US20120090873A1 - Shielded electrical cable - Google Patents

Shielded electrical cable Download PDF

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Publication number
US20120090873A1
US20120090873A1 US13/377,873 US201013377873A US2012090873A1 US 20120090873 A1 US20120090873 A1 US 20120090873A1 US 201013377873 A US201013377873 A US 201013377873A US 2012090873 A1 US2012090873 A1 US 2012090873A1
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United States
Prior art keywords
shielded electrical
electrical cable
conductor
shielding films
conductor set
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US13/377,873
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English (en)
Inventor
Douglas B. Gundel
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3M Innovative Properties Co
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3M Innovative Properties Co
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Priority to US13/377,873 priority Critical patent/US20120090873A1/en
Assigned to 3M INNOVATIVE PROPERTIES COMPANY reassignment 3M INNOVATIVE PROPERTIES COMPANY ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: GUNDEL, DOUGLAS B.
Publication of US20120090873A1 publication Critical patent/US20120090873A1/en
Abandoned legal-status Critical Current

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K9/00Screening of apparatus or components against electric or magnetic fields
    • H05K9/0073Shielding materials
    • H05K9/0098Shielding materials for shielding electrical cables
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • H01B11/02Cables with twisted pairs or quads
    • H01B11/04Cables with twisted pairs or quads with pairs or quads mutually positioned to reduce cross-talk
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • H01B11/02Cables with twisted pairs or quads
    • H01B11/06Cables with twisted pairs or quads with means for reducing effects of electromagnetic or electrostatic disturbances, e.g. screens
    • H01B11/10Screens specially adapted for reducing interference from external sources
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • H01B11/02Cables with twisted pairs or quads
    • H01B11/06Cables with twisted pairs or quads with means for reducing effects of electromagnetic or electrostatic disturbances, e.g. screens
    • H01B11/10Screens specially adapted for reducing interference from external sources
    • H01B11/1091Screens specially adapted for reducing interference from external sources with screen grounding means, e.g. drain wires
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • H01B11/18Coaxial cables; Analogous cables having more than one inner conductor within a common outer conductor
    • H01B11/1891Coaxial cables; Analogous cables having more than one inner conductor within a common outer conductor comprising auxiliary conductors
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • H01B11/18Coaxial cables; Analogous cables having more than one inner conductor within a common outer conductor
    • H01B11/1895Particular features or applications
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B11/00Communication cables or conductors
    • H01B11/18Coaxial cables; Analogous cables having more than one inner conductor within a common outer conductor
    • H01B11/20Cables having a multiplicity of coaxial lines
    • H01B11/203Cables having a multiplicity of coaxial lines forming a flat arrangement
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/08Flat or ribbon cables
    • H01B7/0823Parallel wires, incorporated in a flat insulating profile
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/08Flat or ribbon cables
    • H01B7/0838Parallel wires, sandwiched between two insulating layers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/08Flat or ribbon cables
    • H01B7/0861Flat or ribbon cables comprising one or more screens
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/08Flat or ribbon cables
    • H01B7/0876Flat or ribbon cables comprising twisted pairs
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/17Protection against damage caused by external factors, e.g. sheaths or armouring
    • H01B7/18Protection against damage caused by wear, mechanical force or pressure; Sheaths; Armouring
    • H01B7/1875Multi-layer sheaths
    • H01B7/188Inter-layer adherence promoting means
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/08Flat or ribbon cables
    • H01B7/0892Flat or ribbon cables incorporated in a cable of non-flat configuration

Definitions

  • the present disclosure relates generally to shielded electrical cables for the transmission of electrical signals.
  • the present invention relates to shielded electrical cables that can be mass-terminated and provide high speed electrical properties.
  • Coaxial cables generally include an electrically conductive wire surrounded by an insulator. The wire and insulator are surrounded by a shield, and the wire, insulator, and shield are surrounded by a jacket.
  • a shielded electrical cable comprising one or more insulated signal conductors surrounded by a shielding layer formed, for example, by a metal foil. To facilitate electrical connection of the shielding layer, a further un-insulated conductor is sometimes provided between the shielding layer and the insulation of the signal conductor or conductors.
  • the present invention provides a shielded electrical cable including a conductor set and a shielding film.
  • the conductor set includes one or more substantially parallel longitudinal insulated conductors.
  • the shielding film includes a cover portion partially covering the conductor set, and parallel portions extending from both sides of the conductor set.
  • the present invention provides a shielded electrical cable including a plurality of spaced apart conductor sets arranged generally in a single plane and a shielding film.
  • Each conductor set includes one or more substantially parallel longitudinal insulated conductors.
  • the shielding film includes a plurality of cover portions partially covering the conductor sets, and a parallel portion disposed between adjacent conductor sets and configured to electrically isolate the adjacent conductor sets from each other.
  • FIG. 1 is a perspective view of an exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 2 a - 2 e are front cross-sectional views of five other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIG. 3 is a perspective view of two shielded electrical cables of FIG. 1 terminated to a printed circuit board.
  • FIGS. 4 a - 4 d are top views of an exemplary termination process of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 5 is a top view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 6 is a top view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 7 a - 7 d are front cross-sectional views of four other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 8 a - 8 c are front cross-sectional views of three other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 9 a - 9 b are top and partially cross-sectional front views, respectively, of an exemplary embodiment of an electrical assembly according to an aspect of the present invention terminated to a printed circuit board.
  • FIGS. 10 a - 10 e and 10 f - 10 g are perspective and front cross-sectional views, respectively, illustrating an exemplary method of making a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 11 a - 11 c are front cross-sectional views illustrating a detail of an exemplary method of making a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 12 a - 12 b are a front cross-sectional view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention and a corresponding detail view, respectively.
  • FIGS. 13 a - 13 b are front cross-sectional views of two other exemplary embodiments of a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 14 a - 14 b are front cross-sectional views of two other exemplary embodiments of a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 15 a - 15 c are front cross-sectional views of three other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 16 a - 16 g are front cross-sectional detail views illustrating seven exemplary embodiments of a parallel portion of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 17 a - 17 b are front cross-sectional detail views of another exemplary embodiment of a parallel portion of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 18 is a front cross-sectional detail view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention in a bent configuration.
  • FIG. 19 is a front cross-sectional detail view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 20 a - 20 f are front cross-sectional detail views illustrating six other exemplary embodiments of a parallel portion of a shielded electrical cable according to aspects of the present invention.
  • FIG. 21 a - 21 b are front cross-sectional views of two other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIG. 22 is a graph comparing the electrical isolation performance of an exemplary embodiment of a shielded electrical cable according to an aspect of the present invention to the electrical isolation performance of a conventional electrical cable.
