98-32207. RUS Standard for Service Installations at Customer Access Locations

[Federal Register Volume 63, Number 244 (Monday, December 21, 1998)]
[Proposed Rules]
[Pages 70456-70523]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 98-32207]

[[Page 70455]]

_______________________________________________________________________

Part II

Department of Agriculture

_______________________________________________________________________

Rural Utilities Service

_______________________________________________________________________

7 CFR Part 1755

RUS Standard for Service Installations at Customer Access Locations;
Proposed Rule

Federal Register / Vol. 63, No. 244, Monday, December 21, 1998 /
Proposed Rules

[[Page 70456]]

DEPARTMENT OF AGRICULTURE

Rural Utilities Service

7 CFR Part 1755

RUS Standard for Service Installations at Customer Access
Locations

AGENCY: Rural Utilities Service, USDA.

ACTION: Proposed rule.

-----------------------------------------------------------------------

SUMMARY: The Rural Utilities Service (RUS) proposes to amend its
regulations on Telecommunications Standards and Specifications for
Materials, Equipment and Construction, by rescinding RUS Bulletin 345-
52, RUS Standard for Service Entrance and Station Protector
Installations, PC-5A, and codifying the revised standard in the Code of
Federal Regulations as RUS Standard for Service Installations at
Customer Access Locations. The revised standard will update the
installation methods used for installing aerial and buried service
drops, network interface devices, fused primary station protectors, and
protected building entrance terminals at customer access locations as a
result of technological advancements made in installation practices and
materials over the past 17 years.

DATES: Comments concerning this proposed rule must be received by RUS
or be postmarked no later February 19, 1999.

ADDRESSES: Comments should be mailed to the Orren E. Cameron III,
Director, Telecommunications Standards Division, Rural Utilities
Service, U.S. Department of Agriculture, 1400 Independence Avenue, SW.,
STOP 1598, Washington, DC 20250-1598. RUS requests an original and
three copies of all comments (7 CFR part 1700). All comments received
will be made available for public inspection at room 2835, South
Building, U.S. Department of Agriculture, 1400 Independence Avenue,
SW., STOP 1598 Washington, DC 20250-1598 between 8 a.m. and 4 p.m. (7
CFR 1.27(b)).

FOR FURTHER INFORMATION CONTACT: Charlie I. Harper, Jr., Chief, Outside
Plant Branch, Telecommunications Standards Division, Rural Utilities
Service, U.S. Department of Agriculture, 1400 Independence Avenue, SW.,
STOP 1598, Washington, DC 20250-1598, telephone (202) 720-0667.

SUPPLEMENTARY INFORMATION:

Executive Order 12866

This proposed rule is exempt from the Office of Management and
Budget (OMB) review for purposes of Executive Order 12866 and,
therefore has not been reviewed by OMB.

Executive Order 12988

This proposed rule has been reviewed under Executive Order 12988,
Civil Justice Reform. RUS has determined that this proposed rule meets
the applicable standards provided in section 3 of that Executive Order.
In addition, all State and local laws and regulations that are in
conflict with this rule will be preempted, no retroactive effort will
be given to this rule, and, in accordance with section 212(c) of the
Department of Agriculture Reorganization Act of 1994 (7 U.S.C.
6912(c)), administrative appeal procedures must be exhausted before an
action against the Department or its agencies may be initiated.

Regulatory Flexibility Act Certification

The Administrator RUS has determined that this proposed rule will
not have a significant impact on a substantial number of small
entities, as defined by the Regulatory Flexibility Act (5 U.S.C. 601 et
seq.). This proposed rule involves standards and specifications, which
may increase the direct-short term costs to the RUS borrower. However,
the long-term direct economic costs are reduced through greater
durability and lower maintenance cost over time. Small entities are not
subjected to any requirement which are not applied equally to large
entities.

Information Collection and Recordkeeping Requirements

This proposed rule contains no information collection or
recordkeeping requirements under the Paperwork Reduction Act of 1995
(44 U.S.C. Chapter 35, as amended).

National Environmental Policy Act Certification

The Administrator of RUS has determined that this proposed rule
will not significantly affect the quality of the human environment as
defined by the National Environmental Policy Act of 1969 (42 U.S.C.
4321 et seq.). Therefore, this action does not require an environmental
impact statement or assessment.

Catalog of Federal Domestic Assistance

The program described by this proposed rule is listed in the
Catalog of Federal Domestic Assistance programs under No. 10.851, Rural
Telephone Loans and Loan Guarantees, and No. 10.852, Rural Telephone
Bank Loans. This catalog is available on a subscription basis from the
Superintendent of Documents, the United States Government Printing
Office, Washington, DC 20402.

Executive Order 12372

This proposed rule is excluded from the scope of Executive Order
12372, Intergovernmental Consultation, which may require consultation
with State and local officials. A Notice of Final rule titled
Department Programs and Activities Excluded from Executive Order 12372
(50 FR 47034) exempts RUS and RTB loans and loan guarantees, and RTB
bank loans, to governmental and nongovernmental entities from coverage
under this Order.

Unfunded Mandates

This proposed rule contains no Federal mandates (under the
regulatory provision of Title II of the Unfunded Mandates Reform Act)
for State, local, and tribal governments or the private sector. Thus
this proposed rule is not subject to the requirements of section 202
and 205 of the Unfunded Mandates Reform Act.

Background

RUS issues publications titled ``Bulletin'' which serve to guide
borrowers regarding already codified policy, procedures, and
requirements needed to manage loans, loan guarantee programs, and the
security instruments which provide for and secure RUS financing. RUS
issues standards and specifications for the construction of
telecommunications facilities financed with RUS loan funds. RUS is
proposing to rescind Bulletin 345-52, RUS Standard for Service Entrance
and Station Protector Installations, PC-5A, and to codify the revised
standard at 7 CFR 1755.500 through 7 CFR 1755.510, RUS Standard for
Service Installations at Customer Access Locations.
RUS Bulletin 345-52 is used by borrowers and contractors as an
outside plant construction standard for the installation of aerial and
buried service drops and primary station protectors at customer
residences. Because of technological advancements and national code
changes made in customer drop and protector installation methods and
materials over the past 17 years, the installation methods and
materials specified in the current standard have become outdated. To
allow borrowers and contractors to observe current codes and take
advantage of these improved installation methods and materials which
will reduce installation costs, the current standard will be revised to
update the customer access location installation methods and materials
to reflect these improved methods and materials.
This action will allow borrowers and contractors an economical and
efficient

[[Page 70457]]

means of reducing their construction costs through the use of improved
customer access location installation methods and materials.
While this proposed rule proposes to codify the full text of this
contract, RUS is considering a new procedure under which we will no
longer publish the full text of construction contracts such as this in
the CFR. Consequently, it is contemplated that at the final rule stage,
the full text of this contract will not appear in codified text.

List of Subjects in 7 CFR Part 1755

Incorporation by reference, Loan programs--communications,
Reporting and recordkeeping requirements, Rural areas, Telephone.
For reasons set out in the preamble, RUS proposes to amend Chapter
XVII of title 7 of the Code of Federal Regulations as follows:

PART 1755--TELECOMMUNICATIONS STANDARDS AND SPECIFICATIONS FOR
MATERIALS, EQUIPMENT AND CONSTRUCTION

1. The authority citation for part 1755 continues to read as
follows:

Authority: 7 U.S.C. 901 et seq., 1921 et seq., 6941 et seq.

Sec. 1755.97 [Amended]

2. Section 1755.97 is amended by removing the entry RUS Bulletin
345-52 from the table.
3. Section 1755.98 is amended by adding the entry 1755.500 through
1755.510 to the table in numerical order to read as follows:

Sec. 1755.98 List of telephone standards and specifications included
in other 7 CFR parts.

* * * * *

----------------------------------------------------------------------------------------------------------------
Section Issue date Title
----------------------------------------------------------------------------------------------------------------

* * * * * *
*
1755.500 through 1755.510.......... [Effective date of final RUS Standard for Service Installations at
rule]. Customer Access Locations.

* * * * * *
*
----------------------------------------------------------------------------------------------------------------

4. Sections 1755.500 through 1755.510 are added to read as follows:

Sec. 1755.500 RUS standard for service installations at customers
access locations.

