEC 60092-359 Halogen free, cross-linked polymer Colour: black Standards > > > > > > Ozone DIN VDE 0472 Part 805, Test B Fire retardance IEC 60332-3-24 (cat C) Corrosivity of combustion gasses IEC 60754-2 Smoke density IEC 61034 Resistance to chemicals (Test to VG 95218 Part 2): - diesel fuel - oils - hydraulic fluids - solvent cleaning agents - de-ionozed water - de-ionized water with 3,5 % NaCl Maximum conductor temperature +80 °C Transmission characteristics > > > > > > > Voltage 100 V Conductor resisitance 1 km loop at 20 ˚C max. 110 W/km Characteristic impedance at 3 to 20 MHz 150 ± 15 W at 38,4 kHz 185 ± 18,5 W at 9,6 kHz 250 ± 25 W Wave attenuation at 16 MHz max. 45 dB/km at 4 MHz max. 22 dB/km at 38,4 kHz max. 5 dB/km at 9,6 kHz max. 3 dB/km Mutual capacitance at 800 Hz max. 30 nF/km Insulation resistance at 20 ˚C min. 16 000 MWkm Outer sheath surface resistance min 109 W Other properties > > > > > Ambient temperatures During operations as bus cable fixed intallation –35 to 80 ˚C During installation –15 to 50 ˚C Conductor temperature in operation max. 80 ˚C Tensile load during installation max. 100 N Bending radius (D = overall diameter ) Single bending min 10 x D Flexing min 20 x D Weight appr. 110 kg/1000 m Outer diameter max 9,8 mm Photos Martin Pekuri 19 Fire Resistant Cables LM-FRHF 0,6/1 (1,2) kV (TEMA-FR) 20 Marine Cables Unarmoured Fire Resistant Power and Control Cable Design > > > > Conductor Annealed stranded plain copper - round 1,5 to 16 mm2 - round compacted 25 to 240 mm2 - sector shaped in 3-4 cores 35 to 240 mm2 Insulation Mica tape with overlap as fire resistant layer Extruded HF90 - see page 33 for core identification colours Sheath Extruded orange halogen free polyolefine, SHF1 Installation information and electrical data on pages 30-35 Standards > > > > > > > > > Construction IEC 60092-353 and IEC 60092-350 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Fire Resistance IEC 60331-1 or IEC 60331-2 Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-353 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) or (n G mm2) Conductor Diameter/Height Width approx. approx. (mm) (mm) Diameter approx. (mm) Cable Weight approx. (kg/km) Bending Radius min. (mm) POWER CABLES 2x1,5 2x2,5 3x1,5 3x2,5 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 4x1,5 4x2,5 3G1,5 3G2,5 4G1,5 4G2,5 1,6 2,0 1,6 2,0 3,1 4,0 5,0 5,8 6,8 6,5 7,9 9,3 10,5 11,6 1,6 2,0 – – – – – – – – – 10,7 12,8 15,1 17,0 18,9 – – 10,0 11,0 10,5 12,0 14,5 16,5 18,5 22,5 25,0 24,5 28,0 32,0 35,0 39,0 11,5 13,0 90 120 110 150 280 450 650 970 1230 1600 2200 3000 3750 4600 140 190 40 45 45 50 60 65 75 130 150 195 225 255 280 310 50 55 1,6 1,6 1,6 1,6 1,6 2,0 2,0 2,0 2,0 – – – – – – – – 12,5 15,0 18,0 21,0 26,0 14,0 16,0 20,0 24,0 170 250 370 550 770 240 330 520 770 50 60 75 85 160 55 65 80 150 CONTROL CABLES 5x1,5 7x1,5 12x1,5 19x1,5 27x1,5 5x2,5 7x2,5 12x2,5 19x2,5 Stril Mermaid Courtesy of Flekkefjord Elektro AS 21 Fire Resistant Cables LSM-FRHF 0,6/1 (1,2) kV (TEMA-AFR) 22 Marine Cables Armoured Fire Resistant Power and Control Cable Design > > > > > Conductor Annealed stranded plain copper - round 