Your Only Solution for All Variable Frequency Drive Applications

ASD/VFD Cable System ASDBrochure.indd 1 Your Only Solution for All Variable Frequency Drive Applications 11/2/12 9:23 AM

Inadequacies in Standard VFD Cables: EMC-Electro Magnetic Compatibility Electromagnetic Compatibility (EMC) is the ability of a device, product, or system to operate properly in its intended electromagnetic environment, without degradation and without being a source of interference. Common-mode Current or Stray Current Current that is electrically or magnetically induced into the grounding system or other non-intentional conductors. Common-mode currents are those which flow on all intentional conductors in the same direction and return via some external path such as ground paths. Stray current is an electric current that takes a path other than the intended path and can lead to leakage. Corona Inception Voltage (CIV) and Partial Discharge: The electrical stress voltage will exceed the breakdown voltage of the air and a partial discharge will occur. Successive partial discharges will degrade the insulation slowly. The voltage will ionize the surrounding air and lead to arcing across the wires (a process known as corona or corona discharge). When the voltage is greater than the wire insulation it causes dielectric stress and eventual insulation failure. The ServiceDrive Solution: EMC ServiceDrive ASD/VFD Cable System is an electromagnetic compatible product. It reduces or prevents interference between other equipment and the cable when installed in proximity of low- level communications cable or other susceptible devices. Common-mode Current /Stray Current A transient current from motor lead wire and motor stator winding to ground is produced at every output voltage edge. This is the commonmode current. The common-mode current flows in the complete ground grid, producing high frequency ground voltage potentials across different ground points. Susceptible equipment connected to this ground potential may malfunction. Containing common-mode current begins with good grounding and bonding practices. ServiceDrive s Shielded Cable provides good wiring practice with noise control and reduces the effect of common-mode current. ServiceDrive Shielded Cable returns the common-mode current to the drive and provides better wiring practices with no contact to building ground. If Shielded Cable is not used on input, then the common-mode current path may get a path back to the ground and transformer. Corona Discharge ServiceDrive was designed to address the voltage peak occurrences in the cable due to reflected wave. ServiceDrive ASD/VFD Cable System has XLP insulation. XLP is a thermoset (a material that is vulcanized by heat and is substantially infusible and insoluble) which tends to maintain its form at operating temperatures. The singles in ServiceDrive Cables are insulated with XHHW-2 (cross linked polyethylene) and has the capability to withstand high temperatures and voltage peaks of 1665 to 1800 volts that occur due to corona discharge. The corona discharge occurring between conductors can reach very high temperatures. If the insulation is plastic material, such as PVC, corona inception can cause premature failure due to gradual localized melting of insulation. Crosstalk Crosstalk is the coupling of energy from one cable line to another interfering in each other s activities. Crosstalk The ServiceDrive s galvanized interlocked armor has the electrical field containment and rejection properties that reduce the effect of crosstalk. ASD/VFD Cable System Your Only Solution for All Variable Frequency Drive Applications

Why should ServiceDrive cable system be used over standard products? Modern AC variable speed motor drives employ a method of motor control called PWM (Pulse Width Modulation). Basically a VFD takes incoming AC (60Hz) main power, converts it to DC, and then converts (or inverts) the DC back to AC, but with a variable or adjustable frequency. It uses newer technology semiconducting power switching devices known as IGBTs (Insulated Gate Bipolar Transistors) that are capable of faster switching speeds than those of the older SCRs (Silicon Controlled Rectifiers) employed in DC controllers. Compared to the older DC drives, PWM controllers enable reduced size, improvements in operating efficiency and tighter control of the motor s speed and torque. As with any different technology, there are new aspects and considerations that must be incorporated in the design and installation process. The three main considerations are: Electromagnetic Interference (EMI) High Ground Currents Reflected Waves The higher switching speeds of the IGBTs inherently generate more EMI that inevitably gets radiated into the environment by the inverter-to-motor power cable. The EMI emitted from the power cable can induce voltages, currents or crosstalk on adjacent cables, which is potentially dangerous to equipment and personnel. The risk of failure or malfunction in automated plants is also considerably increased. The presence of the system operating frequency (60Hz), the frequency of the PWM carrier (800 to 3.5kHz), the PWM pulse switching time and harmonics from all three, induce currents on the ground plane. In some situations all these currents may not add up to zero in the cable, and thus a common mode current enters the system with its return path to the inverter not necessarily through devices that were designed to carry current (motor bearing damage is typical). Common mode currents can cause havoc with control systems and mechanical parts, hampering reliability and performance. The third consideration is that of reflected waves. Whenever a signal travels down a cable and hits a sudden increase in impedance (e.g.: motor terminations), part of the signal will be reflected back up the cable. The reflected wave will add and subtract to other signals along the cable, giving rise to standing voltages often in excess of three times the system voltage. These high voltage spikes can quickly destroy cables that are not designed to withstand this sort of abuse. The ServiceDrive ASD/VFD Cable systems are designed to: Reduce EMI emission from the cable. Reliably withstand the high voltage spikes. A heavy-duty copper tape screen is applied over the entire core assembly to offer a very high level of EMI screening. Multiple earths are placed in all interstices under tight manufacturing tolerances so that the effective distance from all phases to earth (affects the phase impedance) is identical, thus producing an electrically balanced cable. Additionally the earth sizes combined with the screen offer a higher than normal earth conductor size, offering a very low earth return impedance which helps to minimize common mode currents. Materials used in the construction of these cables are also specifically selected to provide the highest level of reliability and safety. (XLPE) cross-linked polyethylene is used for the insulation, due to its tolerance to high voltage spikes, superior overall electrical performance to PVC, and improved high temperature characteristics. 1