(a) Sections 1755.501 through 1755.510 cover service installations
at permanent or mobile home customer access locations. Sections
1755.501 through 1755.510 do not cover service installations at
customer access locations associated with boat yards or marinas.
(b) Service installations for customer access locations in boat
yards or marinas shall be performed in accordance with Article 800,
Communications Circuits, of the American National Standards Institute/
National Fire Protection Association (ANSI/NFPA) 70-1996, National
Electrical Code (NEC). The National Electrical
Code and NEC are registered trademarks of the
National Fire Protection Association, Inc., Quincy, MA 02269. The ANSI/
NFPA 70-1996, NEC 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-
1996, NEC, are available for inspection during normal
business hours at Rural Utilities Service (RUS), room 2845, 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.

Sec. 1755.501 Definitions.

(a) For the purpose of this section and Secs. 1755.502 through
1755.510, the following terms shall have the following meanings:
American National Standards Institute (ANSI). A private sector
standards coordinating body which serves as the United States source
and information center for all American National Standards.
Ampacity. As defined in the ANSI/NFPA 70-1996, NEC: The
current in amperes that a conductor can carry continuously under the
conditions of use without exceeding its temperature rating. (Reprinted
with permission from NFPA 70-1996, the National Electrical
Code, Copyright 1995, National Fire
Protection Association, Quincy, MA 02269. This reprinted material is
not the complete and official position of the National Fire Protection
Association, on the referenced subject which is represented only by the
standard in its entirety.). The National Electrical Code
and NEC are registered trademarks of the National Fire
Protection Association, Inc., Quincy, MA 02269. The ANSI/NFPA 70-1996,
NEC, 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 70-1996,
NEC, are available for inspection during normal business
hours at RUS, room 2845, 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.
Bonding. The permanent joining of metallic parts to form an
electrically conductive path that will ensure electrical continuity and
the capacity to conduct safely any current likely to be imposed.
Bonding harness wire. A reliable electrical conductor purposefully
connected between metal parts which are required to be electrically
connected (bonded) to one another to ensure the metal parts are at
similar electrical potential.
Building entrance terminal (BET). A BET is comprised of a housing
suitable for indoor and outdoor installation which contains quick-
connect or binding post terminals for terminating both
telecommunications service cable conductors and inside wiring cable
conductors. The BET also includes primary station protectors and a
means of terminating the metallic shields of service entrance cables.
Demarcation point (DP). As defined in the Federal Communications
Commission (FCC) rules in 47 CFR Part 68: The point of demarcation or
interconnection between telecommunications company communications
facilities and terminal equipment, protective apparatus, or wiring at a
subscriber's premises. Carrier-installed facilities at, or
constituting, the demarcation point shall consist of wire or a jack
conforming to subpart F of 47 CFR part 68. ``Premises'' as used herein
generally

[[Page 70458]]

means a dwelling unit, other building or a legal unit of real property
such as a lot on which a dwelling unit is located, as determined by the
telecommunications company's reasonable and nondiscriminatory standard
operating practices. The ``minimum point of entry'' as used herein
shall be either the closest practicable point to where the wiring
crosses a property line or the closest practicable point to where the
wiring enters a multiunit building or buildings. The telecommunications
company's reasonable and nondiscriminatory standard operating practices
shall determine which shall apply. The telecommunications company is
not precluded from establishing reasonable clarifications of multiunit
premises for determining which shall apply. Multiunit premises include,
but are not limited to, residential, commercial, shopping center, and
campus situations.
(1) Single unit installations. For single unit installations
existing as of August 13, 1990, and installations installed after that
date, the demarcation point shall be a point within 12 inches (in.)
[305 millimeters (mm)] of the primary protector, where there is no
protector, within 12 in. (305 mm) of where the telecommunications wire
enters the customer's premises.
(2) Multiunit installations. (i) In multiunit premises existing as
of August 13, 1990, the demarcation point shall be determined in
accordance with the local carrier's reasonable and nondiscriminatory
standard operating practices. Provided, however, that where there are
multiple demarcation points within the multiunit premises, a
demarcation point for a customer shall not be further inside the
customer's premises than a point 12 in. (305 mm) from where the wiring
enters the customer's premises.
(ii) In multiunit premises in which wiring is installed after
August 13, 1990, including additions, modifications, and rearrangements
of wiring existing prior to that date, the telecommunications company
may establish a reasonable and nondiscriminatory practice of placing
the demarcation point at the minimum point of entry. If the
telecommunications company does not elect to establish a practice of
placing the demarcation point at the minimum point of entry, the
multiunit premises owner shall determine the location of the
demarcation point or points. The multiunit premises owner shall
determine whether there shall be a single demarcation point for all
customers or separate such locations for each customer. Provided,
however, that where there are multiple demarcation points within the
multiunit premises, a demarcation point for a customer shall not be
further inside the customer's premises than a point 12 in. (305 mm)
from where the wiring enters the customer's premises.
Fuse link. As defined in the ANSI/NFPA 70-1996, NEC: A
fine gauge section of wire or cable that serves as a fuse (that is,
open-circuits to interrupt the current should it become excessive) that
coordinates with the telecommunications cable and wire plant, and
protective devices. (Reprinted with permission from NFPA 70-1996, the
National Electrical Code, Copyright 1995,
National Fire Protection Association, Quincy, MA 02269. This reprinted
material is not the complete and official position of the National Fire
Protection Association, on the referenced subject which is represented
only by the standard in its entirety.)
Grounding conductor. As defined in the ANSI/NFPA 70-1996,
NEC: A conductor used to connect equipment or the grounded
circuit of a wiring system to a grounding electrode or electrodes.
(Reprinted with permission from NFPA 70-1996, the National Electrical
Code, Copyright 1995, National Fire Protection
Association, Quincy, MA 02269. This reprinted material is not the
complete and official position of the National Fire Protection
Association, on the referenced subject which is represented only by the
standard in its entirety.)
Listed. As defined in the ANSI/NFPA 70-1996, NEC:
Equipment or materials included in a list published by an organization
acceptable to the authority having jurisdiction and concerned with
product evaluation, that maintains periodic inspection of production of
listed equipment or materials, and whose listing states either that the
equipment or material meets appropriate designated standards or has
been tested and found suitable for use in a specified manner.
(Reprinted with permission from NFPA 70-1996, the National Electrical
Code, Copyright 1995, National Fire Protection
Association, Quincy, MA 02269. This reprinted material is not the
complete and official position of the National Fire Protection
Association, on the referenced subject which is represented only by the
standard in its entirety.)
Manufactured home. As defined in the ANSI/NFPA 70-1996,
NEC: A factory-assembled structure or structures
transported in one or more sections, that is built on a permanent
chassis and designed to be used as a dwelling with a permanent
foundation acceptable to the authority having jurisdiction where
connected to the required utilities, and includes the plumbing,
heating, air conditioning, and electric systems contained therein.
Unless otherwise indicated, the term ``mobile home'' includes
manufactured homes. (Reprinted with permission from NFPA 70-1996, the
National Electrical Code, Copyright 1995,
National Fire Protection Association, Quincy, MA 02269. This reprinted
material is not the complete and official position of the National Fire
Protection Association, on the referenced subject which is represented
only by the standard in its entirety.)
Mobile home. As defined in the ANSI/NFPA 70-1996, NEC:
A factory-assembled structure or structures transportable in one or
more sections, that is built on a permanent chassis and designed to be
used as a dwelling without a permanent foundation where connected to
the required utilities, and includes the plumbing, heating, air-
conditioning, and electric systems contained therein. Unless otherwise
indicated, the term ``mobile home'' includes manufactured homes.
(Reprinted with permission from NFPA 70-1996, the National Electrical
Code, Copyright 1995, National Fire Protection
Association, Quincy, MA 02269. This reprinted material is not the
complete and official position of the National Fire Protection
Association, on the referenced subject which is represented only by the
standard in its entirety.)
Motor home. As defined in the ANSI/NFPA 70-1996, NEC: A
vehicular unit designed to provide temporary living quarters for
recreational, camping, or travel use built on or permanently attached
to a self-propelled motor vehicle chassis or on a chassis cab or van
that is an integral part of the completed vehicle. (Reprinted with
permission from NFPA 70-1996, the National Electrical Code,
Copyright 1995, National Fire Protection Association,
Quincy, MA 02269. This reprinted material is not the complete and
official position of the National Fire Protection Association, on the
referenced subject which is represented only by the standard in its
entirety.)
Network interface device (NID). A NID is comprised of a housing
suitable for outdoor installation which contains a compartment
accessible by only telecommunications employees which includes a
primary station protector and the means for terminating
telecommunications service wire conductors and metallic shields, and a
compartment accessible by customers which includes an RJ-11 plug and
jack

