ACCC is a breakthrough technology that uses a high strength carbon and glass fibre core to increase the capacity and efficiency of overhead power lines. The Aluminum Conductor Composite Core (ACCC) uses a high strength hybrid composite

core to resist thermal sag through its low coefficient of thermal expansion. The ACCC core’s

lighter weight allows the incorporation of additional aluminum in any given diameter without a

weight penalty. This reduces line losses while increasing transmission capacity. In this way,

the patented core is the strength member of a highly efficient overhead conductor: the next

generation in transmission. ACCC technology replaces older conductors, with the more energy

efficient solution required for today’s needs. ACCC conductors carry power over fully annealed

trapezoidally shaped high-efficiency aluminium wires helically wound around the hybrid carbon

fibre core. The ACCC conductor was designed to combine energy efficiency

with high temperature operation and will operate at cooler temperatures under equal power

flow when compared with other conductors of similar diameter and weight.

The most advanced and efficient conductor for thermal upgrades

• More ultra highly conductive aluminium reduces line losses by 30-40% compared to ACSR

or ACSS conductors of similar size and weight.

• Lower line losses means less power generation and less CO2 emissions to serve the same

load.

• Doubles the capacity of existing ACSR lines with minimal tower modifications because lower

thermal elongation.

• The ability to withstand higher operating temperatures and greater conductivity provide

greater throughput.

• Brings up to date efficiency and cost saving to new lines and new corridor designs, enabling

lower tower heights or a reduced number of towers by using the higher strength and

substantial reduction in thermal sag to facilitate planning permissions and reduce costs.

Innovative design

• Stronger and lighter than steel cores.

• Lower coefficient of thermal expansion reduces sag.

• 25-30% more conductive aluminium without a size or weight penalty increases capacity and

efficiency.

Line hardware

A complete range of hardware has been developed for use with ACCC conductors. This

hardware is effective and easy to use with minimal training. In order to guarantee optimised

performance of the ACCC conductor, tension or dead end clamps and splices or compression

joints are produced by properly licensed manufacturers. A range of accessories that are in

contact with the ACCC conductor, are approved for use in conjunction with ACCC conductor.

Details are available on demand.

Installation

Only authorised ACCC installers should carry out the installation of ACCC conductors. SCW

can arrange for the necessary training and supervision of installations during which nominated

installers or teams can acquire experience and certification as ACCC installers. While ACCC

conductors do not require any specific installation tool, equipment must be suitable for the

particular ACCC conductor size. In this respect, SCW can offer advice and if required

recommend installation tools for use with ACCC conductor. Of special advantage is the

systematic use of 60 ton compression tools on all sizes of ACCC to press the tension clamps

and mid span joints (or splices) on the ACCC™ conductor, making life easier for installation

crews.

Efficiency and current carrying capacity for different types of conductor of the

same weight

Different types of conductor sag

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 150

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC150mm²

160 sq. mm

154.51 sq. mm

27.99 sq. mm

182.5 sq. mm

15.65 mm

427 kg/km

54 kg/km

481 kg/km

69.3kN*

0.1839Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 172mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 6020 mtr. (19750 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×5.97mm

2No

8×3.09mm

12×3.17mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 60.4kN

Trpezoidal wires

height 2.42mm

Area: Layer-1 7.49 sqmm

Layer-2 7.88 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 17.92×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 75.5GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 783 Amp.

AC Resistance at max. operating temp. 0.29889Ω/km

Calculated max.current at 120 Deg.C∧ 660Amp.

Calculated AC Resistance at 120 Deg.C 0.25816Ω/km

Geometric Mean Radius (GMR) 6.09mm

Inductive Reactance @ 0.3m radius at 60Hz 0.29498Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.1748 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =63.96 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 160

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC160mm²

170 sq. mm

160.22 sq. mm

18.25sq. mm

178.47 sq. mm

15.5 mm

443 kg/km

34 kg/km

477 kg/km

51.03kN*

0.1773Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 171mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 5620 mtr. (18440 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×4.82mm

2No

7×3.28mm

12×3.28mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 41.8kN

Trpezoidal wires

height 2.67mm

Area: Layer-1 8.44sqmm

Layer-2 8.43 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.50×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 795 Amp.

AC Resistance at max. operating temp. 0.28828Ω/km

Calculated max.current at 120 Deg.C∧ 670Amp.