  • FIG. 23 is a front cross-sectional view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 24 is a front cross-sectional view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 25 is a front cross-sectional view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 26 a - 26 d are front cross-sectional views of four other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIG. 27 is a front cross-sectional view of another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • FIG. 28 a - 28 d are front cross-sectional views of four other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIG. 29 a - 29 d are front cross-sectional views of four other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIG. 1 illustrates an exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • Shielded electrical cable 2 includes a plurality of spaced apart conductor sets 4 arranged generally in a single plane. Each conductor set includes two substantially parallel longitudinal insulated conductors 6 . Insulated conductors 6 may include insulated signal wires, insulated power wires, or insulated ground wires. Two generally parallel shielding films 8 are disposed around conductor sets 4 . A conformable adhesive layer 10 is disposed between shielding films 8 and bonds shielding films 8 to each other on both sides of each conductor set 4 .
  • conductor sets 4 have a substantially curvilinear cross-sectional shape
  • shielding films 8 are disposed around conductor sets 4 such as to substantially conform to and maintain the cross-sectional shape. Maintaining the cross-sectional shape maintains the electrical characteristics of conductor sets 4 as intended in the design of conductor sets 4 . This is an advantage over some conventional shielded electrical cables where disposing a conductive shield around a conductor set changes the cross-sectional shape of the conductor set.
  • each conductor set 4 includes two insulated conductors 6
  • each conductor set 4 may include one or more insulated conductors 6 .
  • shielded electrical cable 2 may include one conductor set 4 including eight insulated conductors 6 , or eight conductor sets 4 each including one insulated conductor 6 . This flexibility in arrangements of conductor sets 4 and insulated conductors 6 allows shielded electrical cable 2 to be configured suitable for the intended application.
  • conductor sets 4 and insulated conductors 6 may be configured to form a multiple twinaxial cable, i.e., multiple conductor sets 4 each including two insulated conductors 6 , a multiple coaxial cable, i.e., multiple conductor sets each including one insulated conductor 6 , or a combination thereof.
  • a conductor set 4 may further include a conductive shield (not shown) disposed around the one or more insulated conductors 6 , and an insulative jacket (not shown) disposed around the conductive shield.
  • shielded electrical cable 2 further includes optional longitudinal ground conductors 12 .
  • Ground conductors 12 may include ground wires or drain wires. Ground conductors 12 are spaced apart from and extend in substantially the same direction as insulated conductors 6 . Conductor sets 4 and ground conductors 12 are arranged generally in a single plane. Shielding films 8 are disposed around ground conductors 12 and conformable adhesive layer 10 bonds shielding films 8 to each other on both sides of ground conductors 12 . Ground conductors 12 may electrically contact at least one of shielding films 8 .
  • FIGS. 2 a - 2 e illustrate various exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 2 a - 2 e are specifically intended to illustrate various examples of arrangements of conductors disposed between two shielding films.
  • shielded electrical cable 102 includes a single conductor set 104 .
  • Conductor set 104 includes a single longitudinal insulated conductor 106 .
  • Two generally parallel shielding films 108 are disposed around conductor set 104 .
  • a conformable adhesive layer 110 is disposed between shielding films 108 and bonds shielding films 108 to each other on both sides of conductor set 104 .
  • Shielded electrical cable 102 further includes optional longitudinal ground conductors 112 . Ground conductors 112 are spaced apart from and extend in substantially the same direction as insulated conductor 106 .
  • Conductor set 104 and ground conductors 112 are arranged generally in a single plane.
  • Shielding films 108 are disposed around ground conductors 112 and conformable adhesive layer 110 bonds shielding films 108 to each other on both sides of ground conductors 112 .
  • Ground conductors 112 may electrically contact at least one of shielding films 108 .
  • Insulated conductor 106 is effectively arranged in a coaxial or single ended cable arrangement.
  • shielded electrical cable 202 is similar to shielded electrical cable 102 illustrated in FIG. 2 a .
  • shielded electrical cable 102 includes a single conductor set 104 including a single longitudinal insulated conductor 106
  • shielded electrical cable 202 includes a single conductor set 204 including two substantially parallel longitudinal insulated conductors 206 .
  • Insulated conductors 206 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • shielded electrical cable 302 is similar to shielded electrical cable 102 illustrated in FIG. 2 a .
  • shielded electrical cable 102 includes a single conductor set 104 including a single longitudinal insulated conductor 106
  • shielded electrical cable 302 includes a single conductor set 304 including two longitudinal insulated conductors 306 .
  • Insulated conductors 306 are arranged effectively in a twisted pair cable arrangement, whereby insulated conductors 306 twist around each other in longitudinal direction.
  • shielded electrical cable 402 is similar to shielded electrical cable 102 illustrated in FIG. 2 a .
  • shielded electrical cable 102 includes a single conductor set 104 including a single longitudinal insulated conductor 106
  • shielded electrical cable 402 includes a single conductor set 404 including four longitudinal insulated conductors 406 .
  • Insulated conductors 406 are arranged effectively in a quad cable arrangement, whereby insulated conductors 406 may twist around each other in longitudinal direction, or may be substantially parallel.
  • shielded electrical cables may include a plurality of spaced apart conductor sets 104 , 204 , 304 or 404 , or combinations thereof, arranged generally in a single plane.
  • the shielded electrical cables may include a plurality of ground conductors 112 spaced apart from and extending generally in the same direction as the insulated conductors of the conductor sets, wherein the conductor sets and ground conductors are arranged generally in a single plane.
  • FIG. 2 e illustrates an exemplary embodiment of such a shielded electrical cable.
  • shielded electrical cable 502 includes a plurality of spaced apart conductor sets 104 , 204 arranged generally in a single plane. Shielded electrical cable 502 further includes optional ground conductors 112 disposed between conductor sets 104 , 204 and at both ends of shielded electrical cable 502 . Two generally parallel shielding films 508 are disposed around conductor sets 104 , 204 and ground conductors 112 . A conformable adhesive layer 510 is disposed between shielding films 508 and bonds shielding films 508 to each other on both sides of each conductor set 104 , 204 and each ground conductor. Shielded electrical cable 502 includes a combination of coaxial cable arrangements (conductor sets 104 ) and a twinaxial cable arrangement (conductor set 204 ) and may therefore be referred to as a hybrid cable arrangement.
  • FIG. 3 illustrates two shielded electrical cables 2 terminated to a printed circuit board 14 .
  • insulated conductors 6 and ground conductors 12 are arranged generally in a single plane, shielded electrical cables 2 are well suited for mass-stripping, i.e., the simultaneous stripping of shielding films 8 and insulated conductors 6 , and mass-termination, i.e., the simultaneous terminating of the stripped ends of insulated conductors 6 and ground conductors 12 , which allows a more automated cable assembly process.
  • This is an advantage of the shielded electrical cables according to aspects of the present invention.
