Pyrotenax® MI Cable Industrial Wiring Installation Manual
Contents
1. IR Conductor to Sheath IR Conductor to Conductor Date WWW CABLEJOINTS CO UK THORNE amp DERRICK UK TEL 0044 191 490 1547 FAX 0044 477 5371 TEL 0044 117 977 4647 FAX 0044 977 5582 WWW THORNEANDDERRICK CO UK m tyco Thermal Controls Tyco Pyrotenax and Pyropak are trademarks of Tyco Thermal Controls LLC or its affiliates K MASS is a trademark of Thermal Designs Inc Important All information including illustrations is believed to be reliable Users however should independently evaluate the suitability of each product for their particular application Tyco Thermal Controls makes no warranties as to the accuracy or completeness of the information and disclaims any liability regarding its use Tyco Thermal Controls only obligations are those in the Tyco Thermal Controls Standard Terms and Conditions of Sale for this product and in no case will Tyco Thermal Controls or its distributors be liable for any incidental indirect or consequential damages arising from the sale resale use or misuse of the product Specifications are subject to change without notice In addition Tyco Thermal Controls reserves the right to make changes without notification to Buyer to processing or materials that do not affect compliance with any applicable specification Worldwide Corporate Headquarters Canada Tyco Thermal Controls Tyco Thermal Controls 2415 Bay Road 2502. 19 mm and smaller 12 times cable diameter Larger than 0 75 in 19 mm 24 times cable diameter Multiconductor Cable Multiconductor cables are typically used in industrial wiring applications Cables can be connected to any junction box valve actuator or equipment approved for the area classifi cation Refer to Sections 5 2 5 3 and 5 4 pages 23 to 29 for further details on connecting MI multiconductor cables to junction boxes and other equipment and be sure to fol low the applicable requirements of the NEC CEC or other national electrical codes and standards Twisted Pair Fire Alarm and Communication Cable Twisted pair cable is installed in the same manner as multi conductor cables When installing circuits requiring twisted pair cables ensure that the cable parameters are compat ible with the equipment Single Conductor Cable Cables may be run in triplex or quadruplex includes a neutral or alternatively side by side configuration The triplex quadruplex configuration is recommended for best sheath current cancellation When single conductor cables enter a ferrous metal enclosure precautions must be taken to prevent heating by induction It is recommended that the cables be con nected to nonmagnetic stainless steel junction boxes and enclosures For further information on terminating single conductor cables contact Tyco Thermal Controls Technical Support see Section 1 1 All conductors of the same circuit and w
3. West St Redwood City CA 94063 3032 Trenton Ontario Tel 800 545 6258 Canada K8V 582 Tel 650 216 1526 Tel 800 545 6258 Fax 800 527 5703 Fax 800 527 5703 Fax 650 474 7711 WWW CABLEJOINTS CO UK THORNE amp DERRICK UK TEL 0044 191 490 1547 FAX 0044 477 5371 TEL 0044 117 977 4647 FAX 0044 977 5582 WWW THORNEANDDERRICK CO UK Printed in USA H57987 12 06 2006 Tyco Thermal Controls LLC
4. among installing contractors Cable Tray Figures 11 and 12 show two typical cable tray installation methods using open ladder trough type tray In Figure 11 the cable tray is supported using a rod and channel trapeze type system In Figure 12 the tray is supported using steel l beams Follow the cable tray manufacturer s installation instructions to install the tray Complete the cable tray installation before installing the MI cables Metallic cable tray systems must be electrically continuous and effectively bonded as per the requirements of the NEC CEC or other national electrical codes and standards Install cables so that the sheaths are in good electrical con tact with the tray Do not overload the cable tray follow the loading requirements in the NEC CEC or other national electrical codes and standards when installing cables in cable tray Refer to pages 18 and 19 for details regarding the installation of single and multiconductor MI industrial wiring cables P Installation Steel or stainless steel cable tray securely anchored to steel channel Allow extra cable to form several service loops along the cable run if possible Band together the cable forming the loops using stainless steel adjustable gear clamps or tie wire Keep the diameter of the loops as large as practi cally possible During future maintenance replacement or relocation of equipment the extra cable can be used to service o
5. e When subject to potentially damaging abuse protect the cable with a metal guard such as angle iron or steel channel e Metal supports cable sheath and other metal enclosures for the cables must be metallically joined together and must be connected to all boxes fittings and cabinets so as to provide effective electrical continuity e Ensure that you do not invalidate the listing of enclosures or other equipment if it is necessary to cut holes Moisture Absorption The magnesium oxide insulation of MI cable is hygroscopic and can absorb moisture when exposed to air causing the IR to fall Low IR can be corrected as outlined in Appendix A Expansion and Vibration Where cables may expand or contract due to temperature changes or when connecting the cable to vibrating equip ment it may be necessary to take precautions to prevent mechanical damage to MI cable Refer to Section 5 2 page 23 and Section 5 3 page 26 for further details Equipment Bonding The sheath of Alloy 825 MI cable must be bonded to ground but must not be used as the equipment to ground bonding conductor For proper equipment to ground bond ing use one conductor within the sheath or use a separate equipment to ground bonding conductor Straightening and Dressing the Cable The cable may be straightened by hand or by using a dead blow hammer and a block of wood as shown in Figure 8 Do not use a metal hammer as it may result in unsightly dents that can
