Global Standards for the Microelectronics Industry
Standards & Documents Search
Title | Document # | Date |
---|---|---|
HIGH TEMPERATURE CONTINUITYStatus: Rescinded November 1999 |
JESD22-C100-A | Jan 1990 |
Committee(s): JC-14.1 |
||
EVALUATION PROCEDURE FOR DETERMINING CAPABILITY TO BOTTOM SIDE BOARD ATTACH BY FULL BODY SOLDER IMMERSION OF SMALL SURFACE MOUNT SOLID STATE DEVICES |
JESD22-A111B | Mar 2018 |
The purpose of this test method is to identify the potential wave solder classification level of small plastic Surface Mount Devices (SMDs) that are sensitive to moisture-induced stress so that they can be properly packaged, stored, and handled to avoid subsequent mechanical damage during the assembly wave solder attachment and/or repair operations. This test method also provides a reliability preconditioning sequence for small SMDs that are wave soldered using full body immersion. This test method, may be used by users to determine what classification level should be used for initial board level reliability qualification. Free download. Registration or login required. |
||
JOINT IPC/JEDEC Standard for Acoustic Microscopy for Non-Hermetic Encapsulated Electronic Devices |
J-STD-035A | Dec 2022 |
This method provides users with an acoustic microscopy process flow for detecting anomalies (delaminations, cracks, mold compound voids, etc.) nondestructively in encapsulated electronic devices while achieving reproducibility. Free download. Registration or login required. |
||
MARKING PERMANENCYStatus: Reaffirmed August 2024 |
JESD22-B107D | Mar 2011 |
This test method provides two tests for determining the marking permanency of ink marked integrated circuits. A new non-destructive tape test method is introduced to quickly determine marking integrity. The test method also specifies a resistance to solvents method based upon MIL Std 883 Method 2015. Free download. Registration or login required. |
||
POWER AND TEMPERATURE CYCLING |
JESD22-A105D | Jan 2020 |
The power and temperature cycling test is performed to determine the ability of a device to withstand alternate exposures at high and low temperature extremes and simultaneously the operating biases are periodically applied and removed. It is intended to simulate worst case conditions encountered in application environments. The power and temperature cycling test is considered destructive and is only intended for device qualification. This test method applies to semiconductor devices that are subjected to temperature excursions and required to power on and off during all temperatures. Free download. Registration or login required. |
||
METHOD FOR DEVELOPING ACCELERATION MODELS FOR ELECTRONIC DEVICE FAILURE MECHANISMS |
JESD91B | Mar 2022 |
The method described in this document applies to all reliability mechanisms associated with electronic devices. The purpose of this standard is to provide a reference for developing acceleration models for defect-related and wear-out mechanisms in electronic devices. Committee(s): JC-14.3 Free download. Registration or login required. |
||
MARK LEGIBILITY |
JESD22-B114B | Jan 2020 |
This standard describes a nondestructive test to assess solid state device mark legibility. The specification applies only to solid state devices that contain markings, regardless of the marking method. It does not define what devices must be marked or the method in which the device is marked, i.e., ink, laser, etc. The standard is limited in scope to the legibility requirements of solid state devices, and does not replace related reference documents listed in this standard. Committee(s): JC-14.1 Free download. Registration or login required. |
||
3D CHIP STACK WITH THROUGH-SILICON VIAS (TSVS): Identifying, Evaluating and Understanding Reliability Interactions |
JEP158 | Nov 2009 |
To increase device bandwidth, reduce power and shrink form factor, microelectronics manufacturers are implementing three dimensional (3D) chip stacking using through silicon vias (TSVs). Chip stacking with TSVs combines silicon and packaging technologies. As a result, these new structures have unique reliability requirements. This document is a guideline that describes how to evaluate the reliability of 3D TSV silicon assemblies. Free download. Registration or login required. |
||
LEAD INTEGRITYStatus: Reaffirmed - May 2023 |
JESD22-B105E | Feb 2017 |
This test method provides various tests for determining the integrity lead/package interface and the lead itself when the lead(s) are bent due to faulty board assembly followed by rework of the part for reassembly. For hermetic packages it is recommend that this test be followed by hermeticity tests in accordance with Test Method A109 to determine if there are any adverse effects from the stresses applied to the seals as well as to the leads. These tests, including each of its test conditions, is considered destructive and is only recommended for qualification testing. This test is applicable to all through-hole devices and surface-mount devices requiring lead forming by the user. Free download. Registration or login required. |
||
THERMAL SHOCK |
JESD22-A106B.02 | Jan 2023 |
This test is conducted to determine the robustness of a device to sudden exposure to extreme changes in temperature and to the effect of alternate exposures to these extremes. Free download. Registration or login required. |
||
CUSTOMER NOTIFICATION OF PRODUCT/PROCESS CHANGES BY SOLID-STATE SUPPLIERSStatus: SupersededBy J-STD-046, July 2016 |
JESD46D | Dec 2011 |
