Electrical Cables designed for the Mining industry

Mining Cables eleCtriCal Cables designed for the Mining industry

Contents Introduction  _________________________________ 3 Cable Components  __________________________ 4 Cable Handling  ______________________________ 8 Health, Safety and Environment  __________ 9 Quick Reference Guide  ____________________ 10 Underground Mine Cables  _________________ 12 type 209 ______________________________________ 14 type 210 _______________________________________16 type 240 ______________________________________ 18 type 241_______________________________________ 20  type 241sf  ____________________________________ 22 type 245uf  ___________________________________ 24 type 275  ______________________________________ 26 Open-Cut Mine Cables  _____________________ 28 type 409  ______________________________________ 30 type 440  ______________________________________ 32 type 441.1  _____________________________________ 34 type 441  ______________________________________ 36 type 450 ______________________________________ 38 type 451 ______________________________________ 40 type 455 ______________________________________ 42 Mine Feeder Cables  ________________________ 44 11/11kV Paper insulated  ________________________ 46 6.35/11kV Copper  ______________________________ 48 12.7/22kV Copper  ______________________________ 50 type 1 _________________________________________ 52 type 2s and type 2s.3 __________________________ 54 type a and type b _____________________________ 56 Technical Information  _____________________ 58 Whilst every care has been taken in the preparation of this publication, the Prysmian group take no responsibility for any errors and or omissions. this booklet is intended as a guide only and reference must be made by any person using this booklet to the appropriate australian/new Zealand standard and or to local electricity supply authority rulings. the company reserves the right to make changes in product without notice. all rights reserved. subject to change without notice.

3 introduction one leader, tWo brands the world’s largest cable company, the Prysmian group, consists of Prysmian and draka which are two of the world’s most respected commercial brands in the industry. With subsidiaries in 50 countries, almost 100 manufacturing plants, 17 research & development Centres and around 22,000 employees, the Prysmian group is truly a global company. Proudly manufacturing in australia since 1940, Prysmian understands local standards and conditions and our products are designed and developed accordingly. Prysmian specialises in integrated, added value cabling solutions highly customised to the individual specifications of customers. Prysmian operates a Quality Management system compliant with the requirements of iso 9001:2008 and products are fully supported by the global technical and production capabilities of the Prysmian group. Prysmian understands local standards and conditions and our products are designed and developed accordingly.

4 deVeloPMent of elastoMeriC PoWer Cables for safe and reliable Mining and industrial aPPliCations has Paralleled the deVeloPMent of the eleCtriC Motor and PoWer generation sinCe the 19th Century.  elastomeric cables are the natural choice for applications where durability, flexibility, and safe operation under extreme environmental conditions are important. the Prysmian group’s elastomeric cables have been “field proven” in thousands of operations, and with continuous development, utilise the best features of cables offered around the world. in australia, as elsewhere, there are many established guidelines governing manufacture of mining and industrial cables. innovation in work practices, with more equipment operating at higher voltages, has required the continued development of new elastomeric cable designs. ongoing development programs have also been required to continually improve the reliability and safety of current designs. the major design responsibility for the Prysmian group is to ensure that  cables supplied will operate reliably and safely under a wide range of conditions. Personnel often work close to energised cables, especially in underground mines. the cable construction and materials must be selected to provide maximum safety during both normal operation and in the case of cable failure. CONDUCTORS the important flexibility, strength and electrical properties of mining and industrial cables are mainly derived from the particular conductor design used, and any armouring or reinforcement. Conductors used in these cables are to australian and international standards, and usually employ tinned annealed copper wires stranded to provide optimum flexibility. flexibility is influenced by the number of individual wires for a given size, the lay length of bunches and strands, and the geometric arrangement of the strands.  Cable Components

5 a simple examination of wires and their size is not a reliable guide to their flexibility or endurance, since special designs are often developed to suit particular applications. these would include cables for heavy-duty reeling or flexing such as ship-loader or longwall shearer applications. the use of specially designed power, earth or pilot conductors, and their locations in the cable provide a good example of this. CORE ASSEMBLY LAY LENGTH this is a vital factor affecting cable life when the cable is subjected to repeated reeling, especially under tension. a ratio of cable lay length (pitch) to pitch circle diameter (the diameter of a circle passing through the mid points of the cores) is commonly used to specify lay lengths suited to various applications. for moderate duty reeling cables, this value should be less than 12.5, and for trailing cables it should be less than 17. Cable CoMPonents

6 Cable CoMPonents INSULATION in the past fifty years, natural rubber insulation has been replaced by synthetic polymeric compounds with inherently superior properties. ethylene-propylene copolymer (ePr) and terpolymer (ePdM) are most common on flexible cables, offering excellent thermal durability, corona resistance, and electrical characteristics. Cross linked polyethylene (XlPe) insulation has found limited use in fixed applications. insulation materials are chosen for optimum dielectric characteristics, and resistance to deterioration through heat, oxidation, salts and copper compounds. inert fillers are used for maximum electrical stability and low moisture absorption. PILOT the resistance between mining equipment and earth is usually high, and dangerous voltages can be present. to prevent hazards from shock, ground fault currents are controlled by various systems, including neutral resistance grounding. to ensure the integrity of this safety circuit, a small independent current may be  passed through a pilot conductor to the load centre and return through the earth conductor. if this current is interrupted through breakage, then the circuit breaker will automatically trip and remove power from the cable. australian mining regulatory authorities require the inclusion of an extensible central pilot conductor (for monitoring circuit integrity). this is specially designed and manufactured to restrict extensibility in service. the cores of each underground coal mining cable must also be electrically symmetrical for added safety. SCREENS bending of conductors under tension accelerates the breakage of individual wires. Partial failure of conductors can lead to wire ends that penetrate through the insulation. Metallic screens over the power cores, or earthing cores associated with semiconductive rubber components are provided to ground such faults through an earth. besides being part of the earth fault detection circuit, screens relieve non-uniform electrical stresses and provide a uniform capacitance to ground.

7 Cable CoMPonents screening is achieved by either a helically applied layer of wires, a composite textile and tinned copper wire braid, semi-conductive elastomer, or a combination of the latter. Medium voltage reeling and trailing cables usually have either individually core composite textile / copper braid or semiconductive rubber screens for minimal fatigue failure. Collective screens of either semiconductive rubber, braids, or pliable steel wire armour with copper wires to achieve the desired conductivity may also be used. the latter types are used in cable constructions for fixed or feeder cable applications. semiconductive rubber screens are used in cables connected to systems which are able to limit earth faults to around 500 ma (r.m.s.) within about 10ms. australian cables have fire propagation resistant semiconductive screens.  ARMOUR & REINFORCEMENT Prysmian group trailing cables manufactured to as/nZs 1802 and as/nZs 2802 and subjected to harsh wear, employ nylon textile or woven polyester tape, or an open braid of Kevlar® fibre as reinforcement. this enhances the sheath’s mechanical strength, and improves the resistance against damage from crushing, stretching, and tear propagation. Where a very high degree of impact and cut resistance is required, designs will usually have a pliable wire armour. this makes the cable much heavier and more difficult to handle and use. heavy duty textile reinforcement is preferred form an operational point of view.  SHEATH the primary role of the cable sheath is to protect the underlying core assembly from mechanical, chemical, or other environmental damage. Polychloroprene (PCP), chlorosulphonated polyethylene (CsP), and chlorinated polyethylene (CPe) are the most commonly used synthetic polymers used in sheaths today. they are commonly filled with other materials to enhance sheath performance. a properly formulated sheathing compound is essential for a high performance reeling or trailing cable. the higher the tensile strength, the stronger the material is when stretched. as the material gets hotter, tensile strength reduces with a consequent reduction in tear resistance. as cables age, elongation may be reduced (the material becomes brittle).

8 Cable handling MiniMuM bending radius during installation MiniMuM installation teMPerature internal Wiring in free air industrial eQuiPMent in ground With  ProteCtion eXternal building in trenCh in ground in duCt doMestiC  aPPlianCes MaChines Mobile  eQuiPMent in Conduit subMerged outdoor aPPlianCes oVerhead aerial festoon AMBIENT TEMPERATURE Maximum continuous conductor temperatureMinimum continuous conductor temperature HALOGEN FREE halogen free (toxic fume or corrosives) cables MINIMUM BENDING RADIUS Minimum bending radius of installed cables MECHANICAL IMPACT RESISTANCE 1 light impact 2 Moderate impact 3 heavy impact 4 Very heavy impact RESISTANCE TO SOLAR RADIATION AND WEATHER excellent Permanent Very good frequent good occasional acceptable accidental Poor none FLEXIBILITY rigid flexible semi-rigid semi flexibleVery flexible CHEMICAL RESISTANCE excellent Permanent Very good frequent good occasional acceptable accidental Poor none BEHAVIOUR IN FLAME AND FIRE Reaction To Fire Resistant To Fire C 1 fire retardant Cr 1 fire resistant C 2 flame retardant Cr 2 all non Cr 1 cables C 3 no fire performance RESISTANCE TO WATER negligible no humidity Water drops occasional condensation spray Water run off splashes exposed to water splashes heavy sea exposed to waves immersion temporarily covered by water submersion Permanently covered by water Cable Usage Characteristics Laying Conditions

9 PeoPle are our greatest asset. We belieVe eVeryone has the right to WorK and liVe in a healthy and safe enVironMent.  the Prysmian group maintains our commitment to comply with all relevant occupational health, safety and environmental legislation, australian and new Zealand standards (as/nZs 4801 and iso 14001) licences and industry Codes of Practices. our goal is an environmentally and socially sustainable business and we believe that a safe work environment is a sign of efficiency and quality. accidents can be prevented and we commit to continually improve, to achieve zero incidents of work related injury, illness and environmental pollution. We also aim to help our customers fulfil their environmental responsibilities by providing them with cables and associated products that we believe have been manufactured as efficiently, economically sound and environmentally sustainable as possible. as our products are locally designed and manufactured we recognize the importance of risk assessment and mitigation in all mining operations.  for additional support in this area we have dedicated technical staff available to provide specific product information and guidelines for use please contact: [email protected] health, safety and environment

10 Quick reference guide Standard Code HV F eeder Sec tion Power Lighting Power T ools Cutter M otor Conveyor Drive Long w all Power Long w all Shearer R oof Bolter Mule Shuttle C ar Continuous Miner R oad Header Loader Continuous Haulage V entilation F an Drill Rig Fac e Shovel Buck et Wheel Dragline Pump Dredge Stack er - Reclaimer Ship Loader Container Crane 210.1 209.1 209.3 240.1 240.3 240.11 241.1 241.3 241.11 245.1 245.3 275.1 Type 1 Type 2S Type A Type B 409 440 441 450 451 455    special design constructions including fibre optic cable component may apply. Consultation with Prysmian     specialists recommended.

11 Standard Code HV F eeder Sec tion Power Lighting Power T ools Cutter M otor Conveyor Drive Long w all Power Long w all Shearer R oof Bolter Mule Shuttle C ar Continuous Miner R oad Header Loader Continuous Haulage V entilation F an Drill Rig Fac e Shovel Buck et Wheel Dragline Pump Dredge Stack er - Reclaimer Ship Loader Container Crane 210.1 209.1 209.3 240.1 240.3 240.11 241.1 241.3 241.11 245.1 245.3 275.1 Type 1 Type 2S Type A Type B 409 440 441 450 451 455 LEGEND:      recommended         suitable         specially designed

“eleCtriC Cables in underground Coal Mine haZardous Zones are subjeCt to an eXtreMely arduous enVironMent that is often Very Wet. in addition, they are handled regularly by Mine WorKers While energised.” - nsW government industry & investment. technical report ees-100. electrical engineering safety underground Coal Mine. electric Cables used in hazardous Zones

Underground Mine Cables a ustralian and new Zealand coal mines are some of the safest in the world. this safety record is built on strict controls and legislation to ensure that the cables for mining equipment and in particularly those used in hazardous areas are of particularly high quality. our cables listed in this section are compliant with the relevant standards for the differently classified zones of an underground mine, including as/nZs 1802, as/nZs 1972 and as/nZs 5000.1. Prysmian cables manufactured to these standards have a proven track record of safe and reliable performance in the harsh environments that exist in underground mines.   We understand that a longwall mining operation may have very different demands on cable performance to a board and pillar or hydraulic monitor operation and our range is tailored to suit the specific challenges that varied mining operations present. 

14 type 209 1.1-11kV COMPOSITE SCREENED CABLE FOR GENERAL USE TO AS/NZS 1802 Composite screened cores with a single extensible pilot. 1.1/1.1kV to 11/11kV general cable used extensively for feeder connection between transformer and gate-end box or similar, or feeder cables to pumps, fans, crushers, etc or as a substitute to type a or b feeder cables. this cable can also be used above ground for power supply to mobile equipment. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus central pilot Maximum Continuous Operating Temperature: 90˚C Conductor Separator Tape:   1.1/1.1kV – polyester    3.3kV and above – semiconductive screen INSULATION:  ePr (r-eP-90)  Insulation Tape:   1.1/1.1kV – proofed textile    3.3kV and above – semiconductive screen SCREEN:  Composite screen (earth) of tinned annealed copper wire and polyester yarn Core Colours red, White, blue braid tracers PILOT: single, in centre of cable Max. d.C. resistance of 5.5 Ω/100m for power cores to 35mm 2 , and 3 Ω/100m for power  conductors above 35mm 2 SHEATH: heavy duty hd-85-PCP   sheath reinforcement is available upon request +90˚C -25˚C 3 excellent immersion Very good C1 flexible in free air in duCt Mobile  eQuiPMent MaChines underground Mine Cables Central Pilot Core hd elastomer sheath Compositescreen Phase Core

