Claims
- 1. An interconnection arrangement between a circuit-bearing article and a conductive member having two ends that are adapted to be electrically connected to respective circuit termini of the circuit-bearing article at a selected impedance, comprising:
- at least two terminals of heat-insensitive construction electrically connected to respective circuit termini using selected amounts of fluid conductive material, each said terminal including a receptacle for electrical connection to a respective end of the conductive member upon insertion of the ends thereinto,
- whereby the conductive member ends are terminated to the respective termini of the circuit-bearing article upon insertion of the conductive member ends into the receptacles after completion of processes involving elevated temperatures to affix other electrical articles to the circuit-bearing article, assuring a controlled impedance of the terminations.
- 2. The interconnection arrangement of claim 1 wherein both ends of the conductive member are blade-like.
- 3. The interconnection arrangement of claim 1 wherein said conductive member is a loop antenna.
- 4. The interconnection arrangement of claim 1 wherein the arrangement further includes a housing in which the at least two terminals of the circuit-bearing article are disposed.
- 5. The interconnection arrangement of claim 1 wherein the circuit-bearing article includes two groups of terminals connected thereto, one group of terminals being electrically connected to one of the two termini, the other group of terminals being electrically connected to the other of the two termini, each group of terminals being adapted to engage one of the ends of the conductive member.
- 6. The interconnection arrangement of claim 5 wherein both ends of the conductive member are blade-like.
- 7. The interconnection arrangement of claim 6 wherein said conductive member is a loop antenna.
- 8. The interconnection arrangement of claim 2 wherein each of the blade-like ends of the conductive member extends at a right angle to the remaining portion of the conductive member.
- 9. The interconnection arrangement of claim 8 wherein said conductive member is a loop antenna.
- 10. The interconnection arrangement of claim 8 wherein the arrangement further includes a housing in which the at least two terminals of the circuit-bearing article are disposed.
- 11. The interconnection arrangement of claim 2 wherein the circuit-bearing article includes two groups of terminals connected thereto, one group of terminals being electrically connected to one of the two termini, the other group of terminals being electrically connected to the other of the two termini, each group of terminals being adapted to engage one of the ends of the conductive member.
- 12. The interconnection arrangement of claim 11 wherein each of the blade-like ends of the conductive member extends at a right angle to the remaining portion of the conductive member.
- 13. The interconnection arrangement of claim 12 wherein said conductive member is a loop antenna.
- 14. A method for connecting two ends of a conductive member to a circuit-bearing article resulting in a controlled impedance connection, comprising the steps of:
- selecting a conductive member having two ends adapted to be mated to receptacles, the conductive member having a selected impedance;
- selecting at least two terminals of heat-insensitive construction, each terminal having a connecting section for electrical connection to a circuit terminus of the circuit-bearing article and a receptacle adapted to engage one of the ends of the conductive member;
- disposing a selected amount of a fluid conductive material on each the circuit terminus;
- positioning the terminals on a respective terminus;
- electrically connecting the connecting section of the terminals to a respective circuit terminus of the article; and
- mating the ends of the conductive member to respective ones of the receptacles;
- whereby the conductive member is affixed to the circuit-bearing article after performance of processes involving elevated temperature to secure articles to the circuit-bearing article.
- 15. The method of claim 14 further including the step of positioning the terminals in a housing prior to mating the terminating sections to the ends of the conductive member.
- 16. The method of claim 14 further including positioning a group of terminals on each of the termini such that each group of terminals engages one of the ends of the conductive member.
- 17. The method of claim 15 further including positioning a group of terminals on each of the termini such that each group of terminals engages one of the ends of the conductive member.
Parent Case Info
This application claims the benefit of U.S. Provisional Application(s) No.(s) 60/058,621, filed Sep. 11, 1997; 60/073,063, filed Jan. 20, 1998; and 60/090,986, filed Jun. 29, 1998.
US Referenced Citations (7)