high tension low sag conductors technical data … datasheets.pdfoverall diameter of conductor 14,35...
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mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEET
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CODE NAME ACCC® Silvassa
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 122,7
Nominal Diameter of Composite Core 5,97
Nominal Cross-Sectional Area of Core 28,0
Overall Diameter of Conductor 14,35
Nominal Cross-Sectional Area of the Conductor 150,7
Ultimate Tensile Strength of Conductor 67,4
Rate Strength of Core - 313ksi (2158 MPa) 60,4
Core Nominal Mass per Unit Length 54
Conductor Nominal Mass per Unit Length 393,3
Aluminum Nominal Mass per Unit Length 339,9
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,64E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 68,1
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,2286
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,2335
AC Nominal Resistance at 75°C 0,2795
AC Nominal Resistance at 180°C 0,3762
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
AC Current Rating at Given Temp. Amperes458
673
GMR (estimated) 0,01
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
Inductive Reactance 0,245
Capacitive Reactance 0,214
ACCC® is produced with 1350 O-tempered aluminum
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
www.emtaaccc.com
www.emtaconductor.com
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME
STANDARD
ACCC® Helsinki
ASTM B 857 / B 609 or EN 50540
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0,01
0,676
Overall Diameter of Conductor
Manufactured under licence by
No. of Layers
No. of Trapezoidal Wires in First Layer
No. of Trapezoidal Wires in Second Layer
2
Capacitive Reactance
8
12
GMR (estimated)
Inductive Reactance
15,65
0,210
Aluminum Nominal Mass per Unit Length 471,2
Maximum Continuous Operating Temperature of Conductor
Coefficient of Linear Expansion Above Thermal Kneepoint
180
1,61E-06
Maximum Allowable Emergency Temperature of Conductor 200
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS
150,6
5,97
28,0
68,9Ultimate Tensile Strength of Conductor
Nominal Cross-Sectional Area of Core
Nominal Cross-Sectional Area of the Conductor 178,6
60,4
54
Nominal Aluminum Cross-Sectional Area
Nominal Diameter of Composite Core
Conductor Nominal Mass per Unit Length
AC Nominal Resistance at 180°C 0,3064
0,1862
1,74E-05
AC Nominal Resistance at 75°C 0,2277
AC Current Rating at Given Temp.
Core Nominal Mass per Unit Length
Frequency 50
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 66,5
AC Nominal Resistance at 25°C 0,1902
Electrical Specifications
0,00403Temperature Coefficient of Resistance
519
765
Mechanical Specifications
Stranding Configuration
471,2
Rate Strength of Core - 313ksi (2158 MPa)
Amperes
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Copenhagen
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 219,9
Nominal Diameter of Composite Core 5,97
Nominal Cross-Sectional Area of Core 28,0
Overall Diameter of Conductor 18,29
Nominal Cross-Sectional Area of the Conductor 247,9
Ultimate Tensile Strength of Conductor 72,8
Rate Strength of Core - 313ksi (2158 MPa) 60,4
Core Nominal Mass per Unit Length 54
Conductor Nominal Mass per Unit Length 661,0
Aluminum Nominal Mass per Unit Length 607,0
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,88E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,1
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,1272
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,1301
AC Nominal Resistance at 75°C 0,1557
AC Nominal Resistance at 180°C 0,2094
AC Current Rating at Given Temp. Amperes656
971
GMR (estimated) 0,007
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,233
Capacitive Reactance 0,201
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
Alu
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Reykjavik
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 223,1
Nominal Diameter of Composite Core 7,11
Nominal Cross-Sectional Area of Core 39,7
Overall Diameter of Conductor 18,82
Nominal Cross-Sectional Area of the Conductor 262,8
Ultimate Tensile Strength of Conductor 98,3
Rate Strength of Core - 313ksi (2158 MPa) 85,7
Core Nominal Mass per Unit Length 76
Conductor Nominal Mass per Unit Length 693,6
Aluminum Nominal Mass per Unit Length 617,6
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,75E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 66,2
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 6
No. of Trapezoidal Wires in Second Layer 10
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,1256
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,1285
AC Nominal Resistance at 75°C 0,1537
AC Nominal Resistance at 180°C 0,2067
AC Current Rating at Given Temp. Amperes665
986
GMR (estimated) 0,008
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,231
Capacitive Reactance 0,199
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
Alu
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Glasgow