1,5 to 16 mm2 - round compacted 25 to 240 mm2 - sector shaped in 3-4 cores 35 to 240 mm2 Insulation Mica tape with overlap as fire resistant layer Extruded HF90 - See page 33 for core identification colours Armour Braid of copper wires designed to act as collective screen Sheath Extruded orange halogen free polyolefine, SHF1 Installation information and electrical data on pages 30-35 Standards > > > > > > > > > Construction IEC 60092-353 and IEC 60092-350 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Fire Resistance IEC 60331-1 or IEC 60331-2 Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-353 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) or (n G mm2) Conductor Diameter/Height Width approx. approx. (mm) (mm) Diameter over Braid approx. (mm) Diameter approx. (mm) Cable Weight approx. (kg/km) Bending Radius min. (mm) POWER CABLES 2x1,5 2x2,5 3x1,5 3x2,5 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 4x1,5 4x2,5 3G1,5 3G2,5 1,6 2,0 1,6 2,0 3,1 4,0 5,0 5,8 6,8 6,5 7,9 9,3 10,5 11,6 1,6 2,0 – – – – – – – – – 10,7 12,8 15,1 17,0 18,9 – – 8,5 9,5 9,0 10,0 13,0 15,0 17,5 20,5 22,0 22,0 25,5 29,5 32,0 35,5 10,0 11,0 11,0 12,5 11,5 13,0 15,0 18,0 20,5 23,5 26,0 26,5 30,0 34,0 37,0 41,0 13,0 14,0 150 190 185 240 420 610 820 1150 1500 1900 2600 3500 4300 5200 230 285 65 75 70 80 95 110 125 140 190 215 240 275 300 330 75 85 1,6 1,6 1,6 1,6 1,6 2,0 2,0 2,0 2,0 – – – – – – – – – 11,5 14,0 17,0 19,5 24,0 13,0 14,5 19,0 22,0 14,0 17,0 20,0 23,0 28,0 16,0 18,0 22,0 26,0 270 410 570 800 1100 390 490 740 1050 85 105 120 140 170 95 110 130 160 CONTROL CABLES 5x1,5 7x1,5 12x1,5 19x1,5 27x1,5 5x2,5 7x2,5 12x2,5 19x2,5 5G1,5 Courtesy of the Royal Caribbean Cruise Line Courtesy of the Royal Caribbean Cruise Line 23 Fire Resistant Cables SIENOPYR-FR FMHXCH FE 120 150/250 (300) V (TEMA-TAFRS) 24 Marine Cables Armoured Fire Resistant Instrumentation, Communication and Control Cable Design > > > > > Conductor Stranded annealed plain copper conductor 0,75 mm2 Insulation White ceramic HF S95 Pair Numbered white cores are twisted to pair (2 pairs is a quad) Armour (common screen) Braid of copper wires Sheath Extruded orange halogen free polyolefine, SHF1 Standards > > > > > > > > Construction IEC 60092 -376 Materials IEC 60228 Class 2 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Fire Resistance IEC 60331-21 or IEC 60331-31 Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-376 Maximum conductor temperature +90 °C Size (n x 2 x mm2) 1x2x0,75 2x2x0,75 (quad) 4x2x0,75 7x2x0,75 10x2x0,75 14x2x0,75 19x2x0,75 24x2x0,75 Conductor Diameter approx. (mm) Diameter approx. (mm) 1,1 1,1 1,1 1,1 1,1 1,1 1,1 1,1 8,0 9,5 12,0 14,5 17,5 20,0 22,0 25,0 Cable Weight approx. (kg/km) Bending Radius min. (mm) 95 130 195 305 430 560 720 880 55 60 75 90 110 125 140 160 (quad) construction used in two pair cables: Electrical data (according to IEC 60092-375) n x 2 x mm 2 n x 2 x 0,75 Conductor resistance at 20 ˚C max W/km Insulation resistance min MW x km 26,0 480 Characteristic properties (approximate values) Value Variable Mutual capacitance Loop inductance max. 120 nF/km 0,7 mH/km Mariner of the Seas