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4. For the HASB method, inject the recommended amount of lubricant, and spread it by blowing <br />anotherfoam carrier through. Forthe piston method, inject the majority of the lubricant in front <br />of the missile with some lubricant placed behind it. <br />5. Connect the blowing machine to the conduit. For HASB machines, hand feed approximately 100' <br />of cable into the duct prior to closing and sealing the cable and air chamber on the blowing <br />machine. For piston machines, attach the piston to the cable and insert the piston into the duct. <br />For both installation methods, follow the machine manufacturer's instructions for all operations. <br />6. Check all pneumatic and hydraulic hook-ups prior to increasing the air pressure. <br />7. Keep cable ends sealed at all times during installation, using an approved cable endcap. Do not <br />use tape to seal the cable end. The cable end shall remain sealed until termination takes place. <br />8. Install fiber optic cable such that the optical characteristics are not degraded in any manner. <br />Provide adequately trained personnel for the installation of the cable and for the fusion splicing. <br />Test all fiber links. <br />9. Provide sufficient slack for proper termination in the cabinet communications compartment for <br />all cables that are not immediately terminated. <br />Throughout the cable plant, pull and store excess cable slack at each pull box, splice box, hub, and each <br />TMC or TOC. The following lengths of slack cable are minimums: <br />a) Small fiber pull box <br />b) Large fiber pull box <br />c) <br />Fiber splice box <br />d) <br />Bridge barrier wall <br />e) <br />Device cabinet <br />• <br />Hub Building (Inside) <br />• <br />TMC (OSP Entrance)100 ft <br />f) <br />Equipment/Control Room <br />50 ft. <br />200 ft. <br />200 ft. <br />20 ft. <br />20 ft. <br />100 ft. <br />Maximum <br />50 ft. Slack at FO Distribution Panel <br />-OR- AS SPECIFIED BY THE COUNTY PROJECT SUPERVISOR <br />Provide proper storage of slack cable — both long term and short term. Do not leave slack cable lying free on the <br />ground, bottom of a pull box, or floor of a device cabinet, hub building, or RTMC, except during the actual pulling <br />process. <br />7.7 Optical Splicing and Termination Requirements <br />Utilize the fusion technique for all splices. Utilize fusion splicing equipment that has been cleaned, <br />calibrated and specifically adjusted to the fiber and environmental conditions. Provide splice <br />enclosures, organizers and incidentals, and cable and preparation tools and procedures, compatible <br />with the cable type being delivered. Maximum allowable splice loss is .04db. <br />Each spliced fibers shall be packaged in a heat shrinkable splice protection sleeve with strength <br />member. The protection sleeve shall cover the splice and have any bare fiber stripped of its coding. <br />The use of RTV or silicon is strictly prohibited. <br />7.7.1 Splice enclosures <br />Provide and install outdoor optical splice enclosures (3M 2178 or equivalent) capable of aerial, <br />duct, or buried applications. The splice enclosure shall provide space enabling entry of fiber optic <br />cable without exceeding the minimum bend radius of the cable. The splice enclosure shall be <br />capable of through, branch, or mid -span type splice locations. Only one (1) cable per entry port <br />32 <br />