Translation - Japanese: 電気的オーバーストレス（EOS）のレビューとFAQ - KBA225846 - Community Translated (JA)
Electrical Over-Stress (EOS) is a term/acronym used to describe the thermal damage that may occur when an electronic device is subjected to a current or voltage that is beyond the specification limits of the device.
An EOS event can be a momentary event lasting only milliseconds or can last as long as the conditions persist. EOS can be the result of a single non-recurring event or the result of ongoing periodic or non-periodic events.
ESD and EOS are related types of over-stress events but at opposite ends of a continuum of current/voltage/time stress conditions.
Latch-up occurs when the device reaches a threshold (current and voltage) that causes a parasitic SCR structure to turn ON. Once turned ON, the latch-up condition will persist until the supply voltage is removed. Latch-up can create EOS damage if the current is large and/or if it persists over a long period.
The electrical failure in the customer’s application may show one or more of the following symptoms:
The thermal damage is the result of the excessive heat generated during the EOS event.
The heat is a result of resistive heating in the connections within the device. The high currents experienced during the EOS event can generate very localized high temperatures even in the normally low resistance paths. The high temperature causes destructive damage to the materials used in the device’s construction.
EOS damage can at times be seen as visual damage to the device. This damage is the result of the high temperatures experienced during the EOS event.
External (visible to the naked eye or with low power microscope):
Internal (visible after decapsulation with high-power microscope):
Package Bulge Package Hole Package Burnt/Cracked
Burnt Metal Open Connection
Heat Stress Melted Bond Wire
What is EOS?
EOS is thermally induced damage to a component induce by an overvoltage condition.
How is EOS different from ESD?
EOS and ESD are related voltage overstress conditions but they differ in the total energy and time span of the event. EOS has higher energy and a longer time span.
How do I prevent EOS?
A careful review of the power supply variations and input signals to look for possible conditions that exceed the product specifications.
Does Cypress test for EOS?
No. There are currently no industry standards that allow for testing for EOS type conditions.
Is EOS and Latch-up the same?
No. Latch-up is a specific event that occurs when the parasitic SCR device is triggered, while EOS is a general description of any electrical overstress. EOS may not be caused by Latch-up and Latch-up can occur without causing permanent EOS damage to the component.
Does Cypress have a specification for EOS tolerance?
No. Cypress tests for ESD and Latch-up per JEDEC standards. See the Cypress web site for more information on the product qualification requirements.
Does Cypress have specific PCB layout rules to prevent EOS?
No. EOS is an event that can occur on any PCB layout.
What process parameter will cause EOS tolerance to degrade or improve?
Cypress tests all products to function properly under the specification limits. An EOS event is an event that occurs outside the specification limits.
How do I detect an EOS problem in the field?
An EOS damaged component may exhibit excessively high current or low resistance between power and ground.
Why is the Cypress component the only part failing on my board?
Normally, in an EOS event, more than one component will experience the voltage surge. However, based on placement and electrical connections on the PCB and sensitivity of the components, one component will fail first and the current will be shunted to that component, resulting in more damage that component.
The power supply is clean. How can you tell me the Vcc damage is a customer problem?
Variations in the Vcc supply or ground can be non-periodic and be influenced by external conditions. A limited-time review of the voltage supply may not reveal the problem. Monitoring the supply voltage over a longer time and with properly set trigger levels may reveal the problem if the issue is periodic in nature. If, however, the EOS was triggered by non-recurring event then monitoring the supply voltage may never reveal the problem.
My I/O signals have small/no over/under shoot. How can I still have EOS damage?
Variations in the I/O signal can be non-periodic and be dependent on external and internal switching. It is possible for large spike on the I/O pin to cause a latch-up event. This event, if not terminated, may cause thermal damage to the component. Monitoring the I/O voltages over an extended time with properly set trigger levels may reveal voltage spikes that can cause a component to fail.
Can you tell me exactly what happened?
The damage caused by EOS is typically so extensive that the origin of the problem cannot be determined. An initial small voltage perturbation can cascade into a large event and cause damage that overwhelms the original damage site. The analysis report will identify which package pins are damaged and with this information you should be able to identify potential areas for further investigation such as power supplies or I/O signals.
Isn’t this a Cypress design/process/manufacturing problem?
Cypress designs and tests its parts to function within the specified operating parameters. We also qualify our parts using industry standard test methods including ESD and Latch-up. Qualification data is available on the Cypress web site, http://www.cypress.com/?id=1090&source=header.
However, all semiconductor components will eventually fail if exposed to conditions beyond the datasheet specifications. EOS damage cannot be generated by the internal conditions of the component when operating within the datasheet specifications. The EOS damage can only occur when abnormal external conditions are present.
Additional Information is available at the Cypress web site. General product information and datasheets are available at:
Cypress Corporate Web site: http://www.cypress.com/
Additional reliability and qualification data is available at:
Cypress Corporate Quality web site: http://www.cypress.com/?id=1090&source=header
The following is a list of other resources located on various web sites.
“White Paper 4 - Understanding Electrical Overstress – EOS” from Industrial Council on ESD Target Levels, August 2016.
This document is available through various public domains as listed below:
The Industry Council on ESD
The Electrostatic Discharge Association
JEDEC – Under Publication JEP174
The ESD Association is a very good resource for learning or training on ESD and EOS. The association has an annual symposium dedicated to ESD and EOS.
ESD Association – www.esda.org
The following web sites discuss EOS. A general search of the web will find many more references.