15 Physical & electrical Characteristics type 209 1.1-11kV Power Conductor Screen Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm mm kg/100m Type 209.1 10-209-1 10 4.6 1.5 2.58 0.130 4.47 0.314 8.2 3.8 33.3 175 16-209-1 16 6.2 1.6 1.58 0.118 2.74 0.379 10 4.0 37.3 225 25-209-1 25 7.2 1.6 0.951 0.112 1.66 0.432 12 4.3 40.3 285 35-209-1 35 8.4 1.6 0.698 0.107 1.22 0.493 14 4.6 43.6 335 50-209-1 50 9.7 1.7 0.523 0.104 0.924 0.526 14 5.0 47.7 410 70-209-1 70 12.0 1.8 0.346 0.0981 0.623 0.599 16 5.4 54.0 540 95-209-1 95 13.3 2.0 0.271 0.0955 0.498 0.591 18 6.0 58.9 645 120-209-1 120 15.3 2.1 0.210 0.0925 0.397 0.640 21 6.4 64.6 790 150-209-1 150 17.2 2.3 0.166 0.0907 0.328 0.652 23 6.9 70.4 955 185-209-1 185 18.8 2.5 0.137 0.0902 0.284 0.657 30 7.4 76.5 1155 240-209-1 240 21.7 2.8 0.107 0.0883 0.240 0.672 34 8.2 85.5 1445 300-209-1 300 24.3 3.0 0.0850 0.0873 0.211 0.719 49 8.8 94.3 1790 Type 209.3 16-209-3 16 6.2 3.0 1.58 0.131 2.75 0.255 14 5.3 47.3 335 25-209-3 25 7.2 3.0 0.951 0.125 1.66 0.280 15 5.6 50.4 400 35-209-3 35 8.4 3.0 0.698 0.119 1.23 0.311 16 5.9 53.5 460 50-209-3 50 9.7 3.0 0.523 0.114 0.927 0.347 17 6.3 57.2 540 70-209-3 70 12.0 3.0 0.346 0.106 0.627 0.408 19 6.6 62.6 665 95-209-3 95 13.3 3.0 0.271 0.102 0.502 0.439 21 7.1 66.4 765 120-209-3 120 15.3 3.0 0.210 0.0985 0.402 0.492 27 7.4 72.0 930 150-209-3 150 17.2 3.0 0.166 0.0954 0.332 0.541 32 7.8 76.7 1095 185-209-3 185 18.8 3.0 0.137 0.0942 0.288 0.584 42 8.2 82.3 1285 240-209-3 240 21.7 3.0 0.106 0.0906 0.242 0.659 48 8.8 89.6 1555 300-209-3 300 24.3 3.0 0.0849 0.0890 0.213 0.727 63 9.4 97.7 1900 Type 209.6 16-209-6 16 6.2 5.0 1.58 0.143 2.75 0.181 17 6.4 58.2 475 25-209-6 25 7.2 5.0 0.951 0.137 1.66 0.193 19 6.7 61.7 560 35-209-6 35 8.4 5.0 0.698 0.130 1.23 0.212 21 7.0 64.8 630 50-209-6 50 9.7 5.0 0.523 0.124 0.931 0.234 22 7.3 68.2 715 70-209-6 70 12.0 5.0 0.346 0.116 0.632 0.271 23 7.7 73.8 860 95-209-6 95 13.3 5.0 0.271 0.113 0.509 0.292 30 8.1 78.0 995 120-209-6 120 15.3 5.0 0.210 0.108 0.409 0.325 32 8.5 83.2 1155 150-209-6 150 17.2 5.0 0.166 0.105 0.340 0.354 46 8.9 89.2 1370 185-209-6 185 18.8 5.0 0.136 0.102 0.294 0.381 48 9.3 93.3 1540 240-209-6 240 21.7 5.0 0.106 0.0981 0.250 0.426 53 9.9 101 1825 300-209-6 300 24.3 5.0 0.0845 0.0959 0.221 0.467 71 10.4 109 2195 Type 209.11 25-209-11 25 7.2 7.6 0.951 0.150 1.67 0.150 24 8.1 75.9 805 35-209-11 35 8.4 7.6 0.698 0.143 1.23 0.163 30 8.4 79.6 915 50-209-11 50 9.7 7.6 0.523 0.136 0.936 0.178 32 8.7 83.0 1010 70-209-11 70 12.0 7.6 0.346 0.127 0.638 0.204 35 9.1 88.7 1185 95-209-11 95 13.3 7.6 0.271 0.124 0.516 0.219 48 9.6 93.8 1360 120-209-11 120 15.3 7.6 0.210 0.119 0.418 0.241 53 9.9 98.7 1540 150-209-11 150 17.2 7.6 0.165 0.114 0.347 0.261 56 10.3 103 1725 185-209-11 185 18.8 7.6 0.136 0.111 0.304 0.279 56 10.7 108 1900 240-209-11 240 21.7 7.6 0.106 0.107 0.261 0.309 77 11.3 116 2280

16 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus central pilot Maximum Continuous Operating Temperature: 90˚C INSULATION:  ePr (r-eP-90) SCREEN:  Composite screen (earth) of tinned annealed copper wire and polyester yarn Core Colours red, White, blue braid tracers PILOT: single, in centre of cable Pilot resistance is ≤ 5.5 Ω/100m SHEATH: heavy duty hd-85-PCP +90˚C -25˚C 3 excellent immersion Very good C1 in free air in duCt COMPOSITE SCREENED CABLE FOR HAND-HELD EQUIPMENT TO AS/NZS 1802 Composite screened power cores and single extensible pilot. 1.1/1.1kV Cable used primarily for hand-held boring machines, and as a flexible lead to other equipment where heavy duty service is required. note, certain regulatory authorities limit the use of this cable to 250/250V. MaChines flexible type 210 1.1kV underground Mine Cables Central Pilot Core hd elastomer sheath Compositescreen Phase Core

17 Physical & electrical Characteristics type 210 1.1kV Power Conductor Screen Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm mm kg/100m Type 210.1 1.5-210-1 1.5 1.6 1.4 17.5 0.187 30.3 0.165 6.2 3.0 25.6 100 2.5-210-1 2.5 2.1 1.5 10.5 0.174 18.2 0.184 6.9 3.0 26.8 110

18 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus 3 pilots Maximum Continuous Operating Temperature: 90˚C Conductor Separator Tape:  1.1/1.1kV – polyester    3.3kV and above – semiconductive screen INSULATION:  ePr (r-eP-90) Insulation Tape:   1.1/1.1kV proofed textile    3.3kV and above, semiconductive screen SCREEN:  Composite screen (earth) of tinned annealed copper wire and polyester yarn Core Colours red, White, blue braid tracers PILOT: three in the interstitial cavities elastomer covered and proofed taped SHEATH: heavy duty hd-85-PCP on request the cable can be provided with a reinforced sheath COMPOSITE SCREENED CABLE FOR GENERAL USE TO AS/NZS 1802 Composite screened power cores and three separate pilot conductors. 1.1/1.1kV to 11/11kV Cable used extensively for feeder connection between transformer and gate-end box or similar, continuous miner cable or feeder cables to pumps. having three pilots, the cable can be used in long runs, without compromising pilot control protection system resistance limitations. type 240 1.1-11kV +90˚C -25˚C 3 excellent immersion Very good C1 flexible for applications requiring high degrees of flexibility, type 241 cables (semiconductive screened) would be more appropriate. in free air in duCt Mobile  eQuiPMent MaChines underground Mine Cables Pilot Core hd elastomer sheath Compositescreen Phase Core

19 Power Conductor Screen Pilot Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area Approx  Area   (Each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm² mm mm kg/100m Type 240.1 6-240-1 6 3.5 1.5 4.32 0.141 7.49 0.259 8.2 1 3.8 31.0 150 10-240-1 10 4.6 1.5 2.58 0.130 4.47 0.314 8.2 1.5 3.8 33.3 175 16-240-1 16 6.2 1.6 1.58 0.118 2.74 0.379 10 3 4.0 37.3 230 25-240-1 25 7.2 1.6 0.951 0.112 1.66 0.432 12 4.5 4.3 40.3 295 35-240-1 35 8.4 1.6 0.698 0.107 1.22 0.493 14 6 4.6 43.6 350 50-240-1 50 9.7 1.7 0.523 0.104 0.924 0.526 14 8 5.0 47.7 425 70-240-1 70 12.0 1.8 0.346 0.0981 0.623 0.599 16 12.5 5.4 54.0 565 95-240-1 95 13.3 2.0 0.271 0.0955 0.498 0.591 18 12.5 6.0 58.9 670 120-240-1 120 15.3 2.1 0.210 0.0925 0.397 0.640 21 13.75 6.4 64.6 815 150-240-1 150 17.2 2.3 0.166 0.0907 0.328 0.652 23 17 6.9 70.4 990 185-240-1 185 18.8 2.5 0.137 0.0902 0.284 0.657 30 22 7.4 76.5 1195 240-240-1 240 21.7 2.8 0.107 0.0883 0.240 0.672 34 27 8.2 85.5 1505 300-240-1 300 24.3 3.0 0.0850 0.0873 0.211 0.719 49 35.7 8.8 94.3 1870 Type 240.3 16-240-3 16 6.2 3.0 1.58 0.131 2.75 0.255 14 3 5.3 47.3 340 25-240-3 25 7.2 3.0 0.951 0.125 1.66 0.280 15 4.5 5.6 50.4 410 35-240-3 35 8.4 3.0 0.698 0.119 1.23 0.311 16 6 5.9 53.5 475 50-240-3 50 9.7 3.0 0.523 0.114 0.927 0.347 17 8 6.3 57.2 555 70-240-3 70 12.0 3.0 0.346 0.106 0.627 0.408 19 12.5 6.6 62.6 690 95-240-3 95 13.3 3.0 0.271 0.102 0.502 0.439 21 12.5 7.1 66.4 785 120-240-3 120 15.3 3.0 0.210 0.0985 0.402 0.492 27 13.75 7.4 72.0 955 150-240-3 150 17.2 3.0 0.166 0.0954 0.332 0.541 32 17 7.8 76.7 1130 185-240-3 185 18.8 3.0 0.137 0.0942 0.288 0.584 42 22 8.2 82.3 1330 240-240-3 240 21.7 3.0 0.106 0.0906 0.242 0.659 48 27 8.8 89.6 1615 300-240-3 300 24.3 3.0 0.0849 0.0890 0.213 0.727 63 35.7 9.4 97.7 1980 Type 240.6 16-240-6 16 6.2 5.0 1.58 0.143 2.75 0.181 17 3 6.4 58.2 480 25-240-6 25 7.2 5.0 0.951 0.137 1.66 0.193 19 4.5 6.7 61.7 570 35-240-6 35 8.4 5.0 0.698 0.130 1.23 0.212 21 6 7.0 64.8 645 50-240-6 50 9.7 5.0 0.523 0.124 0.931 0.234 22 8 7.3 68.2 730 70-240-6 70 12.0 5.0 0.346 0.116 0.632 0.271 23 12.5 7.7 73.8 880 95-240-6 95 13.3 5.0 0.271 0.113 0.509 0.292 30 12.5 8.1 78.0 1020 120-240-6 120 15.3 5.0 0.210 0.108 0.409 0.325 32 13.75 8.5 83.2 1180 150-240-6 150 17.2 5.0 0.166 0.105 0.340 0.354 46 17 8.9 89.2 1410 185-240-6 185 18.8 5.0 0.136 0.102 0.294 0.381 48 22 9.3 93.6 1585 240-240-6 240 21.7 5.0 0.106 0.0981 0.250 0.426 53 27 9.9 101 1885 300-240-6 300 24.3 5.0 0.0845 0.0959 0.221 0.467 71 35.7 10.4 109 2275 Type 240.11 25-240-11 25 7.2 7.6 0.951 0.150 1.67 0.150 24 4.5 8.1 75.9 815 35-240-11 35 8.4 7.6 0.698 0.143 1.23 0.163 30 6 8.4 79.6 930 50-240-11 50 9.7 7.6 0.523 0.136 0.936 0.178 32 8 8.7 83.0 1025 70-240-11 70 12.0 7.6 0.346 0.127 0.638 0.204 35 12.5 9.1 88.7 1210 95-240-11 95 13.3 7.6 0.271 0.124 0.516 0.219 48 12.5 9.6 93.8 1385 120-240-11 120 15.3 7.6 0.210 0.119 0.418 0.241 53 13.75 9.9 98.7 1565 150-240-11 150 17.2 7.6 0.165 0.114 0.347 0.261 56 17 10.3 103 1765 185-240-11 185 18.8 7.6 0.136 0.111 0.304 0.279 56 22 10.7 108 1945 240-240-11 240 21.7 7.6 0.106 0.107 0.261 0.309 77 27 11.3 116 2340 Physical & electrical Characteristics type 240 1.1-11kV

20 underground Mine Cables type 241 1.1-11kV SEMICONDUCTIVE SCREENED CABLE FOR GENERAL USE TO AS/NZS 1802 semiconductive elastomer screened power cores, with three earth cores and one extensible pilot. 1.1/1.1kV to 11/11kV general purpose cable used for continuous miners, or feeder cables to pumps. also commonly used for monorails supplying dCbs and longwalls. typically, a more flexible cable for use is a semiconductive screen instead of a metal screen. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core 3 earths plus central pilot  Flexibility: flexibleMaximum Continuous Operating Temperature: 90˚CConductor Separator Type:  1.1/1.1kV - polyester where necessary   3.3kV and above - semiconductive screen INSULATION:  ePr (r-eP-90) core with durably printed core numbers at intervals less than 300mm, on black semiconductive insulation screen for phase identification SCREEN:  semiconductive elastomer screen PILOT:  single, in centre of cable. Max. d.C. resistance of 5.5 Ω/100m for power cores to 35mm 2 , and 3 Ω/100m for power  conductors above 35mm 2 EARTH:  three semiconductive elastomer covered flexible earths, located in the interstices SHEATH:  open weave reinforcement, under heavy duty hd-85-PCP in free air in duCt Mobile  eQuiPMent MaChines Central Pilot Core semi conductive elastomer screen hd elastomer sheath earth Core numbered Phase Core +90˚C -25˚C 3 excellent immersion Very good C1 flexible

