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CURRENT
2016-10-30
Standard
AS6171/11
This method outlines the requirements, capabilities, and limitations associated with the application of Design Recovery for the detection of counterfeit electronic parts including: Operator training; Sample preparation; Imaging techniques; Data interpretation; Design/functional matching; Equipment maintenance and; Reporting of data. The method is primarily aimed at analyses performed by circuit delayering and imaging with a scanning electron microscope or optical microscope; however, many of the concepts are applicable to other microscope and probing techniques to recover design data. The method is not intended for the purpose of manufacturing copies of a device, but rather to compare images or recover the design for determination of authenticity. If AS6171/11 is invoked in the contract, the base document, AS6171 General Requirements shall also apply.
CURRENT
2016-10-30
Standard
AS6171/7
The scope of this document is to: Specify techniques to detect SC parts using electrical testing. Provide various levels of electrical testing that can be used by the User to define test plans for detecting SC parts. Provide minimum requirements for testing laboratories so that User/Requester can determine which test houses have the necessary capabilities. (For example: technical knowledge, equipment, procedures and protocols for performing electrical testing for verification analysis.) Note: User/Requester is defined in AS6171 General Requirements Specify Burn-In and environmental tests. The environmental tests include Temperature Cycling for Active Devices and Thermal Shock for Passive Devices. Seal Tests are described and recommended for hermetic devices. The following terminology is used throughout this document: Shall = is mandatory; Should = is recommended; and Will = is planned (is considered to be part of a standard process).
CURRENT
2016-10-30
Standard
AS6171/4
This method standardizes inspection, test procedures and minimum training and certification requirements to detect Suspect/Counterfeit (SC) Electrical, Electronic, and Electromechanical (EEE) components or parts utilizing Delid/Decapsulation Physical Analysis. The methods described in this document are employed to either delid or remove the cover from a hermetically sealed package or to remove the encapsulation or coating of an EEE part, in order to examine the internal structure and to determine if the part is suspect counterfeit. Information obtained from this inspection and analysis may be used to: prevent inclusion of counterfeit parts in the assembly identify defective parts aid in disposition of parts that exhibit anomalies This test method should not be confused with Destructive Physical Analysis as defined in MIL-STD-1580. MIL-STD-1580 describes destructive physical analysis procedures for inspection and interpretation of quality issues.
CURRENT
2016-10-30
Standard
AS6171
This SAE Aerospace Standard (AS) standardizes inspection and test procedures, workmanship criteria, and minimum training and certification requirements to detect Suspect/Counterfeit (SC) Electrical, Electronic, and Electromechanical (EEE) parts. The requirements of this document apply once a decision is made to use parts with unknown chain of custody that do not have pedigree back to the original component manufacturer, or have been acquired from a broker or independent distributor, or when there are other known risk elements that result in the User/Requester to have concerns about potential SC EEE parts. The tests specified by this standard may also detect occurrences of malicious tampering, although the current version of this standard is not designed specifically for this purpose. This standard ensures consistency across the supply chain for test techniques and requirements based on assessed risk associated with the application, component, supplier, and other relevant risk factors.
CURRENT
2016-10-30
Standard
AS6171/1
This document describes an assessment of the effectiveness of a specified test plan used to screen for counterfeit parts. The assessment includes the determination of the types of defects detected using a specified test plan along with the related counterfeit type coverage. The output of this evaluation will produce Counterfeit Defect Coverage (CDC), Counterfeit Type Coverage (CTC), Not-Covered Defects (NCDs), and Under-Covered Defects (UCDs). This information will be supplied to the test laboratory’s customer in both the test report and the Certificate of Quality Conformance (CoQC). This evaluation method does not address the effectiveness of detecting tampered type devices. The Test Evaluation Method also describes an Optimized Test Sequence Selection, in which a test sequence is selected that maximizes the CDC utilizing test cost and time as constraints, for any tier level except the Critical Risk Level. The constraints can be adjusted until the desired CDC is achieved.