6. joints with fireproof caulking Figure 21 Fireproofing gland connectors into actuator P Installation 5 5 Expoxy sealing Cable Terminations MI industrial wiring cables are typically supplied with fac tory installed terminations These cables are ready to con nect into junction boxes and other equipment as soon as they are received at the job site Where field installed terminations are required two types of Pyropak termination kits are available depending on the area classification The Pyropak with epoxy sealing compound Figure 22 is used to terminate cables located in nonhazardous Division 2 or Division 1 hazardous areas The Pyropak with gray sealing compound Figure 23 is used to terminate cables located in nonhazardous or Division 2 hazardous areas Prior to installing field terminations check the cable with a 500 V megohmmeter to ensure the IR is acceptable see Section 6 Follow the instructions supplied with the Pyropak kits to complete the cable termination Cap and sleeve assemblies Gland connector compound Figure 22 Termination kit with epoxy sealing compound Installation Cap and sleeve assemblies Gland connector Gray sealing compound Figure 23 Termination kit with gray sealing compound Testing and Commissioning 6 1 Tyco Thermal Controls recommends that the Cable Inspection Record in Appendix B be completed du
7. 4 Typical ground bushing for nonmetallic enclosures only Install the pot so that it extends above the bottom of the junction box Figures 15 and 16 to prevent moisture due to condensation from contaminating the face of the pot Screw the gland connector into the junction box hub and tighten the compression nut rear nut on gland connector to the torque value shown on the tag supplied with the fac tory terminated cable or field termination kit This ensures that the cable sheath is properly bonded to ground and provides a proper flame path in hazardous areas P Note Minimize handling the tails to avoid breakage D Installation Metal junction box Ground screw i i m Threaded hub a Pot extend above bottom of junction box __ Pot Gland connector a MI cable Figure 15 Connection to metal junction box Nonmetallic Ground screw junction box i Pot extend above bottom of junction box ground bushing Threaded A m t Pot Gland connector MI cable Figure 16 Connection to nonmetallic junction box D Installation D Installation In outdoor locations form a large U shaped drip loop g Figure 17 or a large drip expansion loop Figure 18 at Gland connector the points of entry into junction boxes and other e
8. CEC with other national electrical codes N fasteners and standards or customer specification Steel or stainless N steel channel Steel or Stainless steel stainless steel Multiconductor MI cable banding gear clamp washers and i every 2 ft 610 mm nuts Single between supports conductor MI cable Figure 13 Typical installation using trapeze support 5 2 Connection to Junction Boxes and Other Equipment Locating junction boxes below grade or too low to the ground may allow moisture to enter the junction box resulting in cable failure All junction boxes must be mounted above grade level All cable or conduit leading to junction boxes must be installed so that water does not enter the box Avoid enter ing the junction box from the top as this may allow water to enter Take appropriate measures to ensure that mois ture does not collect in the bottom of the junction box 7 Installation Connect the MI cable to junction boxes motors or other equipment suitable for the area classification hazardous or nonhazardous and environmental conditions corrosive wet etc expected Metal junction boxes are recommended because the cable sheath can be bonded to ground through the gland connector to the junction box If using nonmetallic junction boxes the gland connector must be connected to a ground bushing Figure 14 to ensure that the cable sheath is bonded to ground Figure 1
9. WWW CABLEJOINTS CO UK THORNE amp DERRICK UK TEL 0044 191 490 1547 FAX 0044 477 5371 TEL 0044 117 977 4647 FAX 0044 977 5582 WWW THORNEANDDERRICK CO UK Pyrotenax MI Cable Industrial Wiring Installation Manual For Alloy 825 Sheath Cables tyco Thermal Controls General Information 1 1 1 2 Use of the Manual This manual covers storage and installation of Pyrotenax Alloy 825 Sheath MI industrial wiring cables It is assumed that the cables have been correctly sized and the instal lation properly designed Installers must be trained and familiar with relevant codes and standards and generally accepted good practice for handling and installing power cables For installations or situations that are not covered in this guide please contact Tyco Thermal Controls for guidance Safety Guidelines The safety and reliability of an MI cable system depend on the proper design and installation of the system and use of proper materials for support as well as the quality of the cable selected Incorrect design or installation or use of inappropriate support materials can result in a system that may not perform satisfactorily and in the case of a fire rated system it may not perform under fire conditions Install all wiring in accordance with the latest edition of national electrical codes and standards such as the Na