[[Page 70459]]

of the type specified in part 68 of FCC rules and regulations.
Primary station protector. An assembly which complies with RUS
Bulletin 345-39, RUS Specification for Telephone Station Protectors.
Copies of RUS Bulletin 345-39 are available upon request from RUS, U.S.
Department of Agriculture (USDA), 1400 Independence Avenue, SW., STOP
1522, Washington, DC 20250-1522, FAX (202) 690-2268.
Recreational vehicle. As defined in the ANSI/NFPA 70-1996,
NEC: A vehicular-type unit designed to provide temporary
living quarters for recreational, camping, or travel use, which either
has its own motive power or is mounted on or drawn by another vehicle.
The basic entities are: travel trailer, camping trailer, truck camper,
and motor home. (Reprinted with permission from NFPA 70-1996, the
National Electrical Code, Copyright 1995,
National Fire Protection Association, Quincy, MA 02269. This reprinted
material is not the complete and official position of the National Fire
Protection Association, on the referenced subject which is represented
only by the standard in its entirety.)
RUS accepted (material and equipment). Equipment which RUS has
reviewed and determined that:
(1) Final assembly or manufacture of the equipment is completed in
the United States, its territories and possessions, or in an eligible
country;
(2) The cost of components within the material or equipment
manufactured in the United States, its territories and possessions, or
in an eligible country is more than 50 percent of the total cost of all
components used in the material or equipment; and
(3) The material or equipment is suitable for use on systems of RUS
telecommunications borrowers.
RUS technically accepted (material and equipment). Equipment which
RUS has reviewed and determined that:
(1) Final assembly or manufacture of the equipment is not completed
in the United States, its territories and possessions, or in an
eligible country;
(2) The cost of components within the material or equipment
manufactured in the United States, its territories and possessions, or
in an eligible country is 50 percent or less than the total cost of all
components used in the material or equipment; and
(3) The material or equipment is suitable for use on systems of RUS
telecommunications borrowers.
Travel trailer. As defined in the ANSI/NFPA 70-1996,
NEC: A vehicular unit mounted on wheels, designed to
provide temporary living quarters for recreational, camping, or travel
use, of such size and weight as to not require special highway movement
permits when towed by a motorized vehicle and of gross trailer area
less than 320 square feet (29.77 square meters). (Reprinted with
permission from NFPA 70-1996, the National Electrical Code,
Copyright 1995, National Fire Protection Association,
Quincy, MA 02269. This reprinted material is not the complete and
official position of the National Fire Protection Association, on the
referenced subject which is represented only by the standard in its
entirety.)
Truck camper. As defined in the ANSI/NFPA 70-1996, NEC:
A portable unit constructed to provide temporary living quarters for
recreational, travel or camping use, consisting of a roof, floor, and
sides, designed to be loaded onto and unloaded from the bed of a pick-
up truck. (Reprinted with permission from NFPA 70-1996, the National
Electrical Code, Copyright 1995, National Fire
Protection Association, Quincy, MA 02269. This reprinted material is
not the complete and official position of the National Fire Protection
Association, on the referenced subject which is represented only by the
standard in its entirety.)

Sec. 1755.502 Scope.

(a) Sections 1755.503 through 1755.510 cover approved methods of
making service installations at customer access locations in
telecommunications systems of RUS borrowers.
(b) Requirements in Secs. 1755.503 through 1755.510 cover
facilities of the type described in the FCC rules in 47 CFR part 68 for
one and multi-party customer owned premises wiring.

Sec. 1755.503 General.

(a) For the purposes of this section and Secs. 1755.504 through
1755.510, a NID shall be as defined in Sec. 1755.501 and shall contain
both a fuseless primary station protector and a modular plug and jack
for each conductor pair, up to a maximum of eleven (11) pairs, and
shall be provided by the telecommunications company and used by
customers.
(b) For the purposes of this section and Secs. 1755.504 through
1755.510, a BET shall be as defined in Sec. 1755.501 and shall contain
both primary station protectors and connector terminals for each
conductor pair, of twelve (12) or more pairs, and shall be provided by
the telecommunications company and used by customers. The primary
station protectors may be either fuseless or fused.
(c) The requirements provided in this section and Secs. 1755.504
through 1755.510 have been designed to coordinate with the provisions
of the ANSI/NFPA 70-1996, NEC, and the American National
Standards Institute/Institute of Electrical and Electronics Engineers,
Inc. (ANSI/IEEE) C2-1997, National Electrical Safety Code (NESC). The
National Electrical Code and NEC are registered
trademarks of the National Fire Protection Association, Inc., Quincy,
MA 02269. The ANSI/NFPA 70-1996, NEC, and the ANSI/IEEE C2-
1997, NESC, are incorporated by reference in accordance with 5 U.S.C.
552(a) and 1 CFR part 51. Copies of ANSI/NFPA 70-1996, NEC,
are available from NFPA, 1 Batterymarch Park, P. O. Box 9101, Quincy,
Massachusetts 02269--9101, telephone number 1 (800) 344-3555. Copies of
ANSI/IEEE C2--1997, NESC, are available from IEEE Service Center, 455
Hoes Lane, Piscataway, New Jersey 08854, telephone number 1 (800) 678-
4333. Copies of the ANSI/NFPA 70-1996, NEC, and the ANSI/
IEEE C2-1997, NESC, are available for inspection during normal business
hours at RUS, room 2845, 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. Most state and local authorities require
that utility construction comply with either the ANSI/NFPA 70-1996,
NEC, and ANSI/IEEE C2-1997, NESC, or some earlier editions
of the ANSI/NFPA 70, NEC, and ANSI/IEEE C2, NESC. Some
authorities have their own more stringent codes which may or may not be
embellishments of the ANSI/NFPA 70, NEC, and ANSI/IEEE C2,
NESC.
(d) RUS borrowers shall make certain that all construction financed
with RUS loan funds comply with:
(1) The provisions of this section and Secs. 1755.504 through
1755.510 and the ANSI/NFPA 70-1996, NEC, and ANSI/IEEE C2-
1997, NESC codes, or any more stringent local codes; or
(2) The provisions of this section and Secs. 1755.504 through
1755.510 with borrower added adjustments to bring construction into
compliance with any more stringent local codes.
(e) This section and Secs. 1755.504 through 1755.510 are intended
primarily for the installer who will perform the work. It assumes that
decisions regarding the selection of grounding electrodes, locations,
and types of equipment have been made by the RUS borrower or the
engineer delegated by the RUS borrower.
(f) Only a qualified installer shall be assigned to make
installations without advance planning and without direct

