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Standard

Terminus, Fiber Optic, Harsh Environment, General Specification

2021-11-23

CURRENT

AS8438

This document provides details of test methods that should be taken into consideration when qualifying fiber optic termini to the product specifications (slash sheets). The product specifications (slash sheets) provide pass/fail criteria, optical and physical intermatability, and interoperability requirements for fiber optic termini in circular, rectangular, and modular type aerospace connectors.

Standard

Terminus, Fiber Optic, Expanded Beam, Single-Mode, Ball Lens, Removable, Rear Release Socket, Size 16, Harsh Environment, General Specification

2022-06-13

CURRENT

AS8438/2

This slash sheet defines the design, performance, and interoperability requirements for fiber optic expanded beam, ball lens, single-mode socket termini installed in size 16 cavity connectors.

Standard

Terminus, Fiber Optic, Expanded Beam, Single-Mode, Ball Lens, Removable, Rear Release Pin, Size 16, Harsh Environment, General Specification

2022-06-09

CURRENT

AS8438/1

This slash sheet defines the design, performance, and interoperability requirements for fiber optic expanded beam, ball lens, single-mode pin termini installed in size 16 cavity connectors.

Standard

Splices, Fiber Optics, For Aerospace Inter-Connection Systems

2018-03-18

CURRENT

MA5405B

This specification covers design and performance requirements of fiber optic splices for optical distribution systems in aerospace vehicles and provides a means of procurement of such devices.

Standard

Splices, Fiber Optics, For Aerospace Inter-Connection Systems

2010-06-02

HISTORICAL

MA5405A

This specification covers design and performance requirements of fiber optic splices for optical distribution systems in aerospace vehicles and provides a means of procurement of such devices.

Standard

Splices, Fiber Optics, For Aerospace Inter-Connection Systems

2000-06-01

HISTORICAL

MA5405

This specification covers design and performance requirements of fiber optic splices for optical distribution systems in aerospace vehicles and provides a means of procurement of such devices.

Standard

Splicer, Fusion, Fiber Optic, Aerospace, Explosion-Proof (Type I)

2020-01-30

CURRENT

AS6479/1

This detail specification defines fiber optic fusion splicers acceptable for the installation and repair of a wide range of optical fibers and cables with virtually no insertion loss in hazardous environments (potentially flammable or explosive atmospheres, Type I), particularly aerospace applications. The requirements for acquiring the splicer described herein shall consist of this specification and the latest issue of AS6479.

Standard

Splicer, Fusion, Fiber Optic, Aerospace Non-Explosion-Proof (Type II)

2020-01-30

CURRENT

AS6479/2

This detail specification defines fiber optic fusion splicers acceptable for the installation and repair of a wide range of optical fibers and cables with virtually no insertion loss, particularly in aerospace applications, but not in flammable or explosive atmospheres (Type II). The requirements for acquiring the splicer described herein shall consist of this specification and the latest issue of AS6479.

Standard

Splice, Fiber Optic, Aerospace Inter-Connect, Graded Index 100/140/172 Cable Size

2000-06-01

HISTORICAL

MA5405/1

This specification includes detail requirements for a fiber optic splice tested in accordance with MA5405.

Standard

SPLICE, FIBER OPTIC, AEROSPACE INTER-CONNECT, GRADED INDEX 100/140/172 CABLE SIZE

2018-03-18

CURRENT

MA5405/1B

Standard

SPLICE, FIBER OPTIC, AEROSPACE INTER-CONNECT, GRADED INDEX 100/140/172 CABLE SIZE

2009-10-26

HISTORICAL

MA5405/1A

Standard

SPLICE, FIBER OPTIC, AEROSPACE INTER-CONNECT (MIL-PRF-29504 TERMINI)

2018-05-20

CURRENT

MA5405/2A

Standard

SPLICE, FIBER OPTIC, AEROSPACE INTER-CONNECT (MIL-PRF-29504 TERMINI)

2007-10-02

HISTORICAL

MA5405/2

Standard

Mechanical Splice, Fiber Optic, Crimp and Cleave, for Aerospace Simplex Cable

2018-09-07

CURRENT

AS5405/1

This specification includes detailed requirements for a fiber optic cable splice compliant with AS5405.

Standard

Fusion Splice for Aerospace Fiber Optic Cables

2021-07-23

CURRENT

AS6506/1

This specification includes detailed requirements for a fiber optic cable splice compliant with AS6506. Every requirement of the parent standard, AS6506, which applies to this detail specification is identified below by the word “applicable.” In any case in which a requirement of this specification varies from that of the parent standard, the alternate requirement is described. If a parent standard requirement does not apply, the words used are “not applicable.”

Standard

Fiber Optics Mechanization of a Digital Time Division Command/Response Multiplex Data Bus

2008-05-19

HISTORICAL

AS1773

This document defines requirements for digital, command/ response time division multiplexing (data bus) techniques for fiber optic implementation. The concept of operation and information flow on the multiplex data bus and the functional formats to be employed are also defined.

Standard

Fiber Optics Mechanization of a Digital Time Division Command/Response Multiplex Data Bus

2018-03-14

CURRENT

AS1773A

This document defines requirements for digital, command/ response time division multiplexing (data bus) techniques for fiber optic implementation. The concept of operation and information flow on the multiplex data bus and the functional formats to be employed are also defined.

Standard

Fiber Optic Sensor Specification Guidelines for Aerospace Applications

2018-12-17

CURRENT

ARP6366

ARP6366 defines a comprehensive and widely-accepted set of specification guidelines to be considered by those seeking to use or design fiber optic sensors for aerospace applications. Some of the most common applications for fiber optic sensing within aerospace include inertial guidance and navigation (gyros) and structural monitoring (temperature, strain, and vibration sensing). Common sensor infrastructure elements include: transmitting and receiving opto-electronics (e.g., sources and receivers); multiplexing and demultiplexing optics; optical cabling; and signal processing (both hardware and firmware/software).

Standard

Fiber Optic Harsh Environment Test Methods Cross Reference Document

2021-06-10

CURRENT

AIR6282A

This report provides cross reference matrices detailing current test methods used in the qualification processes of fiber optic connectors, termini and cables for aerospace, telecommunications, and naval applications. The cross-reference allows the end user to select the test methods most suitable for qualifying a component, or to identify alternative test methods where a specific test is not defined in a referenced document. The report also provides information on what area each type of referenced document has been developed for.

Standard

Fiber Optic Harsh Environment Test Methods Cross Reference Document

2015-06-12

HISTORICAL

AIR6282

This standard provides a cross reference detailing current test methods used in the qualification processes of fiber optic connectors, termini and cables for aerospace, telecommunications and naval applications. The cross-reference allows the end user to select the test methods most suitable for qualifying a component, or to identify alternative test methods where a specific test is not defined in a referenced document. The standard also provides information on what area each type of referenced document has been developed for.