Title :
Examination of contaminant-induced faults in connectors
Author :
Hua Zeng ; Hubing, Todd
Author_Institution :
Hitachi Automotive, Farmington Hills, MI, USA
Abstract :
This paper describes the results of an investigation into the effects of salt water exposure on cable connector impedances. A series of tests were performed to explore the shunting resistance across the pins of wiring harness connectors. The test results show that salt-induced corrosion and moisture may cause intermittent shunting resistances capable of affecting the normal operation of various systems. One important test result is that the induced shunting resistances are a nonlinear function of the applied voltage. This non-linear behavior can be important when evaluating the ESD or radiated RF susceptibility of products that may be exposed to a salt-water environment. An equivalent circuit based on measurements is developed to model the behavior of various salt-water/metal electrode interactions.
Keywords :
cables (electric); contamination; electric connectors; electrostatic discharge; equivalent circuits; ESD; cable connector impedances; contaminant-induced faults; equivalent circuit; induced shunting resistances; intermittent shunting resistances; moisture; nonlinear behavior; nonlinear function; pins; radiated RF susceptibility; salt water exposure; salt-induced corrosion; salt-water environment; salt-water/metal electrode interactions; wiring harness connectors; Electrical resistance measurement; Electrodes; Immune system; Pollution measurement; Resistance;
Journal_Title :
Electromagnetic Compatibility Magazine, IEEE
DOI :
10.1109/MEMC.2012.6397057