21 Physical & electrical Characteristics type 241 1.1-11kV Power Conductor Earth Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 241.1 6-241-1 6 3.5 1.5 4.32 0.139 7.49 0.259 1 3.8 29.9 130 10-241-1 10 4.6 1.5 2.58 0.127 4.47 0.314 1.5 3.8 32.0 155 16-241-1 16 6.2 1.6 1.58 0.116 2.74 0.379 3 3.9 35.9 200 25-241-1 25 7.2 1.6 0.951 0.110 1.66 0.432 4.5 4.2 38.9 255 35-241-1 35 8.4 1.6 0.698 0.106 1.22 0.493 6 4.4 42.0 310 50-241-1 50 9.7 1.7 0.523 0.102 0.923 0.526 8 4.9 46.3 380 70-241-1 70 12.0 1.8 0.346 0.0965 0.622 0.599 12.5 5.3 52.4 510 95-241-1 95 13.3 2.0 0.271 0.0942 0.497 0.591 12.5 5.8 57.1 605 120-241-1 120 15.3 2.1 0.210 0.0912 0.397 0.640 13.75 6.3 62.9 745 150-241-1 150 17.2 2.3 0.166 0.0896 0.327 0.652 17 6.7 68.6 910 185-241-1 185 18.8 2.5 0.137 0.0885 0.283 0.657 22 7.3 74.4 1085 240-241-1 240 21.7 2.8 0.107 0.0868 0.239 0.672 27 8.0 83.2 1370 300-241-1 300 24.3 3.0 0.0851 0.0848 0.208 0.719 35.2 8.7 90.8 1670 Type 241.3 16-241-3 16 6.2 3.0 1.58 0.129 2.75 0.255 3 5.0 45.0 285 25-241-3 25 7.2 3.0 0.951 0.123 1.66 0.280 4.5 5.3 48.2 350 35-241-3 35 8.4 3.0 0.698 0.117 1.23 0.311 6 5.6 51.2 410 50-241-3 50 9.7 3.0 0.523 0.112 0.926 0.347 8 6.0 55.0 485 70-241-3 70 12.0 3.0 0.346 0.105 0.626 0.408 12.5 6.4 60.6 620 95-241-3 95 13.3 3.0 0.271 0.101 0.501 0.439 16 6.8 64.2 715 120-241-3 120 15.3 3.0 0.210 0.0965 0.400 0.492 20 7.2 69.3 855 150-241-3 150 17.2 3.0 0.166 0.0934 0.330 0.541 27 7.6 74.2 1030 185-241-3 185 18.8 3.0 0.137 0.0911 0.285 0.584 35.2 8.0 78.5 1190 240-241-3 240 21.7 3.0 0.107 0.0878 0.240 0.659 39.5 8.6 85.8 1450 300-241-3 300 24.3 3.0 0.0851 0.0854 0.209 0.727 50 9.1 92.3 1735 Type 241.6 16-241-6 16 6.2 5.0 1.58 0.141 2.75 0.181 3 6.1 55.9 410 25-241-6 25 7.2 5.0 0.951 0.135 1.66 0.193 4.5 6.4 59.4 495 35-241-6 35 8.4 5.0 0.698 0.129 1.23 0.212 6 6.7 62.5 560 50-241-6 50 9.7 5.0 0.523 0.123 0.931 0.234 8 7.1 66.2 645 70-241-6 70 12.0 5.0 0.346 0.115 0.632 0.271 12.5 7.4 71.7 790 95-241-6 95 13.3 5.0 0.271 0.111 0.507 0.292 16 7.9 75.5 905 120-241-6 120 15.3 5.0 0.210 0.106 0.407 0.325 20 8.3 80.6 1065 150-241-6 150 17.2 5.0 0.166 0.102 0.337 0.354 27 8.6 85.1 1235 185-241-6 185 18.8 5.0 0.137 0.0997 0.293 0.381 35.2 9.0 89.5 1410 240-241-6 240 21.7 5.0 0.106 0.0957 0.247 0.426 39.5 9.6 96.8 1685 300-241-6 300 24.3 5.0 0.0847 0.0927 0.217 0.467 50 10.2 104 1995 Type 241.11 25-241-11 25 7.2 7.6 0.951 0.148 1.67 0.150 4.5 7.8 73.8 720 35-241-11 35 8.4 7.6 0.698 0.141 1.23 0.163 6 8.1 76.8 800 50-241-11 50 9.7 7.6 0.523 0.135 0.936 0.178 8 8.5 80.5 895 70-241-11 70 12.0 7.6 0.346 0.126 0.638 0.204 12.5 8.9 86.1 1060 95-241-11 95 13.3 7.6 0.271 0.122 0.515 0.219 16 9.3 89.7 1180 120-241-11 120 15.3 7.6 0.210 0.116 0.416 0.241 20 9.7 94.8 1350 150-241-11 150 17.2 7.6 0.165 0.112 0.345 0.261 27 10.0 99.3 1540 185-241-11 185 18.8 7.6 0.136 0.109 0.302 0.279 32 10.4 104 1720 240-241-11 240 21.7 7.6 0.106 0.104 0.257 0.309 39.5 11.0 111 2035

22 SEMICONDUCTIVE SCREENED CABLE FOR GENERAL USE TO AS/NZS 1802 semiconductive elastomer screened power cores, with three earth cores and one extensible pilot. 1.1/1.1kV to 11/11kV general purpose cable used for continuous miners, or feeder cables to pumps. also commonly used for monorails supplying dCbs and longwalls. Cable stranding and lay-up have been modified to provide for maximum flexibility in arduous conditions. type 241sf cable designed for applications requiring maximum flexibility. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core 3 earths plus central pilot  Flexibility:  Very flexible for type 241sf cable Maximum Continuous Operating Temperature: 90˚CConductor Separator Type:  1.1/1.1kV - polyester where necessary   3.3kV and above - semiconductive screen INSULATION:  ePr (r-eP-90) core with durably printed core numbers at intervals less than 300mm, on black semiconductive insulation screen for phase identification SCREEN:  semiconductive elastomer screen PILOT:  single, in centre of cable. Max. d.C. resistance of 5.5 Ω/100m for power cores to 35mm 2 , and 3 Ω/100m for power  conductors above 35mm 2 EARTH:  three semiconductive elastomer covered flexible earths, located in the interstices SHEATH:  open weave reinforcement, under heavy duty hd-85-PCP in free air in duCt Mobile  eQuiPMent MaChines Central Pilot Core semi conductive elastomer screen hd elastomer sheath earth Core numbered Phase Core type 241sf 1.1-11kV underground Mine Cables +90˚C -25˚C 3 excellent immersion Very good C1 V flexible

23 Physical & electrical Characteristics type 241sf 1.1-11kV Power Conductor Earth Cable Voltage   Rating &   Part Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 241.1 SF 70-241-1 sf 70 12.1 1.8 0.346 0.0985 0.623 0.619 12.5 5.3 52.7 525 95-241-1 sf 95 13.6 2.0 0.271 0.0968 0.498 0.622 12.5 5.8 57.6 635 120-241-1 sf 120 15.6 2.1 0.210 0.0938 0.398 0.673 13.75 6.3 63.6 785 150-241-1 sf 150 17.5 2.3 0.166 0.0922 0.329 0.685 17 6.7 69.2 955 185-241-1 sf 185 19.0 2.5 0.137 0.0898 0.284 0.674 22 7.3 74.8 1115 240-241-1 sf 240 21.9 2.8 0.107 0.0881 0.240 0.689 27 8.0 83.7 1405 300-241-1 sf 300 24.4 3.0 0.0851 0.0862 0.210 0.736 35.7 8.7 91.2 1715 Type 241.3 SF 70-241-3 sf 70 12.1 3.0 0.346 0.107 0.627 0.422 12.5 6.4 60.9 635 95-241-3 sf 95 13.6 3.0 0.271 0.103 0.502 0.461 16 6.8 64.8 750 120-241-3 sf 120 15.6 3.0 0.210 0.0991 0.402 0.517 20 7.2 70.0 900 150-241-3 sf 150 17.5 3.0 0.166 0.0961 0.332 0.568 27 7.6 74.8 1075 185-241-3 sf 185 19.0 3.0 0.137 0.0924 0.286 0.600 35.2 8.0 78.9 1225 240-241-3 sf 240 21.9 3.0 0.107 0.0891 0.241 0.675 39.5 8.6 86.2 1485 300-241-3 sf 300 24.4 3.0 0.0851 0.0867 0.210 0.744 50 9.1 92.7 1775 Type 241.6 SF 70-241-6 sf 70 12.1 5.0 0.346 0.118 0.633 0.283 12.5 7.4 72.0 820 95-241-6 sf 95 13.6 5.0 0.271 0.114 0.509 0.307 16 7.9 76.1 945 120-241-6 sf 120 15.6 5.0 0.210 0.109 0.410 0.341 20 8.3 81.3 1110 150-241-6 sf 150 17.5 5.0 0.166 0.105 0.340 0.371 27 8.6 85.8 1290 185-241-6 sf 185 19.0 5.0 0.137 0.101 0.295 0.390 35.2 9.0 89.9 1445 240-241-6 sf 240 21.9 5.0 0.106 0.0971 0.249 0.436 39.5 9.6 97.2 1725 300-241-6 sf 300 24.4 5.0 0.0847 0.0941 0.219 0.478 50 10.2 104 2040 Type 241.11 SF 70-241-11 sf 70 12.1 7.6 0.346 0.129 0.640 0.212 12.5 8.9 86.4 1090 95-241-11 sf 95 13.6 7.6 0.271 0.125 0.517 0.229 16 9.3 90.3 1225 120-241-11 sf 120 15.6 7.6 0.210 0.119 0.418 0.252 20 9.7 95.5 1405 150-241-11 sf 150 17.5 7.6 0.165 0.115 0.348 0.273 27 10.0 100.0 1600 185-241-11 sf 185 19.0 7.6 0.136 0.110 0.303 0.286 35.2 10.4 104 1765 240-241-11 sf 240 21.9 7.6 0.106 0.106 0.260 0.317 39.5 11.0 111 2080

24 type 245uf  1.1-3.3kV  ULTRA FLEXIBLE CABLE FOR GENERAL USE TO AS/NZS 1802 these cables have been designed to operate within the tight bending radii experienced with cable chains used on longwall shearers, and provide additional pilot conductors for modern machine monitoring.  semiconductive screened power cores, with three earth cores and three extensible pilots for general purpose, and especially for trailing applications in cable chains on longwall shearer equipment, and in environments calling for maximum flexibility. Cables designed for applications requiring maximum flexibility. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core 3 earths plus 3 central pilots Flexibility:  Very flexible Maximum Continuous Operating Temperature: 90˚CConductor Separator Type:  3.3kV - semiconductive screen INSULATION:  ePr (r-eP-90) core with durably printed core numbers at intervals less than 300mm, on black semiconductive insulation screen for phase identification SCREEN:  semiconductive elastomer screen PILOT:  3 pilots, in the centre of the cable. Max. d.C. resistance of 3 Ω/100m for all cables EARTH:  three semiconductive elastomer covered flexible earths, located in the interstices SHEATH:  open weave reinforcement, under heavy duty hd-85-PCP +90˚C -25˚C in free air in duCt Mobile  eQuiPMent MaChines 3 excellent immersion Very good C1 V flexible Central Pilot/Control Cores hd elastomer sheath earth Cores numbered Phase Core underground Mine Cables

25 Physical & electrical Characteristics type 245uf  1.1-3.3kV  Power Conductor Earth Cable Voltage   Rating &   Part Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 245.1 UF 50-245-1 uf 50 9.8 1.7 0.523 0.114 0.927 0.544 8 4.8 49.7 425 70-245-1 uf 70 12.0 1.8 0.346 0.107 0.627 0.614 12.5 5.1 54.9 555 95-245-1 uf 95 13.8 2.0 0.271 0.103 0.502 0.630 12.5 5.6 60.3 675 120-245-1 uf 120 15.9 2.1 0.210 0.0988 0.402 0.684 13.75 6.0 65.7 845 150-245-1 uf 150 17.9 2.3 0.166 0.0956 0.332 0.698 17 6.3 70.8 1010 Type 245.3 UF 50-245-3 uf 50 9.8 3.0 0.523 0.121 0.930 0.359 8 5.7 57.4 525 70-245-3 uf 70 12.0 3.0 0.346 0.113 0.630 0.418 12.5 6.0 62.3 660 95-245-3 uf 95 13.8 3.0 0.271 0.108 0.505 0.467 16 6.4 66.5 780 120-245-3 uf 120 15.9 3.0 0.210 0.103 0.405 0.525 20 6.7 71.2 950 150-245-3 uf 150 17.9 3.0 0.166 0.0986 0.334 0.578 27 7.0 75.6 1120

26 type 275 1.1kV SHUTTLE CAR CABLE TO AS/NZS 1802 these cables are used with high-speed reeling equipment employed on shuttle cars, and are subject to the greatest exertion underground. Cable constructions are designed to resist “corkscrewing” in these arduous conditions.  non-individually screened power cores, three earth cores and one extensible pilot, laid-up in a semiconductive  cradle and fill to 1.1/1.1kV application. Cable Characteristics Cable Design CORE:  Metal:  tinned Copper, 3 core 3 earths plus pilot Maximum Continuous Operating Temperature: 90˚C INSULATION:  ePr (r-eP-90) Core Colours red, White, blue PILOT:  1 pilot, in the centre of the cable. Max. d.C. resistance of 5.5 Ω/100m for power conductors up to 35mm 2 ,  and 3 Ω/100m for all larger cables EARTH:  three semiconductive elastomer covered flexible earths, located in the interstices SHEATH:  semiconductive elastomer filled, with an open weave reinforcement, under a heavy duty hd-85-PCP +90˚C -25˚C 3 excellent immersion Very good C1 flexible Central Pilot Core earth Core Coloured Phase Core Installation Conditions hd elastomer sheath in free air Mobile  eQuiPMent underground Mine Cables

27 Physical & electrical Characteristics type 275 1.1kV Power Conductor Earth Cable Voltage   Rating &   Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 275.1 16-275-1 16 6.0 1.6 1.58 0.109 2.74 0.377 4.5 3.8 31.8 170 25-275-1 25 7.3 1.6 0.951 0.102 1.66 0.443 6.6 4.0 35.0 225 35-275-1 35 8.9 1.6 0.698 0.0963 1.22 0.521 9 4.3 39.0 285 50-275-1 50 10.2 1.7 0.523 0.0943 0.920 0.551 13.2 4.7 43.3 370

“it is eXPeCted that the ManageMent struCture Will Clearly shoW that the Manager of eleCtriCal engineering (underground Mine) or the Qualified eleCtriCal engineer (oPen Cut Mine and/or ProCessing Plant) has a suPerVisory role oVer all Persons inVolVed in the seleCtion and life CyCle ManageMent of eleCtriCal PoWered Plant and eleCtriCally Controlled Plant.” - electrical engineering safety, ees-001, i&i nsW technical reference, electrical engineering, Management Plan.

Open-Cut & Surface Mining  o pen-cut and surface mining in the oceania region can present challenges unique to the region. extreme uV exposure, tropical downpours, high wall suspension installations and the like mean that careful cable selection and fit for purpose products are a must. our cables listed in this section are compliant with relevant standards including as/nZs 2802 and Prysmian cables manufactured to all allowable configurations have long been regarded as the best product available for the conditions that are faced down under. it is our belief that a cable made for an extreme environment must be made with extreme durability and the  MineMaster has powering surface mining equipment in australia for decades. We are very comfortable with letting our cables do the talking.

