CCI- RU and BU Cables

OFFSHORE CABLESNEK 606

GrGroupoup

Offshore CablesNEK 606

Dual CompoundHalogen Free - Mud Resistant

(40 Deg C)

Low SmokeFlame Retardant

Fire Resistant

Type Approvals:

ABS American Bureau of Shipping DNV Det Norske Veritas LRS Lloyds Register of Shipping

Type Approvals

ABS DNV

Lloyds Register

3

DUAL COMPOUNDNEK 606 Offshore Cables

The objective of CONTROLCAVI INDUSTRIA was to develop a cable whichwill perform some of the most inhospitable conditions imaginableSaline atmosphere, UV radiation, extremes of temperature, hydrocarbons,oils, drilling fluids and muds while still maintaining the highest levels ofsafety for personnel requiring.High levels of flame retardance with zero emissions of halogens and toxicgases, which can endanger life and the safety of installation.

By developing a sheathing compound which meets the demands of allthese criteria with outstanding fire performance and high level of resistanceto atmospheric and chemical attack, CONTROLCAVI INDUSTRIA can offerowners and operators the perfect solution for the transmission of allelectrical energy, from mV signals to Medium tensions.

The result of this development is a cable with properties far in excess of therequirements stipulated in NEK 606 and associates IEC specifications. Inaddition, the conductors, insulating and sheathing compounds have thefollowing unique properties:

DUAL COMPOUND sheathing which is both halogen free andresistant to drilling fluids, muds and associates environmental conditions.

EASE OF INSTALLATION always an important consideration,for medium to large cross sectional cables, from the conceptual designthrough to the final installation with the unique conductor configuration ofmulti stranded class 2 tinned conductors which have the electricalresistance of traditional minimal strand conductors.CONTROLCAVI INDUSTRIA have developed a unique solution whichreduces total installation costs by offering a significant reduction inbending radius and speed of installation.

4

COLD BEND AND IMPACT (CSA C22.2) 40 Deg Cwith the search of hydrocarbons in ever more inhospitable climates andincreased use of FPSO vessels which can find themselves operating inextremes of temperature from one field to another, all cables manufacturedby CONTROLCAVI INDUSTRIA can be installed and operate attemperatures down to 40 Deg Centigrade.(test witnessed by ABS, DNV and LRS)

HEPR INSULATION in order to increase the insulating properties,and, as a result the current carrying capacity of 0,6/1 kV cables andabove, CONTROLCAVI INDUSTRIA have developed High ModulusEthylene Propylene Rubber (HEPR) compound.This offers superior insulation constant (Ki) and significantly improvedageing performance at higher operating temperatures than the traditional85 Deg C EPR compounds. These results can be seen below on the ARRHENIUSGRAPH obtained by performing the Thermal Endurance Evaluation accordingto IEC 60216, where Temperature Index achieved has been Ti = 114 Deg C(witnessed by ABS, DNV and LRS)

2,66 2,61 2,56 2,51 2,46 2,41 2,36 2,31 2,26 2,21 2,16 2,11100.000

10.000

20.000

1.000

100

100 110 114 120 130 140 150 160 170 180 190 20010

Reciprocal thermodynamic temperature (1000/Deg K)

Tim

e (h

ours

)

Temperature (Deg C)

5

Reference Standards The informations in this catalog apply to materials, constructions, andtesting of power and telecommunication shipboard and offshore cablesaccording to next standards:

IEC 60092-350 Low voltage shipboard power cables.General construction and test requirements.

IEC 60092-351 Insulating materials of shipboard power cables.

IEC 60092-353 Single and multicore non-radial field power cables with extruded solid insulation for rated voltages 1 kV and 3 kV.

IEC 60092.354 Single and three-core power cables with extruded solid insulation for rated voltages 6 kV, 10 kV and 15 kV

IEC 60092-359 Sheathing materials for shipboard power and telecommunication cables.

IEC 60092-375 Shipboard telecommunication cables and radio-frequency cables. General instrumentation, control and telecommunicationcables.