Available with Tinned Conductors Description: 3 conductors, stranded, insulated with heat and moisture resistant cross-linked polyethylene, phase identified, cabled together with suitable fillers and 3 bare copper ground conductors. Cable core covered with binder tape, 5-mil helical copper tape shield, aluminum or galvanized steel interlocked armor, with flame and sunlight resistant zero halogen, limited smoke, zero lead jacket overall. Features: Suitable for use in NEC Hazardous Locations: Class I - Div 2, Class II - Div 2, and Class III, Div 1 and 2 For use in ASD / VFD applications. ServiceDrive Plus ASD/VFD Shielded Interlocked Armor Drive Cable 600 Volt / UL Type MC Shielded Patented, Factory Mutual Group 1 Listed, Galvanized Steel, Copper XHHW-2, Zero Halogen, Limited Smoke Standards: UL 1569 Flame Rated: IEEE 383 (70,000 BTU), IEEE 1202 / CSA FT-4, UL 1685 LS Factory Mutual Group 1 listed Two-hour Firewall rated, (2/0 AWG and smaller) Sunlight Resistant, for CT Use; Direct Burial 1 Color Code: Black and Numbered Temperature Rating: 90 C Wet / Dry ICEA S-95-658 / NEMA WC-70 Zero Halogen, Limited Smoke Jacket THREE CONDUCTOR Part Number ASDE14/3 ASDE12/3 ASDE10/3 ASDE8/3 ASDE6/3 ASDE4/3 ASDE3/3 ASDE2/3 ASDE1/3 ASDE1/03 ASDE2/03 ASDE3/03 ASDE4/03 ASDE250/3 ASDE350/3 ASDE500/3 ASDE600/3 ASDE750/3 Size AWG or MCM Strand (no.) Insulation Thickness (mils) Copper Grounding Conductor(s) (AWG) Diameter over Armor (inch) Jacket Thickness (mils) Approx. Diameter Overall (inch) Approx. Net Wt. per 1000 ft. (lbs.) Ampacity* (30 C Ambient Wet/Dry) 14 7 45 3-#14.59 50 0.69 355 25+ 12 7 45 3-#14.63 50 0.73 404 30+ 10 7 45 3-#14.69 50 0.79 479 40+ 8 7 45 3-#14.77 50 0.87 569 55 6 7 45 3-#12.85 50 0.95 735 75 4 7 45 3-#10.95 50 1.05 983 95 3 7 45 3-#10 1.01 50 1.11 1109 110 2 7 45 3-#8 1.07 50 1.17 1359 130 1 19 55 3-#8 1.23 50 1.33 1595 150 1/0 19 55 3-#6 1.35 50 1.45 2061 170 2/0 19 55 3-#6 1.43 50 1.53 2393 195 3/0 19 55 3-#4 1.51 60 1.63 2966 225 4/0 19 55 3-#4 1.65 60 1.77 3480 260 250 37 65 3-#4 1.83 60 1.95 4140 290 350 37 65 3-#2 2.05 60 2.17 5542 350 500 37 65 3-#1 2.35 75 2.450 7466 430 600 61 80 3-1/0 2.57 75 2.72 8853 475 750 61 80 3-2/0 2.85 75 3.00 10867 535 90 C *Per NEC Table 310-16. 1 Includes encasement in concrete. **Fillers used when required. + The overcurrent protection for items marked with an obelisk (+) shall not exceed 15 amps for 14 AWG, 20 amps for 12 AWG, and 30 amps for 10 AWG per NEC 310-16 footnote. Note: The data shown is approximate and subject to standard industry tolerances. 2010 2