  • the stripped ends of insulated conductors 6 and ground conductors 12 are terminated to contact elements 16 on printed circuit board 14 .
  • the stripped ends of insulated conductors 6 and ground conductors 12 may be terminated to any suitable individual contact elements of any suitable termination point, such as, e.g., electrical contacts of an electrical connector.
  • FIGS. 4 a - 4 d illustrate an exemplary termination process of shielded electrical cable 2 to printed circuit board 14 .
  • This termination process can be a mass-termination process and includes the steps of stripping (illustrated in FIGS. 4 a - 4 b ), aligning (illustrated in FIG. 4 c ), and terminating (illustrated in FIG. 4 d ).
  • the arrangement of conductor sets 4 , insulated conductors 6 , and ground conductors 12 of shielded electrical cable 2 may be matched to the arrangement of contact elements 16 on printed circuit board 14 , which would eliminate any significant manipulation of the end portions of shielded electrical cable 2 during alignment or termination.
  • an end portion 8 a of shielding films 8 is removed. Any suitable method may be used, such as, e.g., mechanical stripping or laser stripping. This step exposes an end portion of insulated conductors 6 and ground conductors 12 . In one aspect, mass-stripping of end portion 8 a of shielding films 8 is possible because they form an integrally connected layer that is separate from the insulation of insulated conductors 6 . Removing shielding films 8 from insulated conductors 6 allows protection against electrical shorting at these locations and also provides independent movement of the exposed end portions of insulated conductors 6 and ground conductors 12 . In the step illustrated in FIG.
  • an end portion 6 a of the insulation of insulated conductors 6 is removed. Any suitable method may be used, such as, e.g., mechanical stripping or laser stripping. This step exposes an end portion of the conductor of insulated conductors 6 .
  • shielded electrical cable 2 is aligned with printed circuit board 14 such that the end portions of the conductors of insulated conductors 6 and the end portions of ground conductors 12 of shielded electrical cable 2 are aligned with contact elements 16 on printed circuit board 14 .
  • FIG. 4 c shielded electrical cable 2 is aligned with printed circuit board 14 such that the end portions of the conductors of insulated conductors 6 and the end portions of ground conductors 12 of shielded electrical cable 2 are aligned with contact elements 16 on printed circuit board 14 .
  • the end portions of the conductors of insulated conductors 6 and the end portions of ground conductors 12 of shielded electrical cable 2 are terminated to contact elements 16 on printed circuit board 14 .
  • suitable termination methods include soldering, welding, crimping, mechanical clamping, and adhesively bonding, to name a few.
  • FIG. 5 illustrates another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • Shielded electrical cable 602 is similar to shielded electrical cable 2 illustrated in FIG. 1 .
  • shielded electrical cable 602 includes a plurality of longitudinal splits 18 disposed between conductor sets 4 .
  • Splits 18 separate individual conductor sets 4 at least along a portion of the length of shielded electrical cable 602 , thereby increasing at least the lateral flexibility of shielded electrical cable 602 .
  • splits 18 may be placed such as to separate individual or multiple conductor sets 4 and ground conductors 12 .
  • splits 18 may be discontinuous along the length of shielded electrical cable 602 . To maintain the spacing of conductor sets 4 and ground conductors 12 in at least one end portion A of shielded electrical cable 602 and thereby maintaining mass-termination capability, splits 18 may not extend into one or both end portions A.
  • Splits 18 may be formed in shielded electrical cable 602 using any suitable method, such as, e.g., laser cutting or punching. Instead of or in combination with longitudinal splits, other suitable shapes of openings may be formed in shielded electrical cable 602 , such as, e.g., holes, e.g., to increase at least the lateral flexibility of shielded electrical cable 602 .
  • FIG. 6 illustrates another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • Shielded electrical cable 702 is similar to shielded electrical cable 602 illustrated in FIG. 5 . Effectively, in shielded electrical cable 702 , one of conductor sets 4 is replaced by two ground conductors 12 .
  • Shielded electrical cable 702 includes longitudinal splits 18 and 18 ′. Split 18 separates individual conductor sets 4 along a portion of the length of shielded electrical cable 702 and does not extend into end portions A of shielded electrical cable 702 .
  • Split 18 ′ separates individual conductor sets 4 along the length of shielded electrical cable 702 and extends into end portions A of shielded electrical cable 702 , which effectively splits shielded electrical cable 702 into two individual shielded electrical cables 702 ′, 702 ′′.
  • Shielding films 8 and ground conductors 12 provide an uninterrupted ground plane in each of the individual shielded electrical cables 702 ′, 702 ′′.
  • This exemplary embodiment illustrates the advantage of the parallel processing capability of the shielded electrical cables according to aspects of the present invention, whereby multiple shielded electrical cables may be formed simultaneously.
  • FIGS. 7 a - 7 d illustrate four other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 7 a - 7 e are specifically intended to illustrate various examples of constructions of the shielding films of the shielded electrical cables.
  • at least one of the shielding films may include a conductive layer and a non-conductive polymeric layer.
  • the conductive layer may include any suitable conductive material, including but not limited to copper, silver, aluminum, gold, and alloys thereof.
  • the non-conductive polymeric layer may include any suitable polymeric material, including but not limited to polyester, polyimide, polyamide-imide, polytetrafluoroethylene, polypropylene, polyethylene, polyphenylene sulfide, polyethylene naphthalate, polycarbonate, silicone rubber, ethylene propylene diene rubber, polyurethane, acrylates, silicones, natural rubber, epoxies, and synthetic rubber adhesive.
  • the non-conductive polymeric layer may include one or more additives and/or fillers to provide properties suitable for the intended application.
  • at least one of the shielding films may include a laminating adhesive layer disposed between the conductive layer and the non-conductive polymeric layer.
  • At least one of the shielding films may include a stand-alone conductive film.
  • the construction of the shielding films may be selected based on a number of design parameters suitable for the intended application, such as, e.g., flexibility, electrical performance, and configuration of the shielded electrical cable (such as, e.g., presence and location of ground conductors).
  • the shielding films include an integrally formed shielding film.
  • the shielding films have a thickness in the range of 0.01 mm to 0.05 mm. The shielding films provide isolation, shielding, and precise spacing between the conductor sets, and enable a more automated and lower cost cable manufacturing process.
  • the shielding films prevent a phenomenon known as “signal suck-out” or resonance, whereby high signal attenuation occurs at a particular frequency range. This phenomenon typically occurs in conventional shielded electrical cables where a conductive shield is wrapped around a conductor set.
  • shielded electrical cable 802 includes a single conductor set 804 .
  • Conductor set 804 includes two substantially parallel longitudinal insulated conductors 806 .
  • Two generally parallel shielding films 808 are disposed around conductor set 804 .
