Global Standards for the Microelectronics Industry
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Displaying 1 - 9 of 9 documents. Show5结果每个页面。
Title | Document # | Date |
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MOISTURE-INDUCED STRESS SENSITIVITY FOR PLASTIC SURFACE MOUNT DEVICES - SUPERSEDED BY J-STD-020A, April 1999.Status: Rescinded, May 2000 |
JESD22-A112-A | Nov 1995 |
J-STD-020 is now on revision D. Free download.Registrationorloginrequired. |
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FAILURE MECHANISMS AND MODELS FOR SEMICONDUCTOR DEVICES |
JEP122H | Sep 2016 |
This publication provides a list of failure mechanisms and their associated activation energies or acceleration factors that may be used in making system failure rate estimations when the only available data is based on tests performed at accelerated stress test conditions. The method to be used is the Sum-of-the-Failure-Rates method. This publication also provides guidance in the selection of reliability modeling parameters, namely functional form, apparent thermal activation energy values and sensitivity to stresses such as power supply voltage, substrate current, current density, gate voltage, relative humidity, temperature cycling range, mobile ion concentration, etc. Committee(s):JC-14.2 Available for purchase:$163.00 Add to Cart Paying JEDEC Members mayloginfor free access. |
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Part Model Electrical Guidelines for Electronic-Device Packages – XML Requirements |
JEP30-E100A | Mar 2023 |
This standard establishes the requirements for exchanging part data between part manufacturers and their customers for electrical and electronic products. This standard applies to all forms of electronic parts. It forms part of the Part Model XML Schema, which covers the parental structure for the electrical, physical, Electrical, assembly process classification data along with materials and substances that may be present in the supplied product or subproducts. This Guideline specifically focuses on the “Electrical” sub-section of the Part Model. For more information visit the mainJEP30 webpage. Committee(s):JC-11,JC-11.2,JC-16 Free download.Registrationorloginrequired. |
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RECOMMENDED ESD-CDM TARGET LEVELS |
JEP157A | Apr 2022 |
This document was written with the intent to provide information for quality organizations in both semiconductor companies and their customers to assess and make decisions on safe ESD CDM level requirements. Free download.Registrationorloginrequired. |
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Part Model Guidelines for Electronic-Device Packages – XML Requirements |
JEP30A | Mar 2023 |
This standard establishes the requirements for exchanging part data between part manufacturers and their customers for electrical and electronic products. This standard applies to all forms of electronic parts. It covers several sub-sections such as electrical, physical, thermal, assembly process classification data along with materials and substances that may be present in the supplied product or sub-products. This Guideline specifically focuses on the parental structure, under which several sub-section listed above, can be contained and linked together within the Part Model parent structure. For more information visit the mainJEP30 webpage. Free download.Registrationorloginrequired. |
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DISCONTINUING USE OF THE MACHINE MODEL FOR DEVICE ESD QUALIFICATIONStatus: ReaffirmedSeptember 2020 |
JEP172A | Jul 2015 |
Over the last several decades the so called "machine model" (aka MM) and its application to the required ESD component qualification has been grossly misunderstood. The scope of this JEDEC document is to present evidence to discontinue use of this particular model stress test without incurring any reduction in the IC component's ESD reliability for manufacturing. In this regard, the document's purpose is to provide the necessary technical arguments for strongly recommending no further use of this model for IC qualification. The published document should be used as a reference to propagate this message throughout the industry. Committee(s):JC-14.3 Free download.Registrationorloginrequired. |
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PART MODEL GUIDELINES FOR ELECTRONIC-DEVICE PACKAGES – XML REQUIREMENTS |
JEP30 | Feb 2018 |
JEP30 has been superseded and is provided here for reference only. For more information, visit theJEP30 webpage.This standard establishes the requirements for exchanging part data between part manufacturers and their customers for electrical and electronic products. This standard applies to all forms of electronic parts. It covers several sub-sections such as electrical, physical, thermal, assembly process classification data along with materials and substances that may be present in the supplied product or sub-products. This Guideline specifically focuses on the parental structure, under which several sub-section listed above, can be contained and linked together within the Part Model parent structure. Committee(s):JC-11.2 Free download.Registrationorloginrequired. |
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SYSTEM LEVEL ESD: PART II: IMPLEMENTATION OF EFFECTIVE ESD ROBUST DESIGNSThis is an editorial revision, details can be found in Annex F. |
JEP162A.01 | Jan 2021 |
这个文档,建立复杂nature of System Level ESD, proposes that an efficient ESD design can only be achieved when the interaction of the various components under ESD conditions are analyzed at the system level. This objective requires an appropriate characterization of the components and a methodology to assess the entire system using simulation data. This is applicable to system failures of different categories (such as hard, soft, and electromagnetic interference (EMI)). This type of systematic approach is long overdue and represents an advanced design approach which replaces the misconception, as discussed in detail in JEP161, that a system will be sufficiently robust if all components exceed a certain ESD level. Free download.Registrationorloginrequired. |
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UNDERSTANDING ELECTRICAL OVERSTRESS - EOSStatus: ReaffirmedMay 2022 |
JEP174 | Sep 2016 |
This purpose of this white paper will be to introduce a new perspective about EOS to the electronics industry. As failures exhibiting EOS damage are commonly experienced in the industry, and these severe overstress events are a factor in the damage of many products, the intent of the white paper is to clarify what EOS really is and how it can be mitigated once it is properly comprehended. Committee(s):JC-14.3 Free download.Registrationorloginrequired. |