10. cifications and approvals 3 1 Field Terminated Cables Cables that are to be terminated in the field are supplied with temporary heat shrinkable end caps that seal the ends against moisture ingress Field installed termination kits are available with the epoxy sealing compound or gray seal ing compound shown in Section 5 5 page 30 and 31 and should be selected based on the application Identification tags are not supplied The rugged construction of Pyrotenax MI industrial wiring cable makes it the perfect solution for all industrial applica tions no matter how extreme However certain storage and handling guidelines should be followed to minimize the possibility of damage to the cable Storage To protect cables from physical damage and the environment inspect the cables upon receipt and observe the following storage measures Initial Inspection When the cables are received e Inspect the factory applied protective covering on the cable for evidence of shipment damage Keep the protec tive cover in place until removal is absolutely necessary e Where possible check the cable sheath for evidence of shipment damage e Verify that terminations or heat shrinkable end caps are not damaged missing or removed e Verify that factory terminated cables are correctly labeled and have the appropriate gland connector fittings for the intended use e Check the insulation resistance IR for the presence of moisture in the cab
11. eath from both ends to ensure that the conductors do not touch the cable sheath and are spaced apart from each other Reseal the ends once testing is complete Test Equipment 500 Vdc megohmmeter calibrated Testing and Commissioning Test Criteria The minimum insulation resistance for a clean dry prop erly installed cable should reflect the values shown below regardless of the cable length e When cables are received also when terminating bulk cable n a warm dry environment IR readings should be 200 MOQ or higher In an outdoor environment or indoors in wet or humid conditions IR readings should all be above 100 MQ Any large difference in readings between similar cables under similar conditions should be investigated e Prior to initial start up commissioning minimum 25 MO e After any maintenance or repair work minimum 25 MQ E Note If IR readings are low follow the instructions in Appendix A to dry out the cable Repairs Use only Pyrotenax MI cable and components when replac ing any damaged cable Repairs should be performed only by qualified personnel and to Tyco Thermal Controls requirements Retest the system after repairs A WARNING Damage to cables or components can cause sustained electrical arcing or fire Do not ener gize cables that have been damaged Damaged cable or terminations may need to be repaired or replaced Damaged cable should be repaired by a qualified person T
12. es around corners hand feed cables using large sweeping bends Mechanical pulling equipment such as tuggers is not recommended Sheaves Use sheaves or pulleys of the proper diameter where required to avoid damage to the cable Pulling Rope Use non stretch pulling rope with a capacity large enough to handle the force required to pull the cable It is recommended that the pulling rope be attached to the cable sheath using a series of six half hitch knots and the knots and rope be securely taped to the sheath to prevent movement during the pull When pulling cables from a factory terminated end ensure that the end is protected with a short length of PVC pipe see Figure 6 page 12 and securely attach the pulling rope to the cable sheath to avoid damage to the termination wal 4 5 Install cable grips swivels and pulling eyes if used according to manufacturer s instructions Set Up Examine cable trays trapeze support systems and other support systems for acceptability prior to pulling activities Install permanent supports properly to ensure the rigidity of the cable tray trapeze or other support system so that neither the support system nor the cable will be subjected to damage during the pulling process Before installation verify that the cable s can be installed according to the designed routing and minimum bending radius requirements Where it is not practical to completely remove the cable f
13. est Procedure The megohmmeter connection to check the IR of the MI cable between the conductors and the cable sheath and between conductor pairs is shown in Figure 24 Testing and Commissioning Insulation Resistance Test 1 2 3 10 11 12 Set megohmmeter test voltage at 0 Vdc Connect the positive earth lead to the cable sheath Connect the negative line lead to one conductor Turn on the megohmmeter and set the voltage to 500 Vdc apply the voltage for one minute Meter needle should stop moving Rapid deflection indicates a short Note the insulation resistance value It should correspond to the values shown under Test Criteria Turn off the megohmmeter If testing a single conductor cable proceed to Step 7 If testing a multiconductor cable proceed to step 8 Testing is complete If the megohmmeter does not self discharge discharge phase connection to ground with a suitable grounding rod Disconnect the megohmmeter If testing a multiconductor cable repeat steps 3 through 5 for remaining conductors Next remove the positive earth lead from the cable sheath and connect it to one of the other conductors Test the cable as in steps 3 through 5 Repeat for all conductor pair combinations Testing is complete If the megohmmeter does not self discharge discharge phase connection to ground with a suitable grounding rod Disconnect the megohmmeter Testing and Comm
