Understanding electrostatic phenomena
Electrostatic phenomena are caused mainly by the charge retention properties of insulating materials and may lead to electronic devices being damaged and an increase of risk of explosion in flammable atmospheres.
As smaller electronic devices such as NEMS (nanoelectromechanical systems) and MEMS (mcro-electromechanical systems) take off, it becomes increasingly important to understand and control electrostatic phenomena. Because of their size, these tiny electronic components can become permanently damaged even by very low electrostatic discharges.
TC 101 provides guidance on evaluating the generation, retention and dissipation of electrostatic charges and writes methods for simulating electrostatic phenomena for testing purposes. It also writes requirements for the design and implementation of handling areas, procedures, equipment, and materials used to reduce or eliminate electrostatic hazards and effects.
About Paul Holdstock
Paul Holdstock is Managing Director of Holdstock Technical Services and has been involved as Project Team Leader and Member in a number of WGs (Working Groups) and MTs (Maintenance Teams). He holds a PhD from Bolton Institute/University of Manchester.