Courtesy of Aker Yards Oy 25 Medium Voltage Cables MV-FHFX/A 6/10 (12) kV (TEMA-A) 26 Marine Cables Armoured Medium Voltage Power Cable Design > > > > > > > > Conductor Flexible copper conducter (class 5) Conductor screen Semiconductive tape and extruded compound Insulation Extruded off-white XLPE, nominal thickness 3,4 mm Insulation screen Extruded semiconductive compound Metallic Screen Copper tapes Inner Covering Extruded halogen free compound Armour Braid of copper wires Sheath Extruded red halogen free compound, SHF1 Standards > > > > > > > > Construction IEC 60092-354 and IEC 60092-350 Materials IEC 60228 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-354 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) Conductor Diameter approx. (mm) MV-FHFX/A (FE4H1M1AM1) 1x150 15,6 MV-FHFX/A (FE4H10M1AM1) 3x35 7,5 3x50 8,7 3x70 10,3 3x95 12,1 3x120 13,6 Size Current rating at +45 ˚C ambient 1) (n x mm2) (A) Core Diameter approx. (mm) Inner Cover Thickness approx. (mm) Braid Diameter approx. (mm) Diameter approx. (mm) 25,0 1,2 29,0 33,0 2260 17,0 18,5 20,0 21,5 23,0 1,2 1,2 1,2 1,2 1,2 41,0 44,5 47,5 51,0 54,0 46,0 50,0 53,0 57,0 60,0 3460 4010 4930 6060 7050 Conductor Resistance RDC at +20 ˚C MV-FHFX/A (FE4H1M1AM1) 1x150 369 0,124 MV-FHFX/A (FE4H10M1AM1) 3x35 104 0,524 3x50 130 0,387 3x70 160 0,268 3x95 194 0,193 3x120 225 0,153 1) IEC 60092-352 Table B.4 x 0,95 (see also Tables A.1 - A.8) Cable Weight approx. (kg/km) Inductance L Capacitance C (W/km) at +45 ˚C at +85 ˚C (mH/km) (mF/km) 0,136 0,156 0,318 0,403 0,575 0,425 0,294 0,212 0,168 0,658 0,486 0,337 0,242 0,192 0,357 0,341 0,321 0,307 0,296 0,237 0,264 0,300 0,342 0,377 Other sizes available upon request Liberty of the Seas Courtesy of Aker Yards Oy 27 Medium Voltage Cables MV-FHFX/A 12/20 (24) kV (TEMA-A) 28 Marine Cables Armoured Medium Voltage Power Cable Design > > > > > > > > Conductor Flexible copper conducter (class 5) Conductor screen Semiconductive tape and extruded compound Insulation Extruded off-white XLPE, nominal thickness 5,5 mm Insulation screen Extruded semiconductive compound Metallic Screen Copper tapes Inner Covering Extruded halogen free compound Armour Braid of copper wires Sheath Extruded red halogen free compound, SHF1 Standards > > > > > > > > Construction IEC 60092-354 and IEC 60092-350 Materials IEC 60228 (conductor) IEC 60092-351 (insulation) IEC 60092-359 (sheath) Flame Retardance IEC 60332-3-22 (cat A) and IEC 60332-1-2 Halogen Free Properties IEC 60754-1 and -2 Low Smoke Emission IEC 61034-1 and -2 Tests IEC 60092-354 Choice and Installation IEC 60092-352 Maximum conductor temperature +90 °C Size (n x mm2) Conductor Diameter approx. (mm) Core Diameter approx. (mm) Inner Cover Thickness approx. (mm) Braid Diameter approx. (mm) Diameter approx. (mm) Cable 29,3 1,2 33,4 38,0 2670 21,2 22,4 1,2 1,2 51,3 53,9 58,0 60,0 4780 5450 Weight approx. (kg/km) MV-FHFX/A (FE4H1M1AM1) 1x150 15,6 MV-FHFX/A (FE4H10M1AM1) 3x35 7,5 3x50 8,7 Size Current rating at +45 ˚C ambient 1) (n x mm2) (A) Conductor Resistance RDC at +20 ˚C MV-FHFX/A (FE4H1M1AM1) 1x150 369 0,124 MV-FHFX/A (FE4H10M1AM1) 3x35 104 0,524 3x50 130 