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Standard

UPPER FREQUENCY MEASUREMENT BOUNDARY FOR EVALUATION OF SHIELDING EFFECTIVENESS IN CYLINDRICAL SYSTEMS

1986-01-01

HISTORICAL

AIR1700

Standard

Upper Frequency Measurement Boundary for Evaluation of Shielding Effectiveness in Cylindrical Systems

2020-01-30

CURRENT

AIR1700A

This AIR points out that above a frequency called the “transition frequency,” variances associated with the shielding effectiveness measurements can become large. It includes the derivations to demonstrate this. This fact should be taken into account when designing shielding for use above the transition frequency.

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

COAXIAL TEST PROCEDURE TO MEASURE THE RF SHIELDING CHARACTERISTICS OF EMI GASKET MATERIALS

1991-12-01

HISTORICAL

ARP1705

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

In-House Verification of EMI Test Equipment

2015-12-13

HISTORICAL

AIR6236

This AIR provides guidance to the EMI test facility on how to check performance of the following types of EMI test equipment: Current probe Line Impedance Stabilization Network (LISN) Directional coupler Attenuator Cable loss Low noise preamplifier Rod antenna base Passive antennas All performance checks can be performed without software. A computer may be required to generate an electronic or hard copy of data. This is not to say that custom software might not be helpful; just that the procedures documented herein specifically eschew the necessity of automated operation.

Standard

In-House Verification of EMI Test Equipment

2022-06-24

CURRENT

AIR6236A

This AIR provides guidance to the EMI test facility on how to check performance of the following types of EMI test equipment: Current probe Line Impedance Stabilization Network (LISN) Directional coupler Attenuator Cable loss Low noise preamplifier Rod antenna base Passive antennas All performance checks can be performed without software. A computer may be required to generate an electronic or hard copy of data. This is not to say that custom software might not be helpful; just that the procedures documented herein specifically eschew the necessity of automated operation.

Standard

Recommended Measurement Practices and Procedures for EMC Testing

2012-08-10

CURRENT

ARP1972A

Standard

Recommended Measurement Practices and Procedures for EMC Testing

2003-09-09

HISTORICAL

ARP1972

Standard

Recommended Insertion Loss Test Methods for EMI Power Line Filters

2004-08-18

HISTORICAL

ARP4244

This document presents standard methods to evaluate the common mode and differential mode insertion loss of passive electromagnetic interference power line filters from 10 kHz through 10 GHz. Insertion loss test methods for both quality assurance and performance prediction purposes are described. The performance prediction tests are selected to more closely approximate operating impedances. They are not intended to be inclusive or to represent worst case conditions. However, the methodology of this document can be used to determine the performance in an arbitrary impedance circuit.

Standard

Recommended Insertion Loss Test Methods for EMI Power Line Filters

2012-08-10

CURRENT

ARP4244A

This document presents standard methods to evaluate the common mode and differential mode insertion loss of passive electromagnetic interference power line filters from 10 kHz through 10 GHz. Insertion loss test methods for both quality assurance and performance prediction purposes are described. The performance prediction tests are selected to more closely approximate operating impedances. They are not intended to be inclusive or to represent worst case conditions. However, the methodology of this document can be used to determine the performance in an arbitrary impedance circuit.

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

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

Cabling Guidelines for Electromagnetic Compatibility

2009-11-22

CURRENT

AIR1394A

These cable practice recommendations tend toward design guidance rather than standardization. EMC achievement tests can be standardized, but the means for achievement should not be constrained. The material can best be described as an essay on cabling, and the theme is that a cable is just a part of a complete circuit, the interconnect circuit. Cable EMC performance is thus determined largely by circuit design; it is unrealistic to expect cabling techniques to compensate for improper impedance, symmetry or waveform in the circuit.

Standard

CABLING GUIDELINES FOR ELECTROMAGNETIC COMPATIBILITY

1991-12-01

HISTORICAL

AIR1394

Standard

Alternative (Ecological) Method for Measuring Electronic Product Immunity to External Electromagnetic Fields

2023-03-20

CURRENT

ARP5889A

This method is used to define the immunity of electric and electronic apparatus and equipment (products) to radiated electromagnetic (EM) energy. This method is based on injecting the calibrated radio frequency currents (voltages) into external conductors and/or internal circuits of the product under test, measuring the strength of the EM field generated by this product and evaluating its immunity to the external EM field on the basis of the data obtained. The method can be utilized only when it is physically possible to connect the injector to the conductors and/or circuits mentioned before.

Standard

Electromagnetic Interference Measurement Impulse Generators; Standard Calibration Requirements and Techniques

2013-02-24

HISTORICAL

ARP1267

This Aerospace Recommended Practice (ARP) describes a standard method and means for measuring or calibrating the "Spectrum Amplitude" output of an impulse generator.