IEC 60331 Fire-resistant characteristics of electric cables

IEC 60332-1 Tests on electric cables under fire conditions.Test on a single vertical insulated wire or cable.

IEC 60332-3 Tests on electric cables under fire conditions.Tests on bunched wires or cables

IEC 60754-1/2 Test on gases evolved during combustion of electric cables.Part 1: Determination of the haogen acid gasPart 2: Determination of the degree of acidity duringthe combustion of materials taken from electric cablesby measuring pH and conductivity.

IEC 61034-1/2 Measurement of smoke density of cables burning under defined conditions.

NEK 606 Cables for offshore installation halogen-free or mud resitant

NVE 1990 FEA-M regulation Regulation for electrical installations - maritime installationsClause 1238 Methodes of earthing and dimensions

CSA C22.2 N 38-95Thermoset Insulated Wires and Cables - Wiring ProductsClause 6.4.4 Low Temperature Flexibility (- 40 Deg C)Clause 6.4.5 Low Temperature Impact (- 40 Deg C)

6

Cable designationin accordance to NEK 606

R ethylene propylene (HEPR or EPR) insulation halogen free flame retardant

B mica tape + HEPR or EPR insulationfire resistant halogen free flame retardant

F SHF2 thermosetting bedding compoundhalogen free flame retardant

O tinned copper wire braid armour

U SHF2 thermosetting dual compoundHALOGEN FREE & MUD RESISTANT flame retardant - low temperature - 40 Deg C

(C) common screen of copper / polyester tapetinned copper drain wire over assembled pairs / triples

( I ) individual screen of copper / polyester tapetinned copper drain wire over each pair / triple

P1/P8 power & control 0,6 / 1 kVHALOGEN FREE & MUD RESISTANT flame retardant

P2/P9 power medium voltage 3,6 / 6 kVHALOGEN FREE & MUD RESISTANT flame retardant

P3/P10 power medium voltage 6 / 10 kVHALOGEN FREE & MUD RESISTANT flame retardant

P4/P11 power medium voltage 8,7 / 15 kVHALOGEN FREE & MUD RESISTANT flame retardant

P5/P12 power & control 0,6 / 1 kVHALOGEN FREE & MUD RESISTANT flame retardant fire resistant

S1/S5 instrumentation individual screen 250 VHALOGEN FREE & MUD RESISTANT flame retardant

S2/S6 instrumentation common screen 250 VHALOGEN FREE & MUD RESISTANT flame retardant fire resistant

S3/S7 instrumentation individual screen 250 VHALOGEN FREE & MUD RESISTANT flame retardant fire resistant

S4/S8 instrumentation common screen 250 VHALOGEN FREE & MUD RESISTANT flame retardant fire resistant

8

NEK 606

Halogen freeMUD resistant

40 Deg C

Flame retardant

PPPOOOWWWEEERRR &&& CCCOOONNNTTTRRROOOLLL UUUNNNAAARRRMMMOOOUUURRREEEDDD

RRRUUU 000,,,666///111 kkkVVV HHHAAALLLOOOGGGEEENNN FFFRRREEEEEE &&& MMMUUUDDD RRREEESSSIIISSSTTTAAANNNTTT

Design and construction IEC 60092-353 IEC 60092-3 Operating temperature 85 Deg C Nominal voltage Uo / U 0.6 / 1 kV Flame retardancy IEC 60332-1 IEC 60332-3 cat A Corrosivity IEC 60754 -1 IEC 60754-2 Smoke density IEC 61034-2 MUD resistance NEK 606

CONSTRUCTION DATA

1. CONDUCTOR tinned copper IEC 60228 class 2 2. INSULATION halogen free HEPR compound 3. SEPARATOR halogen free tape

4. OUTER SHEATH SHF2 thermoset dual compound halogen free & MUD resistant

CORES IDENTIFICATION

1 core off-white (grey) 2 cores off-white - black 3 cores off-white - black - red 4 cores off-white - black - red - blue

5 cores and above white & numbered

sheath colour black

SHEATH MARKING CCI RU 0.6/1 kV n x s / braid mm2 NEK 606 IEC 60332-3A QA ref metric marking