30 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus central pilot Maximum Continuous Operating Temperature: 90˚C Conductor Tape:  1.1/1.1kV – polyester    3.3kV and above – semiconductive screen INSULATION:  Class 2 ePr (r-eP-90) Insulation Tape:   1.1/1.1kV – proofed textile    3.3kV and above – semiconductive screen SCREEN:  Composite screen (earth) of tinned annealed copper wire and polyester yarn Core Colours red, White, blue PILOT: single, in centre of cable Max. d.C. resistance of 3 Ω/100m for power cores to 35mm 2 , and 2 Ω/100m for power  conductors above 35mm 2 SHEATH: heavy duty hd-85-PCP, incorporating a polyaramid yarn Kevlar® braid reinforcement CLASS 2 COMPOSITE SCREENED CABLE WITH CENTRAL PILOT Composite screened power cores, single extensible pilot. heavy duty trailing cable with good flexibility and high resistance to abrasion and weathering. suitable for pumps, shovels, draglines, blasthole drill, etc. for improved performance, all cables (except 409.1 below 50mm) incorporate a polyaramid yarn Kevlar® braid sheath reinforcement for exceptional tear and cut-through resistance. Cable designed for trailing and most reeling applications. +90˚C -25˚C 3 Very good immersion Very good C1 flexible Class 2 cables use standard insulation and sheath materials. for higher performance applications, particularly reeling operations, Class 1 cables with enhanced material properties and smaller dimensions should be used. in free air type 409 1.1-22kV Mobile  eQuiPMent oPen-Cut Mine Cables Central Pilot Core hd elastomer sheath Composite screen Coloured Phase Core

31 Physical & electrical Characteristics type 409 1.1-22kV Power Conductor Screen Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm mm kg/100m Type 409.1 6-409-1 6 3.5 1.5 4.32 0.145 7.49 0.259 8.2 3.8 32.2 160 10-409-1 10 4.6 1.5 2.58 0.133 4.47 0.314 8.2 3.8 34.3 185 16-409-1 16 6.2 1.6 1.58 0.120 2.74 0.379 10 4.0 38.1 235 25-409-1 25 7.2 1.6 0.951 0.113 1.66 0.432 12 4.3 40.9 290 35-409-1 35 8.4 1.6 0.698 0.108 1.22 0.493 14 4.6 44.0 345 50-409-1 50 9.7 1.7 0.523 0.107 0.925 0.526 14 5.0 49.1 430 70-409-1 70 12.0 1.8 0.346 0.0997 0.624 0.599 16 5.4 54.8 550 95-409-1 95 13.3 2.0 0.271 0.0971 0.499 0.591 22 6.0 60.0 675 120-409-1 120 15.3 2.1 0.210 0.0932 0.398 0.640 25 6.4 65.2 815 150-409-1 150 17.2 2.3 0.166 0.0928 0.329 0.652 37 6.9 72.3 1025 185-409-1 185 18.8 2.5 0.137 0.0915 0.285 0.657 40 7.4 77.8 1200 240-409-1 240 21.7 2.8 0.106 0.0905 0.241 0.672 58 8.2 88.3 1555 300-409-1 300 24.3 3.0 0.0849 0.0883 0.212 0.719 63 8.8 95.7 1860 Type 409.3 16-409-3 16 6.2 3.0 1.58 0.131 2.75 0.255 14 5.3 47.4 335 25-409-3 25 7.2 3.0 0.951 0.125 1.66 0.280 15 5.6 50.5 400 35-409-3 35 8.4 3.0 0.698 0.119 1.23 0.311 16 5.9 53.6 460 50-409-3 50 9.7 3.0 0.523 0.115 0.928 0.347 17 6.3 57.8 545 70-409-3 70 12.0 3.0 0.346 0.107 0.627 0.408 19 6.6 62.8 665 95-409-3 95 13.3 3.0 0.271 0.102 0.502 0.439 21 7.1 66.5 765 120-409-3 120 15.3 3.0 0.210 0.0985 0.402 0.492 28 7.4 72.0 935 150-409-3 150 17.2 3.0 0.166 0.0954 0.332 0.541 32 7.8 76.7 1095 185-409-3 185 18.8 3.0 0.137 0.0942 0.288 0.584 42 8.2 82.5 1290 240-409-3 240 21.7 3.0 0.106 0.0906 0.242 0.659 48 8.8 89.8 1560 300-409-3 300 24.3 3.0 0.0849 0.0890 0.213 0.727 63 9.4 97.8 1900 Type 409.6 16-409-6 16 6.2 5.0 1.58 0.143 2.75 0.181 17 6.4 58.2 475 25-409-6 25 7.2 5.0 0.951 0.137 1.66 0.193 19 6.7 61.7 560 35-409-6 35 8.4 5.0 0.698 0.130 1.23 0.212 21 7.0 64.7 625 50-409-6 50 9.7 5.0 0.523 0.124 0.931 0.234 22 7.3 68.3 715 70-409-6 70 12.0 5.0 0.346 0.116 0.632 0.271 23 7.7 73.9 860 95-409-6 95 13.3 5.0 0.271 0.113 0.509 0.292 30 8.1 78.2 1005 120-409-6 120 15.3 5.0 0.210 0.108 0.409 0.325 32 8.5 83.4 1160 150-409-6 150 17.2 5.0 0.166 0.105 0.340 0.354 46 8.9 89.4 1380 185-409-6 185 18.8 5.0 0.136 0.102 0.294 0.381 49 9.3 93.7 1545 240-409-6 240 21.7 5.0 0.106 0.0981 0.250 0.426 53 9.9 101 1830 300-409-6 300 24.3 5.0 0.0845 0.0959 0.221 0.467 71 10.4 109 2195 Type 409.11 25-409-11 25 7.2 7.6 0.951 0.150 1.67 0.150 24 8.1 76.1 810 35-409-11 35 8.4 7.6 0.698 0.143 1.23 0.163 30 8.4 79.8 920 50-409-11 50 9.7 7.6 0.523 0.136 0.936 0.178 32 8.7 83.2 1020 70-409-11 70 12.0 7.6 0.346 0.127 0.638 0.204 35 9.1 88.8 1185 95-409-11 95 13.3 7.6 0.271 0.124 0.516 0.219 48 9.6 93.9 1365 120-409-11 120 15.3 7.6 0.210 0.119 0.418 0.241 53 9.9 98.8 1540 150-409-11 150 17.2 7.6 0.165 0.114 0.347 0.261 56 10.3 104 1730 185-409-11 185 18.8 7.6 0.136 0.111 0.304 0.279 56 10.7 108 1900 240-409-11 240 21.7 7.6 0.106 0.107 0.261 0.309 77 11.3 116 2280 Type 409.22 35-409-22 35 8.4 10.5 0.698 0.160 1.24 0.147 53 10.0 102 1420 50-409-22 50 9.7 10.5 0.523 0.153 0.944 0.159 56 10.3 106 1540 70-409-22 70 12.0 10.5 0.346 0.143 0.648 0.178 60 10.7 111 1735 95-409-22 95 13.3 10.5 0.271 0.138 0.527 0.189 62 11.1 115 1870

32 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus 3 pilots Maximum Continuous Operating Temperature: 90˚C Conductor Tape:  1.1/1.1kV – polyester    3.3kV and above – semiconductive screen INSULATION:  ePr (r-eP-90) white Insulation Tape:   1.1/1.1kV – proofed textile    3.3kV and above – semiconductive screen SCREEN:  Composite screen (earth) of tinned annealed copper wire and polyester yarn Core Colours red, White, blue, braid tracers PILOT: three elastomer covered and proofed tape pilots disposed in the cable interstices SHEATH: heavy duty hd-85-PCP incorporating a polyaramid Kevlar® braid reinforcement CLASS 2 COMPOSITE SCREENED CABLE FOR GENERAL USE Composite screened power cores, with three pilot cores. trailing cable having good flexibility, and high resistance to abrasion and weathering. suitable for long lengths of cable runs, in cases where the use of type 409 or 441 could result in pilot resistances not meeting requirements. Cable suitable for trailing and most reeling applications. +90˚C -25˚C 3 excellent immersion Very good C1 in free air Mobile  eQuiPMent type 440 1.1-22kV flexible oPen-Cut Mine Cables Pilot Core hd reinforced elastomer sheath Composite screen Phase Core

33 Physical & electrical Characteristics type 440 1.1-22kV Power Conductor Screen Pilot Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area Approx  Area   (Each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm² mm mm kg/100m Type 440.1 6-440-1 6 3.5 1.5 4.32 0.141 7.49 0.259 8.2 1 3.8 31.0 150 10-440-1 10 4.6 1.5 2.58 0.130 4.47 0.314 8.2 1.5 3.8 33.3 175 16-440-1 16 6.2 1.6 1.58 0.118 2.74 0.379 10 3 4.0 37.3 230 25-440-1 25 7.2 1.6 0.951 0.112 1.66 0.432 12 4.5 4.3 40.3 295 35-440-1 35 8.4 1.6 0.698 0.107 1.22 0.493 14 6 4.6 43.6 350 50-440-1 50 9.7 1.7 0.523 0.104 0.924 0.526 14 8 5.0 47.7 425 70-440-1 70 12.0 1.8 0.346 0.0981 0.623 0.599 16 12.5 5.4 54.0 565 95-440-1 95 13.3 2.0 0.271 0.0964 0.498 0.591 22 12.5 6.0 59.5 695 120-440-1 120 15.3 2.1 0.210 0.0932 0.398 0.640 25 13.75 6.4 65.2 845 150-440-1 150 17.2 2.3 0.166 0.0928 0.329 0.652 37 17 6.9 72.3 1065 185-440-1 185 18.8 2.5 0.137 0.0915 0.285 0.657 40 22 7.4 77.8 1245 240-440-1 240 21.7 2.8 0.106 0.0905 0.241 0.672 58 27 8.2 88.1 1610 300-440-1 300 24.3 3.0 0.0849 0.0883 0.212 0.719 63 35.7 8.8 95.5 1930 Type 440.3 16-440-3 16 6.2 3.0 1.58 0.131 2.75 0.255 14 3 5.3 47.3 340 25-440-3 25 7.2 3.0 0.951 0.125 1.66 0.280 15 4.5 5.6 50.4 410 35-440-3 35 8.4 3.0 0.698 0.119 1.23 0.311 16 6 5.9 53.5 475 50-440-3 50 9.7 3.0 0.523 0.114 0.927 0.347 17 8 6.3 57.2 555 70-440-3 70 12.0 3.0 0.346 0.106 0.627 0.408 19 12.5 6.6 62.6 690 95-440-3 95 13.3 3.0 0.271 0.102 0.502 0.439 21 12.5 7.1 66.4 785 120-440-3 120 15.3 3.0 0.210 0.0985 0.402 0.492 28 13.75 7.4 72.0 960 150-440-3 150 17.2 3.0 0.166 0.0954 0.332 0.541 32 17 7.8 76.7 1130 185-440-3 185 18.8 3.0 0.137 0.0942 0.288 0.584 42 22 8.2 82.3 1330 240-440-3 240 21.7 3.0 0.106 0.0906 0.242 0.659 48 27 8.8 89.6 1615 300-440-3 300 24.3 3.0 0.0849 0.0890 0.213 0.727 63 35.7 9.4 97.7 1980 Type 440.6 16-440-6 16 6.2 5.0 1.58 0.143 2.75 0.181 17 3 6.4 58.2 480 25-440-6 25 7.2 5.0 0.951 0.137 1.66 0.193 19 4.5 6.7 61.7 570 35-440-6 35 8.4 5.0 0.698 0.130 1.23 0.212 21 6 7.0 64.8 645 50-440-6 50 9.7 5.0 0.523 0.124 0.931 0.234 22 8 7.3 68.2 730 70-440-6 70 12.0 5.0 0.346 0.116 0.632 0.271 23 12.5 7.7 73.8 880 95-440-6 95 13.3 5.0 0.271 0.113 0.509 0.292 30 12.5 8.1 78.0 1020 120-440-6 120 15.3 5.0 0.210 0.108 0.409 0.325 32 13.75 8.5 83.2 1180 150-440-6 150 17.2 5.0 0.166 0.105 0.340 0.354 46 17 8.9 89.2 1410 185-440-6 185 18.8 5.0 0.136 0.102 0.294 0.381 49 22 9.3 93.6 1590 240-440-6 240 21.7 5.0 0.106 0.0981 0.250 0.426 53 27 9.9 101 1885 300-440-6 300 24.3 5.0 0.0845 0.0959 0.221 0.467 71 35.7 10.4 109 2275 Type 440.11 25-440-11 25 7.2 7.6 0.951 0.150 1.67 0.150 24 4.5 8.1 75.9 815 35-440-11 35 8.4 7.6 0.698 0.143 1.23 0.163 30 6 8.4 79.6 930 50-440-11 50 9.7 7.6 0.523 0.136 0.936 0.178 32 8 8.7 83.0 1025 70-440-11 70 12.0 7.6 0.346 0.127 0.638 0.204 35 12.5 9.1 88.7 1210 95-440-11 95 13.3 7.6 0.271 0.124 0.516 0.219 48 12.5 9.6 93.8 1385 120-440-11 120 15.3 7.6 0.210 0.119 0.418 0.241 53 13.75 9.9 98.7 1565 150-440-11 150 17.2 7.6 0.165 0.114 0.347 0.261 56 17 10.3 103 1765 185-440-11 185 18.8 7.6 0.136 0.111 0.304 0.279 56 22 10.7 108 1945 Type 440.22 35-440-22 35 8.4 10.5 0.698 0.160 1.24 0.147 53 6 10.0 102 1430 50-440-22 50 9.7 10.5 0.523 0.153 0.944 0.159 56 8 10.3 106 1550 70-440-22 70 12.0 10.5 0.346 0.143 0.648 0.178 60 12.5 10.7 111 1755 95-440-22 95 13.3 10.5 0.271 0.138 0.527 0.189 62 12.5 11.1 115 1890

34 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus 3 earths Maximum Continuous Operating Temperature: 90˚C INSULATION:  ePr (r-eP-90) Core, identification by printed numbers on black semiconductive elastomer insulation screen EARTH:  three, semiconductive elastomer covered, disposed in the cable interstices PILOT: one ePr cover tinned annealed copper central extensible conductor SHEATH: heavy duty hd-85-PCP, incorporating a polyaramid Kevlar® braid reinforcement CLASS 2 SEMICONDUCTIVE SCREENED CABLE FOR GENERAL USE semiconductive elastomer screened power cores with three earth cores and one pilot core, cable is suitable for trailing and most reeling applications and is used for general purpose supply. +90˚C -25˚C 3 excellent immersion Very good C1 in free air Mobile  eQuiPMent flexible type 441.1 1.1kV oPen-Cut Mine Cables Central Pilot Core earth Core hd reinforced elastomer sheath semi Conductive elastomer screen Phase Core

