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What is ESD?
Electrostatic discharge (ESD) is the transfer of an electrostatic charge between two objects. This is a very rapid event that happens when two objects of different potentials come into direct contact with each other. One of the main causes of device failures in the semiconductor industry is ESD.
Charging results in one object gaining electrons on its surface area to become negatively charged. The other object loses electrons from its surface area and becomes positively charged. The small electric shock you may receive from certain objects happens when you become triboelectrically charged.
Triboelectrical charge is the term used for an electron transfer resulting from two objects coming into contact with each other and then separating. This may happen by simply walking across a room. Different materials you come into contact with may cause you to become either positively or negatively charged. Thus causing a form of a static shock as some of us experience.
Failures caused by ESD can happen in a number of different ways. The failure can exhibit one or more of the following signs: a short or burnout, resistor/metal fusing together a junction leakage, and a resistor-metal interface rupture. There are three major categories of ESD prevention or control. One is the prevention of a static-charge build up. The next is the safe dispersal of any charge that has built up, while the third is to improve the ESD robustness of the product causing the Static Charge.
Preventing a charge works on the theory of eliminating materials that have a higher tendency towards the build up of ESD in the workplace. All equipment should be free of moving parts that can cause such build up, such as rubber rollers and plastic stoppers. The use of ionizers to neutralize newly generated charges also prevents charges from building up.
Grounding is one of the most important factors towards eliminating ESD. For example, in the workplace, there should be only one common ground. There should be suitable provisions made for the electrical path of charges to the ground. Any charge that has built up will be dissipated by a good grounding system. Everything in the production line, equipment, and worktables should be connected to this common ground. Items that can help ground or prevent ESD are ESD Table Top Mats, ESD Floor Mats, ESD Gloves, ESD Bags, ESD Tapes and various other Grounding Products.
Having a single common point ground will ensure that everything on the workplace floor remains at the same potential. If the workplace has conductive flooring, then it should be connected at regular intervals to this common ground. Conductive shoes, along with properly grounded wrist straps and foot grounders, will also bring any charge to the common ground.
Laminar flow, sometimes known as streamline flow, occurs when a fluid flows in parallel layers, with no disruption between the layers. In fluid dynamics, laminar flow is a flow regime characterized by high momentum diffusion and low momentum convection. It is the opposite of turbulent flow. In nonscientific terms laminar flow is "smooth," while turbulent flow is "rough."
The dimensionless Reynolds number is an important parameter in the equations that describe whether flow conditions lead to laminar or turbulent flow. In the case of flow through a straight pipe with a circular cross-section, Reynolds numbers of less than 2300 are generally considered to be of a laminar type[1]; however, the Reynolds number upon which laminar flows become turbulent is dependent upon the flow geometry. When the Reynolds number is much less than 1, Creeping motion or Stokes flow occurs. This is an extreme case of laminar flow where viscous (friction) effects are much greater than inertial forces.