RU 0,6/1 kV Nominal dimensional and electrical data 0,6/1 KV

CONSTRUCTION INSULATION OVERAL WEIGHT CONDUCTOR CURRENT SHORT

THICKNESS DIAMETER (APPROX) RESISTANCE RATING CIRCUIT

(APPROX) AT 20 Deg C AT 45 Deg C RATING

(mm) (mm) (mm) (kg/km) Ohm/km (A) (KA)

1x16 1,0 10,0 225 1,160 90 2,331x25 1,2 12,0 330 0,735 120 3,651x35 1,2 13,0 435 0,530 145 5,111x50 1,4 15,5 580 0,391 180 7,301x70 1,4 17,0 820 0,270 225 10,201x95 1,6 19,0 1075 0,195 275 13,901x120 1,6 21,5 1345 0,154 320 17,501x150 1,8 23,5 1670 0,126 365 21,901x185 2,0 25,5 2050 0,100 415 27,001x240 2,2 29,0 2655 0,076 490 35,001x300 2,4 32,0 3390 0,061 560 43,80

2x1,5 1,0 10,0 140 12,200 17 0,212x2,5 1,0 10,5 175 7,560 24 0,352x4 1,0 12,5 225 4,700 32 0,582x6 1,0 13,0 295 3,110 41 0,87

3x1,5 1,0 10,5 160 12,200 14 0,213x2,5 1,0 12,0 195 7,560 20 0,363x4 1,0 12,5 275 4,700 27 0,583x6 1,0 14,0 340 3,110 34 0,873x10 1,0 16,0 510 1,840 47 1,463x16 1,0 19,0 750 1,160 63 2,333x25 1,2 22,5 1105 0,735 84 3,653x35 1,2 25,5 1460 0,530 102 5,113x50 1,4 29,0 2040 0,391 126 7,303x70 1,4 34,0 2850 0,270 158 10,203x95 1,6 38,5 3675 0,195 193 13,903x120 1,6 42,0 4600 0,154 224 17,503x150 1,8 47,0 5750 0,126 256 21,90

4x1,5 1,0 12,0 190 12,200 14 0,214x2,5 1,0 12,5 245 7,560 20 0,364x4 1,0 14,0 330 4,700 27 0,584x6 1,0 15,5 445 3,110 34 0,874x10 1,0 18,5 640 1,840 47 1,464x16 1,0 20,5 950 1,160 63 2,334x25 1,2 25,5 1455 0,735 84 3,654x35 1,2 28,5 1915 0,530 102 5,114x50 1,4 33,0 2630 0,391 126 7,30

7x1,5 1,0 14,5 295 12,200 11 0,2112x1,5 1,0 18,0 475 12,200 9 0,2119x1,5 1,0 21,5 715 12,200 8 0,21

7x2,5 1,0 15,5 380 7,560 15 0,3612x2,5 1,0 21,0 580 7,560 12 0,3619x2,5 1,0 24,0 875 7,560 11 0,36

IIINNNSSSTTTRRRUUUMMMEEENNNTTTAAATTTIIIOOONNN UUUNNNAAARRRMMMOOOUUURRREEEDDD

RU(c) 250 V HHHAAALLLOOOGGGEEENNN FFFRRREEEEEE &&& MMMUUUDDD RRREEESSSIIISSSTTTAAANNNTTT --- CCCOOOMMMMMMOOONNN SSSCCCRRREEEEEENNN

Design and construction IEC 60092-375 IEC 60092.353

IEC 60092.3 Nominal voltage 250 V Operating temperature 85 Deg C Flame retardancy IEC 60332-1 IEC 60332-3 cat A Corrosivity IEC 60754-1 IEC 60754-2 Smoke density IEC 61034-2 MUD resistance NEK 606

CONSTRUCTION DATA

1. CONDUCTOR tinned stranded copper wire IEC 60228 class 2 2. INSULATION halogen free HEPR compound

3. COMMON SCREEN copper/polyester tape tinned copper drain wire

4. OUTER SHEATH SHF2 thermoset compound halogen free & MUD resistant

PAIR / TRIPLE IDENTIFICATION

pair black light blue triple light blue black brown

pairs / triples progressively numbered

sheath colour grey blue for intrinsically safe

SHEATH MARKING CCI RU (c) 250 V n x p(trp) x s NEK 606 IEC 60332-3A QA ref metric marking