35 Physical & electrical Characteristics type 441.1 1.1kV Power Conductor Earth Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 441.1 6-441-1 6 3.5 1.5 4.32 0.143 7.49 0.259 2.1 3.8 30.7 140 10-441-1 10 4.6 1.5 2.58 0.130 4.47 0.314 3.4 3.8 32.8 165 16-441-1 16 6.2 1.6 1.58 0.118 2.74 0.379 5.3 3.9 36.5 210 25-441-1 25 7.2 1.6 0.951 0.111 1.66 0.432 5.3 4.2 39.3 260 35-441-1 35 8.4 1.6 0.698 0.106 1.22 0.493 5.3 4.4 42.2 305 50-441-1 50 9.7 1.7 0.523 0.105 0.924 0.526 8 4.9 47.5 395 70-441-1 70 12.0 1.8 0.346 0.0984 0.623 0.599 12.5 5.3 53.2 520 95-441-1 95 13.3 2.0 0.271 0.0953 0.498 0.591 16 5.8 57.6 620 120-441-1 120 15.3 2.1 0.210 0.0914 0.397 0.640 20 6.3 63.1 765 150-441-1 150 17.2 2.3 0.166 0.0896 0.327 0.652 27 6.7 68.6 935 185-441-1 185 18.8 2.5 0.137 0.0885 0.283 0.657 32 7.3 74.4 1115 240-441-1 240 21.7 2.8 0.107 0.0848 0.236 0.672 39.5 8.0 82.2 1385 300-441-1 300 24.3 3.0 0.0853 0.0823 0.205 0.719 50 8.7 89.4 1680

36 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core plus 3 earths Maximum Continuous Operating Temperature: 90˚C INSULATION:  Xr-eP-90 core identification by printed numbers on black semiconductive elastomer insulation screen EARTH:  three, elastomer covered tinned annealed copper cores disposed in the cable interstices PILOT: one ePr covered central extensible core . Maximum dC resistance of 3 Ω/100m for power conductor sizes up to 35mm 2 , and 2 Ω/100m for power conductor sizes greater than 35mm 2 SHEATH: extra heavy duty Xhd-85-PCP, incorporating a polyaramid Kevlar® braid reinforcement CLASS 1 SEMICONDUCTIVE SCREENED CABLE FOR GENERAL USE semiconductive elastomer screened power cores with three earth cores and one pilot core, general purpose cable. being a class 1 cable, this cable has lower insulation and sheath radials than class 2, and is suitable for use with materials handling equipment, and applications that call for a smaller overall diameter and mass for reeling and trailing applications. the cables are finished with a polyaramid yarn Kevlar® braid sheath reinforcement for exceptional tear and cut-through resistance. this cable is suitable for slow reeling and trailing applications. +90˚C -25˚C 3 excellent immersion Very good C1 in free air Mobile  eQuiPMent flexible type 441 3.3-22kV oPen-Cut Mine Cables Central Pilot Core earth Core Xhd reinforced elastomer sheath Phase Core semi Conductive elastomer screen

37 Physical & electrical Characteristics type 441 3.3-22kV Power Conductor Earth Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 441.3 25-441-3 25 7.2 2.2 0.951 0.120 1.66 0.395 5.3 4.9 45.9 320 35-441-3 35 8.4 2.2 0.698 0.115 1.23 0.437 5.3 5.2 48.8 370 50-441-3 50 9.7 2.4 0.523 0.113 0.927 0.450 8 5.7 54.4 470 70-441-3 70 12.0 2.4 0.346 0.105 0.626 0.525 12.5 6.0 59.5 595 95-441-3 95 13.3 2.4 0.271 0.100 0.500 0.563 16 6.3 62.7 685 120-441-3 120 15.3 2.4 0.210 0.0959 0.400 0.628 20 6.5 67.2 815 150-441-3 150 17.2 2.4 0.166 0.0929 0.329 0.687 27 6.6 71.3 965 185-441-3 185 18.8 2.4 0.137 0.0906 0.284 0.741 32 6.7 75.1 1105 240-441-3 240 21.7 2.4 0.107 0.0874 0.239 0.833 39.5 6.9 81.6 1350 300-441-3 300 24.3 2.4 0.0851 0.0850 0.208 0.917 50 7.0 87.4 1620 Type 441.6 25-441-6 25 7.2 3.0 0.951 0.126 1.66 0.309 5.3 5.3 50.2 370 35-441-6 35 8.4 3.0 0.698 0.121 1.23 0.340 5.3 5.6 53.3 425 50-441-6 50 9.7 3.0 0.523 0.116 0.928 0.375 8 6.0 57.6 515 70-441-6 70 12.0 3.0 0.346 0.108 0.628 0.435 12.5 6.3 62.6 640 95-441-6 95 13.3 3.0 0.271 0.103 0.502 0.465 16 6.4 65.5 725 120-441-6 120 15.3 3.0 0.210 0.0990 0.402 0.518 20 6.6 70.1 860 150-441-6 150 17.2 3.0 0.166 0.0958 0.332 0.566 27 6.7 74.2 1015 185-441-6 185 18.8 3.0 0.137 0.0934 0.287 0.608 32 6.8 78.0 1155 240-441-6 240 21.7 3.0 0.106 0.0899 0.241 0.682 39.5 7.0 84.6 1410 300-441-6 300 24.3 3.0 0.0849 0.0877 0.211 0.754 50 7.1 90.4 1680 Type 441.11 25-441-11 25 7.2 5.0 0.951 0.137 1.66 0.217 5.3 6.3 60.9 500 35-441-11 35 8.4 5.0 0.698 0.131 1.23 0.236 5.3 6.4 63.6 555 50-441-11 50 9.7 5.0 0.523 0.124 0.931 0.258 8 6.5 66.7 635 70-441-11 70 12.0 5.0 0.346 0.116 0.632 0.296 12.5 6.6 71.6 765 95-441-11 95 13.3 5.0 0.271 0.112 0.508 0.317 16 6.8 74.8 870 120-441-11 120 15.3 5.0 0.210 0.108 0.409 0.350 20 6.9 79.3 1010 150-441-11 150 17.2 5.0 0.166 0.104 0.339 0.381 27 7.0 83.6 1180 185-441-11 185 18.8 5.0 0.137 0.101 0.295 0.407 32 7.1 87.2 1320 240-441-11 240 21.7 5.0 0.106 0.0970 0.249 0.453 39.5 7.3 93.8 1585 300-441-11 300 24.3 5.0 0.0846 0.0942 0.219 0.499 50 7.5 100.0 1880 Type 441.22 35-441-22 35 8.4 7.6 0.698 0.143 1.23 0.178 5.3 6.9 76.0 750 50-441-22 50 9.7 7.6 0.523 0.136 0.936 0.194 8 7.0 79.2 840 70-441-22 70 12.0 7.6 0.346 0.127 0.638 0.219 12.5 7.1 84.1 980 95-441-22 95 13.3 7.6 0.271 0.123 0.515 0.234 16 7.2 87.0 1085 120-441-22 120 15.3 7.6 0.210 0.118 0.417 0.256 20 7.3 91.7 1245 150-441-22 150 17.2 7.6 0.165 0.113 0.346 0.276 27 7.4 95.8 1415 185-441-22 185 18.8 7.6 0.136 0.110 0.303 0.294 32 7.6 99.8 1580 240-441-22 240 21.7 7.6 0.106 0.105 0.258 0.325 39.5 7.7 106 1850

38 Installation Conditions in free air Mobile  eQuiPMent type 450 3.3-33kV Cable Characteristics Cable Design CORE:  Metal:  tinned Copper, 3 core plus 2 earths and 1 pilot Maximum Continuous Operating Temperature: 90˚C semiconductive barrier taped and elastomer screened INSULATION:  ePr (Xr-eP-90) semiconductive elastomer screened SCREEN:  Composite tinned annealed copper wire and polyester yarn screen, under a semiconductive tape Core Colours red, White, blue, braid tracers EARTH: two, elastomer covered tinned annealed copper wire earths disposed in the cable interstices PILOT: one, elastomer covered tinned annealed copper wire pilot disposed in the cable interstices SHEATH: extra heavy duty Xhd-85-PCP, incorporating a polyaramid braid reinforcement CLASS 1 COMPOSITE SCREENED CABLE FOR GENERAL USE Composite screened power cores with two earth and one pilot cores, general purpose cable. 3.3/3.3kV to 33/33kV reeling cables for use with drag-lines, shovels, excavators, wharf cranes, and materials handling equipment. this cable is suitable for slow reeling and trailing applications. +90˚C -25˚C 3 excellent immersion Very good C1 flexible oPen-Cut Mine Cables Pilot Core earth Core Xhd reinforced elastomer sheath Composite screen Phase Core

39 Physical & electrical Characteristics type 450 3.3-33kV Power Conductor Screen Earth &  Pilot Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area Approx  Area   (each) Sheath  Thickness Nominal Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm² mm mm kg/100m Type 450.3 25-450-3 25 7.2 2.2 0.951 0.118 1.66 0.395 7.9 8 4.8 46.7 355 35-450-3 35 8.4 2.2 0.698 0.113 1.22 0.437 8.5 8 5.1 49.7 415 50-450-3 50 9.7 2.4 0.523 0.109 0.925 0.450 9.3 12 5.6 54.5 515 70-450-3 70 12.0 2.4 0.346 0.103 0.625 0.525 14 18 6.0 60.5 660 95-450-3 95 13.3 2.4 0.271 0.0986 0.500 0.563 15 25 6.3 63.9 765 120-450-3 120 15.3 2.4 0.210 0.0947 0.399 0.628 16 31 6.4 68.4 900 150-450-3 150 17.2 2.4 0.166 0.0918 0.329 0.687 17 39.5 6.6 72.8 1070 185-450-3 185 18.8 2.4 0.137 0.0896 0.284 0.741 18 50 6.7 76.5 1225 240-450-3 240 21.7 2.4 0.107 0.0867 0.239 0.833 25 60 6.9 83.3 1485 300-450-3 300 24.3 2.4 0.0851 0.0844 0.208 0.917 27 80 7.0 89.0 1800 Type 450.6 25-450-6 25 7.2 3.0 0.951 0.124 1.66 0.309 8.8 8 5.2 51.1 410 35-450-6 35 8.4 3.0 0.698 0.118 1.23 0.340 9.3 8 5.5 54.2 470 50-450-6 50 9.7 3.0 0.523 0.113 0.927 0.375 10 12 5.9 57.8 560 70-450-6 70 12.0 3.0 0.346 0.106 0.627 0.435 15 18 6.3 63.9 710 95-450-6 95 13.3 3.0 0.271 0.102 0.502 0.465 16 25 6.4 66.8 810 120-450-6 120 15.3 3.0 0.210 0.0979 0.401 0.518 17 31 6.5 71.4 950 150-450-6 150 17.2 3.0 0.166 0.0948 0.331 0.566 18 39.5 6.6 75.5 1120 185-450-6 185 18.8 3.0 0.137 0.0923 0.286 0.608 20 50 6.8 79.3 1280 240-450-6 240 21.7 3.0 0.106 0.0893 0.240 0.682 27 60 7.0 86.2 1545 300-450-6 300 24.3 3.0 0.0850 0.0871 0.211 0.754 29 80 7.1 92.3 1875 Type 450.11 25-450-11 25 7.2 5.0 0.951 0.136 1.66 0.217 14 8 6.3 62.3 565 35-450-11 35 8.4 5.0 0.698 0.129 1.23 0.236 15 8 6.4 65.0 625 50-450-11 50 9.7 5.0 0.523 0.123 0.931 0.258 16 12 6.5 68.1 715 70-450-11 70 12.0 5.0 0.346 0.115 0.632 0.296 17 18 6.6 73.1 855 95-450-11 95 13.3 5.0 0.271 0.111 0.507 0.317 18 25 6.7 76.1 965 120-450-11 120 15.3 5.0 0.210 0.107 0.408 0.350 20 31 6.9 80.7 1115 150-450-11 150 17.2 5.0 0.166 0.103 0.338 0.381 26 39.5 7.0 85.2 1315 185-450-11 185 18.8 5.0 0.137 0.100 0.294 0.407 27 50 7.1 89.0 1485 240-450-11 240 21.7 5.0 0.106 0.0964 0.248 0.453 30 60 7.3 95.5 1745 300-450-11 300 24.3 5.0 0.0846 0.0937 0.219 0.499 32 80 7.4 101 2080 Type 450.22 35-450-22 35 8.4 7.6 0.698 0.142 1.23 0.178 19 8 6.8 77.2 835 50-450-22 50 9.7 7.6 0.523 0.135 0.936 0.194 20 12 6.9 80.2 930 70-450-22 70 12.0 7.6 0.346 0.127 0.638 0.219 27 18 7.0 85.6 1105 95-450-22 95 13.3 7.6 0.271 0.122 0.515 0.234 27 25 7.2 88.9 1230 120-450-22 120 15.3 7.6 0.210 0.117 0.416 0.256 29 31 7.3 93.4 1395 150-450-22 150 17.2 7.6 0.165 0.113 0.346 0.276 31 39.5 7.4 97.5 1580 185-450-22 185 18.8 7.6 0.136 0.110 0.303 0.294 32 50 7.5 101 1760 240-450-22 240 21.7 7.6 0.106 0.105 0.258 0.325 34 60 7.7 108 2035 33kV available on request.

