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NEMA - C12.18 - PROTOCOL SPECIFICATION FOR ANSI TYPE 2 OPTICAL PORT Organization: NEMA
Date: 2006-05-02
Description: Test methods for transformer-rated meters and self contained "A" base watt hour meter are included in this package as well as a watt hour safety standard. This package contains all parts of NEMA ANSI C12 and NEMA SG-AMI 1.
NEMA - ANSI C12.18 - PROTOCOL SPECIFICATION FOR ANSI TYPE 2 OPTICAL PORT Organization: NEMA
TIA-472D000 - SECTIONAL SPECIFICATION (ADOPTED ANSI/ICEA S-87-640-2006) STANDARD FOR OPTICAL FIBER OUTSIDE PLANT COMMUNICATIONS CABLE Organization: TIA
Date: 2007-07-01
Description: Refer to other published ICEA (ANSI/TIA) cable product standards for information on fiber optic cable requirements for other applications: · S-83-596: Optical fiber premises distribution cable (ANSI/TIA-472C000-B) · S-104-696: Indoor-outdoor optical fiber drop cable (ANSI/TIA-472E000) · S-110-717: Optical fiber drop cable (ANSI/TIA-472F000)
TIA-472G000 - SECTIONAL SPECIFICATION (ADOPTED ANSI/ICEA S-112-718-2008) STANDARD FOR OPTICAL FIBER CABLE FOR PLACEMENT IN SEWER ENVIRONMENTS Organization: TIA
Date: 2010-12-01
Description: General Overview This Standard covers optical fiber communications cables intended for installation in underground sewers, specifically storm and sanitary sewers.
ICEA S-110-717 - OPTICAL FIBER DROP CABLE - SECOND EDITION Organization: ICEA
Date: 2013-03-13
Description: Refer to other published ICEA cable product Standards for information for optical fiber cable requirements for other applications: • S-104-696 (ANSI/TIA-472C000-B) for optical fiber communications cables intended for use in other combined indoor/outdoor applications, • S-87-640 (to be TIA-472D000-C) for optical fiber communication cables intended for use in other outdoor applications, • S-83-596 (TIA-472C000-C) for optical fiber communications cables intended only for indoor use, and • S-112-718 for optical fiber cable for placement in sewers • S-115-730 for optical fiber cable for multiple-dwelling units.
ICEA S-104-696 - INDOOR-OUTDOOR OPTICAL FIBER CABLE - SECOND EDITION Organization: ICEA
Date: 2013-03-19
Description: When a hybrid cable (a cable with both optical fibers and metallic conductors) is required, the applicable metallic conductor requirements shall be as established by agreement between the end user and the cable manufacturer. The requirements of ANSI/ICEA S-84-608 should be considered when determining appropriate requirements.
ICEA S-87-640 - OPTICAL FIBER OUTSIDE PLANT COMMUNICATIONS CABLE - SIXTH EDITION Organization: ICEA
Date: 2016-08-25
Description: Refer to other published ICEA cable product standards for information on optical fiber cable requirements for other applications • S-83-596: Indoor optical fiber cable • S-104-696: Indoor-outdoor optical fiber cable) • S-110-717: Standard for optical fiber drop cable • S-112-718: Optical fiber cable for placement in sewer environments) • S-115-730: Optical fiber cables intended for Multiple Dwelling Unit (MDU) applications • S-119-741: Fiber to the antenna (FTTA) optical fiber cable.
UL 1651 - UL STANDARD FOR SAFETY OPTICAL FIBER CABLE - FOURTH EDITION Organization: UL
Date: 2015-05-15
Description: Smoke and fire considerations are as follows for the cables covered in these requirements: a) TYPE OFNP and OFCP CABLES – Cables that are intended for installation in accordance with Section 770.154 (A) of the National Electrical Code (ANSI/NFPA 70) in a duct, plenum, or other space used to transport environmental air without the cable being enclosed in a raceway in that space are tested for smoke and flame characteristics in accordance with the National Fire Protection Association Standard Method of Test for Flame Travel and Smoke of Wires and Cables for Use in Air-Handling Spaces, ANSI/NFPA 262.
TIA/EIA TSB 125 - GUIDELINES FOR MAINTAINING OPTICAL FIBER POLARITY THROUGH REVERSE-PAIR POSITIONING Organization: TIA
Date: 2001-06-01
Description: This TSB expands upon the description of reverse-pair positioning within ANSI/TIA/EIA-568-B.1, sub-clause 10.3.2.
ICEA S-119-741 - FIBER TO THE ANTENNA (FTTA) OPTICAL FIBER CABLE Organization: ICEA
Date: 2016-05-04
Description: These cables may be hybrid design, incorporating electrical conductors for low voltage power delivery and control, or standalone optical cables. This standard primarily references ANSI/ICEA S-87-640-2011 (ICEA 640) and ANSI/ICEA S-104-696- 2013 (ICEA 696) for optical performance requirements.
CSA T568.3-1 - OPTICAL FIBER CABLING COMPONENTS STANDARD — ADDENDUM 1 — ADDITIONAL TRANSMISSION PERFORMANCE SPECIFICATIONS FOR 50/125 ΜM OPTICAL FIBER CABLES - FIRST EDITION Organization: CSA
Date: 2005-05-01
Description: This addendum provides requirements for multimode cable with higher performance over other multimode cable specified in ANSI/TIA/EIA-568-B.3 and recognizes advances in cabling and optical transceiver technology, particularly technologies based on vertical cavity surface emitting lasers (VCSELs).