Available with Tinned Conductors Description: 3 conductors, stranded, insulated with heat and moisture resistant cross-linked polyethylene, phase identified, cabled together with suitable fillers** and 3 bare copper ground conductors. Cable core covered with binder tape, 5-mil helical copper tape shield, galvanized steel interlocked armor, with flame and sunlight resistant PVC jacket overall. Jacket available in colors. Features: Suitable for use in NEC Hazardous Locations: Class I - Div 2, Class II - Div 2, and Class III, Div 1 and 2 For use in ASD / VFD applications ServiceDrive ASD/VFD Shielded Interlocked Armor Drive Cable 600 Volt / UL Type MC Shielded Patented Galvanized Steel, Copper XHHW-2 Standards: UL 1569 Flame Rated: IEEE 383 (70,000 BTU), ICEA T-29-520 (210,000 BTU), IEEE 1202 / CSA FT-4 Two-hour Firewall rated, (2/0 AWG and smaller) Sunlight Resistant, for CT Use; Direct Burial 1 Oil Resistant II Jacket Color Code: Black and Numbered Temperature Rating: 90 C Wet / Dry ICEA S-95-658 / NEMA WC-70 THREE CONDUCTOR Part Number ASDP14/3 ASDP12/3 ASDP10/3 ASDP8/3 ASDP6/3 ASDP4/3 ASDP3/3 ASDP2/3 ASDP1/3 ASDP1/03 ASDP2/03 ASDP3/03 ASDP4/03 ASDP250/3 ASDP350/3 ASDP500/3 ASDP600/3 ASDP750/3 Size AWG or MCM Strand (no.) Insulation Thickness (mils) Copper Grounding Conductor(s) (AWG) Diameter over Armor (inch) PVC Jacket Thickness (mils) Approx. Diameter Overall (inch) Approx. Net Wt. per 1000 ft. (lbs.) Ampacity* (30 C Ambient Wet/Dry) 14 7 45 3-#14.59 50 0.69 350 25+ 12 7 45 3-#14.63 50 0.73 399 30+ 10 7 45 3-#14.69 50 0.79 473 40+ 8 7 45 3-#14.75 50 0.85 561 55 6 7 45 3-#12.83 50 0.93 726 75 4 7 45 3-#10.93 50 1.03 974 95 3 7 45 3-#10.99 50 1.09 1101 110 2 7 45 3-#8 1.05 50 1.15 1342 130 1 19 55 3-#8 1.23 50 1.33 1586 150 1/0 19 55 3-#6 1.31 50 1.41 2040 170 2/0 19 55 3-#6 1.41 50 1.51 2372 195 3/0 19 55 3-#4 1.51 60 1.63 2915 225 4/0 19 55 3-#4 1.65 60 1.77 3466 260 250 37 65 3-#4 1.81 60 1.93 4113 290 350 37 65 3-#2 2.05 60 2.17 5505 350 500 37 65 3-#1 2.33 75 2.48 7430 430 600 61 80 3-1/0 2.57 75 2.72 8816 475 750 61 80 3-2/0 2.85 75 3.00 10837 535 90 C *Per NEC Table 310-16. 1 Includes encasement in concrete. **Fillers used when required. + The overcurrent protection for items marked with an obelisk (+) shall not exceed 15 amps for 14 AWG, 20 amps for 12 AWG, and 30 amps for 10 AWG per NEC 310-16 footnote. Note: The data shown is approximate and subject to standard industry tolerances. 2010 3