RU (c) 250 Volt Nominal dimensional and electrical data 250 Volt

CONSTRUCTION INSULATION OVERALL WEIGHT CONDUCTOR

THICKNESS DIAMETER (APPROX) RESISTANCE

(APPROX) AT 20 Deg C

(mm) (mm) (mm) (kg/km) Ohm/km

2 pair 0,75 0,8 11,5 170 26,6004 pair 0,75 0,8 13,5 235 26,6008 pair 0,75 0,8 18,0 430 26,60012 pair 0,75 0,8 21,0 615 26,60016 pair 0,75 0,8 23,0 740 26,60024 pair 0,75 0,8 28,5 1075 26,600


2 triple 0,75 0,8 13,0 210 26,6004 triple 0,75 0,8 15,0 325 26,6008 triple 0,75 0,8 20,5 580 26,60012 triple 0,75 0,8 24,5 825 26,60016 triple 0,75 0,8 26,0 1025 26,60024 triple 0,75 0,8 31,5 1500 26,600



RU(i) 250 V HHHAAALLLOOOGGGEEENNN FFFRRREEEEEE &&& MMMUUUDDD RRREEESSSIIISSSTTTAAANNNTTT --- IIINNNDDDIIIVVVIIIDDDUUUAAALLL SSSCCCRRREEEEEENNN

Design and construction IEC 60092.375 IEC 60092.353

IEC 60092.3 Nominal voltage 250 V Operating temperature 85 Deg C Flame retardancy IEC 60332-1 IEC 60332-3 cat A Corrosivity IEC 60754-1 IEC 60754-2 Smoke density IEC 61034-2 MUD resistance NEK 606

CONSTRUCTION DATA

1. CONDUCTOR tinned stranded copper wire IEC 60228 class 2 2. INSULATION halogen free HEPR compound

3. INDIVIDUAL SCREEN Copper / Polyester tape tinned copper drain wire

4. OUTER SHEATH SHF2 thermoset compound halogen free & MUD resistant





SHEATH MARKING CCI RU (i) 250 V n x p(trp) x s mm2 NEK 606 IEC 60332-3A QA ref metric marking

RU (i) 250 Volt Nominal dimensional and electrical data 250 Volt





1 pair 0,75 0,8 8,0 95 26,6002 pair 0,75 0,8 12,0 185 26,6004 pair 0,75 0,8 13,0 275 26,6008 pair 0,75 0,8 18,5 530 26,60012 pair 0,75 0,8 21,5 750 26,60016 pair 0,75 0,8 24,5 940 26,60024 pair 0,75 0,8 30,0 1415 26,600


1 triple 0,75 0,8 8,5 110 26,6002 triple 0,75 0,8 13,0 230 26,6004 triple 0,75 0,8 15,0 355 26,6008 triple 0,75 0,8 20,5 675 26,60012 triple 0,75 0,8 24,5 975 26,60016 triple 0,75 0,8 28,0 1240 26,60024 triple 0,75 0,8 34,0 1825 26,600


IEC 60332.3 Cat. A FLAME RETARDANT TEST

10

NEK 606

Halogen freeMUD resistant

40 Deg C

Fire resistant

PPPOOOWWWEEERRR &&& CCCOOONNNTTTRRROOOLLL UUUNNNAAARRRMMMOOOUUURRREEEDDD

BBBUUU 000,,,666///111 kkkVVV HHHAAALLLOOOGGGEEENNN FFFRRREEEEEE &&& MMMUUUDDD RRREEESSSIIISSSTTTAAANNNTTT

FFFIIIRRREEE RRREEESSSIIISSSTTTAAANNNTTT

Design and construction IEC 60092-353 IEC 60092-3 Operating temperature 85C Nominal voltage Uo / U 0.6 / 1 kV Flame retardancy IEC 60332-1 IEC 60332-3 cat A Fire resistance IEC 60331-21 Corrosivity IEC 60754 -1 IEC 60754-2 Smoke density IEC 61034-2 MUD resistance NEK 606