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 236,7
Nominal Diameter of Composite Core 7,75
Nominal Cross-Sectional Area of Core 47,1
Overall Diameter of Conductor 19,53
Nominal Cross-Sectional Area of the Conductor 283,8
Ultimate Tensile Strength of Conductor 115,0
Rate Strength of Core - 313ksi (2158 MPa) 101,7
Core Nominal Mass per Unit Length 86
Conductor Nominal Mass per Unit Length 731,3
Aluminum Nominal Mass per Unit Length 645,3
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,71E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 67,0
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,1184
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,1211
AC Nominal Resistance at 75°C 0,1449
AC Nominal Resistance at 180°C 0,1949
AC Current Rating at Given Temp. Amperes692
1027
GMR (estimated) 0,008
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,228
Capacitive Reactance 0,197
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
Alu
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Casablanca
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 273,6
Nominal Diameter of Composite Core 7,11
Nominal Cross-Sectional Area of Core 39,7
Overall Diameter of Conductor 20,50
Nominal Cross-Sectional Area of the Conductor 313,3
Ultimate Tensile Strength of Conductor 101,1
Rate Strength of Core - 313ksi (2158 MPa) 85,7
Core Nominal Mass per Unit Length 76
Conductor Nominal Mass per Unit Length 834,4
Aluminum Nominal Mass per Unit Length 758,4
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,83E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,9
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,1024
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,1049
AC Nominal Resistance at 75°C 0,1255
AC Nominal Resistance at 180°C 0,1686
AC Current Rating at Given Temp. Amperes754
1120
GMR (estimated) 0,008
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,226
Capacitive Reactance 0,194
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
www.emtaaccc.com
www.emtaconductor.com
Alu
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Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,222
Capacitive Reactance 0,194
AC Nominal Resistance at 180°C 0,2024
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
AC Current Rating at Given Temp. Amperes691
1027
GMR (estimated) 0,009
Frequency 50
AC Nominal Resistance at 25°C 0,1257
AC Nominal Resistance at 75°C 0,1504
No. of Trapezoidal Wires in Second Layer 16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,1230
Temperature Coefficient of Resistance 0,00403
Final Modulus of Elasticity Below Thermal Kneepoint 73,0
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 12
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,39E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Conductor Nominal Mass per Unit Length 798,7
Aluminum Nominal Mass per Unit Length 634,7
Maximum Continuous Operating Temperature of Conductor 180
Ultimate Tensile Strength of Conductor 201,2
Rate Strength of Core - 313ksi (2158 MPa) 188,3
Core Nominal Mass per Unit Length 164
Nominal Diameter of Composite Core 10,54
Nominal Cross-Sectional Area of Core 87,3
Nominal Cross-Sectional Area of the Conductor 315,8
Overall Diameter of Conductor 20,78
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Monte Carlo
STANDARD ASTM B 857 / B 609 or EN 50540
228,5
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
Alu
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Lisbon
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 315,5
Nominal Diameter of Composite Core 7,11
Nominal Cross-Sectional Area of Core 39,7
Overall Diameter of Conductor 21,79
Nominal Cross-Sectional Area of the Conductor 355,2
Ultimate Tensile Strength of Conductor 103,4
Rate Strength of Core - 313ksi (2158 MPa) 85,7
Core Nominal Mass per Unit Length 76
Conductor Nominal Mass per Unit Length 947,6
Aluminum Nominal Mass per Unit Length 871,6
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,88E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,1
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 6
No. of Trapezoidal Wires in Second Layer 10
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0887
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0910
AC Nominal Resistance at 75°C 0,1088
AC Nominal Resistance at 180°C 0,1461
AC Current Rating at Given Temp. Amperes823
1227
GMR (estimated) 0,009
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,222
Capacitive Reactance 0,191
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
Alu
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Oslo
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 313,8
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 22,40
Nominal Cross-Sectional Area of the Conductor 374,1
Ultimate Tensile Strength of Conductor 147,9
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 980,2
Aluminum Nominal Mass per Unit Length 867,2
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,70E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 67,4