0,387 1) IEC 60092-352 Table B.4 x 0,95 (see also Tables A.1 - A.8) Inductance L Capacitance C (W/km) at +45 ˚C at +85 ˚C (mH/km) (mF/km) 0,136 0,156 0,366 0,273 0,575 0,425 0,658 0,486 0,395 0,376 0,169 0,185 Other sizes available upon request Havila Venus Courtesy of Havyard 29 Technical Information General The rated voltage of a cable must not be lower than the nominal voltage of the circuit in which it is used. The ambient temperature during operation should be at least 10 ºC lower than the maximum conductor temperature allowed to the insulation material. Marine Cables Bending Radius The minimum bending radii according to IEC 60092-352 in the final fixed assembly: Insulation Outer covering Overall diameter of cable (D) Minimum internal radius of bend ≤25 mm 4D ≥25 mm 6D Metal braid screened or armoured Any 6D Metal wire armoured Metal tape armoured or metal sheathed Any 6D Composite polyester/metal laminate screened units or collective tape screening Any 8D Thermoplastic or thermosetting with shaped copper conductors Any Any 8D Medium voltage cable single core 12D Any 3-core 9D Rated Voltage The rated voltages of cables are expressed as Uo/U(Um) where Uo U Um the rated voltage between the conductor and earth, or between the conductor and the metal screen for which the cable is designed. the rated voltage between the conductors for which the cable is designed. the highest system voltage for which the cables may be used Unarmoured or unbraided Thermoplastic or thermosetting with circular copper conductors Installation Temperature The minimum installation temperature for thermoplastic sheathed cables is –15 ºC. If, however, the cables are warmed up prior to installation, they can be installed at lower temperatures. Lowest operation temperature -40 °C Earthing of Braids Earthing of braids is to be carried out in accordance with the regulations of the classification society. During installation the recommended radius is 1,5 times the value given in the table. Maximun pulling tension P = 50 N/mm2 x total conductor cross section mm2 value of the cable. Photos Martin Pekuri 30 Special precautions for single core cables for a.c. wiring Whenever possible, a.c. wiring should be carried out with multicore cables. When it is necessary to use single core cables, they should either be unarmoured or armoured with a non-magnetic material. Some other installation examples of single core cables (phases 1, 2 and 3) Four cables per phase When several multi or single core cables are connected in parallel per phase, they should be of the same type and equal length. All cables pertaining to the same phase should be alternated with those of the other phases to avoid unequal division of the current. In the case of two cables per phase, for example, the correct dispositions to conform with IEC 60092-352 (phases 1, 2 and 3) are: 1 3 3 1 2 2 2 2 3 1 1 3 2 3 3 2 1 3 2 1 1 2 1 or 3 Six cables per phase 3 1 1 3 2 2 2 2 2 3 1 1 3 3 1 1 3 2 or 1 or 2 3 3 2 1 2 2 1 3 3 1 or 1 2 3 1 2 3 3 2 1 3 2 1 3 2 1 1 2 1 2 3 3 2 1 3 Ten cables per phase on the same cable tray 3 1 1 3 3 1 1 3 3 1 2 2 2 2 2 2 2 2 2 2 1 3 3 1 1 3 3 1 1 3 Photos Martin Pekuri 31 Current Rating Marine Cables Conductor cross section Cores Current rating for continuous service. Conductor temperature max. +90˚C, ambient max +45˚C. According to IEC 60092-352, Table B.4 for 0,6/1 kV cables. Up to 6 cables bunched together. 