Low attenuation high frequency coaxial cable for microwave energy in the gigaHertz frequency range

US 4,626,810 A
Filed: 10/02/1984
Issued: 12/02/1986
Est. Priority Date: 10/02/1984
Status: Expired due to Term

First Claim

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1. A low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range and having a center conductor extending along the axis of the cable comprising:

dielectric surrounding said center conductor including a plurality of layers of low density PTFE dielectric tape material,at least one layer of high density PTFE dielectric material of a different dielectric constant than the layers of low density PTFE surrounding and holding said plurality of layers of low density PTFE dielectric material around said center conductor,each of said layers of low density dielectric material comprising a tape extending longitudinally of the cable with its edges abutting in edge-to-edge relationship,the abutting edges of each layer of low density material being located away from the abutting edges of an adjoining layer, andsaid layer of high density dielectric material comprising a tape of unsintered PTFE material, extending longitudinally of the cable and encircling the underlying low density dielectric layers, and which is sintered in place after being applied over the underlying low density dielectric layers;

a plurality of longitudinally extending, parallel, adjacent conductive wire strands which are in electrical contact with each other forming an outer conductor encircling said high density PTFE dielectric material,said conductive wire strands having a slight helical lay along the axis of said cable,means surrounding and holding said strands in place, anda protective outer jacket surrounding said holding means.

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Abstract

A low attenuation high frequency coaxial cable is provided for carrying microwave energy in the gigaHertz range. A center conductor is wrapped with a plurality of layers of low density PTFE dielectric material. At least one layer of high density unsintered PTFE dielectric material is tightly wrapped around the low density tape with overlapping edges and then is sintered for forming an envelope strong enough to hold the low density material in position during the remainder of the cable preparation and during an attaching of terminating connectors. An outer conductor of longitudinally extending, parallel, adjacent electrically conductive wire strands is applied with a slight helical lay around the dielectric of the cable along its axis thereof surrounding the high density tape. A serving may be applied over the longitudinal wire strands and a jacket applied around the cable over the serving. The cable so formed provides an improvement in performance. After heat curing of the cable, it may be improved further by providing a tight wire braid around the jacket which again is provided with another outer jacket. The serving may be omitted, and then the jacket of unsintered high density PTFE is applied around the wire strands of the outer conductor. This jacket is sintered, and then a wire braid is applied tightly over the sintered jacket.

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17 Claims

1. A low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range and having a center conductor extending along the axis of the cable comprising:
- dielectric surrounding said center conductor including a plurality of layers of low density PTFE dielectric tape material,at least one layer of high density PTFE dielectric material of a different dielectric constant than the layers of low density PTFE surrounding and holding said plurality of layers of low density PTFE dielectric material around said center conductor,each of said layers of low density dielectric material comprising a tape extending longitudinally of the cable with its edges abutting in edge-to-edge relationship,the abutting edges of each layer of low density material being located away from the abutting edges of an adjoining layer, andsaid layer of high density dielectric material comprising a tape of unsintered PTFE material, extending longitudinally of the cable and encircling the underlying low density dielectric layers, and which is sintered in place after being applied over the underlying low density dielectric layers;
  
  a plurality of longitudinally extending, parallel, adjacent conductive wire strands which are in electrical contact with each other forming an outer conductor encircling said high density PTFE dielectric material,said conductive wire strands having a slight helical lay along the axis of said cable,means surrounding and holding said strands in place, anda protective outer jacket surrounding said holding means.
- View Dependent Claims (2)
- - 2. The low attenuation coaxial cable as claimed in claim 1, having a tight wire braid around said jacket for applying compressive force around said jacket for pressing the conductive wire strands of said outer conductor inwardly together around said high density PTFE dielectric material of said cable and thereby further reducing the attenuation of said cable.