CONSTRUCTION DATA

1. CONDUCTOR tinned copper IEC 60228 class 2

2. INSULATION mica tape + halogen free HEPR compound 3. SEPARATOR halogen free tape

4. OUTER SHEATH SHF2 thermoset dual compound halogen free & MUD resistant

CORES IDENTIFICATION

1 core off-white (grey) 2 cores off-white - black 3 cores off-white - black - red 4 cores off-white - black - red - blue

5 cores and above white & numbered

sheath colour black

SHEATH MARKING CCI BU 0.6/1 kV n x s / braid mm2 NEK 606 IEC 60331-21 QA ref metric marking

BU 0,6/1 kV Nominal dimensional and electrical data 0,6/1 KV

CONSTRUCTION INSULATION OVERALL WEIGHT CONDUCTOR CURRENT SHORT

THICKNESS DIAMETER (APPROX) RESISTANCE RATING CIRCUIT

(APPROX) AT 20 Deg C AT 45 Deg C RATING

(mm) (mm) (mm) (kg/km) Ohm/km (A) (KA)

1x16 1,0 10,0 240 1,160 90 2,331x25 1,2 12,0 355 0,735 120 3,651x35 1,2 13,5 460 0,530 145 5,111x50 1,4 15,5 615 0,391 180 7,301x70 1,4 17,0 820 0,270 225 10,201x95 1,6 19,5 1110 0,195 275 13,90

1x120 1,6 21,5 1375 0,154 320 17,501x150 1,8 24,0 1680 0,126 365 21,901x185 2,0 26,5 2070 0,100 415 27,001x240 2,2 29,0 2700 0,076 490 35,001x300 2,4 32,0 3335 0,061 560 43,80

2x1,5 1,0 10,5 150 12,200 17 0,212x2,5 1,0 11,5 190 7,560 24 0,352x4 1,0 12,5 245 4,700 32 0,582x6 1,0 13,5 305 3,110 41 0,87

3x1,5 1,0 11,5 175 12,200 14 0,213x2,5 1,0 12,0 220 7,560 20 0,363x4 1,0 13,5 305 4,700 27 0,583x6 1,0 15,0 380 3,110 34 0,873x10 1,0 17,0 550 1,840 47 1,463x16 1,0 19,0 775 1,160 63 2,333x25 1,2 23,0 1170 0,735 84 3,653x35 1,2 26,5 1555 0,530 102 5,113x50 1,4 31,0 2125 0,391 126 7,30

4x1,5 1,0 12,5 230 12,200 14 0,214x2,5 1,0 13,5 295 7,560 20 0,364x4 1,0 15,5 375 4,700 27 0,584x6 1,0 16,5 485 3,110 34 0,874x10 1,0 19,5 690 1,840 47 1,464x16 1,0 21,0 1010 1,160 63 2,334x25 1,2 26,0 1515 0,735 84 3,654x35 1,2 29,0 1965 0,530 102 5,114x50 1,4 33,0 2680 0,391 126 7,30

7x1,5 1,0 14,5 330 12,200 11 0,2112x1,5 1,0 19,5 510 12,200 9 0,2119x1,5 1,0 23,0 775 12,200 8 0,21

7x2,5 1,0 16,0 405 7,560 15 0,3612x2,5 1,0 21,0 645 7,560 12 0,3619x2,5 1,0 25,0 980 7,560 11 0,36


BU(c) 250 V HHHAAALLLOOOGGGEEENNN FFFRRREEEEEE &&& MMMUUUDDD RRREEESSSIIISSSTTTAAANNNTTT CCCOOOMMMMMMOOONNN SSSCCCRRREEEEEENNN



IEC 60092.3 Nominal voltage 250 V Maximum rated temperature 85 Deg C Flame retardancy IEC 60332-1 IEC 60332-3 cat A Fire resistance IEC 60331 Corrosivity IEC 60754-1 IEC 60754-2 Smoke density IEC 61034-2 MUD resistance NEK 606