1 2 3 4 5 7 12 19 27 37 Reduction 1,00 0,85 0,70 0,70 0,58 0,52 0,44 0,37 0,33 0,30 (mm2) (A) (A) (A) (A) (A) (A) (A) (A) (A) (A) 23 30 41 52 72 96 127 157 196 242 293 339 389 444 522 601 20 26 34 44 61 82 108 133 167 206 249 288 331 377 444 511 16 21 28 36 50 67 89 110 137 169 205 237 272 311 365 421 16 21 28 36 50 67 89 110 137 169 205 237 272 311 365 421 13 18 24 30 42 56 74 92 12 16 10 13 9 11 8 10 7 9 1,5 2,5 4 6 10 16 25 35 50 70 95 120 150 185 240 300 Ambient temperature correction factors according to IEC 60092-352 Temperature (˚C) Correction factor 35 40 45 1,10 1,05 50 55 60 65 1,00 0,94 0,88 0,82 0,74 70 75 0,67 0,58 Short time duty and intermittent service load correction factors (according to IEC 60092-352) Cable diameter Time constant Critical duration (rest time between service periods) D (mm) T (min) 3xT (min) 5 6 7 8 9 10 15 20 25 30 35 40 45 50 60 70 80 90 100 2,2 2,8 3,4 4,1 4,8 5,5 9,5 14 19 24 30 36 42 48 62 76 91 107 123 6,5 8,3 10 12 14 16 28 42 57 73 89 107 125 145 185 228 273 320 368 Service time correction factor Intermittent service correction factor 30 min 60 min 4 min load + 6 min rest 1,058 1,058 1,058 1,059 1,059 1,061 1,081 1,126 1,186 1,255 1,328 1,403 1,479 1,554 1,705 1,852 1,996 2,136 2,273 1,058 1,058 1,058 1,058 1,058 1,058 1,059 1,066 1,081 1,105 1,137 1,173 1,212 1,254 1,341 1,432 1,522 1,613 1,702 1,083 1,127 1,170 1,208 1,242 1,273 1,376 1,433 1,468 1,490 1,506 1,518 1,527 1,534 1,544 1,551 1,556 1,559 1,562 Photos Martin Pekuri 32 32 Identification Colours POWER AND CONTROL CABLE COREs Cable with earth core Cable without earth core Type N 2X Blue 3X 4X 5…37X Blue Line Type Brown PE N 3G G Y Brown Black Grey 4G G Y Brown Black Grey 5G G Y White or black insulation with numbers 7…37G Blue Blue Line Brown Brown Black Grey Brown Black Grey White or black insulation with numbers + last core green and yellow CONTROL AND INSTRUMENTATION cable Cores Pair 1 2 N Core a White insulation + black number Core b Blue insulation + black number 1 3 2*N-1 2 4 2*N kuvia! 33 Electrical Data Marine Cables Cable Type LM-HF, LSM-HF, LM-FRHF, LSM-FRHF Cross Section (n x mm2) (mm2) 1 x 35 1 x 50 1 x 70 1 x 95 1 x 120 1 x 150 1 x 185 1 x 240 1 x 300 2 x 1,5 2 x 2,5 3 x 1,5 3 x 2,5 3x4 3x6 3 x 10 3 x 16 3 x 25 3 x 35 3 x 50 3 x 70 3 x 95 3 x 120 3 x 150 3 x 185 3 x 240 3 x 300 4 x 1,5 4 x 2,5 4x4 4x6 4 x 10 4 x 16 4 x 25 4 x 35 4 x 50 4 x 70 4 x 95 4 x 120 4 x 150 4 x 185 4 x 240 4 x 300 34 34 35 50 70 95 120 150 185 240 300 1,5 2,5 1,5 2,5 4 6 10 16 25 35 50 70 95 120 150 185 240 300 1,5 2,5 4 6 10 16 25 35 50 70 95 120 150 185 240 300 Conductor Resistance (IEC 60228) R at +20 ˚C 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 12,1 7,41 12,1 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 12,1 7,410 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 (W/km) at +45 ˚C 0,575 0,425 0,294 0,212 