Calculated AC Resistance at 120 Deg.C 0.24901Ω/km

Geometric Mean Radius (GMR) 6.04mm

Inductive Reactance @ 0.3m radius at 60Hz 0.29571Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.17526 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =45.49 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 220

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC220mm²

230 sq. mm

220.66 sq. mm

27.99 sq. mm

248.65 sq. mm

18.29 mm

610 kg/km

54 kg/km

664 kg/km

73.11kN*

0.1287Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 201mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 4110 mtr. (13480 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×5.97mm

2No

8×3.62mm

12×3.83mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 60.4kN

Trpezoidal wires

height 3.08mm

Area: Layer-1 10.29 sqmm

Layer-2 11.53 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.17×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.5GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 984 Amp.

AC Resistance at max. operating temp. 0.20943Ω/km

Calculated max.current at 120 Deg.C∧ 827Amp.

Calculated AC Resistance at 120 Deg.C 0.18092Ω/km

Geometric Mean Radius (GMR) 7.12mm

Inductive Reactance @ 0.3m radius at 60Hz 0.28323Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.16736 MΩ.km

Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =65.48 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 235

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC235mm²

250 sq. mm

237.25 sq. mm

47.17 sq. mm

284.42 sq. mm

19.53 mm

656 kg/km

87 kg/km

743 kg/km

115.47kN*

0.1199Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 215mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 3940 mtr. (12930 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×7.75mm

2No

8×3.85mm

12×3.91mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 101.8kN

Trpezoidal wires

height 2.95mm

Area: Layer-1 11.63 sqmm

Layer-2 12.02 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 17.55×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 76.1GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 1043 Amp.

AC Resistance at max. operating temp. 0.19496Ω/km

Calculated max.current at 120 Deg.C∧ 875Amp.

Calculated AC Resistance at 120 Deg.C 0.16842Ω/km

Geometric Mean Radius (GMR) 7.6mm

Inductive Reactance @ 0.3m radius at 60Hz 0.27828Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.16423 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =107kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC285mm²

280 sq. mm

270.03 sq. mm

39.7 sq. mm

309.74 sq. mm

20.5 mm

747 kg/km

76 kg/km

823 kg/km

101.35kN*

0.1053Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 226mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 3390 mtr. (11120 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×7.11mm

2No

8×4.03mm

12×4.22mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 85.84kN

Trpezoidal wires

height 3.35mm

Area: Layer-1 12.78 sqmm

Layer-2 13.98 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 18.68×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 74.3GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1130 Amp.

AC Resistance at max. operating temp. 0.17138Ω/km

Calculated max.current at 120 Deg.C∧ 947Amp.

Calculated AC Resistance at 120 Deg.C 0.14808Ω/km

Geometric Mean Radius (GMR) 7.98mm

Inductive Reactance @ 0.3m radius at 60Hz 0.27463Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.16191 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =92.02 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 310

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC310mm²

320 sq. mm

309.56 sq. mm

39.7 sq. mm

349.27 sq. mm

21.78 mm

855 kg/km

76 kg/km

931 kg/km

103.63kN*

0.0918Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 240mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2440 mtr. (8010 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×7.11mm

2No

6×4.95mm

10×4.97mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 85.8kN

Trpezoidal wires

height 3.67mm

Area: Layer-1 19.25 sqmm

Layer-2 19.41 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.13×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.6GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1235 Amp.

AC Resistance at max. operating temp. 0.14944Ω/km

Calculated max.current at 120 Deg.C∧ 1034Amp.

Calculated AC Resistance at 120 Deg.C 0.12915Ω/km

Geometric Mean Radius (GMR) 8.48mm

Inductive Reactance @ 0.3m radius at 60Hz 0.27006Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.15902 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =92.93 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 310.HS

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC310mm²

320 sq. mm

310.44 sq. mm

60.27 sq. mm

370.71 sq. mm

22.4 mm

859 kg/km

113 kg/km

972 kg/km

147.98kN*

0.0916Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 246mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 3010 mtr. (9880 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×8.76mm

2No

8×4.39mm

12×4.48mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 3.41mm

Area: Layer-1 15.16 sqmm

Layer-2 15.77 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 17.92×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 75.5GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1248 Amp.

AC Resistance at max. operating temp. 0.14911Ω/km

Calculated max.current at 120 Deg.C∧ 1044Amp.