[[Page 70460]]

supervision. A qualified installer is one who has extensive
installation experience, complete knowledge and understanding of RUS
Bulletin 1751F-805, Electrical Protection At Customer Locations; RUS
Bulletin 345-154 (RUS Form 515g), Specifications and Drawings for
Service Entrance and Station Protector Installation, and applicable
portions of the ANSI/NFPA 70-1996, NEC, and ANSI/IEEE C2-
1997, NESC. Copies of RUS Bulletins 1751F-805 and 345-154 are available
upon request from RUS/USDA, 1400 Independence Avenue, SW., STOP 1522,
Washington, DC 20250-1522, FAX (202) 690-2268.
(g) This section and Secs. 1755.504 through 1755.509 contain
information which is normally not provided on the construction drawings
which are included in Sec. 1755.510.
(h) All work shall be conducted in a careful and professional
manner. Service wire and cable shall not be trampled on, run over by
vehicles, pulled over or around abrasive objects or otherwise subjected
to abuse.
(i) When situations not covered by this section and Secs. 1755.504
through 1755.510 arise, the RUS borrower or the engineer delegated by
the borrower, shall specify the installation procedure to be used. The
requirements of paragraph (j) of this section shall be complied with in
every installation.
(j) NIDs, BETs, and fused primary station protectors shall be
installed and grounded to meet the requirements of the ANSI/NFPA 70-
1996, NEC, or local laws or ordinances, whichever are more
stringent.
(k) Battery polarity and conductor identification shall be
maintained throughout the system as indicated on construction drawings
815 and 815-1 contained in Sec. 1755.510. Color codes and other means
of conductor identification of buried and aerial service wires shall
conform to the requirements of this section and Secs. 1755.504 through
1755.510.
(l) All materials for which RUS makes acceptance determinations,
such as service wires and cables, ground rods, ground rod clamps, etc.,
used in service entrance installations shall be RUS accepted or RUS
technically accepted. Borrowers shall require contractors to obtain the
borrower's approval before RUS technically accepted materials are to be
used in service entrance installations. Borrower's shall also ensure
that the cost of the RUS technically accepted materials are at least 6
percent less than the cost of equivalent RUS accepted materials, as
specified in ``Buy American'' Requirement of the Rural Electrification
Act of 1938, as amended. Materials used in service entrance
installations which are of the type which RUS does not make acceptance
determinations shall be of a suitable quality for their intended
application as determined by the RUS borrower or the engineer delegated
by the RUS borrower.
(m) On completion of an installation, borrowers shall require the
installer to make all applicable tests required by Secs. 1755.400
through 1755.407, RUS standard for acceptance tests and measurements of
telecommunications plant.

Sec. 1755.504 Demarcation point.

(a) The demarcation point (DP) provides the physical and electrical
interface between the telecommunications company's facilities and the
customer's premises wiring.
(b) The FCC rules in 47 CFR part 68 require telecommunications
providers to establish a ``DP'' which marks a separation of the
provider's facilities from the customer's (owned) premises wiring and
equipment.
(c) RUS borrowers shall observe the FCC DP requirement by
installing NIDs, BETs, or fused primary station protectors when
required by Section 800-30(a)(2) of the ANSI/NFPA 70-1996,
NEC, at all new or significantly modified customer access
locations which are financed with RUS loan funds. The National
Electrical Code and NEC are registered
trademarks of the National Fire Protection Association, Inc., Quincy,
MA 02269. The ANSI/NFPA 70-1996, NEC, 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 70-1996, NEC, are available for inspection during
normal business hours at RUS, room 2845, 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.
(d) For all customer access locations of less than 12 pairs, RUS
borrowers shall establish DPs by using either NIDs or fused primary
station protectors when required by Section 800-30(a)(2) of the ANSI/
NFPA 70-1996, NEC. For customer access locations of 12
pairs or greater, RUS borrowers shall establish DPs using either NIDs,
BETs, or fused primary station protectors when required by Section 800-
30(a)(2) of the ANSI/NFPA 70-1996, NEC.

Sec. 1755.505 Buried services.

(a) Buried services of two or three pairs shall consist of Service
Entrance, Buried (SEB) assembly units, in accordance with RUS Bulletin
345-154 (RUS Form 515g), Specifications and Drawings for Service
Entrance and Station Protector Installations. The wire used for buried
services shall conform to the requirements of Sec. 1755.860, RUS
specification for filled buried wires, and shall be RUS accepted or RUS
technically accepted. The conductor size for two and three pair buried
service wires shall be 22 American Wire Gauge (AWG). Copies of RUS
Bulletin 345-154 are available upon request from RUS/USDA, 1400
Independence Avenue, SW., STOP 1522, Washington, DC 20250-1522, FAX
(202) 690-2268.
(b) Buried services of six or more pairs shall be RUS accepted or
RUS technically accepted 22 AWG filled buried cable conforming to the
requirements of Sec. 1755.390, RUS specification filled telephone
cables.
(c) Buried service wire or cable shall be terminated in buried
plant housings using either splicing connectors or filled terminal
blocks in accordance with the applicable paragraphs of Sec. 1755.200,
RUS standard for splicing copper and fiber optic cables.
(d) Buried service wire or cable shall be identified at buried
plant housings in accordance with construction drawing 958 contained in
Sec. 1755.510.
(e) Buried service wire or cable shall be installed up to the
building in the same general manner as buried exchange cable but in
addition must meet the following requirements:
(1) Light weight lawn plows or trenchers shall be used;
(2) The shortest feasible route commensurate with the requirements
of Sec. 1755.508 (i), (j), and (k) and paragraph (f)(1) of this section
shall be followed;
(3) Buried service wire or cable shall be plowed or trenched to a
depth of 24 in. (610 mm) or greater where practicable in soil, 36 in.
(914 mm) in ditches, or 3 in. (76 mm) in rock. Depths shall be measured
from the top of the wire or cable to the surface of the ground or rock;
(4) In the case of a layer of soil over rock either the minimum
depth in rock measured to the surface of the rock, or the minimum depth
in soil measured to the surface of the soil may be used; and
(5) Where adequate advance planning has been done, burial of
telecommunications services jointly with electric power services may be
feasible. If a decision has been reached by management to provide joint
occupancy services, the services may be installed using the
recommendations in

[[Page 70461]]

RUS Bulletin 305-1, ``Joint Use of Facilities for Telephone and
Electric Service.'' Copies of RUS Bulletin 305-1 are available upon
request from RUS/USDA, 1400 Independence Avenue, SW., STOP 1522,
Washington, DC 20250-1522, FAX (202) 690-2268.
(f) Buried service wire or cable shall be installed on or in
buildings as follows:
(1) Each buried service wire or cable shall contact the building as
close to the NID, BET, or fused primary station protector as
practicable. Service wire or cable runs on buildings shall normally
consist of a single vertical run held to the minimum practical length.
Horizontal and diagonal runs shall not be permitted.
(2) Buried service wire or cable shall be located so as to avoid
damage from lawn mowers, animals, gardening operations, etc.
(3) Buried service wire or cable shall be installed against a
foundation wall or pillar to provide adequate support and mechanical
protection.
(4) Where it is likely that the service wire or cable shall be
subjected to mechanical damage, the wire or cable shall be enclosed in
a guard in accordance with assembly unit drawing BM83 contained in
Sec. 1755.510.
(5) The first above-ground attachment for a buried service wire or
cable, unless it is enclosed in a guard, shall not be more than 4 in.
(100 mm) above final grade.
(6) Uninsulated attachment devices may be used to attach buried
service wire and cable to masonry and other types of noncombustible
buildings and on any type of building if fuseless primary station
protectors incorporated in NIDs or BETs are used and installations
fully comply with Section 800-30(a)(1) of the ANSI/NFPA 70-1996,
NEC. The National Electrical Code and
NEC are registered trademarks of the National Fire
Protection Association, Inc., Quincy, MA 02269. The ANSI/NFPA 70-1996,
NEC, 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 70-1996,
NEC, are available for inspection during normal business
hours at RUS, room 2845, 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.
(7) Insulated attachments shall be used to separate service wires
or cables from woodwork where Section 800-30(a)(2) of the ANSI/NFPA 70-
1996, NEC, requiring the use of fused primary station
protectors must be observed.
(8) Minimum separation between buried service wire or cable and
other facilities shall be as listed in Table 1, as follows:

Table 1.--Minimum Separation for Telecommunications Wires and Cables On
or In Buildings
------------------------------------------------------------------------
Minimum clearance in. [mm]^{1 ^{2
Foreign facility or obstruction telecommunications company's
wires or cables
------------------------------------------------------------------------
Electric supply wire including neutral
and grounding conductors.
Open................................ 4 [102]
In conduit.......................... 2 [50.8]
Radio and television antennas, lead-in 4 [102]
and grounding conductors.
Lightning rods and lightning conductors. 72 [1830] \3\
All foreign grounding conductors except 2 [50.8]
lightning rod ground conductors.
Neon signs and associated wiring........ 6 [150]
Metallic objects--pipes (gas, cold 2 [50.8] \4\
water, oil, sewer,) and structures.
Wires or cables of another 2 [50.8]
communications system.
------------------------------------------------------------------------
Notes: \1\ If minimum separation cannot be obtained, nonshielded wire
and cable facilities shall be protected with either porcelain tubes or
flexible tubing as modified by Notes 3 and 4 of this table.
\2\ Separation applies to crossings and parallel runs.
\3\ If this separation cannot be obtained, bond the telecommunications
grounding conductors or grounding electrode to the lightning rod
grounding conductor or grounding electrode with at least a Number
(No.) 6 AWG copper, insulated, ground wire. With this provision a
minimum separation of 4 in. (100 mm) is acceptable but this provision
must not be utilized if the separation cited in this table can be
maintained.
\4\ Increase to a minimum of 3 in. (75 mm) separation from steam or hot
water pipes, heating ducts, and other heat sources.