14. here used the grounded conductor neutral and all conductors bonding equipment to ground must be contained within the same cable tray or bundled with the cables within a trapeze system or equivalent unless otherwise permitted in accor dance with the NEC CEC or other national electrical codes and standards These requirements apply separately to parallel circuits Conductors to be joined in parallel should follow the appli cable sections of the NEC CEC or other national electrical codes and standards Multiple circuits should be appro priately spaced for ampacity considerations Where inde pendent circuits are required or desired maintain proper separation and segregation from other electrical circuits Bundle single conductor MI cables tightly together every 2 ft 610 mm along the entire length of cable run in groups containing one conductor per phase the neutral if used and the equipment to ground bonding conductor using stainless steel banding or stainless steel adjustable gear clamps This maintains the cable sheaths in contact throughout the length of the run which minimizes sheath currents and stabilizes the cables under short circuit and fire conditions Where parallel runs are required cable bun dles must be spaced apart 2 15 cable diameters in the USA 2 cable diameters apart in Canada Follow the applicable requirements of the NEC CEC or other national electrical codes and standards Exposed or Surface Installatio
15. ion box equipment see Table 1 N OOC O00000 ae Note Bending radius shown for 0 75 Cable 0 D and smaller cables Figure 10 Minimum bending radius D Installation Installation Pulling the Cable into Position For ease of installation it is recommended that the cables be completely uncoiled or removed from the reel and laid out in a straight run with the end to be pulled closest to the entry point into the support system cable tray trapeze etc Attach the pulling rope to the end of the cable as described in Section 4 4 Pull the cable by hand throughout the desired routing Use personnel to guide the cable around corners using large sweeping hand formed bends Do not bend the cable to a radius smaller than the minimum pulling radius shown in Table 2 while pulling the cable into position When chang ing direction from a horizontal to vertical pull use sheaves or pulleys to guide the cable around the bend The cable can be neatly arranged in the tray trapeze once it has been completely pulled into position If installing a cable with a factory termination on one end only and if space permits it is recommended that the cable pull begin at the equipment such as a valve actuator and that the cable be pulled from the unterminated end This will reduce the possibility of damage to the terminated end Table 2 Minimum Pulling Radius Cable 0 D outside diameter 0 75 in
16. ions of damage around any area where there may have been maintenance work Repair or replace damaged cable and or terminations 2 Remake termination 3 Remove short and reseal end O Appendixes Appendix A Improving Insulation Resistance IR To maintain the high performance of MI cable the cable must be properly stored and the ends must remain sealed Damaged terminations or heat shrinkable end caps that are damaged missing or removed will cause the magnesium oxide insulation white powder to absorb moisture lower ing the IR The cable must be heated out to remove the moisture and bring the IR back to an acceptable level If the IR of a factory terminated cable tests below accept able limits see Section 6 the cable terminations must be removed before heating out the cable Follow the troubleshooting guide in Section 7 before removing the terminations F Note Moisture will not normally penetrate more than 12 in 300 mm into the cable If moisture is detected in the cable use an oxy acetylene or mapp gas torch with a large flame and heat out the cable beginning 12 in 300 mm back from the end Gradually stroke toward and past the cable end Alloy 825 sheath cables should be heated to a dull red color Take care not to overheat any one area of the cable sheath as this could damage the cable Use a short sweeping motion of the torch and heat about 2 in 50 mm of cable at a time repeati
17. issioning Figure 24 IR test between cable sheath and conductor and between conductor pairs 7 Troubleshooting Guide Symptom Probable Causes Corrective Action Insulation resistance is less than expected 1 Rain or high humidity 2 Nicks or cuts in the cable sheath with moisture present 3 Kinked or crushed cable 4 Arcing created by damage to the cable 5 Welding splatter 6 Presence of moisture in termination or temporary seal 7 Damaged termination or temporary seal 1 Dry tails and face of seal Inspect power connection box for moisture or signs or tracking Dry out connections and retest 2 3 4 5 Visually inspect or fault locate cable to find damaged section of cable Repair or replace cable or contact Tyco Thermal Controls technical support for assistance 6 Remove termination or tempo rary seal Dry out cable following the procedure in Appendix A Replace termination or seal 7 Replace termination or seal Short circuits and direct earth faults 1 Physical damage to cable is causing a direct short from conductor to sheath 2 Misalignment of the conductors within the seal or incorrect and untidy completion of the sheath stripping procedure during termination 3 Conductors shorted to sheath when cut at factory only for unterminated cables 1 Check for visual indicat