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0893
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0911
AC Nominal Resistance at 75°C 0,1091
AC Nominal Resistance at 180°C 0,1469
AC Current Rating at Given Temp. Amperes828
1234
GMR (estimated) 0,009
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,220
Capacitive Reactance 0,189
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Amsterdam
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 367,4
Nominal Diameter of Composite Core 7,75
Nominal Cross-Sectional Area of Core 47,1
Overall Diameter of Conductor 23,55
Nominal Cross-Sectional Area of the Conductor 414,5
Ultimate Tensile Strength of Conductor 122,4
Rate Strength of Core - 313ksi (2158 MPa) 101,7
Core Nominal Mass per Unit Length 86
Conductor Nominal Mass per Unit Length 1101,6
Aluminum Nominal Mass per Unit Length 1015,6
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,88E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,2
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 7
No. of Trapezoidal Wires in Second Layer 11
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0762
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0784
AC Nominal Resistance at 75°C 0,0936
AC Nominal Resistance at 180°C 0,1256
AC Current Rating at Given Temp. Amperes907
1355
GMR (estimated) 0,010
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,217
Capacitive Reactance 0,186
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® ULS Liepzig (ULS Brussels Ice)
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 406,4
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Overall Diameter of Conductor 25,14
Nominal Cross-Sectional Area of the Conductor 477,7
Ultimate Tensile Strength of Conductor 207,1
Rate Strength of Core - 313ksi (2158 MPa) 184,2
Core Nominal Mass per Unit Length 128
Conductor Nominal Mass per Unit Length 1253,6
Aluminum Nominal Mass per Unit Length 1125,6
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 7,51E-07
1,62E-05
Final Modulus of Elasticity Above Thermal Kneepoint 146,7
Final Modulus of Elasticity Below Thermal Kneepoint 71,2
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0690
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0710
AC Nominal Resistance at 75°C 0,0848
AC Nominal Resistance at 180°C 0,1138
AC Current Rating at Given Temp. Amperes1145
1506
GMR (estimated) 0,010
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,213
Capacitive Reactance 0,183
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Brussels
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 421,4
Nominal Diameter of Composite Core 8,13
Nominal Cross-Sectional Area of Core 51,9
Overall Diameter of Conductor 25,15
Nominal Cross-Sectional Area of the Conductor 473,3
Ultimate Tensile Strength of Conductor 135,7
Rate Strength of Core - 313ksi (2158 MPa) 112,0
Core Nominal Mass per Unit Length 98
Conductor Nominal Mass per Unit Length 1264,8
Aluminum Nominal Mass per Unit Length 1166,8
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,89E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,0
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 7
No. of Trapezoidal Wires in Second Layer 12
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0666
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0687
AC Nominal Resistance at 75°C 0,0820
AC Nominal Resistance at 180°C 0,1099
AC Current Rating at Given Temp. Amperes987
1479
GMR (estimated) 0,010
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,213
Capacitive Reactance 0,183
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
GMR (estimated) 0,011
Inductive Reactance 0,210
Capacitive Reactance 0,180
AC Nominal Resistance at 180°C 0,1019
AC Current Rating at Given Temp. Amperes1039
1560
Frequency 50
AC Nominal Resistance at 25°C 0,0637
AC Nominal Resistance at 75°C 0,0760
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0617
Temperature Coefficient of Resistance 0,00403
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
1,85E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 64,8
Stranding Configuration
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 1367,8
Aluminum Nominal Mass per Unit Length 1254,8
Nominal Cross-Sectional Area of the Conductor 514,0
Ultimate Tensile Strength of Conductor 155,7
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Nominal Aluminum Cross-Sectional Area 453,7
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 26,40
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Stockholm 3L
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Stockholm 2L
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 463,3
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 26,40
Nominal Cross-Sectional Area of the Conductor 523,6
Ultimate Tensile Strength of Conductor 156,3
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 1394,3
Aluminum Nominal Mass per Unit Length 1281,3
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,86E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 64,7