(9) Wire and cable attachments to buildings for outside mounted
NIDs, BETs, or fused primary station protectors shall be in accordance
with construction drawing 962 contained in Sec. 1755.510.
(10) Appropriate devices for attaching service wire or cable on or
in buildings vary with the type of building construction and the wire
or cable size. Figures 1 and 2 illustrate various types of anchoring
devices and their applications. The size and type of fastening device
for the wire or cable size and type of surface shall be in accordance
with the manufacturer's recommendation; Figures 1 and 2 are as follows:

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[[Page 70463]]

[GRAPHIC] [TIFF OMITTED] TP21DE98.001

(11) Experience indicates that there are strenuous objections from
many owners of buildings covered with aluminum or vinyl siding to the
drilling of holes in the siding for the attachment of wires or cables,
and NIDs, BETs, or fused primary station protectors. It is, therefore,
important to obtain permission from the owner before drilling holes in
such siding.
(12) If the NID, BET, or fused primary station protector must be
mounted

[[Page 70464]]

inside (not recommended by RUS), the service entrance into the building
shall be installed in accordance with Section 800-12(c) of the ANSI/
NFPA 70-1996, NEC. After pulling-in the wire or cable, the
free space around the cable or wire shall be carefully sealed both
outside and inside with a duct sealer that has RUS acceptance or RUS
technical acceptance.
(13) If the customer requests an all buried installation for an
alarm system or objects to above-ground facilities because of
appearance and one-party service is involved, the entrance hole shall
be made below grade as shown in sketch C of construction drawing 510-2
contained in Sec. 1755.510. Care shall be exercised to prevent damage
to the building foundation. The hole shall be sealed as specified in
paragraph (f)(12) of this section. The installation shall comply with
all the requirements of Section 800-12(c) of the ANSI/NFPA 70-1996,
NEC.
(g) When the NID, BET, or fused primary station protector is to be
installed inside the building, the installation shall comply with
Section 800-12(c) of the ANSI/NFPA 70-1996, NEC, and the
outside plant wire or cable shall preferably be installed in a rigid
metal or intermediate metal conduit that is grounded to an electrode in
accordance with Section 800-40(b) of the ANSI/NFPA 70-1996,
NEC, as shown in sketch A of Figure 3 in paragraph (h)(2)
of this section. The shield of the outside plant wire or cable shall be
bonded to the grounding terminal of the NID, BET, or fused primary
station protector which in turn shall be connected to the closest,
existing, and accessible grounding electrode, of the electrodes cited
in Section 800-40 of the ANSI/NFPA 70-1996, NEC.
(h) An inside NID, BET, or fused primary station protector
installation may also be made without use of a rigid metal or
intermediate metal conduit provided that the ingress of the outside
plant wire or cable complies with Section 800-12(c) of the ANSI/NFPA
70-1996, NEC, and provided either of the following are
observed:
(1) The NID, BET, or fused primary station protector is located as
close as practicable to the point where the outside plant wire or cable
emerges through an exterior wall. The length of outside plant wire or
cable exposed within the building shall be as short as practicable but
in no case shall it be longer than 50 feet (ft) [15.2 meters (m)] in
accordance with the allowable exception No. 3 of Section 800-50 of the
ANSI/NFPA 70-1996, NEC. See sketch B of Figure 3 in
paragraph (h)(2) of this section. The shield of the outside plant wire
or cable shall be bonded to the grounding terminal of the NID, BET, or
fused primary station protector which in turn shall be connected to the
closest, existing and accessible grounding electrode, of the electrodes
cited in Section 800-40 of the ANSI/NFPA 70-1996, NEC (Fine
print Note No. 2 of ANSI/NFPA 70-1996, NEC, Section 800-50,
warns that the full 50 ft (15.2 m) may not be authorized for outside
unlisted cable (not in a metal or intermediate metal conduit) within a
building if it is practicable to place the NID, BET, or fused primary
station protector closer than 50 ft (15.2 m) to the cable entrance
point, e.g., if there is an acceptable and accessible grounding
electrode of the type cited in Section 800-40 of the ANSI/NFPA 70-1996,
NEC, anywhere along the proposed routing of the outside
cable within the building); or
(2) Where the NID, BET, or fused primary station protector must be
located within the building remote from the entrance point and the
entrance point of the outside plant wire or cable cannot be designed to
be closer to the NID, BET, or fused primary station protector location,
the outside plant wire or cable shall be spliced, as close as
practicable to the point where the outside plant wire or cable emerges
through an outside wall, to an inside wiring cable that is ``Listed''
as being suitable for the purpose in accordance with Part E of Article
800 of the ANSI/NFPA 70-1996, NEC. The length of outside
plant wire or cable exposed within the building shall be as short as
practicable but in no case shall it be longer than 50 ft (15.2 m) in
accordance with the allowable exception No. 3 of Section 800-50 of the
ANSI/NFPA 70-1996, NEC. See sketch C of Figure 3. The
shield of the outside plant wire or cable shall be bonded to the
grounding terminal of the NID, BET, or fused primary station protector
which in turn shall be connected to the closest, existing, and
accessible grounding electrode, of the electrodes cited in Section 800-
40 of the ANSI/NFPA 70-1996, NEC (Fine print Note No. 2 of
the ANSI/NFPA 70-1996, NEC, Section 800-50, warns that the
full 50 ft (15.2 m) may not be authorized for outside unlisted cable
(not in a metal or intermediate metal conduit) if it is practicable to
place the NID, BET, or fused primary station protector closer than 50
ft (15.2 m) to the cable entrance point, e.g., if there is an
acceptable and accessible grounding electrode of the type cited in
Section 800-40 of the ANSI/NFPA 70-1996, NEC, anywhere
along the proposed routing of the outside cable within the building).
Figure 3 is as follows:

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[[Page 70465]]

[GRAPHIC] [TIFF OMITTED] TP21DE98.002

[[Page 70466]]

(i) The polarity of buried wire or cable ``tip'' and ``ring''
conductors shall be maintained by making the connections in accordance
with Table 2, as follows:

Table 2.--Color Codes for Tip and Ring Connections of Inside Wiring Cable
--------------------------------------------------------------------------------------------------------------------------------------------------------
Tip Ring
Pair -------------------------------------------------------------------------------------------------------------------
Color of insulation Color of marking Color of insulation Color of marking
--------------------------------------------------------------------------------------------------------------------------------------------------------
1.................................. White...................... Blue....................... Blue....................... White
2.................................. White...................... Orange..................... Orange..................... White
3.................................. White...................... Green...................... Green...................... White
4.................................. White...................... Brown...................... Brown...................... White
5.................................. White...................... Slate...................... Slate...................... White
6.................................. Red........................ Blue....................... Blue....................... Red
7.................................. Red........................ Orange..................... Orange..................... Red
8.................................. Red........................ Green...................... Green...................... Red
9.................................. Red........................ Brown...................... Brown...................... Red
10.................................. Red........................ Slate...................... Slate...................... Red
11.................................. Black...................... Blue....................... Blue....................... Black
12.................................. Black...................... Orange..................... Orange..................... Black
13.................................. Black...................... Green...................... Green...................... Black
14.................................. Black...................... Brown...................... Brown...................... Black
15.................................. Black...................... Slate...................... Slate...................... Black
16.................................. Yellow..................... Blue....................... Blue....................... Yellow
17.................................. Yellow..................... Orange..................... Orange..................... Yellow
18.................................. Yellow..................... Green...................... Green...................... Yellow
19.................................. Yellow..................... Brown...................... Brown...................... Yellow
20.................................. Yellow..................... Slate...................... Slate...................... Yellow
21.................................. Violet..................... Blue....................... Blue....................... Violet
22.................................. Violet..................... Orange..................... Orange..................... Violet
23.................................. Violet..................... Green...................... Green...................... Violet
24.................................. Violet..................... Brown...................... Brown...................... Violet
25.................................. Violet..................... Slate...................... Slate...................... Violet
--------------------------------------------------------------------------------------------------------------------------------------------------------

Sec. 1755.506 Aerial wire services.

