Section



[Code of Federal Regulations]
[Title 7, Volume 11]
[Revised as of January 1, 2003]
From the U.S. Government Printing Office via GPO Access
[CITE: 7CFR1755.508]

[Page 557-573]
 
                          TITLE 7--AGRICULTURE
 
    CHAPTER XVII--RURAL UTILITIES SERVICE, DEPARTMENT OF AGRICULTURE
 
PART 1755--TELECOMMUNICATIONS STANDARDS AND SPECIFICATIONS FOR MATERIALS, EQUIPMENT AND CONSTRUCTION--Table of Contents
 
Sec. 1755.508  Customer access location protection.

    (a) All customer access locations shall be protected.
    (b) Customer access location protection shall consist of installing 
the telecommunications facilities with proper clearances and insulation 
from other facilities, providing primary voltage limiting protection, 
fuse links, NIDs, BETs, or fused primary station protectors, if 
required, and adequate bonding and grounding.
    (c) All NIDs shall be RUS accepted or RUS technically accepted or 
the RUS borrower shall obtain RUS regional office approval on a case by 
case basis as applicable.
    (d) All BETs shall be RUS accepted or RUS technically accepted.
    (e) All fused primary station protectors shall be RUS accepted or 
RUS technically accepted.
    (f) NIDs, BETs, or fused primary station protectors shall be mounted 
outside for all applications except for those described in paragraphs 
(g)(1) through (g)(3) of this section.
    (g) NIDs, BETs, or fused primary station protectors may be mounted 
inside when:
    (1) Large buildings are to be served and the customer requests an 
inside installation;
    (2) Buried alarm circuits are requested by the subscriber; or
    (3) The customer requests an all buried installation for appearance 
or to prevent the drilling of holes in aluminum or vinyl siding.
    (h) Outside mounted NIDs, BETs, or fused primary station protectors 
shall be easily accessible and shall be located between 3 to 5 ft (1 to 
1.5 m) above final grade.
    (i) The locations of NIDs, BETs, or fused primary station protectors 
shall be selected with emphasis on utilizing the shortest primary 
station protector

[[Page 558]]

grounding conductor practicable and on grounding of the 
telecommunications primary station protector to the electric service 
grounding system established at the building served utilizing electrodes 
(c) through (g) cited in section 800-40(b)(1) of ANSI/NFPA 70-1999, 
NEC[reg]. The National Electrical Code[reg] and NEC[reg] are registered 
trademarks of the National Fire Protection Association, Inc., Quincy, MA 
02269. The ANSI/NFPA 70-1999, NEC[reg], is incorporated by reference in 
accordance with 5 U.S.C. 552(a) and 1 CFR part 51. Copies are available 
from NFPA, 1 Batterymarch Park, P. O. Box 9101, Quincy, Massachusetts 
02269-9101, telephone number 1 (800) 344-3555. Copies of ANSI/NFPA 70-
1999, NEC[reg], are available for inspection during normal business 
hours at RUS, room 2905, U.S. Department of Agriculture, 1400 
Independence Avenue, SW., STOP 1598, Washington, DC 20250-1598 or at the 
Office of the Federal Register, 800 North Capitol Street, NW., Suite 
700, Washington, DC.
    (j) If access to the building electric service grounding system, as 
referenced in paragraph (i) of this section, is not possible or is not 
reasonable (telecommunications primary station protector grounding 
conductor will be longer than 10 ft (3 m)), the NID, BET, or fused 
primary station protector shall be located as close as practicable to 
electrodes (a) or (b) cited in section 800-40(b)(1) of ANSI/NFPA 70-
1999, NEC[reg].
    (k) In addition, the NID, BET, or fused primary station protector 
shall be located in, on, or immediately adjacent to the structure or 
building to be served as close as practicable to the point at which the 
telecommunications service wire attaches to the building, making sure 
that the telecommunications primary station protector grounding 
conductor is connected to the closest, existing, and accessible 
electrode, of the electrodes cited in paragraph (i) or (j) of this 
section.
    (l) For the preferred customer access location installation, the 
ANSI/NFPA 70-1999, NEC[reg], permits the telecommunications grounding 
conductor to be connected to the metallic conduit, service equipment 
closure, or electric grounding conductor as shown in Figure 8 of 
paragraph (l)(2) of this section.
    (1) Connections to metallic conduits shall be made by ground straps 
clamped over a portion of the conduit that has been cleaned by sanding 
down to bare metal.
    (2) Connections to metallic service equipment closures shall be made 
by attaching a connector which is listed for the purpose by some 
organization acceptable to the local authority (State, county, etc.) per 
article 100 of ANSI/NFPA 70-1999, NEC[reg], definition for ``Listed'' 
(for example connectors listed for the purpose by Underwriters 
Laboratories (UL)). Figure 8 is as follows:

[[Page 559]]

[GRAPHIC] [TIFF OMITTED] TR17AU01.009

    (m) Where it is not possible to accomplish the objective of 
paragraphs (i), (j), and (k) of this section, interior metallic pipes 
may be used to the maximum practicable extent to gain access to the 
electric service ground as shown in Figure 9. Note that the water pipe 
in Figure 9 is electrically continuous between electric and 
telecommunications bonds to the cold water pipe and it is used only as a 
portion of a bonding conductor and, therefore, does not have to be 
``acceptable'' as a ground electrode but may be floating (isolated from 
ground by a plastic pipe section). ANSI/NFPA 70-1999, NEC[reg], requires 
that metal piping be used as a bonding conductor in this manner only 
when

[[Page 560]]

the connectors to the pipe are within 1.5 m (5 ft) of where the pipe 
enters the premises. This is not the preferred installation. The RUS 
preferred installation has the telecommunications primary station 
protector grounded directly to an accessible location near the power 
grounding system. See paragraph (l) of this section. Figure 9 is as 
follows:
[GRAPHIC] [TIFF OMITTED] TR17AU01.010


[[Page 561]]


    (n) Where the telecommunications premises system at a customer's 
access location is grounded to a separate electrode (of any type) this 
telecommunications grounding electrode must be bonded to the electric 
grounding system with a No. 6 AWG or larger copper insulated grounding 
conductor. Bonding of separate electrodes is a requirement of the ANSI/
NFPA 70-1999, NEC [reg].
    (o) The NID, BET, or fused primary station protector pair size shall 
be selected for the number of lines anticipated within five years.
    (p) When lightning damage is considered probable or customer access 
locations are remote from the borrower's headquarters, use of maximum 
duty gas tube primary station protectors incorporated in NIDs, BETs, or 
fused primary station protectors should be considered. (See RUS TE&CM 
823, Electrical Protection by Use of Gas Tube Arresters). Copies of RUS 
TE&CM 823 are available upon request from RUS/USDA, 1400 Independence 
Avenue, SW., STOP 1522, Washington, DC 20250-1522, FAX (202) 720-4120.
    (q) NIDs or BETs incorporating fuseless station protectors shall 
always be used in preference to fused station protectors or BETs 
incorporating fused protectors, when in the judgment of the RUS borrower 
or the engineer delegated by the RUS borrower, the requirements of ANSI/
NFPA 70-1999, NEC [reg], for fuseless station protectors can be met.
    (r) A fuse link consisting of a copper conductor two gauges (AWG) 
finer (numerically higher) conductivity than the aerial service wire 
shall be provided between the cable and aerial service wire where NIDs 
or BETs incorporating fuseless station protectors are used. Thus for a 
22 AWG drop, a fuse link of No. 24 AWG or finer copper wire shall be 
provided. If the cable circuit is No. 24 gauge or finer, the cable 
conductors serve as the fuse link for the 22 AWG aerial service wire and 
no separate fuse link is necessary. (Note: The fuse link or the 
facilities serving as the fuse link must be located between the 
telecommunications facilities that are exposed to possible power cross 
and the customer drop where there is no exposure to possible power 
cross.)
    (s) RUS's buried plant practices require buried main line plant to 
be protected against power contacts to aerial plant extensions and 
aerial inserts by No. 24 AWG fuse links at every buried-aerial junction.
    (t) In aerial cable plant, fuse links are usually provided by No. 24 
AWG leads on filled terminal blocks regardless of the gauge of the cable 
conductors. This practice is acceptable if the ampacity of the aerial 
service wire is sufficiently higher than the fuse link's ampacity.
    (u) The grounding and bonding of each NID, BET, or fused primary 
station protector shall be selected by consulting paragraphs (i) through 
(n) of this section. The ``first choice'' assembly unit shall be 
selected whenever the prevailing conditions make its use practicable. 
The NID, BET, or fused primary station protector assembly unit selected 
shall be installed in accordance with the appropriate construction 
drawing specified in RUS Bulletin 1753F-153 (RUS Form 515d), 
Specifications and Drawings for Service Installations at Customer Access 
Locations (Incorporated by reference at Sec. 1755.97). Copies of RUS 
Bulletin 1753F-153 are available upon request from RUS/USDA, 1400 
Independence Avenue, SW., STOP 1522, Washington, DC 20250-1522, FAX 
(202) 720-4120.
    (v) The minimum size grounding conductor that can be used with a 
single NID; a group of NIDs; a multipair NID; fused protector; or BET 
shall be in accordance Table 5, as follows:

      Table 5.--Grounding Conductor Size Versus Number of Circuits
------------------------------------------------------------------------
                                            Number of circuits
  Minimum grounding conductor   ----------------------------------------
              size                Fuseless (carbon
                                    or gas tube)            Fused
------------------------------------------------------------------------
12 AWG, copper,         1 to 2............  1 to 3.
 insulated.
10 AWG, copper,         3 to 5............  4 to 7.
 insulated.
6 AWG, copper,          6 or more.........  8 or more.
 insulated.
------------------------------------------------------------------------


[[Page 562]]

    (w) Grounding conductor runs between the NID, BET, or fused station 
protector and the ground electrode shall conform to the following:
    (1) The shortest, most direct route practicable shall be used;
    (2) Sharp bends in the grounding conductor shall be avoided during 
installation;
    (3) No splices shall be made in the grounding conductor;
    (4) Grounding conductors shall not be fished through walls, under 
floors, or placed in bridle rings or any metal conduit unless the 
grounding conductor is bonded to the conductor at both ends of the 
metallic conduit;
    (5) Grounding conductor runs from an outside mounted NID, BET, or 
fused station protector to an inside ground electrode shall use the same 
entrance as the station wire; and
    (6) Grounding conductor runs from an outside mounted NID, BET, or 
fused station protector to an outside ground electrode at the building 
shall be attached to the exterior surface of the building or buried. If 
buried, the grounding conductor shall be either plowed or trenched to a 
minimum depth of 12 in. (300 mm). When trenched, the trenches shall be 
as close to the side of the building as practicable, backfilled, and 
tamped to restore the earth to its original condition.
    (x) Telecommunications grounding connectors shall be RUS accepted or 
RUS technically accepted. Grounding and bonding conductors shall be made 
of copper. Where the grounding and bonding conductors must be connected 
to aluminum electric service grounding conductors, bimetal grounding 
connectors shall be used.
    (y) Grounding conductor attachments shall conform to the following:
    (1) Galvanized nails or clamps, or nickel-copper alloy staples shall 
be used for grounding conductor attachments in accordance with Table 6 
in paragraph (y)(3) of this section;
    (2) Grounding conductors, station or buried service wires in 
parallel runs may share the same fastening device when the device is 
specifically designed for two wires. See Table 6 in paragraph (y)(3) of 
this section for station wire and grounding conductor fasteners; and
    (3) Grounding conductor fasteners shall be placed 12 to 18 in. (300 
to 450 mm) apart on straight runs and 2 to 4 in. (50.8 to 100 mm) apart 
at corners and at bends. Table 6 is as follows:

[[Page 563]]

[GRAPHIC] [TIFF OMITTED] TR17AU01.011

    Notes: 1. Screw dimensions are minimum. Where appropriate, either or 
both dimensions shall be increased. All wood screws for exterior use 
shall be stainless steel. All other exterior metal devices shall be 
stainless steel, zinc coated steel, silicon bronze, or corrosion 
resistant aluminum alloy.
    2. Toggle bolt dimensions are minimum. Where appropriate, either or 
both dimensions shall be increased.
    3. Wall screw anchors may be used in wall board, plaster or tile 
walls. Screws and nails in masonry shall be secured by means of 
expansions type anchors. Equivalent manual or machine-driven devices may 
be used. Where toggle bolts are specified, equivalent devices may be 
used.
    4. Lead holes shall be drilled for screws, nails, and bridle rings 
in shingles and dropsiding.

[[Page 564]]

    5. Sheet metal screws shall be used except where toggle bolts are 
required. Where wood sheathing under sheet metal siding is encountered, 
the sheet metal may be drilled or punched and a wood screw used.
    6. Machine-driven staples of nickel-copper composition may be used 
for exterior wiring.
    7. Galvanized clamps and wiring nails may be used for exterior and 
interior wiring. Enameled clamps shall be used for interior wiring only. 
Where toggle bolts or equivalent devices require holes in the structure 
larger than the clamp being fastened, a suitable washer of sufficient 
size to cover the hole must be used under the clamp.
    8. Double clamp may be used where two 22 AWG station wires, 
two 12 AWG grounding conductors, or one 22 AWG station 
wire and one 12 grounding conductor parallels one another.
    9. For converting English units to Metric units use 1 in. = 25.4 mm.

