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SAE AS5382 - Aerospace Cable, Fiber Optic
October 1, 2011 - SAE

Purpose This standard covers jacketed single-fiber multimode and single-mode fiber optic cables for aerospace usage. Classification The fiber optic cables covered by this standard shall be as described in the applicable specification sheets and shall...

MIL-STD-2052 - FIBER OPTIC SYSTEMS DESIGN
October 10, 1997 - NPFC

This design criteria standard provides design requirements for digital fiber optic systems having data transmission rates not greater than 500 megabits per second (Mbps) installed aboard Navy surface ships and submarines. The proper application of component specifications and...

ARINC 805 - FIBER OPTIC TEST PROCEDURES
January 28, 2019 - ARINC

This document defines general practices for testing the physical layer of a fiber optic cable system. It is the intention of this document to outline proven practices for engineers and technicians engaged in testing and supporting fiber optic cable systems...

ARINC 802 - FIBER OPTIC CABLES
August 27, 2018 - ARINC

This specification covers the performance requirements, dimensions, quality assurance criteria, test procedures, and cable codification for fiber optic cables suitable for use on commercial aircraft.

ARINC 807 - FIBER OPTIC TRAINING REQUIREMENTS
January 10, 2019 - ARINC

This document is based upon the SAE ARP5602 document, A Guideline for Aerospace Platform Fiber Optic Training and Awareness Education. ARINC Report 807: Fiber Optic Training Requirements is a subset of the SAE ARP5602 document designed to meet the requirements of the...

MIL-HDBK-2051 - FIBER OPTIC SHIPBOARD CABLE TOPOLOGY DESIGN GUIDANCE
May 22, 1996 - NPFC

This handbook contains suggested design rules for defining a fiber optic-cable topology. In addition, this document describes a suggested approach for developing and designing a fiber optic cable topology (FOCT) for a Naval platform and also identifies the...

TIA-455-85 - FOTP-85 Fiber Optic Cable Twist Test
May 26, 1992 - TIA

Intent.1 The intent of this test is to establish the ability of a fiber optic cable (or fiber optic cable component, when appropriate) to mechanically withstand twisting. Measurements. The following parameters may be measured or observed: (a) The number of...

TIA-4720000 - Generic Specification for Fiber Optic Cable
November 1, 1993 - TIA

This Generic Specification is applicable to fiber optic cables for use in communications systems and in other systems using similar technologies. This document assumes that an optical fiber Detail Specification, per the EIA/TIA-492-Series, will specify the requirements...

TIA-455-87 - FOTP-87 Fiber Optic Cable Knot Test
March 1, 1993 - TIA

This test method may be used to test any type of fiber optic cable, using the appropriate Procedure and test parameters, as required by the Detail Specification.

SAE AS6506 - Fusion Splice for Aerospace Fiber Optic Cables
September 1, 2018 - SAE

This document defines performance standards which fiber optic cable splices must meet to be accepted for use in aerospace platforms and environments.

SAE AS5405 - Mechanical Splice for Aerospace Fiber Optic Cables
September 1, 2018 - SAE

This document defines performance standards which mechanical fiber optic cable splices must meet to be accepted for use in aerospace platforms and environments.

Fiber Optic Installer's Field Manual, Second Edition
January 1, 2015 - MCGRAW

A fully updated fiber optic cable installation guide. Extensively revised to cover the latest technologies and equipment, this portable tool shows you how to plan, install, and maintain a robust fiber optic network to support today's high-speed requirements. The...

A-A-59917 - SPLICE, MECHANICAL, SIMPLEX FIBER OPTIC CABLE, SHIPBOARD
October 2, 2012 - NPFC

This Commercial Item Description (CID) covers the general requirements for mechanical fiber optic splices with the following attributes: low optical loss performance, high reliability, field-installable, compatible with loose tube, tight buffered, and blown optical multimode and...

TIA/EIA-455-1 - Cable Flexing for Fiber Optic Interconnecting Devices
October 1, 1998 - TIA

Introduction Intent This test is intended to determine the ability of fiber optic interconnecting devices, device interfaces, and strain reliefs to withstand bending and flexing stresses resulting from loads as might be experienced during installation and service conditions. Typical...

DSCC-DWG-09001 - CABLE, FIBER OPTIC, MIXED FIBER (MULTIMODE AND SINGLE MODE FIBERS)
May 31, 2013 - DOD

This drawing describes the requirements for mixed fiber optic cable for ground tactical application. The mixed fiber cable detailed in this drawing consists of two multimode and two single mode optical fibers. Buffer colors identify individual fibers.

TIA-455-91 - FOTP-91 Fiber Optic Cable Twist-Bend Test
January 1, 1986 - TIA

This method describes a procedure for determining the ability of a fiber optic cable to withstand simultaneous bending and twisting.

SAE AS6021 - AS6021 Aerospace Fiber Optic Cable Assembly Drawing Specification
January 1, 2014 - SAE

This SAE Aerospace Standard (AS) defines the items that shall be considered when creating a fiber optic cable assembly specification and source control drawing intended for installation on aerospace platforms. Purpose The purpose of this document is to provide guidance on...

FAA-E-2761 - CABLE, FIBER OPTIC, MULTIMODE, MULTIFIBER
March 14, 1988 - DOT

This specification contains requirements for a multiple-fiber, dual-window, graded-index, optical waveguide, control or communications cable intended for data and communications use at airports.

SAE AS5750 - Loss Budget Specification for Fiber Optic Links
July 1, 2010 - SAE

This document defines a quantified means of specifying a digital fiber optic link loss budget: • Between end users and system integrators • Between system integrators and subsystem suppliers • Between subsystem suppliers and component vendors The standard specifies methods and...

TIA/EIA-455-98 - FOTP-98 Fiber Optic Cable External Freezing Test
June 1, 1990 - TIA

INTRODUCTION These methods are intended to simulate the effect of ice (Method A) or the crush force caused by ice (Method B) on Fiber Optic Cables. The primary purpose of this procedure is to measure any variation in optical power transmittance of a fiber optic...

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