High energy coaxial cable for use in pulsed high energy systems
First Claim
1. A high energy coaxial cable for use in pulsed high energy systems, comprising:
- a center conductor comprising bundles of nickel plated fine copper wire, with bundles counter-wound in layers;
an outer conductor comprised of two counter-wound layers of stranded nickel plated fine copper wire, the cross-sectional area of the outer conductor being approximately equal to that of the inner conductor;
an inner dielectric between the center and outer conductors, the dielectric being of insulating materials capable of reliable operation to 260°
C.;
an outer dielectric over the outer conductor for holding the outer conductor in place, the dielectric being of insulating materials capable of reliable operation to 260°
C.;
a reinforcing mesh woven as a braid over the outer dielectric for aiding in the containment of magnetic burst forces, the mesh being manufactured from a high strength reinforcing material, with braid angles kept high for maximizing strength in the radial direction and maintaining tightness during manufacture; and
an outer jacket made of insulating material.
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Accused Products
Abstract
Commercially available coaxial cables have been used successfully in single shot electromagnetic launcher and other pulsed power applications. The use of a coaxial cable interface between power source and pulsed power load reduces external magnetic fields and also aids in standardizing the interface, enhancing inter-changeability between a variety of power supplies and loads. As pulsed power systems continue to become more energetic and as the importance of repetitive operation increases, the use of commercially available cables becomes impractical because of the large number required for appropriate energy transfer. The cable according to the invention overcomes many problems encountered in the use of conventional cables. It incorporates a large area, flexible conductor in both the current feed and current return path, and matches these conductor cross-sections to provide uniform current paths. It also incorporates high temperature PFA TEFLON insulation capable of operating at 260 degrees C, and uses a high strength woven fiber cover to resist intense forces produced by internal currents and magnetic fields. A standardized, uniform dimension, nonarcing interface termination is also provided. The combination of components and materials easily allows this cable to be used to replace more than six conventional cables.
115 Citations
3 Claims
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1. A high energy coaxial cable for use in pulsed high energy systems, comprising:
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a center conductor comprising bundles of nickel plated fine copper wire, with bundles counter-wound in layers; an outer conductor comprised of two counter-wound layers of stranded nickel plated fine copper wire, the cross-sectional area of the outer conductor being approximately equal to that of the inner conductor; an inner dielectric between the center and outer conductors, the dielectric being of insulating materials capable of reliable operation to 260°
C.;an outer dielectric over the outer conductor for holding the outer conductor in place, the dielectric being of insulating materials capable of reliable operation to 260°
C.;a reinforcing mesh woven as a braid over the outer dielectric for aiding in the containment of magnetic burst forces, the mesh being manufactured from a high strength reinforcing material, with braid angles kept high for maximizing strength in the radial direction and maintaining tightness during manufacture; and an outer jacket made of insulating material.
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2. A high energy coaxial cable for use in pulsed high energy systems, comprising:
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a center conductor comprised of fine nickel plated copper strands, wherein a core portion of the strands are counter-wound from the outer strands for improved flexibility; an outer conductor comprised of two counter-wound layers of stranded nickel plated fine copper wire, the cross-sectional area of the outer conductor being slightly greater than that of the inner conductor in order to completely fill the conductor region and prevent voids which would allow pinching force damage; an inner dielectric between the center and outer conductors, the dielectric being of extruded perfluoroalkoxy (PFA); an outer dielectric over the outer conductor for holding the outer conductor in place, the dielectric being extruded perfluoroalkoxy (PFA), whereby the operational temperatures of the conductors may exceed 260°
C.;a reinforcing mesh woven as a braid over the outer dielectric for aiding in the containment of magnetic burst forces, the mesh being manufactured from an aramid fiber, with braid angles kept high for maximizing strength in the radial direction and maintaining tightness during manufacture; an outer jacket made of a flame retardent polyether based polyurethane.
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3. A high energy coaxial cable for use in pulsed high energy systems, comprising:
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a center conductor comprised of 1330 30-gauge nickel plated copper strands, wherein a core portion of the strands are counter wound from the outer strands for improved flexibility, with a total cross-sectional area of 68 mm2 ; an outer conductor comprised of two counter-wound layers of stranded nickel plated copper wire, each layer being formed from 48 stranded wires which have been made from nineteen 30-gauge strands, with a total cross-sectional area of 93 mm2 ; an inner dielectric between the center and outer conductors, the dielectric being of extruded perfluoroalkoxy (PFA) with a nominal wall thickness of 5.1 mm and a nominal outside diameter of 22.2 mm, whereby the operational temperatures of the conductors may slightly exceed 260°
C.;an outer dielectric over the outer conductor for holding the outer conductor in place, the dielectric being extruded perfluoroalkoxy (PFA), with a nominal wall thickness of 1.6 mm and a nominal outside diameter of 31 mm; a reinforcing mesh woven as a braid over the outer dielectric for aiding in the containment of magnetic burst forces, the mesh being manufactured from an aramid fiber, with braid angles kept high for maximizing strength in the radial direction and maintaining tightness during manufacture; an outer jacket made of a flame retardent polyether based polyurethane.
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Specification