CONSTRUCTION DATA

1. CONDUCTOR tinned stranded copper wire IEC 60228 class 2

2. INSULATION mica tape + halogen free HEPR compound

3. COMMON SCREEN copper/Polyester tape tinned copper drain wire 4. OUTER SHEATH SHF2 thermoset compound halogen free & MUD resistant)





SHEATH MARKING

CCI BU (c) 250 V n x p(trp) x s mm2 NEK 606 IEC 60331-21 QA ref metric marking

BU (c) 250 Volt Nominal dimensional and electrical data 250 Volt










BU(i) 250 V HHHAAALLLOOOGGGEEENNN FFFRRREEEEEE &&& MMMUUUDDD RRREEESSSIIISSSTTTAAANNNTTT IIINNNDDDIIIVVVIIIDDDUUUAAALLL SSSCCCRRREEEEEENNN



IEC 60092.3 Nominal voltage 250 V Maximum rated temperature 85 Deg C Flame retardancy IEC 60332-1 IEC 60332-3 cat A Fire resistance IEC 60331-21 Corrosivity IEC 60754-1 IEC 60754-2 Smoke density IEC 61034-2 MUD resistance NEK 606

CONSTRUCTION DATA

1. CONDUCTOR tinned stranded copper wire IEC 60228 class 2

2. INSULATION mica tape + halogen free HEPR compound

3. INDIVIDUAL SCREEN copper/Polyester tape tinned copper drain wire 4. OUTER SHEATH SHF2 thermoset compound halogen free & MUD resistant


pair black light blue

triple light blue black brown pairs / triples progressively numbered


SHEATH MARKING

CCI BU (i) 250 V n x p(trp) x s mm2 NEK 606 IEC 60331-21 QA ref metric marking

BU (i) 250 Volt Nominal dimensional and electrical data 250 Volt









IEC 60331 FIRE RESISTANT TEST

28

Generals

GeneralsSome parameters affecting operational chacteristics of the cablesmentioned in this catalog

CONDUCTOR RESISTANCEIt is the most important parameter of the conductor sizing related to: conductor resistivity [ / mm 2/m]l conductor length [km]A cross area [mm 2]t temperature [Deg C]f frequency [Hz]

For low frequencies, conductor resistance is equal to DC condition.

R = l / A []

Temperature influence is calculated as:

Rt = R20 (234,5 + t) / 254,5 []

where:Rt conductor resistance []R20 conductor resistance at 20 Deg C []t conductor temperature [Deg C]Conductor resistance increases with frequency.

INSULATION RESISTANCEIts a peculiar characteristic of the insulation material.An higher value of insulation resistance means larger insulating capacityof the insulation.The "insulation resistance constant Ki" is calculated from the measuredinsulation resistance by the following formula:

Ki = l R 10-11 / (log10D / d) [M km]

where:R measured insulation resistance []l length if the cable [m]D outer diameter of the insulation [mm]d inner diameter of the insulation [mm]

39

REACTANCEIn a cable operating in a.c. it is related mainly to axial distance betweenconductors.For 2 - 3 - 4 conductors the reactance per phase could be calculated as:

X = 2 f L I []

f frequency [Hz]L Induction [H/m]l core length [m]L Induction Is calculates as follows:

L = 0,2 [(ln 2a / d) + 0.25] 10-6 [H/m]

a distance between cores [mm]d core diameter [mm]

MEDIUM VOLTAGE CABLES - REACTANCE

IMPEDANCEZ = (R2 + X2) []

R resistance []X reactance []

40

CROSS SECTION SINGLE CORE [/km] THREE CORES [/km][mm2] 50 Hz 60 Hz 50 Hz 60 Hz

25 0.147 0.177 0.119 0.14335 0.145 0.174 0.116 0.13950 0.137 0.165 0.108 0.13070 0.130 0.156 0.102 0.12295 0.118 0.142 0.097 0.116

120 0.114 0.137 0.095 0.114150 0.108 0.130 0.092 0.110185 0.107 0.129 0.089 0.107240 0.106 0.127 300 0.086 0.103

MUTUAL CAPACITANCELow mutual capacitance causes small distorsion of the signal.Digital signal transmissions are sensible to this features. Is affected by:- type of conductor construction (increasing of conductor size means

larger capacitance)- insulation thickness (inversely proportional)

ATTENUATIONIt is defined as the decreasing, in signal amplitude, over the total length ofthe cable. Its value increases with the frequency increasing.Minimizing the attenuation means long distance transmission withoutamplification and no distorsions.