TIA TSB-140 - ADDITIONAL GUIDELINES FOR FIELD- TESTING LENGTH, LOSS AND POLARITY OF OPTICAL FIBER CABLING SYSTEMS - CONTAINS COLOR Organization: TIA
Date: 2004-02-03
Description: This Telecommunications Systems Bulletin (TSB) describes field-testing of length, optical attenuation and polarity in optical fiber cabling using an optical loss test set (OLTS), optical time domain reflectometer (OTDR) and a visible light source such as a visual fault locator (VFL).
ATIS 0600416.03 - NETWORK TO CUSTOMER INSTALLATION INTERFACES – SYNCHRONOUS OPTICAL NETWORK PHYSICAL MEDIA DEPENDENT SPECIFICATION: ELECTRICAL Organization: ATIS
Date: 1999-04-01
Description: Other documents included in the ANSI T1.416 series, at the time this document was approved, are listed below ANSI T1.416-1999, Telecommunications - Network to Customer Installation Interfaces - Synchronous Optical NETwork (SONET) Physical Layer Specification: Common Criteria ANSI T1.416.01-1999, Telecommunications - Network to Customer Installation Interfaces - Synchronous Optical NETwork (SONET) Physical Media Dependent Specification: Multi-Mode Fiber ANSI T1.416.02-1999, Telecommunications - Network to Customer Installation Interfaces - Synchronous Optical NETwork (SONET) Physical Media Dependent Specification: Single-Mode Fiber The provisions of this standard are intended to be consistent with applicable requirements concerning safety and environmental conditions.
ATIS 0600416 - NETWORK TO CUSTOMER INSTALLATION INTERFACES - SYNCHRONOUS OPTICAL NETWORK (SONET) PHYSICAL LAYER SPECIFICATION: COMMON CRITERIA Organization: ATIS
Date: 1999-04-01
Description: Other documents included in the ANSI T1.416 series (at the time that this document was approved) are listed below. ANSI T1.416.01-1999, Telecommunications - Network to Customer Installation Interfaces - Synchronous Optical NETwork (SONET) Physical Media Dependent Specification: Multi-Mode Fiber ANSI T1.416.02-1999, Telecommunications - Network to Customer Installation Interfaces - Synchronous Optical NETwork (SONET) Physical Media Dependent Specification: Single-Mode Fiber ANSI T1.416.03-1999, Telecommunications - Network to Customer Installation Interfaces - Synchronous Optical NETwork (SONET) Physical Media Dependent Specification: Electrical The provisions of this standard are intended to be consistent with applicable requirements concerning safety and environmental conditions.
ATIS 0900105.07 - SYNCHRONOUS OPTICAL NETWORK (SONET) – SUB STS-1 INTERFACE RATES AND FORMATS SPECIFICATION - FORMERLY ATIS T1.105.07 Organization: ATIS
Date: 1996-12-01
Description: The SONET optical interface standard is defined in American National Standard for Telecommunications - Digital hierarchy - Optical interface rates and formats specifications (SONET), ANSI Tl .105-l 995, although the interfaces defined in this document are not restricted to either electrical or optical signals at the physical layer.
IEEE 1701 - OPTICAL PORT COMMUNICATION PROTOCOL TO COMPLEMENT THE UTILITY INDUSTRY END DEVICE DATA TABLES Organization: IEEE
Date: 2011-02-02
Description: This document is identified by three numbers, MC1218, ANSI C12.18-2006, and IEEE Std 1701-2011. The standard details the criteria required for communications with a Utility End Device by another device via an optical port.
LIA/LASER - ANSI Z136.2 - SAFE USE OF OPTICAL FIBER COMMUNICATION SYSTEMS UTILIZING LASER DIODE AND LED SOURCES Organization: LIA/LASER
Date: 2012-01-01
Description: As defined in this standard, FSOCS applies only to fixed, point-to-point terrestrial systems used for telecommunications purposes. For other freespace optical systems and applications, refer to ANSI Z136.6. NOTE—LEDs are included in the scope of this standard for the following reasons: 1) The optical energy emitted by an LED (usually an edge-emitter) launched into an optical fiber results in a worstcase viewing condition approximately the same as if the source were a laser. 2) Although the spectral bandwidth of an LED is much larger than that of a laser, the spectral emission is still relatively narrow and the tables for the maximum permissible exposure (MPE) values and accessible emission limits (AEL) can still be used satisfactorily to provide conservative results.
ISA 60079-28 - EXPLOSIVE ATMOSPHERES – PART 28: PROTECTION OF EQUIPMENT AND TRANSMISSION SYSTEMS USING OPTICAL RADIATION - EDITION 1.1; 12.21.02 Organization: ISA
Date: 2012-12-05
Description: This standard applies to optical fibre equipment and optical equipment, including LED and laser equipment, other than as detailed below: • Non-array indicator LEDs used for example to show equipment stuatus or backlight function.
TIA-472E000 - SECTIONAL SPECIFICATION (ADOPTED ICEA S-104-696-2001) STANDARD FOR INDOOR-OUTDOOR OPTICAL FIBER CABLE Organization: TIA
Date: 2005-01-10
Description: This Standard covers optical fiber communications cables intended for use in Indoor-Outdoor optical fiber applications.
ICEA S-120-742 - STANDARD FOR HYBRID OPTICAL FIBER AND POWER CABLE FOR USE IN LIMITED POWER CIRCUITS Organization: ICEA
Date: 2016-05-19
Description: This standard is intended to serve as a reference to the most recent appropriate standards; ICEA S-83-596 for optical fiber communications cables intended for indoor use, ICEA S-104-696 for optical fiber communications cables intended for indooroutdoor use and UL13 for Power Limited Circuit Cables with the addition of any additional requirements to ensure a functional cable design.

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