Calculated AC Resistance at 120 Deg.C 0.12884Ω/km

Geometric Mean Radius (GMR) 8.72mm

Inductive Reactance @ 0.3m radius at 60Hz 0.26795Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.15768 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm emissivity

coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =137.25 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 360

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC360mm²

380 sq. mm

365.11 sq. mm

47.17 sq. mm

412.28 sq. mm

23.55 mm

1009 kg/km

87 kg/km

1096 kg/km

122.83kN*

0.0778Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 259mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2280 mtr. (7480 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×7.75mm

2No

7×4.98mm

11×5.14mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 101.8kN

Trpezoidal wires

height 3.95mm

Area: Layer-1 19.5 sqmm

Layer-2 20.78 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.11×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.6GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1376 Amp.

AC Resistance at max. operating temp. 0.12681Ω/km

Calculated max.current at 120 Deg.C∧ 1150Amp.

Calculated AC Resistance at 120 Deg.C 0.10962Ω/km

Geometric Mean Radius (GMR) 9.17mm

Inductive Reactance @ 0.3m radius at 60Hz 0.26417Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.15529 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =110.21 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor: ACCC 415

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC415mm²

430 sq. mm

417.81 sq. mm

51.91 sq. mm

469.72 sq. mm

25.14 mm

1154 kg/km

98 kg/km

1252 kg/km

136.17kN*

0.068Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 277mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2130 mtr. (6990 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×8.13mm

2No

7×5.32mm

12×5.28mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 112.1kN

Trpezoidal wires

height 4.25mm

Area: Layer-1 22.21 sqmm

Layer-2 21.86 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.23×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.4GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1505 Amp.

AC Resistance at max. operating temp. 0.11093Ω/km

Calculated max.current at 120 Deg.C∧ 1256Amp.

Calculated AC Resistance at 120 Deg.C 0.09593Ω/km

Geometric Mean Radius (GMR) 9.79mm

Inductive Reactance @ 0.3m radius at 60Hz 0.25924Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.15218 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =121.73 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 460

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC460mm²

470 sq. mm

457.89 sq. mm

60.27 sq. mm

518.16 sq. mm

26.4 mm

1265 kg/km

113 kg/km

1378 kg/km

156.47kN*

0.062Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 290mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2210 mtr. (7250 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×8.76mm

2No

8×5.22mm

14×5.1mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 4.41mm

Area: Layer-1 21.44 sqmm

Layer-2 20.46 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.05×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.7GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1601 Amp.

AC Resistance at max. operating temp. 0.10129Ω/km

Calculated max.current at 120 Deg.C∧ 1335Amp.

Calculated AC Resistance at 120 Deg.C 0.08761Ω/km

Geometric Mean Radius (GMR) 10.28mm

Inductive Reactance @ 0.3m radius at 60Hz 0.25556Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14984 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =140.65 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 510

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC510mm²

530 sq. mm

510.64 sq. mm

60.27 sq. mm

570.9 sq. mm

27.72 mm

1417 kg/km

113 kg/km

1530 kg/km

159.51kN*

0.0559Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 305mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2900 mtr. (9510 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×8.76mm

3No

8×4.21mm

11×4.44mm

14×4.57mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 3.16mm

Area: Layer-1 13.9 sqmm

Layer-2 15.47 sqmm

Layer-3 16.37 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.39×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.2GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 1714 Amp.

AC Resistance at max. operating temp. 0.09135Ω/km

Calculated max.current at 120 Deg.C∧ 1427Amp.

Calculated AC Resistance at 120 Deg.C 0.07905Ω/km

Geometric Mean Radius (GMR) 10.79mm

Inductive Reactance @ 0.3m radius at 60Hz 0.25188Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14751 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =141.87 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 520

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC520mm²

540 sq. mm

517.97 sq. mm

71.33 sq. mm

589.3 sq. mm

28.15 mm

1431 kg/km

132 kg/km

1563 kg/km

183.64kN*

0.0548Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 310mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 1940 mtr. (6360 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

1×9.53mm

2No

8×5.57mm

14×5.42mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 153.8kN

Trpezoidal wires

height 4.66mm

Area: Layer-1 24.37 sqmm

Layer-2 23.07 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 18.90×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.9GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 1740 Amp.

AC Resistance at max. operating temp. 0.08965Ω/km

Calculated max.current at 120 Deg.C∧ 1448Amp.