Available with Tinned Conductors Description: 3 conductors, stranded, insulated with heat and moisture resistant cross-linked polyethylene, phase identified, cabled together with suitable fillers and 3 bare copper ground conductors. Cable core covered with 5-mil helical copper tape shield, and overall flame and sunlight resistant black zero-halogen, limited smoke, zero lead jacket. Features: Suitable for use in NEC Hazardous Locations: Class I - Div 2, Class II - Div 2, and Class III, Div 1 and 2 For use in ASD / VFD applications ServiceDrive Plus ASD/VFD Shielded Tray Drive Cable Factory Mutual Group 1 Listed, Zero Halogen, Limited Smoke, Lead Free, Patented Standards: UL 1277 Flame Rated: IEEE 383 (70,000 BTU), IEEE 1202 / CSA FT-4, UL 1685 LS Factory Mutual Group 1 Listed Two-hour Firewall rated, (2/0 AWG and smaller) Sunlight Resistant, for CT Use; Direct Burial Color Code: Black and Numbered Temperature Rating: 90 C Wet / Dry ICEA S-95-658 / NEMA WC-70 Zero Halogen, Limited Smoke Exposed Runs 6 AWG and larger 600 Volt Tray Cable Part Number Size AWG or MCM Strand (no.) Insulation Thickness (mils) Copper Grounding Conductor(s) (AWG) Jacket Thickness (mils) Approx. Diameter Overall (inch) Approx. Net Wt. per 1000 ft. (lbs.) Ampacity* (30 C Ambient Wet/Dry) THREE CONDUCTOR ASDETC14/3 ASDETC12/3 ASDETC10/3 ASDETC8/3 ASDETC6/3 ASDETC4/3 ASDETC3/3 ASDETC2/3 ASDETC1/3 ASDETC1/03 ASDETC2/03 ASDETC3/03 ASDETC4/03 ASDETC250/3 ASDETC350/3 ASDETC500/3 ASDETC600/3 ASDETC750/3* 14 7 45 3-#10 60.58 271 25+ 12 7 45 3-#10 60.60 301 30+ 10 7 45 3-#10 60.62 349 40+ 8 7 45 3-#10 60.65 361 55 6 7 45 3-#10 60.73 523 75 4 7 45 3-#10 80.87 782 95 3 7 45 3-#10 80.93 900 110 2 7 45 3-#8 80 1.00 1,129 130 1 19 55 3-#8 80 1.11 1,350 150 1/0 19 55 3-#6 80 1.20 1,684 170 2/0 19 55 3-#6 80 1.29 1,996 195 3/0 19 55 3-#4 80 1.40 2,517 225 4/0 19 55 3-#4 80 1.52 2,999 260 250 37 65 3-#4 110 1.76 3,633 290 350 37 65 3-#2 110 1.99 4,958 350 500 37 65 3-#1 110 2.28 6,747 430 600 61 80 3-1/0 110 2.51 8,067 475 750 61 80 3-2/0 110 2.79 10,169 535 *Per NEC Table 310-16. + The overcurrent protection for items marked with an obelisk (+) shall not exceed 15 amps for 14 AWG, 20 amps for 12 AWG, and 30 amps for 10 AWG per NEC 310-16 footnote. Note: The data shown is approximate and subject to standard industry tolerances. 2010 4

Available with Tinned Conductors Description: 3 conductors, stranded, insulated with heat and moisture resistant cross-linked polyethylene, phase identified, cabled together with suitable fillers and 3 bare copper ground conductors. Cable core covered with 5-mil helical copper tape shield, and overall flame and sunlight resistant black PVC jacket. Surface printed. Jacket available in colors. Features: Suitable for use in NEC Hazardous Locations: Class I - Div 2, Class II - Div 2, and Class III, Div 1 and 2 For use in ASD / VFD applications ServiceDrive ASD/VFD Shielded Tray Drive Cable PVC Jacket Overall Patented Standards: UL 1277 Flame Rated: IEEE 383 (70,000 BTU), ICEA T-29-520 (210,000 BTU) on 1/0 and larger IEEE 1202 / CSA FT-4 Two-hour Firewall rated, (2/0 AWG and smaller) Sunlight Resistant, for CT Use; Direct Burial Oil Resistant II Jacket Code: Black and Numbered Temperature Rating: 90 C Wet / Dry ICEA S-95-658 / NEMA WC-70 Exposed runs rated #4 and larger 600 Volt Tray Cable Part Number Size AWG or MCM Strand (no.) Insulation Thickness (mils) Copper Grounding Conductor(s) (AWG) PVC Jacket Thickness (mils) Approx. Diameter Overall (inch) Approx. Net Wt. per 1000 ft. (lbs.) Ampacity* (30 C Ambient Wet/Dry) THREE CONDUCTOR ASDPTC14/3 ASDPTC12/3 ASDPTC10/3 ASDPTC8/3 ASDPTC6/3 ASDPTC4/3 ASDPTC3/3 ASDPTC2/3 ASDPTC1/3 ASDPTC1/03 ASDPTC2/03 ASDPTC3/03 ASDPTC4/03 ASDPTC250/3 ASDPTC350/3 ASDPTC500/3 ASDPTC600/3 ASDPTC750/3 14 7 45 3-#10 60.58 266 25+ 12 7 45 3-#10 60.60 297 30+ 10 7 45 3-#10 60.62 344 40+ 8 7 45 3-#10 60.65 372 55 6 7 45 3-#10 60.73 517 75 4 7 45 3-#10 80.87 772 95 3 7 45 3-#10 80.93 889 110 2 7 45 3-#8 80 1.00 1,118 130 1 19 55 3-#8 80 1.11 1,338 150 1/0 19 55 3-#6 80 1.20 1,671 170 2/0 19 55 3-#6 80 1.29 1,982 195 3/0 19 55 3-#4 80 1.40 2,501 225 4/0 19 55 3-#4 80 1.52 2,982 260 250 37 65 3-#4 110 1.76 3,606 290 350 37 65 3-#2 110 1.99 4,927 350 500 37 65 3-#1 110 2.28 6,712 430 600 61 80 3-1/0 110 2.51 8,028 475 750 61 80 3-2/0 110 2.79 10,113 535 *Per NEC Table 310-16. + The overcurrent protection for items marked with an obelisk (+) shall not exceed 15 amps for 14 AWG, 20 amps for 12 AWG, and 30 amps for 10 AWG per NEC 310-16 footnote. Note: The data shown is approximate and subject to standard industry tolerances. 2010 5