    (z) Grounding conductors shall be separated from non-
telecommunications company wires in accordance with section 800-12(b) of 
ANSI/NFPA 70-1999, NEC[reg].
    (aa) Grounding conductors run through metal conduits shall be bonded 
to the conduit at each end. RUS accepted and RUS technically accepted 
pipe type ground clamps and grounding connectors shall be used for 
bonding.
    (bb) Where NID, BET, or fused station protector assembly units 
require grounding conductor connections to pipe systems, the following 
apply:
    (1) The connection shall be made to a cold water pipe of an 
operating water system;
    (2) The connection point shall be preferably inside the building;
    (3) Allow a minimum of 6 in. (152 mm) between the last fastener and 
the point where the grounding conductor first touches the water pipe;
    (4) Leave 2 in. (50.8 mm) of slack in the grounding conductor to 
avoid breaking the conductor at the terminating point. Tape the 
grounding conductor to the pipe where possible to avoid movement. In no 
case, shall the grounding conductor be coiled or wrapped around the 
pipe;
    (5) The pipe shall be cleaned with fine sand paper to make a good 
electrical connection. Care should be taken to avoid damaging the pipe 
while cleaning it;
    (6) Attach the pipe grounding conductor connector to the cleaned 
area of pipe and tighten. Care shall be exercised to avoid deforming, 
crushing, or otherwise damaging the pipe. A simple continuity check with 
an ohmmeter between the connector and the pipe will indicate whether or 
not a good electrical contact has been made. Set the ohmmeter to ``Rx1'' 
scale to ensure that a low resistance contact is made;
    (7) A warning tag shall be attached to the ground clamp with the 
following or equivalent statement: ``Call the telecommunications company 
if this connector or grounding conductor is loose or must be removed;'' 
and
    (8) When the water pipe is used, the ANSI/NFPA 70-1999, NEC[reg], 
requires that metal piping be used as a bonding conductor in this manner 
only when the connections to the pipe are within 5 ft (1.5 m) of where 
the pipe enters the premises.
    (cc) Bonding conductors shall consist of either copper or tinned 
copper insulated wires of appropriate sizes.
    (1) Bonding conductors shall be run and attached in the same manner 
as grounding conductors.
    (2) Attaching and terminating devices for bonding conductors shall 
be adequate for the size of wire involved. The No. 6 AWG copper 
insulated conductor or larger shall not be terminated by bending it 
around a threaded stud.
    (dd) Where NID, BET, or fused station protector assembly units 
require a driven ground rod the following shall apply to the ground rod 
installation:
    (1) Locate the ground rod at least 1 ft (300 mm) from buildings, 
poles, trees and other obstruction;
    (2) Ground rods shall not be installed within 6 ft (2 m) of electric 
service ground rods (Note: This minimum separation is provided to avoid 
mutual impedance effects of multiple grounding electrodes that will 
deleteriously degrade the effective impedance-to-earth if grounding 
electrodes are installed any closer than 6 ft (2 m) to one another. This 
requirement is included for cases where the telecommunications company 
is not allowed, for some reason, to observe the RUS preferred grounding 
method of attaching the primary protector grounding conductor directly 
to an accessible point on the

[[Page 565]]