0,168 0,136 0,109 0,083 0,066 13,289 8,138 13,289 8,138 5,063 3,383 2,010 1,263 0,798 0,575 0,425 0,294 0,212 0,168 0,136 0,109 0,083 0,066 13,289 8,138 5,063 3,383 2,010 1,263 0,798 0,575 0,425 0,294 0,212 0,168 0,136 0,109 0,083 0,066 Inductance L at +85 ˚C 0,658 0,486 0,336 0,242 0,192 0,156 0,124 0,095 0,075 15,191 9,303 15,191 9,303 5,788 3,867 2,297 1,444 0,913 0,658 0,486 0,336 0,242 0,192 0,156 0,124 0,095 0,075 15,191 9,303 5,788 3,867 2,297 1,444 0,913 0,658 0,486 0,336 0,242 0,192 0,156 0,124 0,095 0,075 (mH/km) 0,316 0,315 0,303 0,292 0,284 0,286 0,281 0,276 0,288 0,336 0,313 0,336 0,313 0,293 0,281 0,266 0,254 0,211 0,202 0,200 0,197 0,190 0,189 0,191 0,193 0,190 0,188 0,359 0,336 0,317 0,304 0,289 0,278 0,267 0,258 0,217 0,213 0,206 0,205 0,209 0,209 0,206 0,204 Electrical Data Cable Type LM-HF, LSM-HF, LM-FRHF, LSM-FRHF (n x mm2) 1 x 35 1 x 50 1 x 70 1 x 95 1 x 120 1 x 150 1 x 185 1 x 240 1 x 300 2 x 1,5 2 x 2,5 3 x 1,5 3 x 2,5 3x4 3x6 3 x 10 3 x 16 3 x 25 3 x 35 3 x 50 3 x 70 3 x 95 3 x 120 3 x 150 3 x 185 3 x 240 3 x 300 4 x 1,5 4 x 2,5 4x4 4x6 4 x 10 4 x 16 4 x 25 4 x 35 4 x 50 4 x 70 4 x 95 4 x 120 4 x 150 4 x 185 4 x 240 4 x 300 Reactance (W/km) at 50 Hz at 60 Hz X50 X60 0,099 0,099 0,095 0,092 0,089 0,090 0,088 0,087 0,090 0,106 0,098 0,106 0,098 0,092 0,088 0,083 0,080 0,066 0,064 0,063 0,062 0,060 0,059 0,060 0,061 0,060 0,059 0,113 0,106 0,099 0,096 0,091 0,087 0,084 0,081 0,068 0,067 0,065 0,064 0,066 0,066 0,065 0,064 0,119 0,119 0,114 0,110 0,107 0,108 0,106 0,104 0,108 0,127 0,118 0,127 0,118 0,111 0,106 0,100 0,096 0,080 0,076 0,075 0,074 0,072 0,071 0,072 0,073 0,072 0,071 0,136 0,127 0,119 0,115 0,109 0,105 0,101 0,097 0,082 0,080 0,078 0,077 0,079 0,079 0,078 0,077 Voltage Drop at +85 ˚C cosj=0,8 DC 1,316 0,972 0,673 0,485 0,384 0,311 0,249 0,189 0,151 30,382 18,606 30,382 18,606 11,575 7,734 4,595 2,888 1,825 1,316 0,972 0,673 0,485 0,384 0,311 0,249 0,189 0,151 30,382 18,606 11,575 7,734 4,595 2,888 1,825 1,316 0,972 0,673 0,485 0,384 0,311 0,249 0,189 0,151 (mV/Am) at 50 Hz 1-phase 3-phase at 60 Hz 1-phase 3-phase 1,172 0,896 0,653 0,498 0,415 0,357 0,305 0,255 0,229 24,432 15,003 24,432 15,003 9,371 6,293 3,776 2,406 1,540 1,129 0,853 0,612 0,459 0,379 0,321 0,272 0,223 0,192 24,441 15,011 9,380 6,302 3,785 2,415 1,561 1,150 0,859 0,619 0,465 0,385 0,328 0,278 0,229 0,198 1,195 0,920 0,675 0,520 0,436 0,379 0,326 0,276 0,251 24,458 15,026 24,458 15,026 9,393 6,314 3,796 2,425 1,556 1,144 0,868 0,627 0,474 0,393 0,335 0,286 0,237 0,206 24,468 15,037 9,403 6,324 3,807 2,436 1,581 1,169 0,875 0,635 0,481 0,400 0,343 0,294 0,245 0,213 1,015 0,776 0,565 0,431 0,359 0,309 0,264 0,221 0,198 21,159 12,993 21,159 12,993 8,115 5,450 3,270 2,084 1,334 0,978 0,738 0,530 0,398 0,328 0,278 0,235 0,193 0,166 21,167 13,000 8,123 5,457 3,278 2,091 1,352 0,996 0,744 0,536 0,403 0,333 0,284 0,241 0,198 0,171 1,035 0,796 0,585 0,450 0,378 0,328 0,282 0,239 0,217 21,181 13,013 21,181 13,013 8,135 5,468 3,288 2,100 1,347 0,991 0,751 0,543 0,410 0,340 0,291 0,248 0,206 0,178 21,190 13,022 8,144 5,477 3,297 2,109 1,369 1,013 0,758 0,550 0,417 0,346 0,297 0,254 0,212 0,184 35