40 Installation Conditions in free air Mobile  eQuiPMent Cable Characteristics Cable Design CORE:  Metal:  tinned Copper, 3 core plus 2 earths and 1 pilot Maximum Continuous Operating Temperature: 90˚C semiconductive barrier taped and elastomer screened INSULATION:  ePr (Xr-eP-90) semiconductive elastomer screened SCREEN:  Composite tinned annealed copper wire and polyester yarn screen under a semiconductive tape Core Colours red, White, blue, braid tracers EARTH: two, elastomer covered, disposed in the cable interstices PILOT: one, elastomer covered, disposed in the cable interstices SHEATH: extra heavy duty Xhd-85-PCP, incorporating a polyaramid Kevlar® braid reinforcement CLASS 1 COMPOSITE SCREENED CABLE FOR GENERAL USE Composite screened power cores with two earth and one pilots cores, general purpose cable. 3.3/3.3kV to 33/33kV reeling cables similar to type 450 cables but with reduced pilot size, for use with drag-lines, shovels, excavators, wharf cranes, and  materials handling equipment. this cable is suitable for slow reeling and trailing applications. +90˚C -25˚C 3 excellent immersion Very good C1 flexible type 451 3.3-33kV oPen-Cut Mine Cables Pilot Core earth Core Xhd reinforced elastomer sheath Composite screen Phase Core

41 Physical & electrical Characteristics type 451 3.3-33kV Power Conductor Screen Earth Pilot Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diam- eter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area Approx  Area  (each) Approx  Area  Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm²/phase mm² mm² mm mm kg/100m Type 451.3 25-451-3 25 7.2 2.2 0.951 0.118 1.66 0.395 7.9 8 9 4.8 46.7 360 35-451-3 35 8.4 2.2 0.698 0.113 1.22 0.437 8.5 8 9 5.1 49.7 415 50-451-3 50 9.7 2.4 0.523 0.109 0.925 0.450 9.3 12 9 5.6 54.5 510 70-451-3 70 12.0 2.4 0.346 0.103 0.625 0.525 14 18 9 6.0 60.5 655 95-451-3 95 13.3 2.4 0.271 0.0986 0.500 0.563 15 25 9 6.3 63.9 755 120-451-3 120 15.3 2.4 0.210 0.0947 0.399 0.628 16 31 13.2 6.4 68.4 890 150-451-3 150 17.2 2.4 0.166 0.0918 0.329 0.687 17 39.5 13.2 6.6 72.8 1050 Type 451.6 25-451-6 25 7.2 3.0 0.951 0.124 1.66 0.309 8.8 8 9 5.2 51.1 415 35-451-6 35 8.4 3.0 0.698 0.118 1.23 0.340 9.3 8 9 5.5 54.2 470 50-451-6 50 9.7 3.0 0.523 0.113 0.927 0.375 10 12 9 5.9 57.8 555 70-451-6 70 12.0 3.0 0.346 0.106 0.627 0.435 15 18 9 6.3 63.9 705 95-451-6 95 13.3 3.0 0.271 0.102 0.502 0.465 16 25 9 6.4 66.8 800 120-451-6 120 15.3 3.0 0.210 0.0979 0.401 0.518 17 31 13.2 6.5 71.4 940 150-451-6 150 17.2 3.0 0.166 0.0948 0.331 0.566 18 39.5 13.2 6.6 75.5 1100 Type 451.11 25-451-11 25 7.2 5.0 0.951 0.136 1.66 0.217 14 8 13.2 6.3 62.3 570 35-451-11 35 8.4 5.0 0.698 0.129 1.23 0.236 15 8 13.2 6.4 65.0 630 50-451-11 50 9.7 5.0 0.523 0.123 0.931 0.258 16 12 13.2 6.5 68.1 715 70-451-11 70 12.0 5.0 0.346 0.115 0.632 0.296 17 18 13.2 6.6 73.1 850 95-451-11 95 13.3 5.0 0.271 0.111 0.507 0.317 18 25 13.2 6.7 76.1 955 120-451-11 120 15.3 5.0 0.210 0.107 0.408 0.350 20 31 13.2 6.9 80.7 1105 150-451-11 150 17.2 5.0 0.166 0.103 0.338 0.381 26 39.5 13.2 7.0 85.2 1295 Type 451.22 35-451-22 35 8.4 7.6 0.698 0.142 1.23 0.178 19 8 13.2 6.8 77.2 840 50-451-22 50 9.7 7.6 0.523 0.135 0.936 0.194 20 12 13.2 6.9 80.2 930 70-451-22 70 12.0 7.6 0.346 0.127 0.638 0.219 27 18 13.2 7.0 85.6 1100 95-451-22 95 13.3 7.6 0.271 0.122 0.515 0.234 27 25 13.2 7.2 88.9 1220 120-451-22 120 15.3 7.6 0.210 0.117 0.416 0.256 29 31 13.2 7.3 93.4 1380 150-451-22 150 17.2 7.6 0.165 0.113 0.346 0.276 31 39.5 13.2 7.4 97.5 1560 33kV available on request.

42 Installation Conditions in free air Mobile  eQuiPMent Cable Characteristics Cable Design CORE:  Metal:  tinned Copper, 3 core plus 2 earths and 1 pilot Maximum Continuous Operating Temperature: 90˚C INSULATION:  ePr (Xr-eP-90) semiconductive elastomer screened, with numbered cores EARTH: two, elastomer covered, disposed in the cable interstices PILOT: one, elastomer covered, disposed in the cable interstices SHEATH: extra heavy duty Xhd-85-PCP, incorporating a polyaramid Kevlar® braid reinforcement CLASS 1 SEMICONDUCTIVE SCREENED CABLE FOR GENERAL USE semiconductive elastomer screened power cores with two earth and one pilot cores, general purpose cable. 3.3/3.3kV to 11/11kV reeling cables for use with drag-lines, shovels, excavators, wharf cranes, and materials handling equipment. the cable is similar to type 450 cables, without a composite insulation screen. this cable is suitable for slow reeling and trailing applications. +90˚C -25˚C 3 excellent immersion Very good C1 flexible type 455 3.3-11kV oPen-Cut Mine Cables Pilot Core earth Core Xhd reinforced elastomer sheath Coloured Phase Core semi Conductive elastomer screen

43 Physical & electrical Characteristics type 455 3.3-11kV Power Conductor Earth &  Pilot Cable Voltage   Rating  & Part  Number Nominal  Area Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C   & 50Hz Capacitance  to Earth Approx  Area (each) Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m μf/phase/ km mm² mm mm kg/100m Type 455.3 25-455-3 25 7.3 2.2 0.951 0.112 1.66 0.404 8 4.5 42.2 300 35-455-3 35 8.9 2.2 0.698 0.105 1.22 0.462 8 4.8 46.2 360 50-455-3 50 10.2 2.4 0.523 0.103 0.923 0.473 12 5.2 50.7 455 70-455-3 70 12.7 2.4 0.346 0.0964 0.622 0.555 18 5.7 56.9 585 95-455-3 95 13.8 2.4 0.271 0.0941 0.497 0.593 25 6.1 60.2 700 120-455-3 120 15.7 2.4 0.210 0.0915 0.397 0.633 31 6.4 65.3 850 150-455-3 150 17.6 2.4 0.166 0.0884 0.326 0.719 39.5 6.5 69.1 1010 Type 455.6 25-455-6 25 7.3 3.0 0.951 0.119 1.66 0.316 8 5.0 46.8 345 35-455-6 35 8.9 3.0 0.698 0.112 1.22 0.359 8 5.3 50.9 415 50-455-6 50 10.2 3.0 0.523 0.107 0.925 0.394 12 5.6 54.2 500 70-455-6 70 12.7 3.0 0.346 0.100 0.624 0.459 18 6.0 60.2 635 95-455-6 95 13.8 3.0 0.271 0.0978 0.499 0.490 25 6.3 63.3 745 120-455-6 120 15.7 3.0 0.210 0.0944 0.399 0.540 31 6.5 67.7 890 150-455-6 150 17.6 3.0 0.166 0.0916 0.328 0.591 39.5 6.6 72.0 1055 Type 455.11 25-455-11 25 7.3 5.0 0.951 0.132 1.66 0.223 8 6.1 57.6 480 35-455-11 35 8.9 5.0 0.698 0.124 1.23 0.251 8 6.3 61.5 550 50-455-11 50 10.2 5.0 0.523 0.119 0.929 0.273 12 6.4 64.4 640 70-455-11 70 12.7 5.0 0.346 0.111 0.629 0.314 18 6.5 69.8 775 95-455-11 95 13.8 5.0 0.271 0.108 0.505 0.334 25 6.7 72.7 890 120-455-11 120 15.7 5.0 0.210 0.104 0.406 0.365 31 6.8 77.0 1040 150-455-11 150 17.6 5.0 0.166 0.100 0.336 0.397 39.5 6.9 81.3 1215

a range of high/medium voltage cables used in power reticulation throughout a mine for pumps, conveyors, feeder breakers, and lighting. “high/MediuM Voltage arMoured PaPer lead and  arMoured XlPe (Cross linKed PolyMer) Cables”

Mine Feeder Cables t he Mine feeder Cable range includes high/medium voltage armoured paper lead and armoured XlPe  (cross linked polymer) cables as well as machine cables manufactured to as/nZ1972.  these cables are used for specific applications in underground coal mines such as lighting, conveyors,  pumps, machine and general reticulation of supply. Many of these cables are also suitable for above ground and other general mining applications.

46 11/11kV  Paper  insulated 3 CORE BELTED PAPER INSULATED CABLE TO AS1026 AND AS/NZS 1972 high voltage feeder cables used in power reticulation throughout the mine. 11/11kV paper insulated, paper belted, lead sheathed, gsW armoured, PVC sheathed cable. suitable as primary supply for mines and industrial networks. note: 12.7/22kV XPle cable can be used as an alternative, with gains in temperature rating generally allowing a reduction in cable size, with consequent savings in cost, size and weight. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  Compacted shaped plain annealed copper conductor Maximum Continuous Operating Temperature: 65˚C  semiconductive tape screen INSULATION:  impregnated paper tape insulated (numbered), overall paper tape belt insulated INNER SHEATH:  lead alloy BEDDING:  bitumen impregnated paper and textile tape ARMOUR:  galvanised steel wire armour. the armour is designed to provide not less than 50% conductance of the power conductor OUTER SHEATH:  PVC (red) +65˚C -0˚C in free air in duCt 4 excellent immersion Very good C3 rigid armour sheath Paper insulation sectoral Phase Core lead sheath bedding buried  direCt Mine feeder Cables

47 Physical Characteristics electrical Characteristics Conductor Nominal Overall Diameter  mm Approx. Cable Mass  kg/100m Minimum Installed Bend Radius  mm mm 2 Shape 16 Circular 47.6 551 570 25 Circular 49 632 590 35 Circular 50.3 673 600 50 sector 53 748 640 70 sector 56.3 873 680 95 sector 60 1021 720 120 sector 62.1 1122 750 150 sector 65.1 1268 780 185 sector 69.9 1542 840 240 sector 74.8 1793 900 300 sector 79.8 2119 960 400 sector 86.3 2505 1040 500 sector 92.2 3003 1110 Core Current Rating Electrical Characteristics Area mm 2 In Air A In Ground A In Ducts A DC  ohm AC  ohm Inductance Capacitance Star  Reactance Volt drop 16 61 75 67 1.15 1.35 0.398 0.165 0.125 2.35 25 79 96 86 0.727 0.856 0.344 0.212 0.108 1.49 35 95 115 102 0.524 0.617 0.323 0.242 0.102 1.08 50 120 143 126 0.387 0.456 0.292 0.29 0.092 0.805 70 149 176 154 0.268 0.316 0.28 0.328 0.088 0.568 95 182 211 185 0.193 0.228 0.27 0.367 0.085 0.421 120 208 240 210 0.153 0.181 0.264 0.398 0.083 0.345 150 236 270 239 0.124 0.147 0.255 0.435 0.08 0.29 185 269 303 269 0.0991 0.118 0.25 0.474 0.078 0.246 240 318 353 313 0.0754 0.091 0.242 0.525 0.076 0.205 300 362 396 351 0.0601 0.073 0.238 0.573 0.075 0.181 400 419 450 398 0.047 0.059 0.234 0.642 0.073 0.162 500 481 509 456 0.0366 0.047 0.229 0.715 0.072 0.149 11/11kV  Paper  insulated 11/11kV  Paper  insulated

48 6.35/11kV  Copper 3 CORE COPPER WIRE SCREENED ARMOURED TO AS/NZS 1972 6.35/11kV XlPe insulated, screened, gsW armoured, PVC sheathed cable. suitable as primary supply for mines and industrial networks. note: the cables in this brochure are not specifically designed for use as self supporting cables, as submarine cables or where exposure to excessive heat and/or corrosive products is involved. in case of any doubt concerning the suitability of a particular cable type for a particular application, guidance should be sought from the Prysmian Customer service team. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  Plain circular compacted copper Maximum Continuous Operating Temperature: 90˚C CONDUCTOR SCREEN:  extruded semi-conducting compound, bonded to the insulation and applied in the same operation as the insulation INSULATION:  Cross linked Polyethylene (XlPe) - standard INSULATION SCREEN:  extruded semi-conducting compound METALLIC SCREEN:  Plain annealed copper wire. Combined screen area is designed to provide not less than 50% conductance of one associated power conductor ARMOUR:  galvanised steel wires OUTER SHEATH:  red 5V-90 polyvinyl chloride (PVC) +90˚C -25˚C 12d in free air in duCt 4 Very good splashes Very good C2 rigid Conductor screen Metallic screen sheath armour Phase Core in ground 18d in trenCh Mine feeder Cables

49 note: for rating factors see technical information section. Product Code 25XFED3C11 35XFED3C11 50XFED3C11 70XFED3C11 95XFED3C11 120XFED3C11 150XFED3C11 185XFED3C11 240XFED3C11 Nominal Conductor Area mm 2 25 35 50 70 95 120 150 185 240 Nominal  Conductor Diameter mm 6.1 7.0 8.2 9.8 11.5 12.9 14.3 16.0 18.2 Nominal  Diameter  Under Armour 40.9 42.9 45.5 49.4 53.2 56.3 59.5 66.0 71.2 Nominal Wire Armour Diameter mm 2.5 2.5 2.5 2.5 2.5 2.5 2.5 3.15 3.15 Nominal Diameter mm 51.3 53.5 56.3 60.4 64.4 67.9 71.3 79.5 85.1 Nominal Mass kg/100m 425 475 539 646 778 888 1009 1286 1533 Pulling Tension: Cond(s) kN 5.3 7.4 10.5 14.7 20.0 25.0 25.0 25.0 25.0 Pulling Tension: Stocking kN 5.3 7.4 10.5 12.8 14.5 16.1 17.8 22.1 25 Pulling Tension: Armour Wires kN 10.52 11.46 12.75 14.77 16.95 18.75 20.6 25.0 25.0 Min Bending Radius During Install mm 920 960 1010 1090 1160 1220 1280 1430 1530 Min Bending Radius Set In Position mm 615 640 676 725 773 814 855 954 1020 Rdc @ Ref Temp: Phase Cond Ohm/km 0.727 0.524 0.387 0.268 0.193 0.153 0.124 0.0991 0.0754 Rac @ Oper Temp: Phase Conductor 0.927 0.668 0.494 0.342 0.247 0.196 0.159 0.128 0.0983 Inductance  mH/km 0.415 0.397 0.379 0.349 0.333 0.319 0.310 0.309 0.298 Inductance Reactance  Ohm/km 0.130 0.124 0.119 0.109 0.104 0.100 0.097 0.097 0.0937 Zo @ Ref temp: Ro Ohm/km 4.00+j0.084 3.51+j0.018 2.51+j0.073 1.76+j0.063 1.29+j0.059 1.02+j0.054 0.82+j0.051 0.66+j0.050 0.52+j0.047 Capacitance: Phase To Earth uF/km 0.211 0.230 0.254 0.289 0.324 0.353 0.382 0.418 0.465 Capacitance: Charging curr. per phase A/km 0.42 0.46 0.51 0.58 0.65 0.70 0.76 0.83 0.92 ISC: Phase Cond. kA, 1 sec 3.6 5.0 7.2 10.0 13.6 17.2 21.5 26.5 34.3 In Ground,  Direct Buried A 145 172 202 246 290 330 370 410 464 In Ground,  in Duct A 120 145 170 205 245 280 310 350 410 In Free Air A; Spaced From Wall 148 177 210 259 312 356 400 460 529 In Free Air A; Clipped To Wall 138 166 197 242 291 332 373 427 490 Perferred Duct Nominal Size 80 80 100 100 100 100 100 125 125 Characteristics 6.35/11kV  Copper