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 14
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0605
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0625
AC Nominal Resistance at 75°C 0,0746
AC Nominal Resistance at 180°C 0,0999
AC Current Rating at Given Temp. Amperes1049
1576
GMR (estimated) 0,011
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
Inductive Reactance 0,210
Capacitive Reactance 0,180
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
www.emtaaccc.com
www.emtaconductor.com
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Warsaw
STANDARD ASTM B 857 / B 609 or EN 50540
507,5
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 27,72
Nominal Cross-Sectional Area of the Conductor 567,8
Ultimate Tensile Strength of Conductor 158,7
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 1519,8
Aluminum Nominal Mass per Unit Length 1406,8
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,89E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 64,2
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 11
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0553
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0573
AC Nominal Resistance at 75°C 0,0683
AC Nominal Resistance at 180°C 0,0914
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
AC Current Rating at Given Temp. Amperes1112
1673
GMR (estimated) 0,011
ACCC® is produced with 1350 O-tempered aluminum
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
14
Inductive Reactance 0,207
Capacitive Reactance 0,177
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
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HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Dublin
STANDARD ASTM B 857 / B 609 or EN 50540
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 524,5
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Overall Diameter of Conductor 28,14
Nominal Cross-Sectional Area of the Conductor 595,8
Ultimate Tensile Strength of Conductor 183,3
Rate Strength of Core - 313ksi (2158 MPa) 153,8
Core Nominal Mass per Unit Length 132
Conductor Nominal Mass per Unit Length 1583,0
Aluminum Nominal Mass per Unit Length 1451,0
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,86E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,5
Stranding Configuration
No. of Layers 2
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 14
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0534
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0553
AC Nominal Resistance at 75°C 0,0660
AC Nominal Resistance at 180°C 0,0883
AC Current Rating at Given Temp. Amperes1136
1711
GMR (estimated) 0,011
Inductive Reactance 0,206
Capacitive Reactance 0,176
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Kolkata
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 543,5
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Overall Diameter of Conductor 28,62
Nominal Cross-Sectional Area of the Conductor 614,8
Ultimate Tensile Strength of Conductor 184,4
Rate Strength of Core - 313ksi (2158 MPa) 153,8
Core Nominal Mass per Unit Length 132
Conductor Nominal Mass per Unit Length 1643,2
Aluminum Nominal Mass per Unit Length 1511,2
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,87E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 64,3
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
14
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0517
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0536
AC Nominal Resistance at 75°C 0,0639
AC Nominal Resistance at 180°C 0,0855
AC Current Rating at Given Temp. Amperes1160
1748
GMR (estimated) 0,012
Inductive Reactance 0,205
Capacitive Reactance 0,175
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Hamburg
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 546,4
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 28,62
Nominal Cross-Sectional Area of the Conductor 606,7
Ultimate Tensile Strength of Conductor 160,9
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 1626,9
Aluminum Nominal Mass per Unit Length 1513,9
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,91E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 63,8
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
14
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0514
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0534
AC Nominal Resistance at 75°C 0,0636
AC Nominal Resistance at 180°C 0,0850
AC Current Rating at Given Temp. Amperes1163
1752
GMR (estimated) 0,012
Inductive Reactance 0,206
Capacitive Reactance 0,175
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Milan
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 567,7
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 29,10
Nominal Cross-Sectional Area of the Conductor 628,0
Ultimate Tensile Strength of Conductor 162,1
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 1686,1
Aluminum Nominal Mass per Unit Length 1573,1
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,93E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 63,6