Selection Chart for Typical Armor Installations 230V 460V 575V Cable Part Connector Part Termination Kit AWG 3Ø 3Ø 3Ø Number Number Part Number 14 AWG 5 HP 10 HP 10 HP ASDE14/3 CONASD14/3 TERASD14-1/3 12 AWG 5 HP 10 HP 15 HP ASDE12/3 CONASD12/3 TERASD14-1/3 10 AWG 10 HP 20 HP 25 HP ASDE10/3 CONASD10/3 TERASD14-1/3 8 AWG 10 HP 30 HP 30 HP ASDE8/3 CONASD8/3 TERASD14-1/3 6 AWG 15 HP 40 HP 50 HP ASDE6/3 CONASD6/3 TERASD14-1/3 4 AWG 25 HP 50 HP 60 HP ASDE4/3 CONASD4/3 TERASD14-1/3 3 AWG 30 HP 60 HP 75 HP ASDE3/3 CONASD3/3 TERASD14-1/3 2 AWG 30 HP 60 HP 75 HP ASDE2/3 CONASD2/3 TERASD14-1/3 1 AWG 40 HP 75 HP 100 HP ASDE1/3 CONASD1/3 TERASD14-1/3 1/0 AWG 40 HP 75 HP 100 HP ASDE1/03 CONASD1/03 TERASD1/0-3/03 2/0 AWG 50 HP 100 HP 125 HP ASDE2/03 CONASD2/03 TERASD1/0-3/03 3/0 AWG 60 HP 125 HP 150 HP ASDE3/03 CONASD3/03 TERASD1/0-3/03 4/0 AWG 60 HP 150 HP 150 HP ASDE4/03 CONASD4/03 TERASD4/0-400/3 250 AWG 75 HP 150 HP 200 HP ASDE250/3 CONASD250/3 TERASD4/0-400/3 350 AWG 100 HP 200 HP 250 HP ASDE350/3 CONASD350/3 TERASD4/0-400/3 500 AWG 100 HP 250 HP 300 HP ASDE500/3 CONASD500/3 TERASD500-750/3 600 AWG 125 HP 250 HP 350 HP ASDE600/3 CONASD600/3 TERASD500-750/3 750 AWG 150 HP 300 HP 350 HP ASDE750/3 CONASD750/3 TERASD500-750/3 (*) Values based on typical Full-Load Current (FLC) ratings of three-phase AC motors as published in NEC Table 430.250 (2005) multiplied by 125% per NEC article 430-22 (A) (2005). The ampacity ratings of the cables are based on NEW Table 310.16 (2005), for 75 deg. C rated conductors. The CFD w/ Signal ampacity values were de-rated to 80% per NEC table 310.15 (B)(2)(a)(2005) due to the increased number of current-carrying conductors included in these cable(s). Consult drive/motor manufacturer for exact FLC ratings as well as any temperature deratings that may apply. NEC ampacity interpretations are subject to user s local authority having jurisdiction. 6

Selection Chart for Typical Tray Cable Installations 230V 460V 575V Cable Part Connector Part Termination Kit AWG 3Ø 3Ø 3Ø Number Number Part Number 14 AWG 5 HP 10 HP 10 HP ASDPTC14/3 CONASDTC14/3 TERASD14-1/3 12 AWG 5 HP 10 HP 15 HP ASDPTC12/3 CONASDTC12/3 TERASD14-1/3 10 AWG 10 HP 20 HP 25 HP ASDPTC10/3 CONASDTC10/3 TERASD14-1/3 8 AWG 10 HP 30 HP 30 HP ASDPTC8/3 CONASDTC8/3 TERASD14-1/3 6 AWG 15 HP 40 HP 50 HP ASDPTC6/3 CONASDTC6/3 TERASD14-1/3 4 AWG 25 HP 50 HP 60 HP ASDPTC4/3 CONASDTC4/3 TERASD14-1/3 3 AWG 30 HP 60 HP 75 HP ASDPTC3/3 CONASDTC3/3 TERASD14-1/3 2 AWG 30 HP 60 HP 75 HP ASDPTC2/3 CONASDTC2/3 TERASD14-1/3 1 AWG 40 HP 75 HP 100 HP ASDPTC1/3 CONASDTC1/3 TERASD14-1/3 1/0 AWG 40 HP 75 HP 100 HP ASDPTC1/03 CONASDTC1/03 TERASD1/0-3/03 2/0 AWG 50 HP 100 HP 125 HP ASDPTC2/03 CONASDTC2/03 TERASD1/0-3/03 3/0 AWG 60 HP 125 HP 150 HP ASDPTC3/03 CONASDTC3/03 TERASD1/0-3/03 4/0 AWG 60 HP 150 HP 150 HP ASDPTC4/03 CONASDTC4/03 TERASD4/0-400/3 250 AWG 75 HP 150 HP 200 HP ASDPTC250/3 CONASDTC250/3 TERASD4/0-400/3 350 AWG 100 HP 200 HP 250 HP ASDPTC350/3 CONASDTC350/3 TERASD4/0-400/3 500 AWG 100 HP 250 HP 300 HP ASDPTC500/3 CONASDTC500/3 TERASD500-750/3 600 AWG 125 HP 250 HP 350 HP ASDPTC600/3 CONASDTC600/3 TERASD500-750/3 750 AWG 150 HP 300 HP 350 HP ASDPTC750/3 CONASDTC750/3 TERASD500-750/3 (*) Values based on typical Full-Load Current (FLC) ratings of three-phase AC motors as published in NEC Table 430.250 (2005) multiplied by 125% per NEC article 430-22 (A) (2005). The ampacity ratings of the cables are based on NEW Table 310.16 (2005), for 75 deg. C rated conductors. The CFD w/ Signal ampacity values were de-rated to 80% per NEC table 310.15 (B)(2)(a)(2005) due to the increased number of current-carrying conductors included in these cable(s). Consult drive/motor manufacturer for exact FLC ratings as well as any temperature deratings that may apply. NEC ampacity interpretations are subject to user s local authority having jurisdiction. 7

