共找到 1126 条与 电子元器件综合 相关的标准,共 76 页
Electric components - Reliability - Reference conditions for failure rates and stress models for conversion (IEC 61709:2011); German version EN 61709:2011, Corrigendum to DIN EN 61709:2012-01
This International Standard applies to cylindrical capacitors and resistors for use in electronic equipment. This standard gives methods for measurement of the body length and for checking the excessive protective coating extending onto the wire terminations of components with axial wire terminations. It further provides a method for checking the overall body diameter of cylindrical components with axial wire terminations. NOTE A measuring method for components with unidirectional terminations is given in IEC 60717.
Measurement of the dimensions of a cylindrical component with axial terminations
This document provides a framework for electronics equipment reliability standards, and establishes a reliability Community of Practice. It addresses the limitations of existing prediction practices with a series of subsidiary specifications that contain the 'best practices' within industry for performing electronics reliability analysis. The development of VITA 51.0 and the subsidiary specifications is an effort to give harmony, consistency and repeatability to reliability practices.
Reliability Prediction
Electric components - Reliability - Reference conditions for failure rates and stress models for conversion (IEC 61709:2011); German version EN 61709:2011
Specifies the minimum derating requirements for using electronic components in moderately severe environments. This Standard is intended to supersede the derating limits contained in DPSO SD-18, Naval Standard TE000, and Air Force ESD-TR-85-148. Standard is not intended for space applications, which have their own pre-existing standards.
Derating of Electronic Components
IEEE Standard Reliability Program for the Development and Production of Electronic Products
이 표준은 전기 시스템의 모든 구성 요소의 특징적 속성을 기본 구성 요소부터 하위 부품,
Standard data elements types with associated classification schemenfor electric items-Part 1:Definitions-Principles and methods
Standard data elements types with associated classification schemenfor electric items-Part 1:Definitions-Principles and methods
Standard data elements types with associated classification schemenfor electric items-Part 1:Definitions-Principles and methods
Standard data element types with associated classification scheme for electric components-Part 2:EXPRESS dictionary schema
이 표준은 두 개의 기본 표준인 KS C IEC 61360-1과 KS B ISO 13584
Standard data element types with associated classification scheme for electric components-Part 2:EXPRESS dictionary schema
Standard data element types with associated classification scheme for electric components-Part 2:EXPRESS dictionary schema
Electro-hydraulic valve actuator
Electric components - Reliability - Reference conditions for failure rates and stress models for conversion (IEC 61709:2011)
This International Standard gives guidance on how failure rate data can be employed for reliability prediction of electric components in equipment.Reference conditions are numerical values of stresses that are typically observed by components in the majority of applications. Reference conditions are useful since they are the basis of the calculation of failure rate under any conditions by the application of stress models that take into account the actual operating conditions. Failure rates stated at reference conditions allow realistic reliability predictions to be made in the early design phase. The stress models described herein are generic and can be use
Electric components - Reliability - Reference conditions for failure rates and stress models for conversion
Electric components - Reliability - Reference conditions for failure rates and stress models for conversion.
Electric components. Reliability. Reference conditions for failure rates and stress models for conversion
Core model of the electronics domain
This International Standard gives guidance on how failure rate data can be employed for reliability prediction of electric components in equipment. Reference conditions are numerical values of stresses that are typically observed by components in the majority of applications. Reference conditions are useful since they are the basis of the calculation of failure rate under any conditions by the application of stress models that take into account the actual operating conditions. Failure rates stated at reference conditions allow realistic reliability predictions to be made in the early design phase. The stress models described herein are generic and can be used as a basis for conversion of the failure rate data at these reference conditions to actual operating conditions when needed and this simplifies the prediction approach. Conversion of failure rate data is only permissible within the specified functional limits of the components. This standard also gives guidance on how a database of component failure data can be constructed to provide failure rates that can be used with the included stress models. Reference conditions for failure rate data are specified@ so that data from different sources can be compared on a uniform basis. If failure rate data are given in accordance with this International Standard then no additional information on the specified conditions is required. This standard does not provide base failure rates for components ?C rather it provides models that allow failure rates obtained by other means to be converted from one operating condition to another operating condition. The prediction methodology described in this standard assumes that the parts are being used within its useful life. The methods in this standard have a general application but are specifically applied to a selection of component types as defined in Clause 6 and Clause E.2.
Electric components - Reliability - Reference conditions for failure rates and stress models for conversion
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