3. In a low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range having a central conductor and an outer conductor spaced from and concentric with the central conductor and having dielectric in the region between the central and outer conductor, the improvement comprising:
- said dielectric comprising an inner portion of low density of PTFE material and an outer portion of high density PTFE material,said inner portion comprising a plurality of layers of low density PTFE material,each of said layers having abutting edges, the abutting edges of each layer being located on the opposite side of the central conductor from the abutting edges of an adjoining layer, andsaid outer portion comprising at least one layer of high density PTFE material encircling the low density material and with its edges overlapping for holding it firmly in place and being applied in its unsintered state and being sintered in place.
- View Dependent Claims (4, 5)
- - 4. In a low attenuation high frequency coaxial cable, the improvement as claimed in claim 3, wherein said outer conductor comprises a plurality of longitudinally extending, parallel, adjacent, conductive wire strands which are in electrical contact with each other, said strands having a slight helical lay along the axis of the cable and being sufficiently numerous to form at least two full layers encircling said high density PTFE material, the further improvement comprising:
    - a first jacket of high density PTFE applied uncured over said strands and then cured in place by heating,a wire braid tightly surrounding said jacket, anda second jacket surrounding said wire braid.
  - 5. In a low attenuation high frequency coaxial cable, the further improvement as claimed in claim 4, in which:
    - said wire braid comprises sixteen groups of twelve wires each braided tightly around said first jacket.

6. A low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range and having a center conductor extending along the axis of the cable comprising:
- dielectric surrounding said center conductor including at least four layers of low density PTFE dielectric material, having a specific gravity of about 0.7 and a dielectric constant of about 1.45 and each layer is about 10 mils (about 0.010 of an inch) thick,at least one layer of high density PTFE dielectric material having a specific gravity of about 2 and a dielectric constant of about 2.1 surrounding and holding said layers of low density PTFE dielectric material around said center conductor,a plurality of longitudinally extending, parallel, adjacent conductive wire strands which are in electrical contact with each other forming an outer conductor encircling said high density PTFE dielectric material,said conductive wire strands having a slight helical lay along the axis of said cable,means holding said strands in place, anda protective outer jacket surrounding said holding means.
- View Dependent Claims (7, 8, 9)
- - 7. The low attenuation coaxial cable as claimed in claim 6, in which:
    - each layer of high density dielectric material is about 4 mils (about 0.004 of an inch) thick.
  - 8. The low attenuation coaxial cable as claimed in claim 6, having a tight wire braid around said jacket for applying compressive force around said jacket for pressing the conductive wire strands of said outer conductor inwardly together around said high density PTFE dielectric material of said cable and thereby further reducing the attenuation of said cable.
  - 9. The low attenuation coaxial cable as claimed in claim 8, in which:
    - each layer of high density dielectric material is about 4 mils (about 0.004 of an inch) thick.

10. A low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range and having a center conductor extending along the axis of the cable comprising:
- dielectric surrounding said center conductor including a plurality of layers of low density PTFE dielectric material,at least one layer of high density PTFE dielectric material surrounding and holding said plurality of layers of low density PTFE dielectric material around said center conductor,a plurality of longitudinally extending, parallel, adjacent conductive wire strands which are in electrical contact with each other forming an outer conductor encircling said high density PTFE dielectric material,said conductive wire strands having a slight helical lay along the axis of said cable,means holding said strands in place, anda protective outer jacket surrounding said holding means,each of said layers of low density dielectric material comprising a tape extending longitudinally of the cable with its edges abutting in edge-to-edge relationship,the abutting edges of each layer of low density material being located on the opposite side of the center conductor from the abutting edges of an adjoining layer, andsaid layer of high density dielectric material comprising a tape of unsintered PTFE material extending longitudinally of the cable and encircling the underlying low density dielectric layers and with its edges overlapping and which is sintered in place after being applied over the underlying low density dielectric layers.