18. l beam supports Trapeze Support A typical trapeze system installation is shown in Figure 13 Follow the trapeze system manufacturer s installation instructions to properly install the trapeze system The trapeze system does not readily allow placement of service loops Figures 11 and 12 If service loops are required for future maintenance replacement or relocation of equipment install the cables in cable tray Complete the trapeze system installation before installing the MI cables Do not overload the trapeze system under fire conditions the steel channel will sag deflect possibly damaging the cables Refer to pages 18 and 19 for details regarding the installation of single and multiconductor MI industrial wiring cables Once the cables have been pulled into position secure cables to the channel with steel or stainless steel single D Installation bolt pipe clamps sized to correspond with the outside diameter of the cable or cable bundle This ensures a neat installation prevents movement of the cables and is particularly important in the case of vertical runs of cable as it prevents the top section of cable from supporting the weight of the entire vertical cable run For further information on this installation method contact Tyco Thermal Controls Technical Support see Section 1 1 Steel rods securely Steel pipe anchored to fire rated conduit structure clamp Support spacing per NEC
19. le using a megohmmeter damage to the sheath end caps or terminations will cause moisture to enter the cable See Section 6 for testing guidelines and record the results of the tests in the Cable Inspection Record in Appendix B If moisture is present follow the instructions in Appendix A to remove the moisture or contact Tyco Thermal Controls for guidance Storage and Handling Storage Measures e Store all cables indoors in a clean dry location if pos sible and protect from moisture construction equipment falling objects chemical spills moving vehicles and other hazards e Store factory terminated cables in a manner that prevents damage to the sealing pot and flexible tails e Do not remove the heat shrinkable end caps from bulk cable until the cable is ready to be terminated e Do not stack coils or reels e Do not store coils or reels flat Store coils upright and reels upright on their flanges Figure 2 e Ensure that both ends of the cable are securely fastened to the reel flange e Store reels on a firm surface paved if possible or on planking to prevent reels from rotting Always load and store reels upright on their flanges and block securely Right Laying heavy reels flat can cause damage Wrong Figure 2 Store reels upright on flanges Storage and Handling 3 2 Handling Moving Coils and Reels e Handle and install cables within suitable temperature
20. limits See Section 4 1 page 11 e Handle coils and reels utilizing equipment designed for that purpose e Do not drop coils or reels from any height particularly from trucks or other transporting equipment e Lift or handle coils and cable reels in such a manner that the lifting handling device does not make direct contact with the cable or its protective covering Coils should be placed on a skid e Handle reels in a manner that prevents deterioration of and physical damage to the reel and to the cable e Take precautions to ensure that the flange of one reel does not impact the cable on another reel F Note If a coil or reel is dropped or the protective covering is damaged examine the cable for dam age Refer to Section 7 for the Troubleshooting Guide Damaged cables may need to be repaired or replaced Contact your local representative for more information The following lifting methods for reels are recommended Figure 3 e Insert a suitable properly secured shaft through the reel arbor hole and lift with slings using a crane or boom type equipment Use a spreader or other device to mini mize sling pressure against the reel flange e Move smaller narrower reels using a forklift Place fork tines so that lifting pressure is on both reel flanges not on the cable 3 Storage and Handling Storage and Handling gt Reels can be hoisted with a Do not lift by a single reel properly
21. ne of the most exceptional qualities of MI cable is its fire resistance the cable will not burn support combustion propagate flame or emit smoke or toxic gases MI cable can be used for indoor and outdoor applications in industrial installations It is extensively used in petro chemical plants where the integrity of power and control wiring to emergency block valves and emergency equip ment must be maintained during a hydrocarbon flash fire The solid construction of MI cable makes it suitable for use in hazardous areas to prevent the passage of explosive gases In addition it is used in pulp and paper plants elec tricity generation plants and in mines and manufacturing where resistance to extreme heat and corrosion is required For further information on using and installing MI cable refer to the applicable sections of the NEC CEC or other national electrical codes and standards if outside the US and Canada X alloy 825 sheath A Magnesium oxide MgO insulation Solid nickel clad copper or nickel conductors Figure 1 MI industrial wiring cable Introduction 3 2 2 2 3 Storage and Handling Factory Terminated Cables Factory terminated cables can be connected as received to junction boxes and other equipment The standard factory termination utilizes the epoxy sealing compound shown in Figure 22 on page 30 The cables are supplied with a metal identification tag showing the cable spe
22. ng 4 to 5 times Stroke the flame towards the cable end as shown in Figure A 1 Do not stroke the flame in the opposite direc tion as this will drive the moisture into the cable Gradually move the flame toward the end while maintaining the short sweeping motion of the torch Figure A 2 If you heat toward the cable end too quickly you may skip over the moisture and drive it further back into the cable Repeat the above procedure several times always beginning 12 in 300 mm back from the cable end O Appendixes Repeat 4 to 5 times oe mm A a Figure A 1 Heat 2 in 50 mm at a time 2 in 50 mm OO Figure A 2 Stroke flame towards end When first heated the IR of the cables will decrease however after the flame has been removed and the cable cools the IR will increase to an acceptable level if the moisture has been driven out On completion check IR with a 500 Vdc megohmmeter following the instructions in Section 6 If working with shielded twisted pair cable also test IR between the sheath and inner shield Reseal cable end with adhesive lined heat shrink tubing until ready to terminate cable 8 Appendixes Appendix B Cable Inspection Record Megohmmeter manufacturer model Voltage setting 500 Vdc Megohmmeter date of last calibration Accuracy full scale INSULATION RESISTANCE TEST Receipt of Cables Note See Section 6 for minimum IR readings Cable Reference No Tag No