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0494
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0514
AC Nominal Resistance at 75°C 0,0612
AC Nominal Resistance at 180°C 0,0818
AC Current Rating at Given Temp. Amperes1191
1797
GMR (estimated) 0,012
Inductive Reactance 0,205
Capacitive Reactance 0,174
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Rome
STANDARD ASTM B 857 / B 609 or EN 50540
Alu
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 592,5
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Overall Diameter of Conductor 29,89
Nominal Cross-Sectional Area of the Conductor 663,8
Ultimate Tensile Strength of Conductor 187,1
Rate Strength of Core - 313ksi (2158 MPa) 153,8
Core Nominal Mass per Unit Length 132
Conductor Nominal Mass per Unit Length 1773,8
Aluminum Nominal Mass per Unit Length 1641,8
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,90E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 63,8
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 9
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0474
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0494
AC Nominal Resistance at 75°C 0,0588
AC Nominal Resistance at 180°C 0,0785
AC Current Rating at Given Temp. Amperes1225
1850
GMR (estimated) 0,012
Inductive Reactance 0,203
Capacitive Reactance 0,173
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Vienna
STANDARD ASTM B 857 / B 609 or EN 50540
Alu
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Co
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 629,2
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 30,42
Nominal Cross-Sectional Area of the Conductor 689,5
Ultimate Tensile Strength of Conductor 165,6
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 1852,3
Aluminum Nominal Mass per Unit Length 1739,3
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,96E-05
Final Modulus of Elasticity Above Thermal Kneepoint 115,9
Final Modulus of Elasticity Below Thermal Kneepoint 63,1
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0445
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0466
AC Nominal Resistance at 75°C 0,0554
AC Nominal Resistance at 180°C 0,0738
AC Current Rating at Given Temp. Amperes1269
1918
GMR (estimated) 0,012
Inductive Reactance 0,202
Capacitive Reactance 0,172
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Budapest
STANDARD ASTM B 857 / B 609 or EN 50540
Alu
min
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Co
nd
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or
Co
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osi
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 668,3
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Overall Diameter of Conductor 31,50
Nominal Cross-Sectional Area of the Conductor 739,6
Ultimate Tensile Strength of Conductor 191,4
Rate Strength of Core - 313ksi (2158 MPa) 153,8
Core Nominal Mass per Unit Length 132
Conductor Nominal Mass per Unit Length 1983,9
Aluminum Nominal Mass per Unit Length 1851,9
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,94E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 63,2
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0420
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,044
AC Nominal Resistance at 75°C 0,0523
AC Nominal Resistance at 180°C 0,0697
AC Current Rating at Given Temp. Amperes1318
1996
GMR (estimated) 0,013
Inductive Reactance 0,200
Capacitive Reactance 0,170
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEET
CODE NAME ACCC® Mumbai
STANDARD ASTM B 857 / B 609 or EN 50540
Alu
min
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Co
nd
uct
or
Co
mp
osi
te C
ore
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 685,4
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Overall Diameter of Conductor 31,77
Nominal Cross-Sectional Area of the Conductor 756,7
Ultimate Tensile Strength of Conductor 192,4
Rate Strength of Core - 313ksi (2158 MPa) 153,8
Core Nominal Mass per Unit Length 132
Conductor Nominal Mass per Unit Length 2034,9
Aluminum Nominal Mass per Unit Length 1902,9
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,94E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 63,1
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
18
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0410
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0431
AC Nominal Resistance at 75°C 0,0511
AC Nominal Resistance at 180°C 0,0681
AC Current Rating at Given Temp. Amperes1336
2025
GMR (estimated) 0,013
Inductive Reactance 0,199
Capacitive Reactance 0,169
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEET
CODE NAME ACCC® Prague
STANDARD ASTM B 857 / B 609 or EN 50540
Alu
min
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Co
nd
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or
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 690,7
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Overall Diameter of Conductor 31,77
Nominal Cross-Sectional Area of the Conductor 751,0
