The following discussion provides a basic overview of the stages of electrodeposition during a reel-to-reel strip plating process. The manufacturing...
Read moreDetailsElectroplating, or electrodeposition, in connector technology refers to the plating of a material, selected for the properties discussed in Chapter...
Read moreDetailsThe majority of connector contact finishes are applied by continuous electroplating of reels of stamped and formed contacts with tin,...
Read moreDetailsThis section will provide a basic discussion of connector materials and manufacturing processes. Chapter I/1.4.1 Contact Finish Electroplating on contact...
Read moreDetailsThe distribution and number of a-spots provides a highly redundant network of resistances in parallel at the contact interface, a...
Read moreDetailsAttention now turns to the effects of a-spots on electrical performance, and, in particular on the electrical resistance the contact...
Read moreDetailsFriction and wear are two aspects of the same basic kinetic process. Friction forces must be overcome to cause motion,...
Read moreDetailsThe contact interface, D in Figure 1.3 is arguably the heart of a connector system. The structure and properties of...
Read moreDetailsA contact finish, C in Figure 1.3, consists of a surface coating, generally produced by electroplating, over the contact spring...
Read moreDetailsThe contact springs, B in Figure 1.3, are typically manufactured from copper alloys in order to provide three major functional...
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