  • Shielding films 808 include a conformable adhesive layer 810 that bonds shielding films 808 to each other on both sides of conductor set 804 .
  • Insulated conductors 806 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielding films 808 include a conductive layer 808 a and a non-conductive polymeric layer 808 b. Non-conductive polymeric layer 808 b faces insulated conductors 806 .
  • Conductive layer 808 a may be deposited onto non-conductive polymeric layer 808 b using any suitable method.
  • shielded electrical cable 902 includes a single conductor set 904 .
  • Conductor set 904 includes two substantially parallel longitudinal insulated conductors 906 .
  • Two generally parallel shielding films 908 are disposed around conductor set 904 .
  • Shielding films 908 include a conformable adhesive layer 910 that bonds shielding films 908 to each other on both sides of conductor set 904 .
  • Insulated conductors 906 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielding films 908 include a conductive layer 908 a and a non-conductive polymeric layer 908 b.
  • Conductive layer 908 a faces insulated conductors 906 .
  • Conductive layer 908 a may be deposited onto non-conductive polymeric layer 908 b using any suitable method.
  • shielded electrical cable 1002 includes a single conductor set 1004 .
  • Conductor set 1004 includes two substantially parallel longitudinal insulated conductors 1006 .
  • Two generally parallel shielding films 1008 are disposed around conductor set 1004 .
  • Shielding films 1008 include a conformable adhesive layer 1010 that bonds shielding films 1008 to each other on both sides of conductor set 1004 .
  • Insulated conductors 1006 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielding films 1008 include a stand-alone conductive film.
  • shielded electrical cable 1102 includes a single conductor set 1104 .
  • Conductor set 1104 includes two substantially parallel longitudinal insulated conductors 1106 .
  • Two generally parallel shielding films 1108 are disposed around conductor set 1104 .
  • Shielding films 1108 include a conformable adhesive layer 1110 that bonds shielding films 1108 to each other on both sides of conductor set 1104 .
  • Insulated conductors 1106 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielding films 1108 include a conductive layer 1108 a, a non-conductive polymeric layer 1108 b, and a laminating adhesive layer 1108 c disposed between conductive layer 1108 a and non-conductive polymeric layer 1108 b , thereby laminating conductive layer 1108 a to non-conductive polymeric layer 1108 b .
  • Conductive layer 1108 a faces insulated conductors 1106 .
  • conformable adhesive layer 10 of shielded electrical cable 2 is disposed between shielding films 8 and bonds shielding films 8 to each other on both sides of each conductor set 4 .
  • conformable adhesive layer 10 may be disposed on one of shielding films 8 .
  • conformable adhesive layer 10 may be disposed on both shielding films 8 .
  • Conformable adhesive layer 10 may include an insulative adhesive and provide an insulative bond between shielding films 8 .
  • conformable adhesive layer 10 may provide an insulative bond between at least one of shielding films 8 and insulated conductors 6 , and between at least one of shielding films 8 and ground conductors 12 .
  • Conformable adhesive layer 10 may include a conductive adhesive and provide a conductive bond between shielding films 8 .
  • conformable adhesive layer 10 may provide a conductive bond between at least one of shielding films 8 and ground conductors 12 .
  • Suitable conductive adhesives include conductive particles to provide the flow of electrical current.
  • the conductive particles can be any of the types of particles currently used, such as spheres, flakes, rods, cubes, amorphous, or other particle shapes. They may be solid or substantially solid particles such as carbon black, carbon fibers, nickel spheres, nickel coated copper spheres, metal-coated oxides, metal-coated polymer fibers, or other similar conductive particles.
  • conductive particles can be made from electrically insulating materials that are plated or coated with a conductive material such as silver, aluminum, nickel, or indium tin-oxide.
  • the metal-coated insulating material can be substantially hollow particles such as hollow glass spheres, or may comprise solid materials such as glass beads or metal oxides.
  • the conductive particles may be on the order of several tens of microns to nanometer sized materials such as carbon nanotubes.
  • Suitable conductive adhesives may also include a conductive polymeric matrix.
  • conformable adhesive layer 10 may include a continuous adhesive layer extending along the entire length and width of shielding films 8 .
  • conformable adhesive layer 10 may include a discontinuous adhesive layer.
  • conformable adhesive layer 10 may be present only in some portions along the length or width of shielding films 8 .
  • discontinuous adhesive layer 10 includes a plurality of longitudinal adhesive stripes that are disposed, e.g., on both sides of each conductor set 4 and ground conductors 12 .
  • conformable adhesive layer 10 includes at least one of a pressure sensitive adhesive, a hot melt adhesive, a thermoset adhesive, and a curable adhesive.
  • conformable adhesive layer 10 is configured to provide a bond between shielding films 8 that is substantially stronger than a bond between one or more insulated conductor 6 and shielding films 8 . This may be achieved, e.g., by selecting the adhesive formulation accordingly.
  • conformable adhesive layer 10 is configured to provide a bond between shielding films 8 and a bond between one or more insulated conductor 6 and shielding films 8 that are substantially equally strong.
  • An advantage of this adhesive configuration is that insulated conductors 6 are anchored between shielding films 8 . On bending shielded electrical cable 2 , this allows for little relative movement and therefore reduces the likelihood of buckling of shielding films 8 . Suitable bond strengths may be chosen based on the intended application.
  • conformable adhesive layer 10 has a thickness of less than about 0.13 mm. In a preferred embodiment, conformable adhesive layer 10 has a thickness of less than about 0.05 mm.
  • Conformable adhesive layer 10 may conform to achieve desired mechanical and electrical performance characteristics of shielded electrical cable 2 .
  • conformable adhesive layer 10 may conform to be thinner between shielding films 8 in areas between conductor sets 4 , which increases at least the lateral flexibility of shielded electrical cable 2 . This allows shielded electrical cable 2 to be placed more easily into a curvilinear outer jacket, e.g.
  • conformable adhesive layer 10 may conform to be thicker in areas immediately adjacent conductor sets 4 and substantially conform to conductor sets 4 . This increases the mechanical strength and enables forming a curvilinear shape of shielding films 8 in these areas, which increases the durability of shielded electrical cable 2 , e.g., during flexing of the cable.
  • conformable adhesive layer 10 may conform to effectively be partially of completely removed between shielding films 8 in areas between conductor sets 4 . As a result, shielding films 8 electrically contact each other in these areas, which increases the electrical performance of shielded electrical cable 2 . In another aspect, conformable adhesive layer 10 may conform to effectively be partially of completely removed between at least one of shielding films 8 and ground conductors 12 .
  • ground conductors 12 electrically contact at least one of shielding films 8 in these areas, which increases the electrical performance of shielded electrical cable 2 . Even if a thin conformable adhesive layer 10 exists between at least one of shielding films 8 and ground conductors 12 , asperities on ground conductors 12 may break through conformable adhesive layer 10 to establish electrical contact as intended.