(a) Aerial services of one through six pairs shall consist of
Service Entrance, Aerial (SEA) assembly units, in accordance with RUS
Bulletin 345-154 (RUS Form 515g), Specifications and Drawings for
Service Entrance and Station Protector Installations. The wire used for
aerial services shall conform to the requirements of Secs. 1755.700
through 7 CFR 1755.704, RUS specification for aerial service wires, and
shall be RUS accepted or RUS technically accepted. Copies of RUS
Bulletin 345-154 are available upon request from RUS/USDA, 1400
Independence Avenue, SW., STOP 1522, Washington, DC 20250-1522, FAX
(202) 690-2268.
(b) If aerial wire services are to be connected to aerial cable
pairs, the NIDs or fused primary station protectors and grounds shall
be installed and connected before the aerial service wires are attached
to the customer's structure.
(c) Kinks or splices shall not be permitted in aerial service wire
spans.
(d) Aerial service wires shall be run in accordance with the
construction drawings contained in Sec. 1755.510 and shall conform to
all clearance requirements of the ANSI/NFPA 70-1996, NEC,
and ANSI/IEEE C2-1997, NESC, or local laws or ordinances, whichever are
the most stringent. The National Electrical Code and
NEC are registered trademarks of the National Fire
Protection Association, Inc., Quincy, MA 02269. The ANSI/NFPA 70-1996,
NEC, and ANSI/IEEE C2-1997, NESC, are incorporated by
reference in accordance with 5 U.S.C. 552(a) and 1 CFR part 51. Copies
of ANSI/NFPA 70-1996, NEC, are available from NFPA, 1
Batterymarch Park, P.O. Box 9101, Quincy, Massachusetts 02269-9101,
telephone number 1 (800) 344-3555. Copies of ANSI/IEEE C2-1997, NESC,
are available from IEEE Service Center, 455 Hoes Lane, Piscataway, New
Jersey 08854, telephone number 1 (800) 678--4333. Copies of ANSI/NFPA
70-1996, NEC, and ANSI/IEEE C2-1997, NESC, are available
for inspection during normal business hours at RUS, room 2845, 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.
(e) Aerial service wire shall be installed using the maximum
practicable sag consistent with the required ground clearance and good
construction practices. In no event shall the minimum sags be less than
the values shown on construction drawing 505 contained in Sec. 1755.510
for various span lengths and loading areas provided. Span lengths shall
not exceed 250 ft (76 m).
(f) To reduce vibration and galloping, aerial service wire shall be
twisted one complete turn for each 10 ft (3 m) of span length at the
time of installation.
(g) The methods of attaching aerial service wires at poles shall be
as illustrated in construction drawings 503-2 and 504 contained in
Sec. 1755.510.
(h) A horizontal climbing space of 24 in. (610 mm) shall be
provided on poles used jointly with power circuits that operate at 300
volts or less, provided the telecommunications conductors are
positioned below the power conductors; however, if the
telecommunications conductors are installed above power conductors that
operate at 300 volts or less (a practice which is highly discouraged
and not practicable), a horizontal climbing space of 30 in. (762 mm)
shall be provided as indicated on construction drawing 702 contained in
Sec. 1755.510. A climbing space of 30 in. (762 mm) shall be provided on
poles used jointly with power circuits that operate at voltages greater
than 300 volts but less than 15 kilovolts (kV) as indicated on
construction drawing 702 contained in Sec. 1755.510. On jointly used
poles with power conductors operating at voltages greater than 15 kV,
climbing space shall be provided in conformance

[[Page 70467]]

with the requirements of Rule 236 of the ANSI/IEEE C2-1997, NESC.
Climbing space shall be projected vertically 40 in. (1.02 m) above and
below the bounding telecommunications conductors on jointly used poles
with power conductors unless the telecommunications conductors are
installed above the power conductors (a practice which is highly
discouraged and not practicable) and the power conductors operate at
voltages greater than 8.7 kV line-to-ground or 15 kV line-to-line, in
which case the projected vertical space shall be increased to 60 in.
(1.5 m).
(i) Not more than four aerial service wires shall be distributed
from any one in \7/16\ in. (10 mm) drive hook, or more than two aerial
service wires from any one \5/16\ in. (8 mm) drive hook. Aerial service
wires and drive hooks shall be arranged so that the load does not pull
the drive hook out of the pole. When more than one drive hook is
required, the drive hooks shall be staggered with a minimum separation
of 1 in. (25.4 mm) horizontally on centers and 1.5 in. (40 mm)
vertically on centers. If drive hooks are placed within 3 in. (76 mm)
of the top of the pole and on the opposite side of the pole's
circumference, a vertical separation of at least 3 in. (76 mm) shall be
provided. A drive hook shall not be placed on the top of a pole or stub
pole.
(j) When connecting aerial service wires to cable pairs at
terminals, sufficient slack shall be provided so that each aerial
service wire shall reach any binding post position as shown on
construction drawing 312-1 contained in Sec. 1755.510.
(k) Aerial service wire attachments on utility poles and the manner
of placing bridle rings and entering cable terminals shall be as shown
on construction drawing 503-2 contained in Sec. 1755.510.
(l) Not more than two conductors shall be connected to any terminal
binding post. Where it is necessary to bridge more than two aerial
service wires at the same closure, the aerial service wires shall be
terminated in aerial service wire terminals connected in parallel with
a No. 20 AWG bridle wire which shall be terminated on the binding posts
of the filled terminal block.
(m) Where aerial service wire is attached to aerial plastic cable,
it shall be brought directly into a ready-access closure and shall be
terminated on the binding posts of the filled terminal block as shown
on construction drawing 503-2 contained in Sec. 1755.510.
(n) The conductor of copper coated steel reinforced aerial service
wires identified by tracer ridges shall be used as the ring (negative
battery) conductor of the pair, and shall normally be connected to the
right or lower binding post of a pair on filled terminal blocks and
NIDs or fused primary station protectors.
(o)(1) The tip and ring conductors of nonmetallic reinforced aerial
service wires shall be identified in accordance with Table 3, as
follows:

Table 3.--Nonmetallic Reinforced Aerial Service Wire Color Code
------------------------------------------------------------------------
Conductor color
Pair No -------------------------------------------
Tip Ring
------------------------------------------------------------------------
1........................... White/Blue or White. Blue.
2........................... White/Orange or Orange.
White.
3........................... White/Green or White Green.
4........................... White/Brown or White Brown.
5........................... White/Slate or White Slate.
6........................... Red/Blue or Red..... Blue.
------------------------------------------------------------------------