INTERFERENCESAre defined as all the noises influencing the signal transmission.They are produced internally the cable (i.e. cross talk) and externally (i.e.power equipments or HF generators).Both can be reduced by using suitable screenings.

INSTRUMENTATION AND TELECOMMUNICATION CABLESELECTRICAL CHARACTERISTICS

41

INDUCTANCEMUTUAL CAPACITANCE LOOP

SIZE (approx)max (approx) RESISTANCE

[mm2][mH/km]

[nF/km] max (approx)

individual screen common screen [/km]

0.75 0.72 < 100 < 95 50.41.0 0.69 < 110 < 100 37.11.5 0.66 < 120 < 110 24.2

CURRENT DETERMINATION according to power and voltageIn case of three-phase systems, determination of the current Intensityrelated to power and voltage can be easily calculated by using:

I = 722 kW / V I = 578 kVA / V I = 531 HP / V

where

I = current intensity [A]V = rated voltage [V]kW = power(cos = 0.8) [kW]kVA = power [kVA] HP = horse power [HP]

VOLTAGE DROP (up to 1 kV)

V = K I L / 1000 [V]

I rated current [A]L electric line length [m]K see following table

nominal K

size 2 cores 3 cores 3 cores (three-foil format.)

[mm2] cos =1 cos = 0.8 cos =1 cos = 0.8 cos =1 cos = 0.81.0 45.00 36.10 39.00 31.30 38.30 30.801.5 30.20 24.30 26.10 21.00 25.70 20.702.5 18.20 14.70 15.70 12.70 15.40 12.504.0 11.40 9.210 9.850 7.980 9.650 7.8706.0 7.560 6.160 6.540 5.340 6.420 5.280

10.0 4.550 3.730 3.940 3.240 3.870 3.22016.0 2.870 2.390 2.480 2.070 2.440 2.07025.0 1.810 1.550 1.570 1.340 1.540 1.34035.0 1.310 1.140 1.130 0.988 1.110 0.99350.0 0.967 0.866 0.838 0.750 0.820 0.76070.0 0.669 0.624 0.579 0.541 0.568 0.55595.0 0.484 0.476 0.419 0.412 0.410 0.428

120.0 0.383 0.394 0.332 0.342 0.325 0.358150.0 0.314 0.341 0.272 0.295 0.265 0.308185.0 0.251 0.289 0.217 0.250 0.213 0.265240.0 0.193 0.245 0.167 0.212 0.163 0.224300.0 0.156 0.215 0.135 0.186 0.132 0.198

42

US / METRIC CROSS SECTION CONVERSION TABLE

43

Metric Standard metric

AWG (U.S.) cross-section cross-section(mm2) (mm2)

20 0.519 0.7518 0.823 116 1.31 1.514 2.08 2.512 3.31 410 5.26 68 8.37 106 13.30 164 21.15 252 33.62 351 42.41 50

1/0 53.49 702/0 67.23 703/0 85.01 954/0 107.2 120

Metric Standard metric

MCM (U.S.) cross-section cross-section(mm2) (mm2)

250 126.7 150300 152.0 150350 177.3 185400 202.7 185450 228.0 240500 253.4 300550 278.7 300600 304.0 300650 329.4 300700 354.7 400750 380.0 400800 405.4 400850 430.7 400900 456.0 500950 481.4 5001000 506.7 5001250 633.4 630

CCI - NEK 606 Offshore Cables - REV 0 11.00

All data mentioned in the catalogue may be subject to continuous revision and improved at any time

GrGroup

CCI- RU and BU Cables

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