Ultimate Tensile Strength of Conductor 169,1
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 2029,8
Aluminum Nominal Mass per Unit Length 1916,8
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
1,98E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 62,7
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0407
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0428
AC Nominal Resistance at 75°C 0,0508
AC Nominal Resistance at 180°C 0,0676
AC Current Rating at Given Temp. Amperes1340
2032
GMR (estimated) 0,013
Inductive Reactance 0,199
Capacitive Reactance 0,169
Manufactured under licence by
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
www.emtaaccc.com
www.emtaconductor.com
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Munich
STANDARD ASTM B 857 / B 609 or EN 50540
Overall Diameter of Conductor 32,85
ACCC® is produced with 1350 O-tempered aluminum
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
Nominal Cross-Sectional Area of the Conductor 804,5
Ultimate Tensile Strength of Conductor 195,0
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 733,2
Nominal Diameter of Composite Core 9,53
Nominal Cross-Sectional Area of Core 71,3
Rate Strength of Core - 313ksi (2158 MPa) 153,8
Core Nominal Mass per Unit Length 132
Conductor Nominal Mass per Unit Length 2169,5
Aluminum Nominal Mass per Unit Length 2037,5
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,96E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 62,8
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0384
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0405
AC Nominal Resistance at 75°C 0,0480
AC Nominal Resistance at 180°C 0,0638
AC Current Rating at Given Temp. Amperes1392
2113
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
GMR (estimated) 0,013
Inductive Reactance 0,197
Capacitive Reactance 0,167
Alu
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Co
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or
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osi
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mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® London
STANDARD ASTM B 857 / B 609 or EN 50540
Overall Diameter of Conductor 33,40
ACCC® is produced with 1350 O-tempered aluminum
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
Nominal Cross-Sectional Area of the Conductor 834,1
Ultimate Tensile Strength of Conductor 204,8
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 759,0
Nominal Diameter of Composite Core 9,78
Nominal Cross-Sectional Area of Core 75,1
Rate Strength of Core - 313ksi (2158 MPa) 162,1
Core Nominal Mass per Unit Length 143
Conductor Nominal Mass per Unit Length 2248,1
Aluminum Nominal Mass per Unit Length 2105,1
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,96E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 62,9
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0370
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0391
AC Nominal Resistance at 75°C 0,0464
AC Nominal Resistance at 180°C 0,0616
AC Current Rating at Given Temp. Amperes1424
2164
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
GMR (estimated) 0,013
Inductive Reactance 0,196
Capacitive Reactance 0,166
Alu
min
ium
Co
nd
uct
or
Co
mp
osi
te C
ore
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Paris
STANDARD ASTM B 857 / B 609 or EN 50540
Overall Diameter of Conductor 34,16
ACCC® is produced with 1350 O-tempered aluminum
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
Nominal Cross-Sectional Area of the Conductor 874,0
Ultimate Tensile Strength of Conductor 176,0
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 813,7
Nominal Diameter of Composite Core 8,76
Nominal Cross-Sectional Area of Core 60,3
Rate Strength of Core - 313ksi (2158 MPa) 130,2
Core Nominal Mass per Unit Length 113
Conductor Nominal Mass per Unit Length 2365,4
Aluminum Nominal Mass per Unit Length 2252,4
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,45E-06
2,03E-05
Final Modulus of Elasticity Above Thermal Kneepoint 116,0
Final Modulus of Elasticity Below Thermal Kneepoint 62,0
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
18
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0345
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0368
AC Nominal Resistance at 75°C 0,0435
AC Nominal Resistance at 180°C 0,0576
AC Current Rating at Given Temp. Amperes1480
2254
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
GMR (estimated) 0,014
Inductive Reactance 0,195
Capacitive Reactance 0,165
Alu
min
ium
Co
nd
uct
or
Co
mp
osi
te C
ore
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Bordeaux
STANDARD ASTM B 857 / B 609 or EN 50540
Overall Diameter of Conductor 35,76
ACCC® is produced with 1350 O-tempered aluminum
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
Nominal Cross-Sectional Area of the Conductor 968,2
Ultimate Tensile Strength of Conductor 237,9
Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 880,9
Nominal Diameter of Composite Core 10,54
