A high speed, high density electrical connector for use with printed circuit boards is described. The connector is manufactured with wafer assemblies that are supported by a stiffener. Each wafer includes two pieces; a first piece supports both signal and ground conductors and a second piece support
A high speed, high density electrical connector for use with printed circuit boards is described. The connector is manufactured with wafer assemblies that are supported by a stiffener. Each wafer includes two pieces; a first piece supports both signal and ground conductors and a second piece supports signal conductors. The disclosed embodiments are principally configured for carrying differential signals, though other configurations are discussed. For differential signals, the signal conductors are arranged in pairs. The two pieces are attached together such that the signal pairs are formed with the broadside of, the conductors disposed adjacent. The connector attaches to at least one circuit board using pressure mounted contacts.
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A high speed, high density electrical connector for use with printed circuit boards is described. The connector is manufactured with wafer assemblies that are supported by a stiffener. Each wafer includes two pieces; a first piece supports both signal and ground conductors and a second piece support
A high speed, high density electrical connector for use with printed circuit boards is described. The connector is manufactured with wafer assemblies that are supported by a stiffener. Each wafer includes two pieces; a first piece supports both signal and ground conductors and a second piece supports signal conductors. The disclosed embodiments are principally configured for carrying differential signals, though other configurations are discussed. For differential signals, the signal conductors are arranged in pairs. The two pieces are attached together such that the signal pairs are formed with the broadside of, the conductors disposed adjacent. The connector attaches to at least one circuit board using pressure mounted contacts. 1, wherein said wall guides said contact pin toward said center of said recess when said contact pin engages is pressed against said wall. 7. A system for establishing and maintaining electrical connections between connector assemblies, comprising: a mechanical support having a tapered recess defined by walls; a first connector coupled to said mechanical support; a connector assembly having a second connector and a contact pin, said second connector interconnected with said first connector, said contact pin having a rounded tip, said contact pin passing through said recess and engaged with said mechanical support; and a conductive connection coupled to said mechanical support and electrically coupled to said contact pin, wherein said walls are slanted towards a center of said tapered recess so that said walls and contact between the walls of the tapered recess and the rounded tip of the contact pin provide resistance against movement by said contact pin away from said center of said tapered recess and ensure adequate conductive contact between the contact pin and the walls of the tapered recess. 8. The system of claim 7, wherein said first connector and said second connector are Bayonet Niel-Concelman connectors. 9. The system of claim 7, wherein said mechanical support includes a conductive pad coupled to said contact pin and exposed by said recess. 10. The system of claim 7, wherein said mechanical support includes a printed circuit board and wherein said recess is formed within said printed circuit board. 11. A method for establishing and maintaining electrical connections between connector assemblies, comprising the steps of: providing a first Bayonet Neil-Concelman (BNC) connector assembly, said first BNC connector assembly having a first BNC connector and a tapered recess, said tapered recess defined by walls that slant towards a center of said tapered recess; providing a second BNC connector assembly, said second BNC connector assembly having a second BNC connector and a contact pin, said contact pin having a rounded tip; and connecting said first BNC connector assembly to said second BNC connector assembly, said connecting step further including the steps of: (a) coupling said first BNC connector assembly to said second BNC connector; (b) engaging said wall with said contact pin; and (c) sliding said contact pin along a surface of said wall, wherein the slanting of said walls towards said center of said tapered recess and contact between the walls of the tapered recess and the rounded tip of the contact pin provide resistance against movement by said contact pin away from said center of said tapered recess and ensure adequate conductive contact between the contact pin and the walls of the tapered recess. 12. A method of claim 11, wherein said sliding step further includes the step of guiding said contact pin toward said center of said recess. 13. The method of claim 11, further comprising the step of transmitting an electrical signal via said contact pin. 14. A method for establishing and maintaining electrical connections between connector assemblies, comprising the steps of: providing a first connector assembly having a first electrical connector and a contact pin, said contact pin having a rounded tip; providing a second connector assembly having a second electrical connector coupled to a mechanical support, said mechanical support having a tapered recess, said recess defined by walls of said mechanical support, wherein said walls slant towards a center of said recess; interconnecting said first electrical connector with said second electrical connector; passing said contact pin through said recess; engaging said mechanical support with said contact pin; and sliding said contact pin along a surface of said wall, wherein the slanting of said walls towards the center of said tapered recess and contact between the tapered recess wall and the rounded tip of the contact pin provide resistance
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