ServiceDrive ASD/VFD Armor Cable Connectors Patented for use with ServiceDrive and ServiceDrive Plus Cable System DESCRIPTION & FEATURES: These patented connectors are designed exclusively to terminate ASD/VFD cables in control centers, panel boards, junction boxes and motor control enclosures. Listings: CSA Standard: C22.2 #18.98 NEMA 4 IP65 PART NUMBER WIRE SIZE HUB SIZE SET SCREW SIZE CONASD14/3 14 AWG 3 COND 3/4 10/32 X 1/4 CONASD12/3 12 AWG 3 COND 3/4 10/32 X 1/4 CONASD10/3 10 AWG 3 COND 3/4 10/32 X 1/4 CONASD8/3 8 AWG 3 COND 3/4 10/32 X 1/4 CONASD6/3 6 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASD4/3 4 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASD3/3 3 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASD2/3 2 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASD1/3 1 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASD1/03 1/0 AWG 3 COND 1-1/2 1/4-20 X 1/4 CONASD2/03 2/0 AWG 3 COND 1-1/2 1/4-20 X 1/4 CONASD3/03 3/0 AWG 3 COND 1-1/2 1/4-20 X 1/4 CONASD4/03 4/0 AWG 3 COND 2 1/4-20 X 5/16 CONASD250/3 250 MCM 3 COND 2 1/4-20 X 5/16 CONASD300/3 300 MCM 3 COND 2 1/4-20 X 5/16 CONASD350/3 350 MCM 3 COND 2-1/2 5/16-18 X 3/8 CONASD400/3 400 MCM 3 COND 2-1/2 5/16-18 X 3/8 CONASD500/3 500 MCM 3 COND 2-1/2 5/16-18 X 3/8 CONASD600/3 600 MCM 3 COND 3 5/16-18 X 3/8 CONASD750/3 750 MCM 3 COND 3 5/16-18 X 3/8 8

ServiceDrive ASD/VFD Tray Cable Connectors Patented for use with ServiceDrive and ServiceDrive Plus Cable Systems DESCRIPTION & FEATURES: These patented connectors are designed exclusively to terminate ASD/VFD cables in control centers, panel boards, junction boxes and motor control enclosures. Listings: CSA Standard: C22.2 #18.98 NEMA 4 PART NUMBER WIRE SIZE HUB SIZE SET SCREW SIZE CONASDTC14/3 14 AWG 3 COND 3/4 10/32 X 1/4 CONASDTC12/3 12 AWG 3 COND 3/4 10/32 X 1/4 CONASDTC10/3 10 AWG 3 COND 3/4 10/32 X 1/4 CONASDTC8/3 8 AWG 3 COND 3/4 10/32 X 1/4 CONASDTC6/3 6 AWG 3 COND 3/4 10/32 X 1/4 CONASDTC4/3 4 AWG 3 COND 1 1/4-20 X 1/4 CONASDTC3/3 3 AWG 3 COND 1 10/32 X 1/4 CONASDTC2/3 2 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASDTC1/3 1 AWG 3 COND 1-1/4 1/4-20 X 1/4 CONASDTC1/03 1/0 AWG 3 COND 1-1/2 1/4-20 X 1/4 CONASDTC2/03 2/0 AWG 3 COND 1-1/2 1/4-20 X 1/4 CONASDTC3/03 3/0 AWG 3 COND 1-1/2 1/4-20 X 1/4 CONASDTC4/03 4/0 AWG 3 COND 1-1/2 1/4-20 X 5/16 CONASDTC250/3 250 MCM 3 COND 2 1/4-20 X 5/16 CONASDTC300/3 300 MCM 3 COND 2 5/16-18 X 3/8 CONASDTC350/3 350 MCM 3 COND 2 5/16-18 X 3/8 CONASDTC400/3 400 MCM 3 COND 2 5/16-18 X 3/8 CONASDTC500/3 500 MCM 3 COND 2-1/2 5/16-18 X 3/8 CONASDTC600/3 600 MCM 3 COND 2-1/2 5/16-18 X 3/8 CONASDTC750/3 750 MCM 3 COND 3 5/16-18 X 3/8 9

