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Title: Radio-frequency signaling cable for inductive-carrier communications systems
Claims: What is claimed is: 1. A solid radio-frequency inductive signaling cable structure comprising: a center conductor; a first solid dielectric means disposed about said center conductor; a conducting ground sheath disposed about said first dielectric means, said center conductor and said conducting ground sheath forming a coaxial portion of said cable of such configuration that when said sheath is grounded it confines therein any signal energy in said center conductor; a second solid dielectric means disposed about said conducting ground sheath and having low-loss characteristics at radio frequencies; an inductive-signaling conductor disposed about said second dielectric means in convolute manner at a constant spacing from said conducting sheath, and being of such configuration that when a radio frequency signal is induced therein, a radio field external to said cable is formed around and along the length of said cable having an induction field of a high level of intensity suitable for induction signaling and having a negligible far field; and a third solid dielectric means disposed about said inductive-signaling conductor having low-loss characteristics at radio frequencies and including an outer protective jacket for said inductive-signaling cable. 2. The radio-frequency signaling cable structure recited in claim 1, wherein said inductive-signaling conductor comprises a conductive strip wound in helical configuration about said second dielectric means so as to provide horizontal and vertical polarization characteristics in the induction field surrounding said cable and external thereto. 3. A solid radio-frequency inductive signaling cable structure of coaxial type comprising: a center conductor; a first solid dielectric means disposed about said center conductors; a conducting ground sheath disposed about said first dielectric means, said center conductor and said conducting ground sheath forming a coaxial portion of said cable of such configuration that when said sheath is grounded it confines therein any signal energy in said center conductor; a second solid dielectric means having low-loss characteristics at radio frequencies disposed about said first conducting ground sheath; a conducting means wound in helical configuration about said second dielectric means at a constant spacing with respect to said conducting ground sheath, said conducting means forming the inductive signaling element of said cable, and being of such configuration that when a radio frequency signal is induced therein, a radio field external to said cable is formed around and along the length of said cable having an induction field of a high level of intensity suitable for induction signaling and having a negligible far field; a third solid dielectric means having low-loss characteristics at radio frequencies disposed about said conducting means; and a protective insulating jacket enclosing all of said conductors and dielectric means. 4. A radio frequency signaling cable structure comprising: a first center conductor; a first dielectric means disposed about said first center conductor; a first coaxial conductor disposed about said first center conductor and said first dielectric means; a second center conductor disposed adjacent to said first coaxial conductor and external thereto; a second dielectric means coaxially disposed about said second center conductor; a second coaxial conductor disposed about said second center conductor and said second dielectric means, said second coaxial conductor being disposed in a fixed position at a constant spacing and external with respect to said first coaxial conductor and forming an inductive-signaling element of said cable; and an insulating jacket means encompassing all of said conductors and said dielectric means. 5. The radio-frequency signaling cable structure recited in claim 4, wherein said insulating jacket means comprises a first insulating jacket disposed about said first coaxial conductor, said first dielectric means, and said first center conductor, and a second insulating jacket disposed about said second coaxial conductor, said second dielectric means, and said second center conductor, said second insulating jacket being removably attached to said first insulating jacket. 6. A radio-frequency signaling cable structure comprising: a center conductor; a first dielectric means disposed about said center conductor; a first coaxial conductor disposed about said first dielectric means; a second dielectric means, having low-loss characteristics at radio frequencies, disposed about said first coaxial conductor; a second coaxial conductor disposed about said second dielectric means at a constant spacing with respect to said first coaxial conductor, and forming an inductive-signaling element of said cable; a third dielectric means having low-loss characteristics at radio frequencies, disposed about said second coaxial conductor; and a protective insulating jacket enclosing all of said conductors and dielectric means. 7. The radio inductive signaling cable structure recited in claim 6, wherein said third dielectric means has a diameter substantially greater than that of said second dielectric means. Other info: Inventors: Halstead, William S. (New York, NY, US) Application Number: 428691 Filing Date: 1973-12-27 Publication_date: 1976-08-17 Assignee: Carrier Communications, Inc. () Primary Class(es): 333/237 333/1, 340/906 Other Classes: US Patent Ref:
Other Refs: Other References: Jasik, H., "Antenna Engineering Handbook", McGraw Hill, 1961, pp. 7-9 to 7-12. Stark, L., "Lower Modes of a Concentric Line Having Helical Inner Conductor" Jr. of Applied Physics, 9-1954, pp. 1155-1162. | |