This standard establishes procedures to notify customers of semiconductor product and process changes. Requirements include: documentation; procedures for classification, notification and customer response; content; and records. Documentation of a suppliers change notification system should set clear and understandable expectations for both the originators of the change and their end customers. |
||
POTENTIAL FAILURE MODE AND EFFECTS ANALYSIS (FMEA) |
JEP131C | Aug 2018 |
This publication applies to electronic components and subassemblies product and or process development, manufacturing processes and the associated performance requirements in customer applications. These areas should include, but are not limited to: package design, chip design, process development, assembly, fabrication, manufacturing, materials, quality, service, and suppliers, as well as the process requirements needed for the next assembly. Committee(s): JC-14.4 Free download. Registration or login required. |
||
TEST METHOD FOR ALPHA SOURCE ACCELERATED SOFT ERROR RATE |
JESD89-2B | Jul 2021 |
This test method is offered as standardized procedure to determine the alpha particle Soft Error Rate (SER) sensitivity of solid state volatile memory arrays and bistable logic elements (e.g. flipflops) by measuring the error rate while the device is irradiated by a characterized, solid alph source. Free download. Registration or login required. |
||
TEST METHOD FOR BEAM ACCELERATED SOFT ERROR RATE |
JESD89-3B | Sep 2021 |
This test is used to determine the terrestrial cosmic ray Soft Error Rate (SER) sensitivity of solid state volatile memory arrays and bistable logic elements (e.g., flip-flops) by measuring the error rate while the device is irradiated in a neutron or proton beam of known flux. The results of this accelerated test can be used to estimate the terrestrial cosmic ray induced SER for a given terrestrial cosmic ray radiation environment. This test cannot be used to project alpha-particle induced SER. Committee(s): JC-14.1 Free download. Registration or login required. |
||
TEST METHOD FOR REAL-TIME SOFT ERROR RATE |
JESD89-1B | Jul 2021 |
This test is used to determine the Soft Error Rate (SER) of solid state volatile memory arrays and bistable logic elements (e.g. flip-flops) for errors which require no more than re-reading or re-writing to correct and as used in terrestrial environments. It simulates the operating condition of the device and is used for qualification, characterization, or reliability monitoring. This test is intended for execution in ambient conditions without the artificial introduction of radiation sources. Free download. Registration or login required. |
||
DEVICE QUALITY PROBLEM ANALYSIS AND CORRECTIVE ACTION RESOLUTION METHODOLOGY |
JESD671D | Oct 2018 |
This standard addresses any Customer-initiated device problem analysis/corrective action request and Supplier/Authorized Distributor-identified device nonconformance to specification which may impact the Customer. This standard establishes a common set of Customer, Authorized Distributor and Supplier expectations and requirements that will help to facilitate successful problem analysis and corrective action of device problems, including administrative quality problems, which may affect the Customer. Formerly known as EIA-671 (November 1996). Became JESD671-A after revision, December 1999. Committee(s): JC-14.4 Free download. Registration or login required. |
||
SOLID STATE RELIABILITY ASSESSMENT QUALIFICATION METHODOLOGIES |
JEP143D | Jan 2019 |
The purpose of this publication is to provide an overview of some of the most commonly used systems and test methods historically performed by manufacturers to assess and qualify the reliability of solid state products. The appropriate references to existing and proposed JEDEC (or EIA) standards and publications are cited. This document is also intended to provide an educational background and overview of some of the technical and economic factors associated with assessing and qualifying microcircuit reliability. Free download. Registration or login required. |
||
IPC/JEDEC-9704A: PRINTED WIRING BOARD (PWB) STRAIN GAGE TEST GUIDELINE |
JS9704A | Jan 2012 |
This document describes specific guidelines for strain gage testing for Printed Wiring Board (PWB)assemblies. The suggested procedures enables board manufacturers to conduct required strain gage testing independently, and provides a quantitative method for measuring board flexure, and assessing risk levels. The topics covered include: Test setup and equipment; requirements; Strain measurement; Report format Free download. Registration or login required. |
||
BOARD LEVEL CYCLIC BEND TEST METHOD FOR INTERCONNECT RELIABILITY CHARACTERIZATION OF SMT ICs FOR HANDHELD ELECTRONIC PRODUCTS |
JESD22-B113B | Aug 2018 |
The Board Level Cyclic Bend Test Method is intended to evaluate and compare the performance of surface mount electronic components in an accelerated test environment for handheld electronic products applications. The purpose is to standardize the test methodology to provide a reproducible performance assessment of surface mounted components while duplicating the failure modes normally observed during product level test. This is not a component qualification test and is not meant to replace any product level test that may be needed to qualify a specific product and assembly. Free download. Registration or login required. |
||
LONG-TERM STORAGE GUIDELINES FOR ELECTRONIC SOLID-STATE WAFERS, DICE, AND DEVICES |
JEP160A | Aug 2022 |
This publication examines the LTS requirements of wafers, dice, and packaged solid-state devices. The user should evaluate and choose the best practices to ensure their product will maintain as-received device integrity and minimize age- and storage-related degradation effects. Free download. Registration or login required. |