Calculated AC Resistance at 120 Deg.C 0.07758Ω/km

Geometric Mean Radius (GMR) 10.96mm

Inductive Reactance @ 0.3m radius at 60Hz 0.25072Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14678 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =165.73 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 540

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC540mm²

560 sq. mm

542.24 sq. mm

60.27 sq. mm

602.51 sq. mm

28.62 mm

1505 kg/km

113 kg/km

1618 kg/km

161.33kN*

0.0526Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 315mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2710 mtr. (8890 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×8.76mm

3No

8×4.31mm

12×4.38mm

14×4.72mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 3.31mm

Area: Layer-1 14.59 sqmm

Layer-2 15.06 sqmm

Layer-3 17.48 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.57×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72.9GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 1785 Amp.

AC Resistance at max. operating temp. 0.08611Ω/km

Calculated max.current at 120 Deg.C∧ 1485Amp.

Calculated AC Resistance at 120 Deg.C 0.08611Ω/km

Geometric Mean Radius (GMR) 11.14mm

Inductive Reactance @ 0.3m radius at 60Hz 0.24947Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14599 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =142.59 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 560

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC560mm²

580 sq. mm

562.48 sq. mm

60.27 sq. mm

622.75 sq. mm

29.1 mm

1561 kg/km

113 kg/km

1674 kg/km

162.5kN*

0.0507Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 320mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2980 mtr. (9780 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×8.76mm

3No

8×4.38mm

12×4.46mm

16×4.5mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 3.39mm

Area: Layer-1 15.04 sqmm

Layer-2 15.62 sqmm

Layer-3 15.92 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.67×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72.7GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 1828 Amp.

AC Resistance at max. operating temp. 0.08307Ω/km

Calculated max.current at 120 Deg.C∧ 1520Amp.

Calculated AC Resistance at 120 Deg.C 0.07193Ω/km

Geometric Mean Radius (GMR) 11.33mm

Inductive Reactance @ 0.3m radius at 60Hz 0.24822Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14519 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =143.06 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 580

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC580mm²

610 sq. mm

584.05 sq. mm

71.33 sq. mm

655.38 sq. mm

29.84 mm

1621 kg/km

132kg/km

1753 kg/km

187.44kN*

0.0489Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 328mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2900 mtr. (9510 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×9.53mm

3No

9×4.25mm

12×4.54mm

16×4.56mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 153.8kN

Trpezoidal wires

height 3.39mm

Area: Layer-1 14.19 sqmm

Layer-2 16.22 sqmm

Layer-3 16.35 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.29×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 73.3GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 1879 Amp.

AC Resistance at max. operating temp. 0.08002Ω/km

Calculated max.current at 120 Deg.C∧ 1561Amp.

Calculated AC Resistance at 120 Deg.C 0.06929Ω/km

Geometric Mean Radius (GMR) 11.62mm

Inductive Reactance @ 0.3m radius at 60Hz 0.24632Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.144 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =167.26 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 620

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC620mm²

640 sq. mm

619.42 sq. mm

60.27 sq. mm

679.69 sq. mm

30.41 mm

1719 kg/km

113 kg/km

1832 kg/km

165.78kN*

0.0461Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 335mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2680 mtr. (8790 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×8.76mm

3No

8×4.56mm

12×4.68mm

16×4.74mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 3.61mm

Area: Layer-1 16.3 sqmm

Layer-2 17.21 sqmm

Layer-3 17.66 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.93×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72.3GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 1946 Amp.

AC Resistance at max. operating temp. 0.07558Ω/km

Calculated max.current at 120 Deg.C∧ 1616Amp.

Calculated AC Resistance at 120 Deg.C 0.06549Ω/km

Geometric Mean Radius (GMR) 11.84mm

Inductive Reactance @ 0.3m radius at 60Hz 0.2449Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14309 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =144.37 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 650

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC650mm²

680 sq. mm

658.42 sq. mm

71.33 sq. mm

729.75 sq. mm

31.5 mm

1827 kg/km

132 kg/km

1959 kg/km

191.73kN*

0.0433Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 347mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2550 mtr. (8370 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×9.53mm

3No

8×4.74mm

12×4.83mm

16×4.87mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 153.8kN

Trpezoidal wires

height 3.66mm

Area: Layer-1 17.64 sqmm

Layer-2 18.29 sqmm

Layer-3 18.61 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.64×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72.8GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 2030 Amp.