building electric service grounding system. RUS believes that if the 
primary protector location can be sited within 6 ft (2 m) of the 
electric service ground rod then the electric service ground rod could 
be used as the preferred telecommunications grounding electrode and a 
separate telecommunications ground rod is unnecessary);
    (3) A hole, 15 in. (350 mm) deep and 6 in. (150 mm) in diameter, 
shall be dug at the location where the ground rod is to be driven;
    (4) Where ``slip-on'' type ground rod clamps are used instead of 
``clamp-around'' type clamps, the ground rod clamps shall be placed onto 
the rod prior to driving the rod into the ground (Note there should be 
one clamp for the NID, BET, or fused station protector grounding 
conductor and one clamp for the conductor required to bond the 
telecommunications ground rod to the electric grounding system). 
However, the clamp shall not be tightened until the rod is completely 
driven. The end of the rod shall be placed in the bottom of the hole and 
the rod shall be aligned vertically adjacent to one wall of the hole 
prior to driving. The rod shall be driven until its tip is 12 in. (300 
mm) below final grade. The grounding conductor shall then be attached, 
the clamp shall be tightened, and hole backfilled. Clamps employed in 
this manner shall be suitable for direct burial and shall be RUS 
accepted or RUS technically accepted; and
    (5) Where rods are manually driven, a large number of blows from a 
light hammer (4 lbs (1.8 kg)) shall be used instead of heavy 
sledgehammer type blows. This should keep the rod from bending.
    (ee) Terminations on fuseless primary station protectors 
incorporated in NIDs and on fused primary station protectors shall be as 
shown in Figures 10, 11, 12, and 13 of paragraph (ee)(1) of this 
section, Figure 14 of paragraph (ee)(4) of this section, and Figure 15 
of paragraph (ee)(6) of this section. The inner jackets of buried 
service wires and outer jackets of cables used as service drops shall be 
extended into the NID or the fused primary station protector. A 10 in. 
(250 mm) length of each spare wire shall be left in NIDs or fused 
primary station protectors. The spare wires shall be coiled up neatly 
and stored in the NID or fused primary station protector housing.
    (1) The shields of buried service wires may be connected to the 
ground binding post using RUS accepted or RUS technically accepted 
buried service shield bond connectors as shown in Figure 10 for NIDs and 
Figure 11 for fused primary station protectors. RUS accepted or RUS 
technically accepted buried service wire harness wires designed for 
customer access location installations may also be used for terminating 
buried service wire shields to the ground binding post of the NID as 
shown in Figure 12 and Figure 13 for fused primary station protectors. 
Figures 10 through 13 are as follows:

[[Page 566]]

[GRAPHIC] [TIFF OMITTED] TR17AU01.012


[[Page 567]]


[GRAPHIC] [TIFF OMITTED] TR17AU01.013


[[Page 568]]


[GRAPHIC] [TIFF OMITTED] TR17AU01.014


[[Page 569]]


[GRAPHIC] [TIFF OMITTED] TR17AU01.015

    (2) On buried service drops and aerial service drops of more than 6 
pairs using RUS accepted or RUS technically accepted cables, the shields 
shall be terminated with a RUS accepted or RUS technically accepted 
cable shield bonding connector and extended to the ground binding post 
of the NID, BET, or fused primary station protector with an RUS accepted 
or RUS technically accepted bonding harness wire. The installation of 
the shield bond connector and bonding harness wire shall be in 
accordance with the manufacturer's instructions.
    (3) The shield and other conductors at the fuseless primary station 
protector incorporated in the NID shall be

[[Page 570]]

terminated as shown on Figure 14 in paragraph (ee)(4) of this section. 
The pronged or cupped washer shall be placed above the shield. The 
grounding conductor shall be placed around the post on top of the 
pronged or cupped washer. A flat washer shall be placed above the 
grounding conductor.
    (4) The station wire signaling ground conductor, if required, shall 
be placed above the first flat washer and beneath the second flat washer 
as indicated in Figure 14 as follows:
[GRAPHIC] [TIFF OMITTED] TR17AU01.016


[[Page 571]]


    (5) The shield and other conductors at the fused primary station 
protector shall be terminated as shown on Figure 15 in paragraph (ee)(6) 
of this section. The pronged or cupped washer shall be placed above the 
shield. The grounding conductor shall be placed around the post on top 
of the pronged or cupped washer. A flat washer shall be placed above the 
grounding conductor.
    (6) The station wire signaling ground conductor, if required, shall 
be placed above the first flat washer and beneath the second flat washer 
as indicated in Figure 15 as follows:
[GRAPHIC] [TIFF OMITTED] TR17AU01.017


[[Page 572]]


    (7) Indoor NIDs or BETs that are equipped with ``Quick Connect'' 
type terminals shall not have more than one wire connected per clip. No. 
19 AWG copper and No. 18 AWG copper covered-steel reinforced aerial 
service wire conductors shall not be connected to quick connect 
terminals. Nonmetallic reinforced aerial service wire using No. 22 AWG 
copper conductors may be connected to the quick connect terminals.
    (8) Tip and ring connections and other connections in multipair NIDs 
or BETs shall be as indicated in Figure 16 as follows:
[GRAPHIC] [TIFF OMITTED] TR17AU01.018


[[Page 573]]


    (ff) System polarity and conductor identification shall be 
maintained in NIDs, BETs, or fused primary station protectors in 
accordance with construction drawings 815 and 815-1 contained in 
Sec. 1755.510.

[66 FR 43317, Aug. 17, 2001]