Author_Institution :
Dept. of Electr. Eng., Univ. of Western Ontario, London, Ont., Canada
Abstract :
The characteristics of a three-body system, including a modular grid and a ground plane, were investigated. A planar grid, with a variable screen density, was used as Body 2, and positioned between Body 1, simulating a charged human body, and Body 3, representing the electronic system under test. Capacitance coefficients were measured; body potentials, energies, and charges were calculated for a variety of conductor arrangements. Cases which were analyzed included a grid which was floating, grounded, and at a fixed potential relative to Body 1. The results demonstrate the possibility of using a system grid to control the probability and severity of electrostatic discharge
Keywords :
capacitance measurement; earthing; electrostatic discharge; many-body problems; ESD control; body potentials; capacitance coefficients; charged human body; conductor arrangements; electronic systems; electrostatic discharge; energies calculation; modular grid; three-body system; Biological system modeling; Capacitance measurement; Control systems; Current measurement; Electric variables control; Electronic equipment testing; Electrostatic discharge; Energy measurement; Humans; System testing;