AC Resistance at max. operating temp. 0.07116Ω/km

Calculated max.current at 120 Deg.C∧ 1684Amp.

Calculated AC Resistance at 120 Deg.C 0.06168Ω/km

Geometric Mean Radius (GMR) 12.27mm

Inductive Reactance @ 0.3m radius at 60Hz 0.24224Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.14141 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =168.97 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 680

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC680mm²

710 sq. mm

681.19 sq. mm

60.27 sq. mm

741.46 sq. mm

31.77 mm

1891 kg/km

113 kg/km

2004 kg/km

169.34kN*

0.0419Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 349mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2420 mtr. (7940 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×8.76mm

3No

8×4.74mm

12×4.91mm

14×4.99mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 3.84mm

Area: Layer-1 17.64 sqmm

Layer-2 18.92 sqmm

Layer-3 19.56 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 20.17×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 2069 Amp.

AC Resistance at max. operating temp. 0.06889Ω/km

Calculated max.current at 120 Deg.C∧ 1716Amp.

Calculated AC Resistance at 120 Deg.C 0.05974Ω/km

Geometric Mean Radius (GMR) 12.37mm

Inductive Reactance @ 0.3m radius at 60Hz 0.2416Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.141 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =145.79 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 720

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC720mm²

750 sq. mm

721.88 sq. mm

71.33 sq. mm

793.21 sq. mm

32.85 mm

2003 kg/km

132kg/km

2135 kg/km

195.38kN*

0.0395Ω/km

Lay ratio –Outer layer of Aluminum wires :Min.10 Max.13

– Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 361mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2310 mtr. (7580 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×9.53mm

3No

8×4.92mm

12×5.05mm

16×5.12mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 153.8kN

Trpezoidal wires

height 3.89mm

Area: Layer-1 19.04 sqmm

Layer-2 20.05 sqmm

Layer-3 20.56 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.89×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72.4GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 2154 Amp.

AC Resistance at max. operating temp. 0.06508Ω/km

Calculated max.current at 120 Deg.C∧ 1785Amp.

Calculated AC Resistance at 120 Deg.C 0.05645Ω/km

Geometric Mean Radius (GMR) 12.79mm

Inductive Reactance @ 0.3m radius at 60Hz 0.23908Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.13941 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 & absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =170.43 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 740

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC740mm²

770 sq. mm

744.96 sq. mm

75.12 sq. mm

820.09 sq. mm

33.4 mm

2068 kg/km

142 kg/km

2210 kg/km

205.01kN*

0.0383Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 367mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2240 mtr. (7350 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×9.78mm

3No

8×5.01mm

12×5.13mm

16×5.19mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 162.1kN

Trpezoidal wires

height 3.94mm

Area: Layer-1 19.72 sqmm

Layer-2 20.69 sqmm

Layer-3 21.18 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 19.84×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 72.5GPa

Max. allowable continuous operating temp. 175 oC

Rated current at max. temperature∧ 2200 Amp.

AC Resistance at max. operating temp. 0.06311Ω/km

Calculated max.current at 120 Deg.C∧ 1822Amp.

Calculated AC Resistance at 120 Deg.C 0.05476Ω/km

Geometric Mean Radius (GMR) 13.01mm

Inductive Reactance @ 0.3m radius at 60Hz 0.23782Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.13862 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =179.26 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 795

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC795mm²

830 sq. mm

796.78 sq. mm

60.27 sq. mm

857.05 sq. mm

34.17 mm

2211 kg/km

113 kg/km

2324 kg/km

175.99kN*

0.0358Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 376mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2140 mtr. (7020 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

1×8.76mm

3No

8×5.06mm

12×5.31mm

18×5.12mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 130.1kN

Trpezoidal wires

height 4.24mm

Area: Layer-1 20.1 sqmm

Layer-2 22.13 sqmm

Layer-3 20.58 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 20.54×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 71.4GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 2289 Amp.

AC Resistance at max. operating temp. 0.0592Ω/km

Calculated max.current at 120 Deg.C∧ 1894Amp.