Nominal Cross-Sectional Area of Core 87,3
Rate Strength of Core - 313ksi (2158 MPa) 188,3
Core Nominal Mass per Unit Length 164
Conductor Nominal Mass per Unit Length 2766,2
Aluminum Nominal Mass per Unit Length 2602,2
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
1,96E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 62,9
Stranding Configuration
No. of Layers 3
No. of Trapezoidal Wires in First Layer 10
No. of Trapezoidal Wires in Second Layer 14
18
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0318
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0340
AC Nominal Resistance at 75°C 0,0402
AC Nominal Resistance at 180°C 0,0531
AC Current Rating at Given Temp. Amperes1560
2381
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
GMR (estimated) 0,014
Inductive Reactance 0,192
Capacitive Reactance 0,162
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mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
No. of Trapezoidal Wires in Fourth Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Antwerp
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 944,9
Nominal Diameter of Composite Core 9,78
Nominal Cross-Sectional Area of Core 75,1
Overall Diameter of Conductor 36,85
Nominal Cross-Sectional Area of the Conductor 1020,0
Ultimate Tensile Strength of Conductor 215,3
Rate Strength of Core - 313ksi (2158 MPa) 162,1
Core Nominal Mass per Unit Length 143
Conductor Nominal Mass per Unit Length 2759,1
Aluminum Nominal Mass per Unit Length 2616,1
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
2,02E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 62,0
Stranding Configuration
No. of Layers 4
No. of Trapezoidal Wires in First Layer 9
No. of Trapezoidal Wires in Second Layer 12
16
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0297
Temperature Coefficient of Resistance 0,00403
20
Frequency 50
AC Nominal Resistance at 25°C 0,0321
AC Nominal Resistance at 75°C 0,0378
AC Nominal Resistance at 180°C 0,0498
AC Current Rating at Given Temp. Amperes1623
2483
GMR (estimated) 0,015
Inductive Reactance 0,190
Capacitive Reactance 0,161
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
pcs.
pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
www.emtaaccc.com
www.emtaconductor.com
Manufactured under licence by
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
No. of Trapezoidal Wires in Third Layer
No. of Trapezoidal Wires in Fourth Layer
16
20
Inductive Reactance 0,188
AC Nominal Resistance at 25°C 0,0303
AC Nominal Resistance at 75°C 0,0356
Capacitive Reactance 0,159
AC Current Rating at Given Temp. Amperes1692
2594
GMR (estimated) 0,015
AC Nominal Resistance at 180°C 0,0467
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0278
Temperature Coefficient of Resistance 0,00403
Frequency 50
No. of Layers 4
No. of Trapezoidal Wires in First Layer 6
No. of Trapezoidal Wires in Second Layer 12
2,00E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 62,3
Stranding Configuration
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
Core Nominal Mass per Unit Length 164
Conductor Nominal Mass per Unit Length 2948,8
Aluminum Nominal Mass per Unit Length 2784,8
Nominal Cross-Sectional Area of the Conductor 1093,8
Ultimate Tensile Strength of Conductor 244,9
Rate Strength of Core - 313ksi (2158 MPa) 188,3
Nominal Aluminum Cross-Sectional Area 1006,5
Nominal Diameter of Composite Core 10,54
Nominal Cross-Sectional Area of Core 87,3
Overall Diameter of Conductor 38,20
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Berlin (Madrid Ice)
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
No. of Trapezoidal Wires in Fourth Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft2) sun radiation
Manufactured under licence by
www.emtaaccc.com
www.emtaconductor.com
GMR (estimated) 0,015
Inductive Reactance 0,188
Capacitive Reactance 0,159
AC Nominal Resistance at 180°C 0,0464
AC Current Rating at Given Temp. Amperes1696
2602
Frequency 50
AC Nominal Resistance at 25°C 0,0302
AC Nominal Resistance at 75°C 0,0354
16
20
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0276
Temperature Coefficient of Resistance 0,00403
No. of Layers 4
No. of Trapezoidal Wires in First Layer 8
No. of Trapezoidal Wires in Second Layer 12
2,04E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 61,8
Stranding Configuration
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
Core Nominal Mass per Unit Length 143
Conductor Nominal Mass per Unit Length 2947,8
Aluminum Nominal Mass per Unit Length 2804,8
Nominal Cross-Sectional Area of the Conductor 1088,2
Ultimate Tensile Strength of Conductor 219,1
Rate Strength of Core - 313ksi (2158 MPa) 162,1
Nominal Aluminum Cross-Sectional Area 1013,1
Nominal Diameter of Composite Core 9,78
Nominal Cross-Sectional Area of Core 75,1
Overall Diameter of Conductor 38,20
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Madrid
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
mm2
mm
mm2
mm
mm2
kN
kN
kg/km
kg/km
kg/km
°C
°C
/°C
Coefficient of Linear Expansion Below Thermal Kneepoint /°C
Gpa
GPa
pcs.
