thickness are shown in Table B1 of AEIC CS6. Jacket
thickness is shown Table 4-3 of NEMA WC 8. For XLP:
Cable ratings and insulation thickness are shown in
Table B1 of AEIC CS5. Jacket thickness is shown in
Table 4.5 of NEMA WC 7.
**************************************************************************
**************************************************************************
NOTE: For projects within LANTNAVFACENGCOM: Use
only EPR insulation with a tape shield unless
specifically requested by the activity, or otherwise
directed, to use or allow the use of XLP insulation,
or wire shield. Values for 133 percent insulation
shall be used on all systems other than four-wire,
multi-grounded systems, unless specifically directed
otherwise.
**************************************************************************
Cable for [34.5] [13.2] [12.47] [11.5] [4.16] [_____] kV underground
distribution system shall be ozone resistant
ethylene-propylene-rubber-insulated (EPR) cable conforming to NEMA WC 8, as
applicable, and AEIC CS6 [or cross-linked-thermosetting-insulated (XLP)
cable conforming to NEMA WC 7, as applicable, and AEIC CS5]. Cable shall
be [single] [three] conductor, employing [concentric, Class B] [compact
round] stranded copper conductors. Cable shall have conductor and
insulation shielding. Insulation shielding shall be metal tape [or wire]
type consisting of a concentric serving of tape [or wires] according to
NEMA WC 8 [or NEMA WC 7]. Cable shall be rated [_____] kV with insulation
and jacket thickness of [_____] and [_____] mm mils, respectively. Cable
shall have a polyvinyl chloride jacket.\
2.1.6.1
Paper Insulated Lead Covered (PILC) Cables
**************************************************************************
NOTE: PILC cables for use on circuits 10KV or more
shall be shielded. PILC cable is recommended only
for projects where new cable system will be spliced
to existing PILC cable distribution system.
**************************************************************************
Cable for [34.5] [13.2] [12.47] [11.5] [4.16] kV distribution system shall
be solid type impregnated-paper-insulated lead-covered cable conforming to
AEIC CS1. Cable shall be [single] [three] conductor, employing [compact
round] [concentric] stranded, copper conductor[s]. The cable shall have
conductor shielding and insulation shielding over each individual
conductor. The sheath shall be of the finest approved special fatigue
resistant, age resistant arsenical lead alloy proved by experience and
bending machine tests. The sheath shall be smooth and concentric, free of
scars or indentations. The thickness of the sheath shall be in accordance
with AEIC CS1. Any samples exceeding the specified thickness deviations at
any point shall justify complete rejection of adjacent cable without
further tests or qualifications. A protective covering of thermoplastic
polyethylene shall be applied over the sheath. The rated voltage of the
cable shall be [_____] kV [[_____] percent insulation level for [_____] kV
system].
2.1.7
Medium Voltage Cable Terminations
IEEE Std 48 Class [1].
Provide terminations including stress control
SECTION 16302N
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