  • FIGS. 8 a - 8 c illustrate three other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 8 a - 8 c are specifically intended to illustrate examples of the placement of ground conductors in the shielded electrical cables.
  • An aspect of a shielded electrical cable is proper grounding of the shield.
  • Shielded electrical cables according to aspects of the present invention can be grounded in a number of ways.
  • the ground conductors electrically contact at least one of the shielding films such that grounding the ground conductors also grounds the shielding films.
  • the ground conductors may also be referred to as “drain wires”.
  • the ground conductors do not electrically contact the shielding films, but are individual elements in the cable construction that may be independently terminated to any suitable individual contact element of any suitable termination point, such as, e.g., a contact element on a printed circuit board.
  • the ground conductors may also be referred to as “ground wires”.
  • FIG. 8 a illustrates an exemplary embodiment of a shielded electrical cable according to an aspect of the present invention wherein the ground conductors are positioned external to the shielding films.
  • FIGS. 8 b - 8 c illustrate two exemplary embodiments of a shielded electrical cable according to aspects of the present invention wherein the ground conductors are positioned between the shielding films, and may be included in the conductor set.
  • One or more ground conductors may be placed in any suitable position external to the shielding films, between the shielding films, or a combination of both.
  • shielded electrical cable 1202 includes a single conductor set 1204 .
  • Conductor set 1204 includes two substantially parallel longitudinal insulated conductors 1206 .
  • Two generally parallel shielding films 1208 are disposed around conductor set 1204 .
  • a conformable adhesive layer 1210 is disposed between shielding films 1208 and bonds shielding films 1208 to each other on both sides of conductor set 1204 .
  • Insulated conductors 1206 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielded electrical cable 1202 further includes a plurality of ground conductors 1212 positioned external to shielding films 1208 . Ground conductors 1212 are placed over, under, and on both sides of conductor set 1204 .
  • shielded electrical cable 1202 includes protective films 1220 surrounding shielding films 1208 and ground conductors 1212 .
  • Protective films 1220 include a protective layer 1220 a and an adhesive layer 1220 b bonding protective layer 1220 a to shielding films 1208 and ground conductors 1212 .
  • shielding films 1208 and ground conductors 1212 may be surrounded by an outer conductive shield, such as, e.g., a conductive braid, and an outer insulative jacket (not shown).
  • shielded electrical cable 1302 includes a single conductor set 1304 .
  • Conductor set 1304 includes two substantially parallel longitudinal insulated conductors 1306 .
  • Two generally parallel shielding films 1308 are disposed around conductor set 1304 .
  • a conformable adhesive layer 1310 is disposed between shielding films 1308 and bonds shielding films 1308 to each other on both sides of conductor set 1304 .
  • Insulated conductors 1306 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielded electrical cable 1302 further includes a plurality of ground conductors 1312 positioned between shielding films 1308 . Two of the ground conductors 1312 are included in conductor set 1304 , and two of the ground conductors 1312 are spaced apart from conductor set 1304 .
  • shielded electrical cable 1402 includes a single conductor set 1404 .
  • Conductor set 1404 includes two substantially parallel longitudinal insulated conductors 1406 .
  • Two generally parallel shielding films 1408 are disposed around conductor set 1404 .
  • a conformable adhesive layer 1410 is disposed between shielding films 1408 and bonds shielding films 1408 to each other on both sides of conductor set 1404 .
  • Insulated conductors 1406 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielded electrical cable 1402 further includes a plurality of ground conductors 1412 positioned between shielding films 1408 . All of the ground conductors 1412 are included in conductor set 1404 . Two of the ground conductors 1412 and insulated conductors 1406 are arranged generally in a single plane.
  • FIGS. 9 a - 9 b illustrate an exemplary embodiment of an electrical assembly according to an aspect of the present invention terminated to a printed circuit board.
  • Electrical assembly 1500 includes a shielded electrical cable 1502 and an electrically conductive cable clip 1522 .
  • Shielded electrical cable 1502 includes a plurality of spaced apart conductor sets 1504 arranged generally in a single plane. Each conductor set includes two substantially parallel longitudinal insulated conductors 1506 . Two generally parallel shielding films 1508 are disposed around conductor sets 1504 .
  • a conformable adhesive layer 1510 is disposed between shielding films 1508 and bonds shielding films 1508 to each other on both sides of each conductor set 1504 .
  • Cable clip 1522 is clamped or otherwise attached to an end portion of shielded electrical cable 1502 such that at least one of shielding films 1508 electrically contacts cable clip 1522 .
  • Cable clip 1522 is configured for termination to a ground reference, such as, e.g., contact element 1516 on printed circuit board 1514 , to establish a ground connection between shielded electrical cable 1502 and the ground reference.
  • Cable clip may be terminated to the ground reference using any suitable method, including soldering, welding, crimping, mechanical clamping, and adhesively bonding, to name a few.
  • cable clip 1522 may facilitate termination of the end portions of the conductors of insulated conductors 1506 of shielded electrical cable 1502 to contact elements of a termination point, such as, e.g., contact elements 16 on printed circuit board 14 .
  • Shielded electrical cable 1502 may include one or more ground conductors as described herein that may electrically contact cable clip 1522 in addition to or instead of at least one of shielding films 1508 .
  • FIGS. 10 a - 10 g illustrate an exemplary method of making a shielded electrical cable according to an aspect of the present invention. Specifically, FIGS. 10 a - 10 g illustrate an exemplary method of making shielded electrical cable 2 illustrated in FIG. 1 .
  • insulated conductors 6 are formed using any suitable method, such as, e.g., extrusion. Insulated conductors 6 may be formed of any suitable length. Insulated conductors 6 may then be provided as such or cut to a desired length. Ground conductors 12 may be formed and provided in a similar fashion (not shown).
  • shielding films 8 are formed. A single layer or multilayer web may be formed using any suitable method, such as, e.g., continuous wide web processing. Shielding films 8 may be formed of any suitable length. Shielding films 8 may then be provided as such or cut to a desired length and/or width.
  • Shielding films 8 may be pre-formed to have transverse partial folds to increase flexibility in the longitudinal direction.
  • shielding films 8 include conformable adhesive layer 10 , which may be formed on shielding films 8 using any suitable method, such as, e.g., laminating or sputtering.
  • a forming tool 24 is provided. Forming tool 24 includes a pair of forming rolls 26 a, 26 b having a shape corresponding to a cross-sectional shape of shielded electrical cable 2 and include a bite 28 .