50 12.7/22kV  Copper 3 CORE COPPER WIRE SCREENED ARMOURED TO AS/NZS 1972 12.7/22kV XlPe insulated, screened, gsW armoured, PVC sheathed cable. suitable as primary supply for mines and industrial networks. note: the cables in this brochure are not specifically designed for use as self supporting cables, as submarine cables or where exposure to excessive heat and/or corrosive products is involved. in case of any doubt concerning the suitability of a particular cable type for a particular application, guidance should be sought from the Prysmian Customer service team. Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  Plain circular compacted copper Maximum Continuous Operating Temperature: 90˚C CONDUCTOR SCREEN:  extruded semi-conducting compound, bonded to the insulation and applied in the same operation as the insulation INSULATION:  Cross linked Polyethylene (XlPe) - standard INSULATION SCREEN:  extruded semi-conducting compound METALLIC SCREEN:  Plain annealed copper wire. Combined screen area is designed to provide not less than 50% conductance of one associated power conductor ARMOUR:  galvanised steel wires OUTER SHEATH:  red 5V-90 polyvinyl chloride (PVC) +90˚C -25˚C 12d in free air in duCt 4 Very good splashes Very good C2 rigid in ground 18d Conductor screen Metallic screen sheath armour Phase Core in trenCh Mine feeder Cables

51 Product Code 35XFED3C22 50XFED3C22 70XFED3C22 95XFED3C22 120XFED3C22 150XFED3C22 185XFED3C22 240XFED3C22 Nominal Conductor Area mm 2 35 50 70 95 120 150 185 240 Nominal  Conductor Diameter mm 7.0 8.2 9.8 11.5 12.9 14.3 16.0 18.2 Nominal  Diameter  Under Armour 52.43 55.07 58.82 62.48 65.70 68.92 75.49 80.41 Nominal Wire Armour Diameter mm 2.5 2.5 2.5 2.5 3.15 3.15 3.15 3.15 Nominal Diameter mm 63.6 66.5 70.4 74.5 79.4 83.0 89.8 95.1 Nominal Mass kg/100m 603 660 776 902 1110 1245 1449 1699 Pulling Tension: Cond(s) kN 7.4 10.5 14.7 20.0 25.0 25.0 25.0 25.0 Pulling Tension: Stocking kN 7.4 10.5 14.7 19.4 22.1 24.1 25.0 25.0 Pulling Tension: Armour Wires kN 16.3 18.31 20.0 22.5 25.0 25.0 25.0 25.0 Min Bending Radius During Install mm 1145 1195 1265 1340 1430 1490 1615 1710 Min Bending Radius Set In Position mm 760 795 845 890 950 995 1075 1140 Rdc @ Ref Temp: Phase Cond Ohm/km 0.524 0.387 0.268 0.193 0.153 0.124 0.0991 0.0754 Rac @ Oper Temp: Phase Conductor 0.668 0.494 0.342 0.247 0.196 0.159 0.128 0.098 Inductance  mH/km 0.438 0.418 0.385 0.367 0.351 0.340 0.336 0.323 Inductance Reactance  Ohm/km 0.137 0.131 0.121 0.115 0.110 0.107 0.106 0.102 Zo @ Ref Temp: Ro Ohm/km 2.87+j0.092 2.57+j0.085 1.76+j0.075 1.28+j0.069 1.02+j0.065 0.82+j0.061 0.66+j0.059 0.53+j0.055 Capacitance: Phase To Earth uF/km 0.164 0.179 0.200 0.223 0.241 0.259 0.282 0.311 Capacitance: Charging Curr. Per Phase A/km 0.65 0.71 0.80 0.89 0.96 1.03 1.12 1.24 ISC: Phase Cond. kA, 1 sec 5.0 7.2 10.0 13.6 17.2 21.5 26.5 34 In Ground, Direct Buried A 174 204 247 293 330 365 410 465 In Ground,  In Duct A 145 170 210 252 285 314 353 403 In Free Air A; Spaced From Wall 182 216 265 319 364 407 465 535 In Free Air A; Clipped To Wall 171 202 248 298 339 380 433 497 Perferred Duct Nominal Size 100 100 100 125 125 125 150 150 Characteristics 12.7/22kV  Copper note: for rating factors see technical information section.

52 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned annealed Copper Maximum Continuous Operating Temperature: 90˚C INSULATION:  heat resistant V-90 PVC SCREEN: tinned copper wire and polyester yarn composite braid screened Cables can be individually or collectively (as displayed) screened COVER: heat resistant 5V-90 PVC PVC INSULATED AND COVERED, SCREENED CABLE Cable designed for the wiring of mobile equipment such as continuous miners, shuttle cars, road headers, personnel transports, etc. type 1 cables require further mechanical protection when used in external (non-protected) installations. they are used for the interconnection of equipment, for example control boxes, motors, etc. Cables rated in excess of 20 amps are electrically symmetrical. +90˚C -0˚C 1 Very good splashes Very good C3 flexible Cables require further mechanical protection. in duCt type 1 1.1kV MaChines Mine feeder Cables earth Core Composite screen PVC sheath Coloured Phase Core

53 Physical & electrical Characteristics type 1 1.1kV Power Conductor Screen Cable Voltage   Rating &   Part Number Nominal  Area No. of cores Nominal  Diameter Insulation  Thickness ac   Resistance  @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C &  50Hz Max 20°C dc  Resistance,  Combined Covering  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m Ω/km mm mm kg/100m 1.1/1.1kV Type 1 Individually Screened Machine Cables 1.5t1-is-2C 1.5 2 1.6 0.8 17.5 0.120 30.3 13.7 0.8 10.2 15 1.5t1-is-3C 1.5 3 1.6 0.8 17.5 0.120 30.3 13.7 0.8 10.8 20 10t1-is-3C 10 3 4.6 1.0 2.58 0.0923 4.47 6.06 1.0 18.1 60 16t1-is-3C 16 3 6.2 1.0 1.58 0.0854 2.74 3.72 1.3 22.0 85 1.5t1-is-4C 1.5 4 1.6 0.8 17.5 0.128 30.3 13.7 0.8 11.9 25 10t1-is-4C 10 4 4.6 1.0 2.58 0.0998 4.47 6.06 1.3 20.5 75 16t1-is-4C 16 4 6.2 1.0 1.58 0.0929 2.74 3.72 1.3 24.3 110 1.1/1.1kV Type 1 Collectively Screened Machine Cables 1.5t1-Cs-2C 1.5 2 1.6 0.8 17.5 0.106 30.3 13.7 0.8 9.38 15 1.5t1-Cs-3C 1.5 3 1.6 0.8 17.5 0.106 30.3 13.7 0.8 9.88 15 1.5t1-Cs-4C 1.5 4 1.6 0.8 17.5 0.114 30.3 13.7 0.8 10.7 20 1.5t1-Cs-6C 1.5 6 1.6 0.8 17.5 0.123 30.3 13.7 1.0 12.8 25 1.5t1-Cs-16C 1.5 16 1.6 0.8 17.5 0.152 30.3 13.7 1.3 18.8 55 1.5t1-Cs-30C 1.5 30 1.6 0.8 17.5 0.169 30.3 13.7 1.5 24.7 90

54 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned annealed Copper Maximum Continuous Operating Temperature: 90˚C INSULATION:  ePr (r-eP-90) PILOT (WHERE REQUIRED): tinned annealed copper, r-eP-90 insulated (screened when individual power cores are screened) SCREEN: tinned copper wire and polyester yarn composite braid screened Cables can be individually (as displayed) or collectively screened SHEATH: hd-90-CPe black ELASTOMER INSULATED AND SHEATHED, SCREENED CABLE Cables designed for wiring mobile equipment such as continuous miners, shuttle cars, road headers, and personnel transporters. 0.6/1kV type 2s cables are sheathed and do not require further mechanical protection when used in external (non-protected) installations. they are used for the interconnection of equipment, for example control boxes, motors, etc., and may be used for longwall lighting systems. +90˚C -25˚C 3 Very good immersion Very good C1 flexible type 2s,  type 2s.3 in free air Mobile  eQuiPMent MaChines Mine feeder Cables Coloured Phase Core Pilot Core hd elastomer sheath

55 Physical & electrical Characteristics type 2s,  type 2s.3 Power Conductor Pilot Screen Cable Voltage   Rating &   Part Number Nominal  Area No. of  Cores Nominal  Diameter Insulation  Thickness ac   Resistance   @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C &  50Hz Nominal  Area No. of  Cores Max 20°C  dc Resist- ance, Com- bined Sheath  Thick- ness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m mm² Ω/km mm mm kg/100m 1.1/1.1kV Type 2S Individually Screened Machine Cables 10t2s-is-2C 10 2 4.6 1.0 2.58 0.0953 4.47 - - 6.06 1.8 18.9 60 16t2s-is-2C 16 2 6.2 1.0 1.58 0.0879 2.74 - - 3.72 1.8 22.1 85 10t2s-is-3C 10 3 4.6 1.0 2.58 0.0953 4.47 - - 6.06 1.8 20.1 75 16t2s-is-3C 16 3 6.2 1.0 1.58 0.0879 2.74 - - 3.72 1.8 23.5 105 10t2s-is-4C 10 4 4.6 1.0 2.58 0.103 4.47 - - 6.06 1.8 22.1 95 16t2s-is-4C 16 4 6.2 1.0 1.58 0.0954 2.74 - - 3.72 1.8 25.9 130 16t2s-is-2C1P 16 2 6.2 1.0 1.58 0.0786 2.74 1 1 3.72 1.8 22.1 100 6t2s-is-2C2P 6 2 3.5 1.0 4.32 0.0936 7.48 1 2 8.21 1.8 16.9 50 10t2s-is-2C2P 10 2 4.6 1.0 2.58 0.0860 4.47 1 2 6.06 1.8 19.0 65 16t2s-is-2C2P 16 2 6.2 1.0 1.58 0.0786 2.74 1 2 3.72 1.8 22.1 90 6t2s-is-3C3P 6 3 3.5 1.0 4.32 0.119 7.49 1 3 8.21 1.8 19.8 70 10t2s-is-3C3P 10 3 4.6 1.0 2.58 0.104 4.47 1 3 6.06 1.8 21.3 85 16t2s-is-3C3P 16 3 6.2 1.0 1.58 0.0879 2.74 1 3 3.72 1.8 23.5 110 25t2s-is-3C3P 25 3 7.2 1.2 0.951 0.0870 1.65 1 3 2.24 1.8 26.8 155 35t2s-is-3C3P 35 3 8.4 1.2 0.698 0.0837 1.22 1 3 1.64 1.8 29.5 190 50t2s-is-3C3P 50 3 9.7 1.4 0.523 0.0828 0.917 1 3 1.23 1.9 33.4 245 3.3/3.3kV Type 2S.3 Individually Screened Machine Cables 10t2s.3-is-3C3P 10 3 4.6 3.0 2.58 0.125 4.47 1.5 3 6.06 1.8 30.5 140 16t2s.3-is-3C3P 16 3 6.2 3.0 1.58 0.116 2.74 1.5 3 3.72 1.9 34.7 185 25t2s.3-is-3C3P 25 3 7.2 3.0 0.951 0.110 1.66 1.5 3 2.24 2.0 37.3 235 35t2s.3-is-3C3P 35 3 8.4 3.0 0.698 0.105 1.22 1.5 3 1.64 2.0 39.8 275 50t2s.3-is-3C3P 50 3 9.7 3.0 0.523 0.101 0.923 1.5 3 1.23 2.1 42.8 325 70t2s.3-is-3C3P 70 3 12.0 3.0 0.346 0.0950 0.621 1.5 3 0.813 2.3 48.3 435 95t2s.3-is-3C3P 95 3 13.3 3.0 0.271 0.0926 0.496 1.5 3 0.636 2.4 51.4 515 120t2s.3-is-3C3P 120 3 15.3 3.0 0.210 0.0897 0.396 1.5 3 0.492 2.5 56.4 640 1.1/1.1kV Type 2S Collectivelly Screened Machine Cables 1.5t2s-Cs-2C 1.5 2 1.6 1.0 17.5 0.118 30.3 - - 13.7 1.8 12.2 20 1.5t2s-Cs-3C 1.5 3 1.6 1.0 17.5 0.119 30.3 - - 13.7 1.8 12.7 25 1.5t2s-Cs-4C 1.5 4 1.6 1.0 17.5 0.126 30.3 - - 13.7 1.8 13.7 25 1.5t2s-Cs-6C 1.5 6 1.6 1.0 17.5 0.135 30.3 - - 13.7 1.8 16.0 35 1.5t2s-Cs-16C 1.5 16 1.6 1.0 17.5 0.164 30.3 - - 13.7 1.8 22.8 75 1.5t2s-Cs-30C 1.5 30 1.6 1.0 17.5 0.181 30.3 - - 13.7 1.8 29.1 120

56 Cable Characteristics Installation Conditions Cable Design CORE:  Metal:  tinned Copper, 3 core (plus 3 symmetrical pilots in type a) Maximum Continuous Operating Temperature: 90˚C Conductor Tape:  Polyester textile INSULATION:  ePr (r-eP-90) Core Colours red, White, blue, under a semiconductive tape EARTH:  screen (earth) of tinned annealed copper wire PILOT: three semiconductive elastomer covered in the cable interstices (type a only) SHEATH: heavy duty hd-85-PCP 1.1/1.1KV FEEDER CABLES TO AS/NZS 1972 individually screened power cores. 1.1/1.1kV Cable suitable for applications where the conductivity of the combined screens must meet the requirements of as/nZs 1972. type a cables have three pilot cores. type b cables have  no pilots. +90˚C -25˚C 3 excellent immersion Very good C1 semi   flexible for use between transportable substations and associated equipment, where the cable has to be frequently moved. in free air in duCt Mobile  eQuiPMent type a and  type b 1.1kV Mine feeder Cables Pilot Core tape screen hd PlPsheath Coloured Phase Core

