Standard
COAXIAL TEST PROCEDURE TO MEASURE THE RF SHIELDING CHARACTERISTICS OF EMI GASKET MATERIALS
1991-12-01
HISTORICAL
ARP1705
Search Results
Standard
CORROSION CONTROL AND ELECTRICAL CONDUCTIVITY IN ENCLOSURE DESIGN
1991-12-26
HISTORICAL
ARP1481
Standard
Coaxial Test Procedure to Measure the RF Shielding Characteristics of EMI Gasket Materials
2006-04-20
HISTORICAL
ARP1705A
The purpose of this procedure is to establish a technique for reliably and repeatedly measuring the RF shielding characteristics of EMI gasket materials and EMI gaskets against various joint surfaces. The procedure is also used to test the reliability of the gasketed joint combinations after being subjected to hostile environments.
Standard
Coaxial Test Procedure to Measure the RF Shielding Characteristics of EMI Gasket Materials
2012-06-14
HISTORICAL
ARP1705B
The purpose of this procedure is to establish a technique for reliably and repeatedly measuring the RF shielding characteristics of EMI gasket materials and EMI gaskets against various joint surfaces. The procedure is also used to test the reliability of the gasketed joint combinations after being subjected to hostile environments.
Standard
Coaxial Test Procedure to Measure the RF Shielding Characteristics of EMI Gasket Materials
2022-06-24
CURRENT
ARP1705C
The purpose of this procedure is to establish a technique for reliably and repeatedly measuring the RF shielding characteristics of EMI gasket materials and EMI gaskets against various joint surfaces. The procedure is also used to test the reliability of the gasketed joint combinations after being subjected to hostile environments.
Standard
Corrosion Control and Electrical Conductivity in Enclosure Design
2024-02-27
CURRENT
ARP1481B
Corrosion control is always of concern to the designer of electronic enclosures. The use of EMI gaskets to provide shielding often creates requirements that are in conflict with ideal corrosion control. This SAE Aerospace Recommended Practice (ARP) presents a compatibility table (see Figure 1) which has as its objective a listing of metallic couples that are compatible from a corrosion aspect and which still maintain a low contact impedance.
Standard
Corrosion Control and Electrical Conductivity in Enclosure Design
2004-08-18
HISTORICAL
ARP1481A
Corrosion control is always of concern to the designer of electronic enclosures. The use of EMI gaskets to provide shielding often creates requirements that are in conflict with ideal corrosion control. This SAE Aerospace Recommended Practice (ARP) presents a compatibility table (see Figure 1) which has as its objective a listing of metallic couples that are compatible from a corrosion aspect and which still maintain a low contact impedance.
Standard
DC Resistivity vs RF Impedance of EMI Gaskets
2020-01-30
CURRENT
AIR1404
This AIR discusses the DC resistivity property of EMI gaskets.
Standard
Electromagnetic Compatibility (EMC) System Design Checklist
2013-02-24
HISTORICAL
AIR1221
This checklist is to be used by project personnel to assure that factors required for adequate system electromagnetic compatibility are considered and incorporated into a program. It provides a ready reference of EMC management and documentation requirements for a particular program from preproposal thru acquisition. When considered with individual equipments comprising the system and the electromagnetic operational environment in which the system will operate, the checklist will aid in the preparation of an EMC analysis. The analysis will facilitate the development of system-dependent EMC criteria and detailed system, subsystem, and equipment design requirements ensuring electromagnetic compatibility.
Standard
FILTERS, CONVENTIONAL, ELECTROMAGNETIC INTERFERENCE REDUCTION GENERAL SPECIFICATION FOR
1972-05-01
HISTORICAL
ARP1172
This specification covers the general requirements for conventional AC and/or DC current carrying filter networks for the reduction of electromagnetic interference. A conventional filter is defined herein as a component containing definitive, lumped, R-L-C components and not employing distributed parameters as a required characteristic.
Standard
FLIGHT LINE GROUNDING AND BONDING OF AIRCRAFT
1986-07-07
HISTORICAL
ARP4043
Standard
Filters, Conventional, Electromagnetic Interference Reduction General Specification For
2023-09-18
CURRENT
ARP1172A
This specification covers the general requirements for conventional AC and/or DC current carrying filter networks for the reduction of electromagnetic interference. A conventional filter is defined herein as a component containing definitive, lumped, R-L-C components and not employing distributed parameters as a required characteristic.
Standard
Flight Line Grounding and Bonding of Aircraft
1999-01-01
HISTORICAL
ARP4043A
This ARP provides the rationale and theory of charges being present on aircraft while on the ground. The necessary implementation of safety practices are explained and defined.
Standard
Shields, Protective, Aircraft and Missiles
1999-04-01
HISTORICAL
AS6451
This specification covers protective shields for engine and tailpipe openings of aircraft and missiles.
Standard
Shields, Protective, Aircraft and Missiles
2013-03-25
CURRENT
AS6451A
This specification covers protective shields for engine and tailpipe openings of aircraft and missiles.
Standard
Stripline Test Method to Characterize the Shielding Effectiveness of Conductive EMI Gaskets up to 40 GHz
2022-01-21
CURRENT
ARP6248
The purpose of this procedure is to establish a technique for reliably and repeatedly measuring the RF shielding characteristics of EMI conductive gasket materials and EMI conductive gaskets. Depending on the materials used for the construction of the measuring setup, the EMI conductive gaskets can be characterized against various joint surfaces. This standard will directly provide shielding effectiveness values up to 40 GHz, and will also be applicable for small samples of conductive EMI gaskets.
Standard
Test Procedure to Measure the R.F. Shielding Characteristics of E.M.I. Gaskets
2013-03-25
CURRENT
ARP1173A
Standard
Test Procedure to Measure the R.F. Shielding Characteristics of E.M.I. Gaskets
2004-08-18
HISTORICAL
ARP1173