  • Insulated conductors 6 , ground conductors 12 , and shielding films 8 are arranged according to the configuration of shielded electrical cable 2 , and positioned in proximity to forming rolls 26 a, 26 b, after which they are concurrently fed into bite 28 of forming rolls 26 a, 26 b and disposed between forming rolls 26 a, 26 b.
  • Forming tool 24 forms shielding films 8 around conductor sets 4 and ground conductor 12 and bonds shielding films 8 to each other on both sides of each conductor set 4 and ground conductors 12 . Heat may be applied to facilitate bonding.
  • FIG. 10 d illustrates shielded electrical cable 2 as it is formed by forming tool 24 .
  • longitudinal splits 18 are formed between conductor sets 4 .
  • Splits 18 may be formed in shielded electrical cable 2 using any suitable method, such as, e.g., laser cutting or punching. In the step illustrated in FIG.
  • shielding films 8 of shielded electrical cable 2 are folded and an outer conductive shield 30 is provided around the folded shielding films 8 using any suitable method.
  • an outer jacket 32 is provided around outer conductive shield 30 using any suitable method, such as, e.g., extrusion.
  • outer conductive shield 30 may be omitted and outer jacket 32 may be provided around the folded shielding films 8 .
  • FIGS. 11 a - 11 c illustrate a detail of an exemplary method of making a shielded electrical cable according to an aspect of the present invention.
  • FIGS. 11 a - 11 c are specifically intended to illustrate an example of the conforming of conformable adhesive layers during the forming and bonding of shielding films.
  • shielding films 1608 each include a conformable adhesive layer 1610 .
  • shielding films 1608 are formed around insulated conductor 1606 and ground conductor 1612 and bonded to each other. Initially, as illustrated in FIG. 11 b , conformable adhesive layers 1610 still have their original thickness. As the forming and bonding of shielding films 1608 proceeds, conformable adhesive layers 1610 conform to achieve desired mechanical and electrical performance characteristics of shielded electrical cable 1602 . Specifically, as illustrated in FIG.
  • conformable adhesive layers 1610 conform to be thinner between shielding films 1608 on both sides of insulated conductor 1606 and ground conductor 1612 ; a portion of conformable adhesive layers 1610 displaces away from these areas. Further, conformable adhesive layers 1610 conform to be thicker in areas immediately adjacent insulated conductor 1606 and ground conductor 1612 , and substantially conform to insulated conductor 1606 and ground conductor 1612 ; a portion of conformable adhesive layers 1610 displaces into these areas. Further, conformable adhesive layers 1610 conform to effectively be removed between shielding films 1608 and ground conductor 1612 ; conformable adhesive layers 1610 displace away from these areas such that ground conductor 1612 electrically contacts shielding films 1608 .
  • the shielded electrical cable according to an aspect of the present invention includes a transition portion positioned on one or both sides of the conductor set.
  • This transition portion is configured to provide high manufacturability and strain and stress relief of the shielded electrical cable. Maintaining this transition portion at a substantially constant configuration (including aspects such as, e.g., size, shape, and content) along the length of the shielded electrical cable facilitates the shielded electrical cable to have substantially uniform electrical properties, such as, e.g., impedance, skew, insertion loss, reflection, mode conversion, eye opening, and jitter.
  • FIGS. 12 a - 14 b illustrate various exemplary embodiments of a shielded electrical cable according to aspects of the present invention that include a transition portion disposed on one or both sides of the conductor set.
  • shielded electrical cable 1702 includes a single conductor set 1704 .
  • Conductor set 1704 includes a single longitudinal insulated conductor 1706 .
  • Two generally parallel shielding films 1708 are disposed around conductor set 1704 .
  • An optional conformable adhesive layer 1710 is disposed between shielding films 1708 and bonds shielding films 1708 to each other on both sides of conductor set 1704 .
  • Insulated conductor 1706 is effectively arranged in a coaxial or single ended cable arrangement.
  • Shielding films 1708 include a conductive layer 1708 a and a non-conductive polymeric layer 1708 b. Conductive layer 1708 a faces insulated conductors 1706 .
  • shielding films 1708 is similar to the configuration of shielding films 908 shown in FIG. 7 b .
  • the configuration of shielding films 1708 may be similar to the configuration of shielding films 808 shown in FIG. 7 a , shielding films 1008 shown in FIG. 7 c , or shielding films 1108 shown in FIG. 7 d , for example.
  • Shielding films 1708 include a concentric portion 1708 ′ substantially concentric with conductor 1706 and parallel portions 1708 ′′ wherein shielding films 1708 are substantially parallel.
  • shielding films 1708 may include a single parallel portion 1708 ′′.
  • Shielded electrical cable 1702 further includes transition portions 1734 positioned on both sides of conductor set 1704 .
  • shielded electrical cable 1702 may include a transition portion 1734 positioned on only one side of conductor set 1704 .
  • Transition portions 1734 are defined by shielding films 1708 and conductor set 1704 and provide a gradual transition between concentric portion 1708 ′ and parallel portion 1708 ′′ of shielding films 1708 .
  • a gradual transition such as, e.g., a substantially sigmoidal transition, provides strain and stress relief for shielding films 1708 in transition portions 1734 and prevents damage to shielding films 1708 when shielded electrical cable 1702 is in use, e.g., when laterally or axially bending shielded electrical cable 1702 .
  • This damage may include, e.g., fractures in conductive layer 1708 a and/or debonding between conductive layer 1708 a and non-conductive polymeric layer 1708 b.
  • shielding films 1708 in manufacturing of shielded electrical cable 1702 which may include, e.g., cracking or shearing of conductive layer 1708 a and/or non-conductive polymeric layer 1708 b.
  • the configuration of shielded electrical cables according aspects of the present invention including a transition portion on one or both sides of the conductor set represents a departure from conventional cable configurations, such as, e.g., an ideal coaxial cable, wherein a shield is generally continuously disposed around a single insulated conductor, or an ideal twinaxial cable, wherein a shield is generally continuously disposed around a pair of insulated conductors.
  • these ideal cable configurations provide ideal electromagnetic profiles, these profiles are not necessary to achieve acceptable electrical properties.
  • acceptable electrical properties can be achieved by minimizing the electrical impact of the transition portion, e.g., by minimizing the size of the transition portion and carefully controlling the configuration of the transition portion along the length of the shielded electrical cable.
  • Minimizing the size of the transition portion minimizes the capacitance deviation and minimizes the required space between multiple conductor sets, thereby reducing the conductor set pitch and/or increasing the electrical isolation between conductor sets.
  • Careful control of the configuration of the transition portion along the length of the shielded electrical cable contributes to obtaining predictable electrical behavior and consistency, which is important for high speed transmission lines so that electrical data can be reliably transmitted, and becomes more important when the size of the transition portion cannot be minimized.