ASD/VFD Termination Kit For use with ServiceDrive and ServiceDrive Plus Armor and Tray Cable FEATURES: 1. Flat tinned Copper braid Woven tinned copper construction 2. Stainless steel spring clamp 3. Adhesive-backed copper foil tape Shields against EMI/RFI radiation. Conductive through the adhesive. Applications: Used to properly terminate the helically applied copper tape shield of ASD/VFD cable constructions. Listings: Braid QC-W-343 Type S and ASTM B-33 Copper Foil Tape UL 510 for flame retardancy PART NUMBER DESCRIPTION TERASD14-1/3 TERASD1/0-3/03 TERASD4/0-400/3 TERASD500-750/3 For use with 14 awg - 1 awg shielded armor and tray cable For use with 1/0 awg - 3/0 awg shielded armor and tray cable For use with 4/0 awg - 400 mcm shielded armor and tray cable For use with 500 mcm - 750 mcm shielded armor and tray cable Contact your Service Wire representative for installation instructions. 10

Service Wire Profile Service Wire Company, founded in 1968, is a manufacturer of quality electric wire and cable. Headquartered in Culloden, West Virginia, facilities include a modern manufacturing complex along with a corporate office on a 35 acre site. The manufacturing operation is equipped with the latest technology in machinery and testing equipment. Service Wire Company has additional manufacturing facilities in Houston, Texas and Phoenix, Arizona. Known for our service and integrity, Service Wire is unique in that we manufacture cables based upon small minimum footage quantities with a quick dependable delivery. This manufacturing flexibility allows us to provide a high customer service level along with cables built to specifications. Service Wire also offers an ON DEMAND cable service for projects. Service Wire has three distribution factory warehouses located in Phoenix, Arizona; Houston, Texas and Culloden, West Virginia offering large inventories and cutting capabilities which allow for same-day shipment and 24-hour emergency service. Our comprehensive quality assurance program includes using United States-supplied raw materials and stringent testing procedures, and allows for quality products with a maximum service level. Service Wire is ISO 9001:2001 certified. Service Wire Company Manufactures: XHHW-2, XLP-USE-2, THW & SIS Cable Interlocked Armor (600V -15kV) & MC Cable (Copper) Bare Copper & Trolley Wire Tray & Power (600V -15kV) Cables Pre-Assembled Aerial (600V -15kV) & Copper Service Drop Weatherproof Line & Transformer Riser Wire Irrigation & Sprinkler Control Cables Submersible Pump Cables Service Wire Company is a prime supplier to many major industrial, utility and transit concerns. Our commitment to each customer s individual needs has contributed to our steady growth. We strive to exceed our accomplishments and the ever-changing needs of our customers. 11

ServiceDrive Plus is manufactured with EnviroPlus Low Smoke, Zero Halogen Jacket over the cable instead of PVC. EnviroPlus is a Polyolefin Jacket made from a non-halogen, highly flame retardant, thermoplastic, low smoke, low corrosive and low toxic compound. An EnviroPlus jacket is lead free, halogen free, and has limited smoke generation with following characteristics: EnviroPlus contains hydrated mineral flame retardant fillers in place of Halogens It decomposes endo-thermically to form a metal oxide that forms a char or barrier layer that maintains physical integrity and prevents flame propagation. This also inhibits flowing or dripping. Smoke from zero-halogen cable is less dense and white, allowing for more visibility. Cables with EnviroPlus jackets are group 1 rated cable and have fire propagation index of 10 in absence of direct flame the cable will stop burning. Halogens like chlorine and fluorine highly reactive elements are widely used in jacketing material like PVC, CPE, Hypolone or Neoprene. These chemicals when combined with moisture (from the fire-suppression systems) can generate corrosive acids like HCL or vision impairing smoke. These acids can cause more damage to systems than the original fire. Smoke is the leading cause of death in most fires. Limited smoke generation allows extra time to exit the building before smoke overwhelms the occupants. Cables with EnviroPlus jackets can take up to 20 minutes of continuous flame before reaching the same level of total smoke generation achieved within the first minute of flame with a CPE cable. Service Wire was the original manufacturer of a full wall, Low Smoke, Zero Halogen LSZH cable. We developed and manufactured EnviroPlus jacket over ten years ago for general purpose cable jacket applications that can meet the IEEE-383/UL-1581/ UL-1685 (Limited Smoke Test) vertical tray cable burn tests. Please visit the link below to see EnviroPlus cable performance during these burn tests: http:///videos.aspx Polyolefin jackets can be used on cables operating at up to 90 C to replace PVC, low smoke PVC, and halogenated rubbers due to its excellent fire safety characteristics: Highly flame retardant (IEEE 383 flame test rating) Environmentally friendly (lead-free, halogen-free, sulfur/antimony-free) Low smoke, low corrosivity, and low toxicity Excellent cut-through, crush, and abrasion resistance Good UV, moisture and fluid resistance Good balance of toughness and flexibility Track and erosion resistant This compound meets or exceeds many industry jacket specifications: UL-1072 Medium Voltage Power Cable, UL-1277 Tray Cable, UL Subject 444 for general purpose communication cable, mass transit applications, IEC 332 requirements 12

