Electrostatic Discharge: Difference between revisions

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ESD events, like a spark from a human hand, allow current to travel to the ground through electronic devices, burning holes in integrated circuits and dealing heat damage to the circuit board. This can happen when working barehanded (without an electrostatic wrist strap) with circuit boards and other sensitive electronic equipment, when negatively charged synthetic materials are on or near sensitive electronic equipment, or due to the fast movement of air near electronic equipment.
ESD events, like a spark from a human hand, allow current to travel to the ground through electronic devices, burning holes in integrated circuits and dealing heat damage to the circuit board. This can happen when working barehanded (without an electrostatic wrist strap) with circuit boards and other sensitive electronic equipment, when negatively charged synthetic materials are on or near sensitive electronic equipment, or due to the fast movement of air near electronic equipment.


==Connectedness==
==ESD in the Aerospace==


Electrostatic Discharge is connected to Aerospace Engineering by how potentially dangerous it is to not guard against ESD in environment's in which many different electronic devices are integrated into air and spacecraft. Aerospace research agencies, such as NASA, JAXA, or RKA, and corporation, such as Lockheed Martin, have implemented ESD protected areas and grounded workbenches, mandated the use of protective equipment, introduced protocol in which charge generating materials cannot be worn in protected areas, and have audits and inspections to make sure important aerospace electronics stay protected from ESD.
Electrostatic Discharge is connected to Aerospace Engineering by how potentially dangerous it is to not guard against ESD in environment's in which many different electronic devices are integrated into air and spacecraft. Aerospace research agencies, such as NASA, JAXA, or RKA, and corporation, such as Lockheed Martin, have implemented ESD protected areas and grounded workbenches, mandated the use of protective equipment, introduced protocol in which charge generating materials cannot be worn in protected areas, and have audits and inspections to make sure important aerospace electronics stay protected from ESD.

Revision as of 23:36, 5 December 2015

claimed by Dmcburnie3

Electrostatic Discharge (ESD) is the swift transfer of charges between objects at different potentials. ESD commonly occurs after the accumulation of static electricity on a material and can have devastating effects on solid-state electronics.

Material Sources of this Phenomenon

Both insulators and conductors are sources of ESD. All materials are defined on the Triboelectric series as either positive or negative, with positive and negative charges usually accumulating on naturally occurring surfaces and on synthetic materials, respectively. Sparks and lightning are visible Electrostatic Discharge events and the total amount of charge that can accumulate on a material depends on how well it can store charge. It is common for static electricity to accumulate on people and clothing in environments where sensitive electronic equipment must be protected. During the process in which electronic components are assembled most manufacturers implement create Electrostatic Discharge Protected Areas (EPA) for this work to be conducted in. These areas are to prevent the build up of charge on the components, workers, and all other conductive materials

Causes of Electrostatic Discharge

Electrostatic Discharge can be caused by an electrical breakdown, a short circuit, and most commonly, contact or near contact, due to tribocharging. Tribocharging is the separation of electric charges that occurs when objects make contact and then are separated. The Triboelectric method describes how this happens when materials are rubbed together (frictional movement) and separated. ESD is measured using an electrostatic voltmeter. To protect against Electrostatic Discharge, antistatic bags act as Faraday Cages to protect sensitive devices from ESD during the transit.

Its Effect on Electronics

ESD events, like a spark from a human hand, allow current to travel to the ground through electronic devices, burning holes in integrated circuits and dealing heat damage to the circuit board. This can happen when working barehanded (without an electrostatic wrist strap) with circuit boards and other sensitive electronic equipment, when negatively charged synthetic materials are on or near sensitive electronic equipment, or due to the fast movement of air near electronic equipment.

ESD in the Aerospace

Electrostatic Discharge is connected to Aerospace Engineering by how potentially dangerous it is to not guard against ESD in environment's in which many different electronic devices are integrated into air and spacecraft. Aerospace research agencies, such as NASA, JAXA, or RKA, and corporation, such as Lockheed Martin, have implemented ESD protected areas and grounded workbenches, mandated the use of protective equipment, introduced protocol in which charge generating materials cannot be worn in protected areas, and have audits and inspections to make sure important aerospace electronics stay protected from ESD.

The Physics Principals and Visual Aids

The objects near the top (of the list above) will tend to gain negative charges, while those below them will gain positive charges.

First, a tube made out of plastic is charged when rubbed with synthetic fur (top pictures). The tube, which is now charged, is brought close to neutral paper bits on the table (bottom left). You can see that the tube and paper now attract each other and that this attraction is strong enough to lift the pieces of paper off the table.

See also

http://www.physicsbook.gatech.edu/Charge_Transfer

http://www.physicsbook.gatech.edu/Charge_Motion_in_Metals

http://www.physicsbook.gatech.edu/Polarization

https://en.wikipedia.org/wiki/Michael_Faraday

Further reading

Electro Static Discharge: Understand, Simulate, and Fix ESD Problems, 3rd Edition

External links

http://www.physicsclassroom.com/class/estatics/Lesson-2/Charging-by-Friction

References

Aaq.auburn.edu,. 'Summary | Academy Of Aerospace Quality'. N.p., 2015. Web. 5 Dec. 2015. (http://aaq.auburn.edu/node/277)

Michaels, Ken, AYMAN ZAHER, and Stan Herron. 'Electrostatic Discharge: Causes, Effects, And Solutions'. Ecmweb.com. N.p., 2013. Web. 6 Dec. 2015. (http://ecmweb.com/content/electrostatic-discharge-causes-effects-and-solutions)

Physicsclassroom.com,. 'Charging By Friction'. N.p., 2015. Web. 6 Dec. 2015. (http://www.physicsclassroom.com/class/estatics/Lesson-2/Charging-by-Friction)