23. not be removed Once the cable has been installed the use of stainless steel banding or cable clamps to strap the cable to the tray will help dress the cable maintaining a neat appearance Installation Deadblow hammer Wooden blocks Figure 8 Straightening and dressing MI cable Bending Radius The minimum bending radius for permanent training of Pyrotenax MI cable is shown in Table 1 although it is recommended that bends are kept as large as possible Where smaller bends are necessary a conduit bending tool Figure 9 may be utilized but care must be taken not to bend the cables to less than the minimum bending radius Installation Table 1 Minimum Bending Radius for Permanent Training Cable 0 D outside diameter 0 75 in 19 mm and smaller 6 times cable diameter Larger than 0 75 in 19 mm 12 times cable diameter Conduit bending tool Figure 9 Use conduit bending tool for smaller bends The relationship between cable diameter and minimum bending radius is shown in Figure 10 When small bends are necessary do not try to make the entire bend in one operation Bend in small increments Shape into final posi tion gradually When offsetting the cable to enter a junction box equipment via a gland connector at least 2 to 3 in 50 to 75 mm of straight cable should be left between the gland connector and the final bend to facilitate withdrawal of the gland connector from the junct
24. ns The components used to support the cables throughout the run must be made of steel or stainless steel In areas where the cables may be exposed to hydrocarbon flash fires the support system components must be in compli Installation ance with UL1709 the Rapid Rise Fire Tests of Protection Materials for Structural Steel The support system compo nent material should be selected based on the environment in which it is installed as it may have to withstand the high temperatures possible in a hydrocarbon flash fire and or the harmful effects of corrosive areas Ensure that the materials used to support the cables are compatible with the cable sheath Note For fire rated installations do not use materi al such as aluminum brass copper plastic lead wood etc since these materials will fail quickly during a fire The support system must provide strength and working load capabilities to meet the load requirement of the wiring system Support the cables on horizontal and vertical runs at the spacing requirements in the NEC CEC other national electrical codes and standards or per customer s specifica tions Pay special attention to fire rated installations as it may be necessary to use support spacing closer than that specified in the NEC CEC or other national electrical codes and standards Several support methods may be used however cable tray is recommended due to its wide availability and familiarity
25. ote Junction boxes actuators valves etc must be protected as required by the customer specification In Figures 20 and 21 the junction box and valve actuator are in the fire zone and are protected with intumescent fireproofing material In both cases the MI cable gland connectors terminations must be protected with a similar fireproofing material at the points of entry into the junction box and actuator The intumescent material protecting the gland connectors is formed to shape by the manufacturer to completely cover the connector Install the protective fireproofing material in accordance with the manufacturer s installation instructions Seal all gaps and joints around the fireproofing system with a suitable fire proofing caulking Steel beam supporting structure Seal all gaps el and joints with 7 y fireproof caulking Single MI cable al Multiconductor gland connectors MI cable protected with individual intumescent Junction box Multiple MI cable gland fireproofing protected with connectors protected covers intumescent with a single intumescent fire proofing fireproofing cover material Figure 20 Fireproofing gland connectors into junction box Actuator protected with intumescent fireproofing material Multiconductor MI cable pA for power and control MI cable gland connectors protected with intumescent fireproofing cover Seal all gaps and
26. quip MI cable 5 ment This prevents moisture which may track along the cable sheath and collect around the entry point from enter ing the junction box through the hub Large expansion loop g Explosion proof 5 engage motor Gland connector threads Junction bo ANSERA SS Figure 18 Expansion loop at cable end to absorb MI cable vibration yy To connect MI cable to a junction box motor or other zB equipment approved for use in hazardous areas screw the gland connector into the threaded hub and tighten to the recommended torque If making a field termination ensure that the termination kit is the correct type for the area Classification see Figure 22 on page 30 and Figure 23 Drip loop on page 31 Use up excess cable by forming the cable into a loop as shown in Figure 19 All installations must be in compliance with the applicable requirements of the NEC CEC and any other applicable national or local codes and standards Figure 17 Drip loop at point of entry into junction box 5 3 Installation in Hazardous Areas Due to the solid construction of MI cable exploding gases or vapors and liquids under continuous pressure cannot travel through it When terminated with an approved Explosion proof termination for hazardous areas MI cable is a proven gas junction box Hub Form excess nee a MI cable into Tighten gland connecto