11. A low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range and having a center conductor extending along the axis of the cable comprising:
- a dielectric surrounding said center conductor including at least four layers of low density PTFE dielectric material, and each layer being about 10 mils (0.010 of an inch) thick,at least one layer of high density PTFE dielectric material surrounding and holding said plurality of layers of low density PTFE dielectric material around said center conductor,a plurality of longitudinally extending, parallel, adjacent conductive wire strands which are in electrical contact with each other forming an outer conductor encircling said high density PTFE dielectric material,said conductive wire strands having a slight helical lay along the axis of said cable,a jacket of uncured high density PTFE material applied over said wire strands and then cured in place, anda tight wire braid around said jacket for applying compressive force around said jacket for pressing the conductive wire strands of said outer conductor inwardly together around said layer of high density PTFE dielectric material of said cable and thereby further reducing the attenuation of said cable.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The low attenuation coaxial cable as claimed in claim 11, in which:
    - the layer of high density dielectric material is about 4 mils (about 0.004 of an inch) thick.
  - 13. The low attenuation coaxial cable as claimed in claim 12, in which:
    - said low density dielectric material has a specific gravity of about 0.7 and a dielectric constant of about 1.45, andsaid high density dielectric material has a specific gravity of about 2 and a dielectric constant of about 2.1.
  - 14. A low attenuation coaxial cable as claimed in claim 11, in which:
    - each of said layers of low density dielectric material comprises a tape extending longitudinally of the cable with its edges abutting in edge-to-edge relationship,the abutting edges of each layer of low density material are located away from the abutting edges of an adjoining layer, andsaid layer of high density dielectric material comprises a tape of unsintered PTFE material, extending longitudinally of the cable, and encircling the underlying low density dielectric layers, and which is sintered in place after being applied over the underlying low density dielectric layers.
  - 15. The low attenuation coaxial cable as claimed in claim 11, in which:
    - said low density dielectric material has a specific gravity of about 0.7 and a dielectric constant of about 1.45, andsaid high density dielectric material has a specific gravity of about 2 and a dielectric constant of about 2.1.
  - 16. The low attenuation coaxial cable as claimed in claim 14, in which:
    - the abutting edges of each layer of low density material are located on the opposite side of the center conductor from the abutting edges of an adjoining layer, andthe edges of the high density dielectric material encircling the underlying low density dielectric layers are overlapping.

17. A low attenuation high frequency coaxial cable for carrying microwave energy in the gigaHertz range and having a center conductor extending along the axis of the cable comprising:
- a dielectric surrounding said center conductor including a plurality of layers of low density PTFE dielectric material,at least one layer of high density PTFE dielectric material surrounding and holding said plurality of layers of low density PTFE dielectric material around said center conductor,a plurality of longitudinally extending, parallel, adjacent conductive wire strands which are in electrical contact with each other forming an outer conductor encircling said high density PTFE dielectric material,said conductive wire strands having a slight helical lay along the axis of said cable,a jacket of uncured high density PTFE material applied over said wire strands and then cured in place,a tight wire braid around said jacket for applying compressive force around said jacket for pressing the conductive wire strands of said outer conductor inwardly together around said layer of high density PTFE dielectric material of said cable and thereby further reducing the attenuation of said cable,each of said layers of low density dielectric material comprising a tape extending longitudinally of the cable with its edges abutting in edge-to-edge relationship,the abutting edges of each layer of low density material being located on the opposite side of the center conductor from the abutting edges of an adjoining layer, andsaid layer of high density dielectric material comprising a tape of unsintered PTFE material, extending longitudinally of the cable and encircling the underlying low density dielectric layers and with its edges overlapping and which is sintered in place after being applied over the underlying low density dielectric layers.

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Current Assignee
Arthur C. Nixon
Original Assignee
Arthur C. Nixon
Inventors
Nixon, Arthur C.
Primary Examiner(s)
GENSLER, PAUL L

Application Number

US06/657,005
Time in Patent Office

791 Days
Field of Search

333/236, 333/243, 333/244, 333/245, 174/110 F, 174/110 FC, 174/120 R
US Class Current

333/243
CPC Class Codes

H01B 11/1821   Co-axial cables with at lea...

H01B 11/1852   of longitudinal lapped stru...

H01P 3/06   Coaxial lines

Low attenuation high frequency coaxial cable for microwave energy in the gigaHertz frequency range

First Claim

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Low attenuation high frequency coaxial cable for microwave energy in the gigaHertz frequency range

First Claim

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Abstract

42 Citations

17 Claims

Specification

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