CURRENT
2016-10-30
Standard
AS6171/5
The intent of this document is to define the methodology for suspect parts inspection using radiological inspection. The purpose of radiology for suspect counterfeit part inspection is to detect deliberate misrepresentation of a part, either at the part distributor or original equipment manufacturer (OEM) level. Radiological inspection can also potentially detect unintentional damage to the part resulting from improper removal of part from assemblies, which may include, but not limited to, prolonged elevated temperature exposure during desoldering operations or mechanical stresses during removal. Radiological inspection of electronics includes film radiography and filmless radiography such as digital radiography (DR), real time radiography (RTR), and computed tomography (CT). Radiology is an important tool used in part verification of microelectronic devices.
CURRENT
2016-10-30
Standard
AS6171/2
This document describes the requirements of the following test methods for counterfeit detection of electronic components: a. Method A: General External Visual Inspection (EVI), Sample Selection, and Handling b. Method B: Detailed EVI c. Method C: Testing for Remarking and Resurfacing d. Method D: Surface Texture Analysis by SEM NOTE: The scope of this document was focused on leaded electronic components, microcircuits, multi-chip modules (MCMs), and hybrids. Other electronic components may require evaluations not specified in this procedure. Where applicable this document can be used as a guide but additional inspections or criteria would need to be developed and documented to thoroughly evaluate these additional part types.
2016-10-27
WIP Standard
AMS3023B
This specification covers a trimethylol propane triheptanoate fluid (See 8.1) representative of gas turbine engine oils.

This fluid has been used typically to evaluate the ability of elastomeric and other polymeric materials to conform to designated requirements after contact with, or immersion in, Mil-L-7808 and similar lubricants at specified time and temperature as required by the material specification, and its use is limited to such applications. This fluid is not intended for operational use in gas turbine engines (See 8.1).

CURRENT
2016-10-27
Standard
AS6302A
This specification covers one type of fuel pressure transmitter designated MS28005-7.
2016-10-26
WIP Standard
AS6449C
This document establishes the requirements for a dry film lubricant AS6449 lubricant for use on breathing oxygen system and potable water system components, for a temperature range of -90 to +300 °F. This document also establishes the Non-Destructive Test (NDT) procedures and criteria for coated production parts. This document requires qualified products and product applicators.
CURRENT
2016-10-25
Standard
J1939/13_201610
SAE J1939-13 specifies the diagnostic connectors used for off-board connection to a vehicle’s SAE J1939 communication links. The defined diagnostic connectors support connection to the twisted shielded pair media (SAE J1939-11), the unshielded twisted pair (SAE J1939-15), the twisted pair of (SAE J1939-14), as well as the twisted unshielded quad media (ISO 11783-2).
2016-10-24
WIP Standard
AMS3218D
This specification covers a fluorocarbon (FKM) rubber in the form of sheet, strip, tubing, extrusions and molded shapes.
CURRENT
2016-10-21
Standard
AS21916F
2016-10-17
WIP Standard
AS7511
Assembled coupling for procurement specification AS6335.
2016-10-17
WIP Standard
AS7510
Develop a low pressure flexible coupling part specification to supersede AS5830 and part standards (4) to supersede AS5833, AS5837, AS5838, and AS5839. The new specification will continue to use AS5834, AS5835, and AS5836. AS5834 and AS5835 will need to change their qualification document to the new specification.
2016-10-17
WIP Standard
AS7515
Coupling body for procurement specification AS6335. Will supersede AS5835.
2016-10-17
WIP Standard
AS7514
New part standard is part of new AS flexible coupling specification (AS6335, G3A15-02).
2016-10-17
WIP Standard
AS7513
Male ferrule, swaged, for procurement specification AS6335 and will supersede AS5833.
2016-10-17
WIP Standard
AS7512
Coupling body for procurement specification AS6335.
2016-10-17
WIP Standard
AS7518
Female ferrule, butt welded, for procurement specification AS6335.
2016-10-17
WIP Standard
AS7517
Female ferrule, swaged, for procurement specification AS6335.
2016-10-17
WIP Standard
AS7516
Male ferrule, butt welded, for procurement specification AS6335.
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