(2) The ring (negative battery) conductor of the pair shall
normally be connected to the right or lower binding post of a pair on
filled terminal blocks and NIDs or fused primary station protectors.
(p) When it is necessary to avoid intervening obstacles between a
pole and a building, span clamp attachments shall be used to support
the aerial service wires at points between the poles that are
supporting the cable on the suspension strand as indicated by
construction drawings 501-1 and 501-2 contained in Sec. 1755.510.
(q) Aerial service wire strung from pole to pole shall be placed
entirely below or entirely above any existing wire or cable. When
adequate ground clearance can be obtained, preference shall be given to
placing aerial service wire below wire and cable.
(r) When more than one aerial service wire is installed from pole
to pole, the first aerial service wire shall be sagged in accordance
with construction drawing 505 contained in Sec. 1755.510. Succeeding
aerial service wires shall be sagged with 2 in. (50.8 mm) more sag for
each aerial service wire.
(s) Aerial service wire spans from pole lines to buildings shall
follow the shortest feasible route commensurate with the requirements
of paragraph (t) of this section and shall be sagged in accordance with
construction drawing 505 contained in Sec. 1755.510. The route shall
avoid trees and other obstructions to the extent practicable. Where
trees cannot be avoided, tree trimming permission shall be obtained
from the owner or the owner's representative, and all limbs and foliage
within 2 ft (600 mm) of the finally sagged wire shall be removed. If
tree trimming permission cannot be obtained, the matter shall be
referred to the borrower for resolution before proceeding with the
installation.
(t) Aerial service wires shall contact buildings as closely as
practicable at a point directly above the NID, or fused primary station
protector. Generally, horizontal drop wire runs on buildings shall not
exceed 20 ft (6 m). The warning given in Sec. 1755.505(f)(11) regarding
drilling holes in aluminum and vinyl siding applies also to attaching
aerial service wires.
(u) The point of the first building attachment shall be located so
that the aerial service wire will be clear of roof drainage points.
(v) Where practicable, aerial service wires shall pass under
electrical guys, power distribution secondaries and services, tree
limbs, etc.
(w) Aerial service wire shall not pass in front of windows or
immediately above doors.
(x) Aerial service wires shall be routed so as to have a minimum
clearance of 2 ft (600 mm) from any part of a short wave, ham radio,
etc. antenna mast and a television antenna mast in its normal vertical
position and of the possible region through which it sweeps when being
lowered to a horizontal position.
(y) Aerial service wires shall be installed such that all
clearances and separations comply with either Section 237 of the ANSI/
IEEE C2-1997, NESC, or ANSI/NFPA 70-1996, NEC, or local

[[Page 70468]]

laws or ordinances, whichever is the most stringent.
(z) Aerial service wire attachments to buildings shall be as
follows:
(1) First attachments on buildings shall be made in accordance with
construction drawings 506, 507, or 508-1 contained in Sec. 1755.510, as
applicable;
(2) Intermediate attachments on buildings shall be made in
accordance with construction drawings 510 or 510-1 contained in
Sec. 1755.510; and
(3) Uninsulated attachments shall be permitted to be used as
follows:
(i) Wherever NIDS are used as permitted by Section 800-30(a)(1) of
the ANSI/NFPA 70-1996, NEC; and
(ii) On masonry and other types of nonflammable buildings.
(aa) Insulated attachments shall be used on wooden frame, metallic
siding and other types of combustible buildings where fused primary
station protectors are used, as required by Section 800-30(a)(2) of the
ANSI/NFPA 70-1996, NEC.
(bb) Aerial service wire runs on buildings shall be attached
vertically and/or horizontally in a neat and most inconspicuous
possible manner. See construction drawing 513 contained in
Sec. 1755.510. Horizontal runs on buildings are undesirable and shall
be kept to a minimum. Diagonal runs shall not be made.
(cc) Aerial service wire runs on buildings shall be located so as
not to be subjected to damage from passing vehicles, pedestrians, or
livestock.
(dd) Minimum separation between aerial service wires and other
facilities on or in buildings shall be in accordance with
Sec. 1755.505(f)(8),
Table 1.
(ee) Appropriate devices for attaching aerial service wires to
buildings vary with the type of building construction and with the type
of customer access location equipment. Table 4 lists various types of
attachments and their application with respect to construction,
customer access location equipment, and proper mounting devices.
Construction drawings 506 through 513 contained in Sec. 1755.510
illustrate requirements with respect to various angles of service wire
contacts and uses of various attachments. Table 4 is as follows:

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[[Page 70470]]

(ff) Fastener spacings for vertical and horizontal runs on frame or
masonry buildings shall not be more than 6 ft (2 m) apart. Fasteners
should be spaced close enough to prevent the aerial service wire from
``slapping'' against the building during windy conditions.
(gg) When it is necessary to pass behind or around obstructions
such as downspouts and vertical conduits, the aerial service wire shall
be supported firmly with attachment devices placed not more than 6 in.
(152 mm) from the obstruction as illustrated in Figures 4 and 5 of
paragraph (hh) of this section. Preferably, the aerial service wire
should be routed behind obstructions to minimize the possibility of
mechanical damage to the aerial service wire in the event repair work
to the obstruction is required.
(hh) When passing around building projections of masonry or wood or
around corners, aerial service wires shall be installed as illustrated
in Figures 5 and 6. Figures 4, 5, and 6 are as follows:

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[[Page 70474]]

(ii) In areas where ice and snow conditions are severe, aerial
service wires shall be located so that ice and snow falling from the
roof will not strike the wires. However, where aerial service wires
must pass under the sloping part of the roof, first attachments shall
be made as close as practicable to the eaves.
(jj) If two aerial service wire spans are required to the same
building, the first attachment shall be such that both aerial service
wires can be attached at the same attachment device. Refer to
construction drawing 508-1 contained in Sec. 1755.510. Where more than
two aerial service wires are required, additional attachment devices in
the same general location on the building shall be used.
(kk) When two or more aerial service wire runs are required on the
same building they shall share the same type of attachment devices.
(ll) Aerial service wire entrances to buildings shall conform to
sketch B of construction drawing 510-2 contained in Sec. 1755.510,
unless the entrance is made through a conduit.
(mm) When the aerial service wire approaches the entrance hole from
above, a 1.5 in. (40 mm) minimum drip loop shall be formed in
accordance with sketch B of construction drawing 510-2 contained in
Sec. 1755.510.
(nn) If an entrance conduit which slopes upward from outside to
inside is available and suitably located, it shall be used for the
aerial service wire entrance.

Sec. 1755.507 Aerial cable services.

(a) Where more than six pairs are needed initially, and where an
aerial service is necessary, the service shall consist of 22 AWG filled
aerial cable of a pair size adequate for the ultimate anticipated
service needs of the building. The cable shall comply with the
requirements of Sec. 1755.390, RUS Specification for Filled Telephone
Cables, and shall be RUS accepted or RUS technically accepted.
(b) Aerial cable services shall be constructed in accordance with
specific installation specifications prepared by the RUS borrower or
the engineer delegated by the borrower.
(c) Unless otherwise specified in the installation specifications,
aerial cable service installations shall meet the following
requirements:
(1) Strand supported lashed construction shall be used.
(2) Where practicable a \5/16\ in. (8 mm) utility grade strand and
automatic clamps shall be used in slack spans to avoid damage to the
building.
(3) Construction on poles shall comply with applicable construction
drawings for regular line construction. Aerial service cable shall be
spliced to the main cable in accordance with Sec. 1755.200, RUS
standard for splicing copper and fiber optic cables.
(4) Where practicable, aerial cable shall pass under electrical
guys, distribution secondaries, and services.
(5) The suspension strand shall be attached to the building by wall
brackets as indicated in Figure 7 as follows:

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[[Page 70476]]

