Abstract: An improved connection through a substrate layer is formed by embedding a conductive element such as a pin on one or more balls or spheres in a thermoplastic material which is preferably a liquid crystal polymer. The substrate may be heated to facilitate the embedding process in which material of the substrate layer is reflowed under pressure to retain the conductive element by means of a preload force. The formation of such connections with either pins or plural conductive elements allows independence of aspect ratio of the connection and, hence, feature size of conductive patterns on the substrate and the thickness of the substrate layer.

Abstract: A method is provided for forming one or more electrical conductors in a multilayer structure such as a computer component during a punching operation. A conducting sheet is placed in direct contact with a sheet of a deformable dielectric material. A punch is used to form a conducting slug from the sheet and to simultaneously transfer the slug into the dielectric material. During the transfer operation, a portion of the dielectric material is displaced so as to cause a mechanical interference between the slug and dielectric material.

Abstract: There is disclosed a high density electronic connector system in which a plastic insulating body supports on one or more levels a plurality of conductive circuit traces. Output contacts to these traces are provided by small metal balls. The metal balls are driven into tight contact with respective ones of the conductive traces and captivated by the plastic body. The balls are covered with gold and provide miniature, wear resistant closely spaced output contacts in the connector system. A ball may contact conductive traces on two levels of the insulating body and thereby provide an electrical connection between conductive traces. A method of manufacture of the connector system includes the steps of heating the plastic body to an elevated temperature, and driving the small metal balls through or against a respective conductive trace and into the plastic body which thereby captivates it. The conductive traces may be solder plated.

Abstract: There is disclosed a high density electronic connector system in which a plastic insulating body supports on one or more levels a plurality of conductive circuit traces. Output contacts to these traces are provided by small metal balls. The metal balls are driven into tight contact with respective ones of the conductive traces and captivated by the plastic body. The balls are covered with gold and provide miniature, wear resistant closely spaced output contacts in the connector system.