57 Physical & electrical Characteristics type a and  type b 1.1kV Power Conductor Pilot Screen Cable Voltage   Rating &   Part  Number Nominal  Area No. of  Cores Nominal  Diameter Insulation  Thickness ac   Resistance   @ 90°C &  50Hz Reactance @ 50Hz 3 Phase Voltage  Drop  @ 90°C &  50Hz Nominal  Area No. of  Cores Max  20°C dc  Resistance,  Combined Sheath  Thickness Nominal  Diameter Approx  Mass mm² mm mm Ω/km Ω/km mV/a.m mm² Ω/km mm mm kg/100m 1.1/1.1kV Type A Feeder Cables 16tyPea 16 3 5.1 1.4 1.48 0.109 2.57 0.75 3 6.96 2.5 27.4 150 25tyPea 25 3 6.7 1.4 0.936 0.0991 1.63 1 3 4.40 2.5 30.9 195 35tyPea 35 3 7.7 1.5 0.675 0.0954 1.18 1.5 3 3.17 2.5 33.4 240 50tyPea 50 3 9.0 1.7 0.499 0.0925 0.879 2.5 3 2.35 3.0 38.1 315 70tyPea 70 3 10.6 1.8 0.345 0.0894 0.617 2.5 3 1.62 3.3 42.3 395 95tyPea 95 3 12.6 2.0 0.250 0.0871 0.459 2.5 3 1.76 3.8 48.7 530 120tyPea 120 3 14.2 2.2 0.198 0.0859 0.374 2.5 3 1.39 3.8 53.0 645 150tyPea 150 3 15.7 2.3 0.162 0.0847 0.317 2.5 3 1.13 4.4 57.8 765 185tyPea 185 3 17.9 2.5 0.130 0.0832 0.267 2.5 3 0.900 5.1 65.2 975 240tyPea 240 3 20.3 2.7 0.0997 0.0841 0.226 2.5 3 0.686 5.7 74.5 1300 1.1/1.1kV Type B Feeder Cables 16tyPeb 16 3 5.1 1.4 1.48 0.106 2.57 - - 6.96 2.5 27.1 145 25tyPeb 25 3 6.7 1.4 0.936 0.0982 1.63 - - 4.40 2.5 30.8 190 35tyPeb 35 3 7.7 1.5 0.675 0.0954 1.18 - - 3.17 2.5 33.4 235 50tyPeb 50 3 9.0 1.7 0.499 0.0925 0.879 - - 2.35 3.0 38.1 305 70tyPeb 70 3 10.6 1.8 0.345 0.0894 0.617 - - 1.62 3.3 42.3 390 95tyPeb 95 3 12.6 2.0 0.250 0.0871 0.459 - - 1.76 3.8 48.7 525 120tyPeb 120 3 14.2 2.2 0.198 0.0859 0.374 - - 1.39 3.8 53.0 640 150tyPeb 150 3 15.7 2.3 0.162 0.0847 0.317 - - 1.13 4.4 57.8 760 185tyPeb 185 3 17.9 2.5 0.130 0.0832 0.267 - - 0.900 5.1 65.2 970 240tyPeb 240 3 20.3 2.7 0.0997 0.0841 0.226 - - 0.686 5.7 74.5 1295

58 teChniCal inforMation observation of cables during service has shown problems arise from cables being reeled or passed around pulleys or sheaves of too small a bending diameter. this also occurs when moving trailing cables. if the minimum bending diameter is observed, then the effect of reeling on the lay or twist of phase conductors will be minimised. additionally if the recommendations are followed; •  braid screens will be prevented from stretching too far  and breaking up •  semi conducting tapes will not become unlapped and •  the incidence of bird-caging or kinking of conductors  will be reduced by distributing mechanical stresses uniformly When cables experience tension, initially they become more compacted, as individual wires, strands and cores are pulled closer together. as tension increases, the cable will stretch, which may result in it no longer having a balanced construction. as the cable stretches, individual wires in the strand are forced into compression and shear, and now the small wires are damaged and will break more easily during bending or flexing. the stretching of the conductors may result in permanent elongation, causing the conductors to become wirey. tension also elongates the conductor insulation, resulting in a reduced radial thickness. the elongated insulation is then vulnerable to compression cutting (it will rupture more easily when it is crushed against the stranded conductor during runovers or when passed around bends). all possible steps should be taken to ensure that recommended cable tensions are not exceeded. the maximum safe working force for metric flexible conductors is 20 n/mm 2  when trailing. t, the maximum  pulling tension (newtons) is calculated by multiplying the number of cores and area of each core, by the  safe working force. note, when calculating the safe tensile force, area of earths, pilots, and shields must  not be included. When dragging cable, the maximum  length of cable that should be dragged from a suitably     formed centre point, may be calculated by the following formula: l  =  l =  Maximum total length of cable to be pulled (m)f =  0.5 (coefficient of friction)W = Mass of Cable (kg/m) suspended unarmoured cables should not exceed the maximum pulling tension as calculated by: l = l = Maximum total length of cable to be suspended (m) for high tensile loads, bending radii should be increased, to limit damage to the cable. if the cable is required to endure higher tensile loads than above, support elements should be included in the cable structure. these can be either textile or metal, depending on the required duty of the cable. trailing and reeling cables can also experience torsional loads. While all efforts should be made to remove this condition, cables can be manufactured to withstand a degree of abuse, during their service life. Prysmian incorporate textile braid reinforcement into many cables. in this instance, torsional stresses should be limited to ± 25°/m. technical information - Mechanical Maximum Bending Radius Cables Rated 1.1/1.1kV Cables Rated 3.3kV and above unarmoured unarmoured for despatch drum barrel 6 8 for fixed bend 4 6 free flexing applications 6 10 Permanent repeated reeling 10 12 Passing over sheaves 10 15 festoon 7 10 Cable chain 5 10 t f x W x 10 t W x 9.8 Recommended minimum bending radii in multiples of cable overall diameter CABLE TENSION BENDING RADII

59 teChniCal inforMation  SAFE WORKING FORCE Total tension on the 3 power cores Nominal   Conductor Area Straight tension without   significant bending or flexing. Safety Factor 4 to 1 Subjected to repeated reeling or bending   whilst under tension. Safety Factor 8 to 1 mm 2 kn kn 0.5 0.045 0.0225 0.75 0.0675 0.03375 1.0 0.09 0.045 1.5 0.135 0.0675 1.5 0.225 0.1125 4 0.36 0.18 6 0.54 0.27 10 0.90 0.45 16 1.44 0.72 25 2.25 1.125 35 1.15 1.575 50 4.5 2.25 70 6.3 3.15 95 8.55 4.275 120 10.8 5.4 150 13.5 6.75 185 16.65 8.3 240 21.6 10.8 300 27 13.5

60 in accordance with ieC60287 for the free air condition based on a conductor temperature of 90ºC, and ambient air temperature 40ºC, a solar radiation absorption coefficient of 0.8 and an intensity of 1000W/m 2 , where exposed to  direct sunlight, the following current carrying capacities should be adopted. Where layers of flexible cable are stored on cylindrical type drums or reels, allowances must be made to cater for reduced heat dispersion. Current carrying capacities must be multiplied by the following derating factors; Where cables are exposed to higher temperatures in trailing applications, or possible lower temperatures in underground applications, the following rating factors should / can be applied for current carrying capacity. technical information - electrical Power   Conductor Nominal Area Protected From Sun   Cable Voltage Rating Exposed To Sun Cable Voltage Rating mm 2 1.1/1.1kV 3.3/3.3 - 33/33kV 1.1/1.1kV 3.3/3.3 - 33/33kV 1.5 23 - 18 - 2.5 30 - 23 - 6 49 - 38 - 10 66 - 51 - 16 88 89 67 66 25 120 120 90 89 35 145 145 110 105 50 170 170 125 125 70 220 220 160 155 95 250 250 185 180 120 295 295 210 220 150 340 340 245 240 185 385 385 270 265 240 455 450 315 310 300 515 510 355 350 No. Of Layers On Drum Derating Factor Cylindrical drum 1 0.85 2 0.65 3 0.45 4 0.35 radial drum Ventilated 0.85 unventilated 0.75 Conductor  Temp Rating Factor Ambient Air Temperature °C °C 15 20 25 30 35 40 45 50 55 60 75 1.35 1.28 1.21 1.14 1.07 1.0 0.91 0.82 0.72 0.60 90 1.26 1.20 1.15 1.10 1.05 1.0 0.94 0.88 0.81 0.73 teChniCal inforMation  CONTINUOUS CURRENT CARRYING CAPACITY DERATING FACTORS FOR MULTIPLE COILS

61 Cables buried in Singleway ducts: technical information - ratings information Variation in ground temperature Ground Temperature °C 10 15 20 25 30 35 40 Rating Factor 1.11 1.07 1.03 1 0.97 0.93 0.89 Nominal Duct Size Max Cable Diameter 50 29 63 38 80 55 100 72 125 88 150 100 200 143 Variation in thermal resistivity of soil Values of ‘g’ °C m/W Nominal Area Of Conductor mm 2 0.8 0.9 1 1.2 1.5 2 2.5 3 Three Core Cables Up to 16 1.05 1.04 1.03 1 0.97 0.92 0.87 0.83 From 25 - 150 1.07 1.05 1.03 1 0.96 0.9 0.85 0.78 From 185 - 400 1.09 1.06 1.04 1 0.95 0.87 0.82 0.76 Cables buried direct in the ground:  Variation in ground temperature Ground Temperature °C 10 15 20 25 30 35 40 Rating Factor 11.11 1.07 1.03 1 0.97 0.93 0.89 Variation in thermal resistivity of soil Values of ‘g’ °C m/W Nominal Area Of Conductor mm 2 0.8 0.9 1 1.2 1.5 2 2.5 3 Three Core Cables Up to 16 1.09 1.06 1.04 1 0.95 0.87 0.79 0.74 From 25 - 150 1.14 1.1 1.07 1 0.93 0.84 0.76 0.7 From 185 - 400 1.16 1.11 1.07 1 0.92 0.82 0.74 0.68 Group rating factors for three core cables, in horizontal formation Group Spacing - Meters Voltage Range Of Cables No. Of Cables   In Group Touching 0.15 0.3 0.45 0.6 from 1.9/3.3kV to 12.7/22kV 2 0.8 0.85 0.89 0.9 0.92 3 0.69 0.75 0.8 0.84 0.86 4 0.63 0.7 0.77 0.8 0.84 Group rating factors for three core cables in singleway ducts Group spacing - meters Voltage Range Of Cables No. Of Cables In Group Touching 0.3 0.45 0.6 from 1.9/3.3kV to 12.7/22kV 2 0.88 0.91 0.93 0.9 3 0.8 0.84 0.87 0.84 4 0.75 0.81 0.84 0.8 RATING FACTORS FOR XLPE FEEDER CABLES DUCT SELECTION teChniCal inforMation  Cables installed in free air: Grouping of cables in air:derating is not necessary if the following minimum clearance between adjacent circuits can be maintained    1  the horizontal clearance is not less than twice the diameter of an individual cable.          2  the vertical clearance is not less than four times the diameter of an individual cable.         3  Where the number of circuits is more than three, they are installed in a horizontal plane.    Variation in ambient air temperature Ambient Air Temperature °C 15 20 25 30 35 40 45 50 Rating Factor 1.26 1.2 1.15 1.1 1.05 1 0.94 0.88

62 do not attempt to lift drums of cable without inserting the fork lift tynes fully under both flanges as the tynes can damage the cable, making it unserviceable. do not attempt to lift drums by the flange or to lift drums into the upright (correct) position by lifting the top flanges as it may break the flange from the drum barrel. the drum will then be undeliverable. use a length of steel pipe through the centre of the drum to provide leverage and control. When rewinding cables, drums shall be of suitable construction and in good condition. all drums shall be held firmly in appropriate pay-off stands to prevent vibration and ensure smooth, even rotation to minimise inner end cable grow-out and tangling. Cables shall be wound evenly and uniformly, then secured. do not use the fork lift tynes to push cable drums sideways on a truck tray or the ground as damage to the flanges can result in the drum being unacceptable to customers. this cable has been rendered unserviceable through fork lift tyne damage and may necessitate the scrapping of the whole drum. teChniCal inforMation  drums handling Procedure

lower drums gently onto the ground or transport. avoid impact force  loadings. never drop  drums. always protect cable from  rubbing or damage. adjust  load or use separators. never let drum flanges contact cable on adjacent drums. heavy drums should be chained appropriately for transit, with protection from  the chain rubbers for the  spindle hole in the centre  of the drum. under no  circumstances are drums to  be transported on their side. never lay drums on their  side, even on top of pallets,  as protruding bolts damage  spools and cable. always protect product, especially spools, against rope damage during tying down of load. never use rope directly  over shrinkwrapped cable. ensure drums are  restrained to restrict  movement during sudden  stop/starts. When securing drums for transit, do not place ropes  or chains over cable as  damage can occur to the  outer insulation rendering  the cable unserviceable. ensure cable sealing is intact so moisture cannot seep into cable. report damage. avoid use of additional  nails on drums or cable.  flange thicknesses vary  and some customers  prohibit their use. When placing drums on an uneven surface be prepared to check drums against rolling and chock if required. do not roll cable drums  from the back of a delivery  truck to the ground as the  resulting flange damage  will be unacceptable to the  customer as the cable will  not be able to be rolled off  the drum and the drum will  need to be returned. 63

64 3 select a site for storage that is level and dry, preferably indoors with a concrete surface, with no risk of falling objects, chemical spills (oil, grease, etc.) open flames and excessive heat. 3 if indoors, and concrete storage is not available, select a well-drained surface that will prevent the reel flanges sinking into it. 3 the drums must always be stored with their flanges vertical. 3 leave enough space between stored drums for air circulation.  3 if drums are stored in a high traffic area (fork lifts frequent transit) suitable barriers should be erected to prevent damage from moving equipment. 3 the bolts should be tightened at regular intervals. 3 during storage, the drums should be rolled to an angle of 90° every three months.  3 When only a portion of the cable is used, the open end of the cable remaining on the drum should immediately be re-sealed to prevent the entrance of moisture. once it has been re-sealed, the cut end should be fixed to the inside edge of the drum flange to prevent the end from extending beyond the flanges during drum movement. 3 When it is required to rewind the cable on to another drum, always consider that the diameter of the new drum barrel should be at least the same size of the original drum barrel diameter. Smaller drum Drums barrel diameter Original drum storage recommendations When storing cable drums for long periods, please take the following guidelines into consideration: teChniCal inforMation 

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Greg Newman National Business Development Manager - Mining Mobile: 0412 144 226  Ph: 1300 300 304  Fx: 1300 300 307 1 Heathcote Road, Liverpool 2170 NSW, Australia Email: [email protected] www.minemaster.com.au Ver sion 2, July 2 013 , PR Y00 75