27. r MI cable can be used in place of braided flexible couplings to recommended torque a loop in areas where limited flexibility is needed Where the termination is subjected to vibration such as when con necting to a motor a large expansion loop as shown in Figure 18 is recommended In cases of severe differential vibration the cable should be terminated into a junction box adjacent to the vibrating equipment and the final con nection made via a flexible conduit and or cable path block and is used for wiring to equipment and junc tion boxes in hazardous areas without the requirement for conduit and special seals Five engaged threads ld Figure 19 MI cable connection into junction box P F Installation D Installation 5 4 Protecting the MI Cable Terminations from Hydrocarbon Flash Fires While MI cable will continue to function when subjected to fire the terminations must be protected from the fire To maintain the functionality of the terminations in installa tions where they may be exposed to a hydrocarbon flash fire protect the terminations with a passive fireproofing system such as a rigid semi rigid enclosure flexible enclosure or intumescent coating such as K MASS capable of withstanding the expected temperatures For other fire rated applications where the terminations must be protected please contact Tyco Thermal Controls Technical Support see Section 1 1 F N
28. r rewire the equipment without having to replace the cable Once the cables have been pulled into position secure the cables to the rungs of the cable tray every 2 ft 610 mm using stainless steel bands stainless steel tie wire or adjustable gear clamps This ensures a neat installation prevents movement of the cables and is particularly important in the case of vertical runs of cable as it prevents the top section of cable from supporting the weight of the entire vertical cable run For further information on cable tray installations contact Tyco Thermal Controls Technical Support see Section 1 1 Support spacing per NEC CEC other national electrical codes a P and standards or customer specification Pa Service loop one or more loops of cable Steel rod securely anchored to structure above Steel channel lt 9 MI cable secured to rungs of tray every 2 ft 610 mm Figure 11 Typical cable tray installation using trapeze supports D Installation Steel or stainless steel cable tray securely anchored to l beam support Support spacing per NEC CEC other national electrical codes and standards or customer specification Service loop one or more loops of cable Pg Ground conductor MI cable secured to rungs of tray every 2 ft 610 mm Steel beam supports securely anchored to ground Figure 12 Typical cable tray installation using steel
29. ring test ing and commissioning and kept for future reference Tests Visually inspect cables and terminations and check the insulation resistance IR prior to energizing Visual Inspection e Visually inspect the cable sheath and connections to the cable for physical damage Damaged cable must be repaired or replaced e Check that no moisture is present in junction boxes and other enclosures e Ensure that electrical connections are tight and grounded e Ensure that the cable carries the correct circuit identifica tion and that there have been no unauthorized modifica tions to the cables e Verify that all junction boxes are appropriate for the area classification and correctly sealed and that the cable glands are tight and correctly fitted into junction boxes IR Test IR testing is conducted using a megohmmeter and tests the integrity of the cable between the conductors and the cable sheath and between conductor pairs in multiconduc tor cables If the terminations or heat shrinkable end caps are damaged missing or removed moisture will enter the mineral insulation resulting in low IR readings Prior to testing factory terminated cables wipe both ends of the cable sheath pot and tails with a clean dry cloth to remove any moisture which may result in erroneous results such as low IR readings When testing unterminated cables it may be necessary to remove the heat shrinkable tubing and strip back the cable sh
30. rom the reel set up the reel using sheaves or pulleys as shown in Figure 7 on page 14 The first sheave must be installed at a point higher than the support system Use a roller at the entry and exit points of the tray trapeze sys tem The setup should ensure that the cable is not kinked or bent beyond the minimum pulling radius see Table 2 page 18 or subject to excessive twisting force Minimize the amount of tension necessary to pull a cable as follows e Pull in the proper direction Where practical a cable pull should begin nearest the end having the least degrees of bends and exit the end having the greater degrees of bends if at all possible Also in vertical sections an upward pull is preferred e Minimize the number and degrees of bends the cable is pulled around under tension Accomplish this by finding the straightest route possible using the least amount of bends Pre Installation Installation Sheave Roller 5 1 Right Wrong Figure 7 Reel set up Station experienced cable pulling observers along the route in contact visually by radio or by phone with the other members of the crew Following these installation instructions will consistently produce satisfactory MI cable installations Further infor mation on proper installation techniques may be obtained by contacting Tyco Thermal Controls Technical Support see Section 1 1 General Installation Guidelines
