Search Results

Standard

Wiring Aerospace Vehicle

2000-04-01

HISTORICAL

AS50881A

This specification covers all aspects from the selection through installation of wiring and wiring devices used in aerospace vehicles. Aerospace vehicles include airplanes, helicopters, lighter-than-air vehicles, and missiles.

Standard

Wiring Aerospace Vehicle

2003-08-06

HISTORICAL

AS50881B

This specification covers all aspects from the selection through installation of wiring and wiring devices used in aerospace vehicles. Aerospace vehicles include airplanes, helicopters, lighter-than-air vehicles, and missiles.

Standard

WIRING, AEROSPACE VEHICLE

1998-04-01

HISTORICAL

AS4897A

This specification covers all aspects from the selection through installation of wiring and wiring devices used in aerospace vehicles. Aerospace vehicles include airplanes, helicopters, lighter-than-air vehicles, and missiles.

Standard

WIRING, AEROSPACE VEHICLE

1998-04-01

HISTORICAL

AS50881

This specification covers all aspects from the selection through installation of wiring and wiring devices used in aerospace vehicles. Aerospace vehicles include airplanes, helicopters, lighter-than-air vehicles, and missiles.

Standard

WIRING HARNESS – EXTERNAL POWER, 115 VOLT AC, SINGLE PHASE

2009-09-03

HISTORICAL

AS24122

Standard

Ultraviolet (UV) Laser Marking Performance of Aerospace Wire Constructions

2015-12-20

HISTORICAL

AIR5558

The purpose of this report is to provide information on the results of ultra violet (UV) laser marking and mark contrast measurement of a wide range of aerospace wire and cable constructions, the specifications for most of which do not state specific requirements for laser markability. The contents of this document are for information and guidance only. It is not intended that it be used as the basis for marking process specifications or standards, which are covered by AS5649 Wire and Cable Marking Process, UV Laser.

Standard

Transmission Lines, Transverse Electromagnetic Mode

2004-05-25

HISTORICAL

ARP81490

This document covers the general requirements for Transverse Electromagnetic Mode (TEM) Transmission Lines (see 6.4.14) intended for use in airborne systems.

Standard

Transmission Lines, Transverse Electromagnetic Mode

2020-10-30

CURRENT

ARP81490B

This document covers the general recommendations for Transverse Electromagnetic Mode (TEM) Transmission Lines intended for use in airborne systems (see 6.2.14). For U.S military applications, TEM Transmission Lines shall meet the requirements in accordance with MIL-T-81490. The follow index lists the recommended requirements and methods covered by the Aerospace Recommended Practice (ARP):

Standard

PLUGS AND CABLE ASSEMBLIES, EXTERNAL POWER, AIRCRAFT, 230/400 VOLT, 400 HERTZ

2016-09-12

CURRENT

AS21378A

Standard

PLUGS AND CABLE ASSEMBLIES, EXTERNAL POWER, AIRCRAFT, 230/400 VOLT, 400 HERTZ

2009-09-03

HISTORICAL

AS21378

Standard

Mitigating Wire Insulation Damage During Processing and Handling

2019-12-27

CURRENT

AIR5717

Wire and cable products progress through a series of handling or operational steps from the time they leave the manufacturer, and until a finished harness or assembly is ready for installation on a vehicle. Throughout these many steps, environmental or processing conditions may be present which can generate damage detrimental to the wire or cable and/or its intended application.

Standard

Marking of Electrical Insulating Materials

1998-07-01

HISTORICAL

AS81531

This specification establishes performance requirements for markings that have been applied to electrical insulating materials (see 6.1).

Standard

Legibility of Print on Aerospace Wires and Cables

2021-01-12

CURRENT

ARP5607B

The purpose of this SAE Aerospace Recommended Practice (ARP) is to provide recommendations for marking wire and cable insulations to meet legibility requirements. This information is generic and applies to any type of wire marking system, such as an ultraviolet (UV) laser marking system or an inkjet or other ink based wire marking system. This ARP is limited to the legibility of human-readable characters and does not address bar code or other machine-readable symbols. In this ARP, the term wire refers to jacketed cables and fiber optic cables in addition to individual wires. This ARP defines the factors that affect the legibility of markings on wiring. Two generic types of variables affect legibility: stimulus variables and environmental variables. Stimulus variables are those factors involving the mark itself.

Standard

HUBS, CONDUIT CONNECTION, STANDARD DIMENSIONS

2020-07-14

HISTORICAL

AS10051A

Standard

HUBS, CONDUIT CONNECTION, STANDARD DIMENSIONS

2023-05-22

CURRENT

AS10051B

Standard

FERRULE, FLEXIBLE CONDUIT, RADIO FREQUENCY SHIELDING

2021-11-16

CURRENT

AS25065B

Standard

FERRULE, FLEXIBLE CONDUIT, RADIO FREQUENCY SHIELDING

2016-11-11

HISTORICAL

AS25065A

Standard

EWIS Wiring Insulation Breakdown Testing

2022-09-30

CURRENT

ARP6216

This SAE Aerospace Recommended Practice (ARP) identifies the minimum requirements for the testing of insulated electrical wiring for on-aircraft, aeronautical and aerospace applications. The testing requirements defined herein, ensure that a wire fault can be found safely when using a high potential voltage tester (hipot). This test is intended to aid in finding a breach in the wire insulation, and not for the identification of the resistance of the insulation. The test method defined herein is limited to equipment which ia able to control and limit the DC output to 1500 VDC maximum. This type of wire dielectric tester is typically designed to trip on current leakage and not necessarily on arc detection. This test method is solely designed to identify gross/large wire insulation damage or degradation. For additional related information on this topic and related test methods, refer to the documents cited in Section 2.

Standard

Development, Verification, and Validation of a Thermal Model for Determining Current Derating Design Limits of Aerospace Wires and Wire Bundles

2021-08-18

CURRENT

ARP7987

The thermal modeling guidelines and best practices provided in this document are applicable to powered aerospace vehicle wires and wire bundles in thermal environments ranging from -65 to +260 °C (-85 to +500 °F) and pressures ranging from sea level to space vacuum. Currently the ARP only considers steady state and direct current conditions. The effects of wiring terminations and connectors are not addressed. Both can significantly impact the overall current derating and safety margins for a wiring system.

Standard

Design and Handling Guide Radio Frequency Absorptive Type Wire and Cables (Filter Line, MIL-C-85485)

2012-12-11

HISTORICAL

AIR4465

This document presents design and application information which will allow optimized utilization of filter line wire and cable purchased to MIL-C-85485. Filter line wire is defined and design information is presented. The electrical and mechanical performance characteristics of the wire along with recommended harnessing methods and techniques are also presented.