Calculated AC Resistance at 120 Deg.C 0.05143Ω/km

Geometric Mean Radius (GMR) 13.31mm

Inductive Reactance @ 0.3m radius at 60Hz 0.23611Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.13753 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =148.46 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 920

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC920mm²

960 sq. mm

921.99 sq. mm

75.12 sq. mm

997.11 sq. mm

36.85 mm

2574 kg/km

142 kg/km

2716 kg/km

215.21kN*

0.0311Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 405mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2870 mtr. (9420 ft.)

Stranding configuration

NO. & Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

NO.& equivalent Dia. of Trapezoidal wires in fourth layer

1×9.78mm

4No

9×4.29mm

12×4.57mm

16×4.58mm

20×4.59mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 162.1kN

Trpezoidal wires

height 3.38mm

Area: Layer-1 14.46 sqmm

Layer-2 16.42 sqmm

Layer-3 16.5 sqmm

Layer-4 16.54 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 20.37×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 71.7GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 2515 Amp.

AC Resistance at max. operating temp. 0.05173Ω/km

Calculated max.current at 120 Deg.C∧ 2076Amp.

Calculated AC Resistance at 120 Deg.C 0.045Ω/km

Geometric Mean Radius (GMR) 14.35mm

Inductive Reactance @ 0.3m radius at 60Hz 0.23041Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.13392 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 ＆ absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =183.34 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857

ENERGY EFFICIENT HIGH CURRENT OH CONDUCTORS

TECHNICAL DATA SHEET

Concentric Lay Stranded Trapezoidal Conductor ACCC 1000

Conductor Type & Code

Nominal equivalent Aluminum Area

Cross Sectional Area –Aluminum

Cross Sectional Area –glass and carbon fibers Core

Total Area of Cross Section

Overall Diameter of Conductor

Mass per Unit length –Aluminum

Mass per Unit length –Core

Mass per Unit length –Conductor

Rated Strength of the Conductor*

Maximum DC Resistance at 20℃

ACCC1000mm²

1040 sq. mm

995.99 sq. mm

75.12 sq. mm

1071.12 sq. mm

38.2 mm

2780 kg/km

142 kg/km

2922 kg/km

219.47kN*

0.0288Ω/km

Lay ratio -Outer layer of Aluminum wires :Min.10 Max.13

-Inner layer of Aluminum wires :Min.10 Max.16

Preferred Lay of outer layer 420mm

Lay Direction of outer layer Right Hand

Surface finish Standard or Non Specular

Max. Single length/ Drum 2640 mtr. (8660 ft.)

Stranding configuration

NO.& Diameter of glass and carbon fibers Core

NO. of Aluminum Layers

NO & equivalent Dia. of Trapezoidal wires in first layer

NO.& equivalent Dia. of Trapezoidal wires in second layer

NO & equivalent Dia. of Trapezoidal wires in third layer

NO.& equivalent Dia. of Trapezoidal wires in fourth layer

1×9.78mm

4No

8×4.69mm

12×4.74mm

16×4.77mm

20×4.78mm

Individual Aluminum wires

Minimum conductivity 63%IACS

Minimum Tensile Strength 60 MPa

Composite Core

Conductivity Nil

Minimum Breaking Load 162.1kN

Trpezoidal wires

height 3.55mm

Area: Layer-1 17.3 sqmm

Layer-2 17.68 sqmm

Layer-3 17.87 sqmm

Layer-4 17.98 sqmm

Coefficient of thermal expansion

above thermal knee point 1.61×10-6/oC

below thermal knee point 20.54×10-6/oC

Modulus of elasticity

above thermal knee point 117GPa

below thermal knee point 71.4GPa

Max. allowable continuous operating temp. 175oC

Rated current at max. temperature∧ 2642 Amp.

AC Resistance at max. operating temp. 0.04808Ω/km

Calculated max.current at 120 Deg.C∧ 2177Amp.

Calculated AC Resistance at 120 Deg.C 0.04189Ω/km

Geometric Mean Radius (GMR) 14.88mm

Inductive Reactance @ 0.3m radius at 60Hz 0.2277Ω/km

Capacitive Reactance @ 0.3m radius at 60Hz 0.13221 MΩ.km∧Ampacity calculated at 25 Deg.C ambient, wind velocity 0.6m/s solar radiation: 900w/sq.mm

emissivity coefficient: 0.6 & absorptivity :0.5

*Extreme Load Saftety Strength of Conductor =185.05 kN

(Applicable if sustained load over 80% RTS expected for prolonged periods)

General Specification Standard : ASTM B 857