COMPARISION EnviroPlus CSPE CPE PVC Limited Oxygen Index 40 30 30 28 to 35 Corrosive Gas Emission None Very High Very High Very High Smoke Emission Extremely Low Very High Very High Very High Fire Retardant Properties Excellent Good Good Excellent The Leadership in Energy and Environmental Design () is actively encouraging and accelerating global adoption of sustainable green building and EnviroPlus is a great fit for such initiatives. EnviroPlus jacketed cables are appropriate for paper mills, chemical plants, transit (tunnels, subways), zero-halogen applications, steel mills, clean rooms, Departments of Transportation, low-smoke applications, utility applications and computer rooms. EnviroPlus is highly flame retardant. The cable jacket will not melt, drip or run. This prevents the spread of fire to other surfaces and allows the core of the cable to remain intact longer, thus ensuring increased circuit integrity time for the cable. This charring effect helps keep other equipment safe from damage during a fire. EnviroPlus is Factory Mutual Group 1 listed, which means it is completely self-extinguishing in absence of direct flame. continuation of power in case of conductor or cable exposure to fire. A cable with higher flame retardant property will maintain circuit integrity long enough to effect orderly shutdown in event of a fire. EnviroPlus has a slick jacket with lower coefficient of friction than Hypalon. This allows the cable to be pulled into raceways and conduit with less effort. Lower pulling tensions during pulls lower sidewall pressures and decrease the chances to damage to the cable during installation. EnviroPlus has excellent cut through, crush and abrasion resistance to pass UL s Direct Burial Crush Test. Additionally, it has a Durometer Hardness value of 88 (Shore A) and passes the ASTM D1044 Abrasion Test (1,000 cycle). EnviroPlus has superior water resistance when tested per UL 1581, a test to measure the quantity of water absorbed by the cable. EnviroPlus has a High Limited Oxygen Index: which is a test that rates flammability of materials in a mixture of oxygen. It specifies the percentage of oxygen that must be present before the material will sustain flame. Enviroplus maintains circuit integrity by allowing Manufacturing quality. Delivering service.

ASD/VFD Patented Interlocked Armor Cable System ServiceDrive ASD/VFD Interlocked Armor Cable #14-750 kcmil, copper 600v patented shielded interlocked armor with overall ServiceDrive Plus (EnviroPlus LSZH) or ServiceDrive (PVC) jacketed cable system ServiceDrive ASD/VFD Interlocked Armor Connectors Nickel clad aluminum patented connector for use with ServiceDrive Plus and ServiceDrive Interlocked Armor Cable Systems ASD/VFD Patented Tray Cable System ServiceDrive ASD/VFD Tray Cable #14-750 kcmil, copper 600v patented shielded Tray Cable with overall ServiceDrive (PVC) or ServiceDrive Plus (EnviroPlus LSZH) jacketed cable system ServiceDrive ASD/VFD Tray Cable Connectors Nickel clad aluminum patented connector for use with ServiceDrive and ServiceDrive Plus Tray Cable Systems ServiceDrive ASD/VFD Termination Kit Our patented termination kits are specifically designed to terminate ServiceDrive and ServiceDrive Plus Tray Cable Systems AND ServiceDrive and ServiceDrive Plus Interlocked Armor Cable Systems Manufacturing quality. Delivering service. Culloden, WV 800-624-3572 (Fax) 304-743-8610 ASDBrochure.indd 16 Houston, TX 800-231-9473 (Fax) 713-674-0635 Phoenix, AZ 877-623-9473 (Fax) 623-934-7692 11/2/12 9:23 AM