pcs.
pcs.
No. of Trapezoidal Wires in Third Layer pcs.
No. of Trapezoidal Wires in Fourth Layer pcs.
Ω/km
/°C
Hz
Ω/km
Ω/km
Ω/km
@ 100°C & 50 Hz
@180°C & 50 Hz
m
Ω/km
MΩ-km
EMTA KABLO SANAYI VE TİCARET A.Ş.
İstasyon Mahallesi İbişağa Caddesi No:4 34940 Tuzla, İstanbul/TURKEY
Tel: +90 216 446 66 06 / Fax: +90 216 446 43 93
HIGH TENSION LOW SAG CONDUCTORS
TECHNICAL DATA SHEETCODE NAME ACCC® Athens
STANDARD ASTM B 857 / B 609 or EN 50540
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Mechanical Specifications
Nominal Aluminum Cross-Sectional Area 1409,7
Nominal Diameter of Composite Core 10,54
Nominal Cross-Sectional Area of Core 87,3
Overall Diameter of Conductor 44,75
Nominal Cross-Sectional Area of the Conductor 1497,0
Ultimate Tensile Strength of Conductor 267,6
Rate Strength of Core - 313ksi (2158 MPa) 188,3
Core Nominal Mass per Unit Length 164
Conductor Nominal Mass per Unit Length 4065,7
Aluminum Nominal Mass per Unit Length 3901,7
Maximum Continuous Operating Temperature of Conductor 180
Maximum Allowable Emergency Temperature of Conductor 200
Coefficient of Linear Expansion Above Thermal Kneepoint 1,61E-06
2,07E-05
Final Modulus of Elasticity Above Thermal Kneepoint 112,3
Final Modulus of Elasticity Below Thermal Kneepoint 61,2
Stranding Configuration
No. of Layers 4
No. of Trapezoidal Wires in First Layer 9
No. of Trapezoidal Wires in Second Layer 15
20
24
Electrical Specifications
Nominal Resistivity of Aluminum at 20°C, DC 63% IACS 0,0199
Temperature Coefficient of Resistance 0,00403
Frequency 50
AC Nominal Resistance at 25°C 0,0231
AC Nominal Resistance at 75°C 0,0267
AC Nominal Resistance at 180°C 0,0343
AC Current Rating at Given Temp. Amperes2050
3189
GMR (estimated) 0,018
Inductive Reactance 0,178
Capacitive Reactance 0,150
ACCC® is produced with 1350 O-tempered aluminum
ACCC® exhibit lay length (ratios) that conform to ASTM B 857 or EN 50540
Minimum tensile strength of annealed aluminum conform to ASTM B 609 and EN 50540
Conditions: 0,61 m/s (2 ft/s) wind, 0 m (0 ft) elevation, 0,5 emis., 0,5 absorp. 40°C ambient temp., 1033 W/m2 (96 W/ft
2) sun radiation
Manufactured under licence by
www.emtaconductor.com
www.emtaaccc.com