(i) If taut spans are necessary, appropriate size strand may be
used if the pull is in line with one wall of the building, or within 20
degrees of being in line as illustrated in sketch A of Figure 7. If the
angle of pull is greater than 20 degrees from the building, the wall
bracket shall be reinforced against pullout by an arrangement
equivalent to sketch B of Figure 7. Taut spans may be strung using the
recommendations in RUS Bulletin 1751F-630, Design of Aerial Plant. The
same tension as would be used in normal line construction so as not to
exceed 60 percent of the breaking strength of the strand under maximum
loading shall be used. Taut spans shall not exceed 100 ft (30.5 m) in
length and the cable weight shall not exceed 1 pound/foot (lb/ft) [1.5
kilogram/meter (kg/m)] except when equivalent combinations of greater
span lengths with cable weight less than 1 lb/ft (1.5 kg/m) are
permissible. Copies of RUS Bulletin 1751F-630 are available upon
request from RUS/USDA, 1400 Independence Avenue, SW., STOP 1522,
Washington, DC 20250-1522, FAX (202) 690-2268.
(ii) When an attachment must be made to the face of a building wall
away from a corner, a ``U'' type wall bracket shall be used as
indicated in sketch C of Figure 7 of this paragraph (c)(5). Only slack
span construction with \5/16\ in. (8 mm) utility grade strand shall be
permitted in this situation. The bail of the automatic clamp shall be
protected by a wire rope thimble.
(6) Aerial cable shall be located on the rear or side of the
building and shall be run only in a horizontal or a vertical direction.
The cable route shall be selected so as to avoid building projections
and obstructions to the extent practicable.
(7) Cable attachment devices shall be located in solid masonry or
in studs of wood frame buildings. Sheet surface materials may be used
only where they are reinforced by substantial backing material which
the attachment services can penetrate.
(8) The minimum separation on or in buildings between cable and
other facilities shall be as indicated in Sec. 1755.505(f)(8), Table 1.
(9) On horizontal runs, place cable clamps so that the attachment
shall be made below the cable. On vertical runs place the cable clamps
so that the attachment shall be made on the same side as horizontal
runs. Cable clamps shall be placed on the inside of cable bends.
(10) On horizontal runs, cable clamps shall be placed not more than
16 in. (400 mm) apart for cable diameters equal to or greater than 1
in. (25.4 mm) and 24 in. (600 mm) apart for cable diameters less than 1
in. (25.4 mm).
(11) On vertical runs, cable clamps shall be approximately 24 in.
(600 mm) apart for all sizes of cable.
(12) For the cable entrance, holes shall be bored slightly larger
in diameter than the cable and shall slope upward from outside to
inside. A duct sealer having RUS acceptance or RUS technical acceptance
shall be applied to both ends of the hole after the cable is pulled in.
(13) Section 1755.505 (g) and (h) shall also apply to aerial cable
services.

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) introductory text 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 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 (3) through (7) cited in Section 800-40(b)(1) of
the ANSI/NFPA 70-1996, NEC. The National Electrical
Code and NEC are registered trademarks of the
National Fire Protection Association, Inc., Quincy, MA 02269. The ANSI/
NFPA 70-1996, NEC, 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-
1996, NEC, are available for inspection during normal
business hours at RUS, room 2845, 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 (1) or (2) cited in Section 800-40(b)(1) of the ANSI/NFPA
70-1996, NEC.
(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 paragraphs (i) or (j) of this
section.
(l) For the preferred customer access location installation, the
ANSI/NFPA 70-1996, NEC, 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 the

[[Page 70477]]

ANSI/NFPA 70-1996, NEC, definition for ``Listed'' [for
example connectors listed for the purpose by Underwriters Laboratories
(UL)]. Figure 8 is as follows:

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[[Page 70478]]

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[[Page 70479]]

(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 70-1996, NEC,
requires that metal piping be used as a bonding conductor in this
manner only when 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:

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[[Page 70481]]

(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 70-1996, NEC.
(o) The NID, BET, or fused primary station protector pair size
shall be adequate 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 shall 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) 690-2268.
(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 the ANSI/NFPA 70-1996, NEC, 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 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 345-154 (RUS Form 515g),
Specifications and Drawings for Service Entrance and Station Protector
Installation. Copies of RUS Bulletin 345-154 are available upon request
from RUS/USDA, 1400 Independence Avenue, SW., STOP 1522, Washington, DC
20250-1522, FAX (202) 690-2268.
(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, insulated............... 1 to 2................................. 1 to 3.
#10 AWG, copper, insulated............... 3 to 5................................. 4 to 7.
#6 AWG, copper, insulated................ 6 or more.............................. 8 or more.
----------------------------------------------------------------------------------------------------------------

(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:
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[[Page 70483]]

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 drop siding.
\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-telephone
company wires in accordance with Section 800-12(b) of the ANSI/NFPA 70-
1996, NEC.
(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 ``R x 1'' 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 70-1996,
NEC, 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 special 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 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, 13, 14, and 15 of paragraph (ee)(1) 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

[[Page 70484]]

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:

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(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 a
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 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:

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[[Page 70491]]

(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:

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[[Page 70492]]

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[[Page 70493]]

(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:

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[[Page 70494]]

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[[Page 70495]]

(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.

Sec. 1755.509 Mobile homes.

(a) Customer access location installations at mobile homes shall be
treated the same whether the homes are mounted on permanent foundations
or temporary foundations and shall be installed as specified in
Secs. 1755.500 through 1755.510. For the purpose of this section,
mobile homes include motor homes, truck campers, travel trailers, and
all forms of recreational vehicles. Customer access location
installations at mobile homes can be considerably different than
customer access location installations at regular homes and borrowers
shall be certain that the two types of installations are properly
applied.
(b) The method of customer access location installation prescribed
by the ANSI/NFPA 70-1996, NEC for a mobile home depends on
how the electric power is installed at the mobile home and it can
involve considerable judgment on the part of the telecommunications
installer. The National Electrical Code and NEC
are registered trademarks of the National Fire Protection Association,
Inc., Quincy, MA 02269. The ANSI/NFPA 70-1996, NEC, 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 70-1996, NEC, are available for
inspection during normal business hours at RUS, room 2845, 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. Essentially, the
ANSI/NFPA 70-1996, NEC, requires primary station protectors
to be located where specific acceptable grounding electrodes exist. The
ANSI/NFPA 70-1996, NEC, allows station protector
installations to be at the location of the power meter or the electric
disconnecting means apparatus serving the mobile home providing these
electric facilities are installed in the manner specifically defined by
the ANSI/NFPA 70-1996, NEC. The ANSI/NFPA 70-1996,
NEC, requires the station protectors to be installed at the
nearest of a number of other meticulously defined ANSI/NFPA 70-1996,
NEC, acceptable electrodes where the protector cannot be
installed at the power meter or the electric disconnecting means
apparatus serving the mobile home. The provisions can be confusing.
(c) To avoid the need for significant telecommunications installer
judgment, NIDs shall be installed at mobile homes in either of the
following situations:
(1) Where the mobile home electric service equipment (power meter,
etc.) or the electric service disconnecting means associated with the
mobile home is located within 35 ft (10.7 m) of the exterior wall of
the mobile homes it serves, the NID shall be installed in accordance
with Figure 17 as follows:

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[[Page 70496]]

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[[Page 70497]]

(2) Where the mobile home electric service equipment (power meter,
etc.) or the electric service disconnecting means associated with the
mobile home is located more than 35 ft (10.7 m) from the exterior wall
of the mobile homes it serves, the NID shall be installed in accordance
with Figure 18 as follows:

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(d) The service wire and station wire shall be terminated in the
NID in accordance with Figure 19 in paragraph (e) of this section.
(e) Installation of the station wire and grounding conductor at the
mobile home shall be in accordance with Figure 20. Figures 19 and 20
are as follows:

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Sec. 1755.510 Construction and assembly unit drawings.

(a) The construction and assembly unit drawings in this section
shall be used by borrowers to assist the installer in making the
customer access location installations.
(b) The asterisks appearing on the construction drawings indicate
that the items are no longer listed in the RUS Informational
Publication (IP) 344-2, ``List of Materials Acceptable for Use on
Telecommunications Systems of RUS Borrowers.'' RUS IP 344-2 can be
obtained from the Superintendent of Documents, P. O. Box 371954,
Pittsburgh, PA 15250-7954, telephone number (202) 512-1800.
(c) Drawings BM83, 312-1, 501-1, 501-2, 503-2, 504, 505, 506, 507,
508-1, 510, 510-1, 510-2, 513, 702, 815, 815-1, 912, 958, and 962 are
as follows:

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Dated: November 20, 1998.
Jill Long Thompson,
Under Secretary Rural Development.

[FR Doc. 98-32207 Filed 12-18-98; 8:45 am]
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Visit the Official Version

Document Information

Published:: 12/21/1998
Department:: Rural Utilities Service
Entry Type:: Proposed Rule
Action:: Proposed rule.
Document Number:: 98-32207
Dates:: Comments concerning this proposed rule must be received by RUS or be postmarked no later February 19, 1999.
Pages:: 70456-70523 (68 pages)
PDF File:: 98-32207.pdf
CFR: (15): 7 CFR 1755.505(f)(8); 7 CFR 1755.510; 7 CFR 1755.97; 7 CFR 1755.98; 7 CFR 1755.500; More ...