  • An electrical characteristic that is often considered is the characteristic impedance of the transmission line. Any impedance changes along the length of a transmission line may cause power to be reflected back to the source instead of being transmitted to the target.
  • the transmission line will have no impedance variation along its length, but, depending on the intended application, variations up to 5-10% may be acceptable.
  • Another electrical characteristic that is often considered in twinaxial cables (differentially driven) is skew or unequal transmission speeds of two transmission lines of a pair along at least a portion of their length. Skew produces conversion of the differential signal to a common mode signal that can be reflected back to the source, reduces the transmitted signal strength, creates electromagnetic radiation, and dramatically increases the bit error rate, in particular jitter.
  • a pair of transmission lines will have no skew, but, depending on the intended application, a differential S-parameter SCD 21 or SCD 12 value (representing the differential-to common mode conversion from one end of the transmission line to the other) of less than ⁇ 25 to ⁇ 30 dB up to a frequency of interest, such as, e.g., 6 GHz, may be acceptable.
  • skew can be measured in the time domain and compared to a required specification. Depending on the intended application, values of less than about 20 picoseconds/meter (ps/m) and preferably less than about 10 ps/m may be acceptable.
  • transition portions 1734 of shielded electrical cable 1702 may each include a cross-sectional area 1734 a that is smaller than a cross-sectional area 1706 a of conductor 1706 .
  • cross-sectional area 1734 a of transition portion 1734 is defined by transition points 1734 ′, where shielding films 1708 deviate from being substantially concentric with insulated conductor 1706 , and transition points 1734 ′′, where shielding films 1708 deviate from being substantially parallel.
  • each cross-sectional area 1734 a may include a void portion 1734 b. Void portions 1734 b may be substantially the same.
  • conformable adhesive layer 1710 may have a thickness T ac in concentric portion 1708 ′, and a thickness in transition portion 1734 that is greater than thickness T ac in concentric portion 1708 ′.
  • conformable adhesive layer 1710 may have a thickness T ap in parallel portion 1708 ′′, and a thickness in transition portion 1734 that is greater than thickness T ap in parallel portion 1708 ′′.
  • Conformable adhesive layer 1710 may represent at least 25% of cross-sectional area 1734 a. The presence of conformable adhesive layer 1710 in cross-sectional area 1734 a, in particular at a thickness that is greater than thickness T ac or thickness T ap , contributes to the strength of transition portion 1734 .
  • Shielded electrical cable 1702 may include a transition portion 1734 positioned on one or both sides of conductor set 1704 that includes a cross-sectional area 1734 a that is substantially equal to or smaller than a cross-sectional area 1706 a of conductor 1706 .
  • Shielded electrical cable 1702 may include a transition portion 1734 positioned on one or both sides of conductor set 1704 that includes a cross-sectional area 1734 a that is substantially the same along the length of conductor 1706 .
  • cross-sectional area 1734 a may vary less than 50% over a length of 1 m.
  • Shielded electrical cable 1702 may include transition portions 1734 positioned on both sides of conductor set 1704 that each include a cross-sectional area 1734 a, wherein the sum of cross-sectional areas 1734 a is substantially the same along the length of conductor 1706 .
  • the sum of cross-sectional areas 1734 a may vary less than 50% over a length of 1 m.
  • Shielded electrical cable 1702 may includes transition portions 1734 positioned on both sides of conductor set 1704 that each include a cross-sectional area 1734 a, wherein the cross-sectional areas 1734 a are substantially the same. Shielded electrical cable 1702 may include transition portions 1734 positioned on both sides of conductor set 1704 , wherein the transition portions 1734 are substantially identical. Insulated conductor 1706 has an insulation thickness T i and transition portion 1734 may have a lateral length L t that is less than insulation thickness T i . Insulated conductor 1706 has a diameter D c , and transition portion 1734 may have a lateral length L t that is less than diameter D c .
  • the various configurations described above may provide a characteristic impedance that remains within a desired range, such as, e.g., within 5-10% of a target impedance value, such as, e.g., 50 Ohms, over a given length, such as, e.g., 1 m.
  • a target impedance value such as, e.g., 50 Ohms
  • a given length such as, e.g., 1 m.
  • Factors that control the configuration of transition portion 1734 along the length of shielded electrical cable 1702 include the manufacturing process, the thickness of conductive layers 1708 a and non-conductive polymeric layers 1708 b, conformable adhesive layer 1710 , and the bond strength between insulated conductor 1706 and shielding films 1708 , to name a few.
  • conductor set 1704 , shielding films 1708 , and transition portion 1734 are cooperatively configured in an impedance controlling relationship.
  • An impedance controlling relationship means that conductor set 1704 , shielding films 1708 , and transition portion 1734 are cooperatively configured to control the characteristic impedance of the shielded electrical cable.
  • FIGS. 13 a - 13 b illustrate two other exemplary embodiments of a shielded electrical cable according to aspects of the present invention including two insulated conductors.
  • shielded electrical cable 1802 includes a single conductor set 1804 including two substantially parallel longitudinal individually insulated conductors 1806 .
  • Two generally parallel shielding films 1808 are disposed around conductor set 1804 .
  • An optional conformable adhesive layer 1810 is disposed between shielding films 1808 and bonds shielding films 1808 to each other on both sides of conductor set 1804 .
  • Insulated conductors 1806 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • Shielding films 1808 include a conductive layer 1808 a and a non-conductive polymeric layer 1808 b. Conductive layer 1808 a faces insulated conductors 1806 . Shielding films 1808 include concentric portions 1808 ′ substantially concentric with corresponding conductors 1806 and parallel portions 1808 ′′ wherein shielding films 1808 are substantially parallel. Shielded electrical cable 1802 includes transition portions 1834 positioned on both sides of conductor set 1804 that each include a cross-sectional area 1834 a, wherein the sum of cross-sectional areas 1834 a is substantially the same along the length of conductors 1806 . For example, the sum of cross-sectional areas 1834 a may vary less than 50% over a length of 1 m.
  • cross-sectional areas 1834 a are substantially the same and transition portions 1834 are substantially identical.
  • This configuration of transition portions 1834 may provide a characteristic impedance for each conductor 1806 (single-ended) and a differential impedance that both remain within a desired range, such as, e.g., within 5-10% of a target impedance value over a given length, such as, e.g., 1 m.
  • this configuration of transition portions 1834 may minimize skew of the two conductors 1806 along at least a portion of their length.
  • shielded electrical cable 1902 is similar to shielded electrical cable 1802 .
  • shielded electrical cable 1802 has individually insulated conductors 1806
  • shielded electrical cable 1902 has jointly insulated conductors 1906 .
  • transition portions 1934 are identical to transition portions 1834 and provide the same benefits to shielded electrical cable 1902 .