31. secured shaft flange Cable or reel may be extending through both flanges damaged K T Cradle both reel flanges Never allow fork tines to touch between fork tines the cable surface or reel wrap Lower reels from a truck Never drop reels using a hydraulic gate hoist or fork lift LOWER CAREFULLY Right Wrong Figure 3 Reel handling DOs and DON Ts e Roll reels to move them short distances and in the direction so that the cable does not unwind Figure 4 this will tighten the cable windings not loosen them It is recommended that surfaces over which the reels are rolled be firm level and clear of debris that may damage the cable 29 Roll reel in the direction LZ indicated by the arrow oOo Figure 4 Reel rolling Uncoiling Cable e Do not uncoil cable or transfer cable to another reel prior to installation as it will become work hardened making it less easy to install e Support reel on a jack stand when uncoiling cables sup plied in coils may be fed from a pay off reel Figure 5 Have someone rotate the reel or coil to feed the cable as it is being pulled This will greatly ease the handling and prevent possible twisting bending and kinking e Use appropriate precautions when uncoiling cable see Section 4 2 page 11 e Handle cable carefully during uncoiling to prevent dam age due to kinking or bending to a radius smaller than the minimum pulling radius see Table 2 page 18 e En
32. sure that the cable is not twisted during installation e Do not run over cable drag cable over sharp objects or subject cable to other such treatment that could cause damage Storage and Handling Reel Zz Cs Right Wrong Coil D Right Wrong Figure 5 Unreeling uncoiling cable Pre Installation 4 1 4 2 Cable installations must be preplanned to ensure a suc cessful installation It is important to ensure that personnel are properly trained and qualified for the specific task they are performing All applicable rules and regulations includ ing federal state provincial local and municipal laws must be followed For further information on installing MI cables contact Tyco Thermal Controls Technical Support see Section 1 1 Minimum Installation Temperature A minimum installation temperature of 40 F 40 C is recommended for MI cables Precautions When installing Pyrotenax MI industrial wiring cables all appropriate precautions should be followed including OSHA and other applicable national safety regulations Therefore in addition to observing standard safety prac tices observe the following e Take reasonable precautions to prevent damage to the cable from severe blows with sharp instruments and pulling over sharp objects e Do not pull cables around corners that have sharp edges such as corners in cable trays or other obstructions e Pull all cable diameters one a
33. t a time by hand e Hand feed cables around corners using large sweeping bends e When changing direction from horizontal to vertical use properly sized sheaves or pulleys e Protect exposed cables from any nearby or overhead work that could damage the cable e Do not pull cables around a radius smaller than the mini mum pulling radius see Table 2 page 18 e Make sure all equipment used during cable installation is in good operating condition For further assistance on pulling cables contact Tyco Thermal Controls Technical Support see Section 1 1 Pre Installation Pre Installation 4 3 Factory Terminated Cables Prior to installation of long runs of cable attach a short length of PVC conduit to the factory terminated ends to provide protection for the sealing pot and flexible tails Figure 6 Use 1 in 25 mm minimum PVC pipe or larger if a 1 in or 1 1 4 in 25 mm or 32 mm gland connector is supplied This will prevent damage to the sealing pot and tails during installation Reducer from PVC pipe to gland connector Threaded PVC end 4 4 Factory terminated so 1 25 mm min MI cable connector PVC pipe Figure 6 Protecting sealing pot and flexible tails Installation Equipment Pulling Equipment It is recommended that all sizes of cables be hand pulled into position one at a time using pulling ropes securely attached to the cable end When pulling cabl
34. tional Electrical Code NEC or Canadian Electrical Code CEC and or the Authority Having Jurisdiction and the instructions in this manual e Notes are marked E Note e Important instructions are marked F Important e Warnings are marked A WARNING General Information 1 3 1 4 Approvals MI industrial wiring cables are manufactured in accordance with international standards e Factory terminated cables are cCSAus Certified e Bulk cable is cULus Listed and cCSAus Certified e Field installed termination kits for bulk cable are cCSAus Certified F Note ATEX certified terminations also available Warranty Tyco Thermal Controls Pyrotenax MI industrial wiring products Limited Warranty applies to these products For details see the complete warranty on our web site at www tycothermal com P Important For the Tyco Thermal Controls warranty and agency approvals to apply the instructions that are included in this manual and product packages must be followed Introduction 2 1 General Pyrotenax MI industrial wiring cable is manufactured with nickel clad copper or nickel conductors within a robust Alloy 825 sheath embedded in highly compacted magne sium oxide insulation Figure 1 This construction and the nature of the inorganic materials used provide MI cables with characteristics that surpass those of other cable types without the need for additional protection such as conduit O
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