  • FIGS. 14 a - 14 b illustrate two other exemplary embodiments of a shielded electrical cable according to aspects of the present invention including two insulated conductors. These exemplary embodiments are intended to illustrate variations in position and configuration of the transition portions.
  • Shielded electrical cables 2002 FIGS. 14 a ) and 2102 ( FIG. 14 b ) are similar to shielded electrical cable 1802 . Whereas in shielded electrical cable 1802 , parallel portions 1808 ′′ of shielding films 1808 and insulated conductors 1806 are arranged generally in a single plane, in shielded electrical cables 2002 and 2102 , parallel portions 2008 ′′ and 2108 ′′ of shielding films 2008 and 2108 and insulated conductors 2006 and 2106 are arranged in different planes.
  • transition portions 2034 and 2134 have a different position and configuration. For reasons including that transition portions 2034 and 2134 are positioned substantially symmetrically with respect to corresponding insulated conductors 2006 and 2106 and that the configuration of transition portions 2034 and 2134 is carefully controlled along the length of shielded electrical cables 2002 and 2102 , shielded electrical cables 2002 and 2102 are configured to still provide acceptable electrical properties.
  • shielded electrical cables include a plurality of spaced apart conductor sets arranged generally in a single plane.
  • Each conductor set includes one or more substantially parallel longitudinal insulated conductors.
  • Two generally parallel shielding films are disposed around the conductor sets and include a plurality of concentric portions substantially concentric with at least one of the conductors and a plurality of parallel portions wherein the shielding films are substantially parallel.
  • a plurality of transition portions defined by the shielding films and the conductor sets provide a gradual transition between the concentric portions and the parallel portions of the shielding films. The transition portions may be positioned on both sides of each conductor set.
  • the shielded electrical cable may include a combination of one or more conductor sets 1704 , wherein insulated conductor 1706 is effectively arranged in a coaxial or single ended cable arrangement, and one or more conductor sets 1804 , wherein insulated conductors 1806 are effectively arranged in a twinaxial or differential pair cable arrangement.
  • the conductor sets, shielding films and transition portions may be cooperatively configured in an impedance controlling relationship.
  • FIGS. 15 a - 15 c, 18 and 19 illustrate several other exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 16 a - 16 g, 17 a - 17 b and 20 a - 20 f illustrate several exemplary embodiments of a parallel portion of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 15 a - 20 f are specifically intended to illustrate examples of a parallel portion that is configured to electrically isolate a conductor set of the shielded electrical cable.
  • the conductor set may be electrically isolated from an adjacent conductor set (e.g., to minimize crosstalk between adjacent conductor sets, FIGS.
  • the parallel portion may include various mechanical structures to realize the electrical isolation. Examples include close proximity of the shielding films, high dielectric constant material between the shielding films, ground conductors that make direct or indirect electrical contact with at least one of the shielding films, extended distance between adjacent conductor sets, physical breaks between adjacent conductor sets, intermittent contact of the shielding films to each other directly either longitudinally, transversely, or both, and conductive adhesive, to name a few.
  • a parallel portion of the shielding films is defined as a portion of the shielding films that is not covering a conductor set.
  • shielded electrical cable 2202 includes two conductor sets 2204 , each including two substantially parallel longitudinal insulated conductors 2206 , and two generally parallel shielding films 2208 disposed around conductor sets 2204 .
  • Shielding films 2208 include parallel portions 2208 ′′ wherein shielding films 2208 are substantially parallel.
  • Parallel portions 2208 ′′ positioned in between conductor sets 2204 are configured to electrically isolate conductor sets 2204 from each other.
  • parallel portions 2208 ′′ of shielding films 2208 and insulated conductors 2206 are arranged generally in a single plane.
  • shielded electrical cable 2302 includes two conductor sets 2304 , each including one longitudinal insulated conductor 2306 , and two generally parallel shielding films 2308 disposed around conductor sets 2304 .
  • Shielding films 2308 include parallel portions 2308 ′′ wherein shielding films 2308 are substantially parallel.
  • Parallel portions 2308 ′′ positioned in between conductor sets 2304 are configured to electrically isolate conductor sets 2304 from each other.
  • parallel portions 2308 ′′ of shielding films 2308 and insulated conductors 2306 are arranged generally in a single plane.
  • shielded electrical cable 2402 includes two conductor sets 2404 , each including two substantially parallel longitudinal insulated conductors 2406 , and two generally parallel shielding films 2408 disposed around conductor sets 2404 .
  • Shielding films 2408 include parallel portions 2408 ′′ wherein shielding films 2408 are substantially parallel.
  • Parallel portions 2408 ′′ positioned in between conductor sets 2404 are configured to electrically isolate conductor sets 2404 from each other.
  • parallel portions 2408 ′′ of shielding films 2408 and insulated conductors 2406 are arranged in different planes.
  • shielded electrical cable 2502 includes a parallel portion 2508 ′′ wherein shielding films 2508 are spaced apart. Spacing apart shielding films 2508 , i.e., not having shielding films 2508 make direct electrical contact continuously along their seam, increases the strength of parallel portion 2508 ′′. This is an advantage over shielded electrical cables wherein relatively thin and fragile shielding films may fracture or crack during manufacturing if forced to make direct electrical contact continuously along their seam. Spacing apart shielding films 2508 may permit crosstalk between adjacent conductor sets if effective means are not used to reduce the crosstalk potential. Generally, the electrical and magnetic fields must be contained to the general area of the conductor sets and not permitted to impinge on an adjacent conductor set. In the embodiment illustrated in FIG.
  • shielding films 2508 are spaced apart by less than about 0.13 mm in at least one location of parallel portion 2508 ′′.
  • the resulting characteristic impedance between shielding films 2508 may be less than about 15 Ohms, and the resulting crosstalk between adjacent conductor sets may be less than about ⁇ 25 dB.
  • parallel portion 2508 ′′ has a minimum thickness of less than about 0.13 mm.
  • shielding films 2508 are spaced apart by a separation medium.
  • the separation medium may include conformable adhesive layer 2510 .
  • the separation medium has a dielectric constant of at least 1.5.
  • a high dielectric constant decreases the characteristic impedance between shielding films 2508 , thereby decreasing the crosstalk (increasing the electrical isolation) between adjacent conductor sets.
  • Shielding films 2508 may make direct electrical contact with each other in at least one location of parallel portion 2508 ′′.
  • Shielding films 2508 may be forced together in selective locations as suitable for the intended application such that conformable adhesive layer 2510 conforms around these locations. This can be done, e.g., with a patterned tool making intermittent pinch contact between shielding films 2508 in these locations. These locations may be patterned longitudinally or transversely.
  • the separation medium may be electrically conductive to enable direct electrical contact between shielding films 2508 .
  • shielded electrical cable 2602 includes a parallel portion 2608 ′′ including a longitudinal ground conductor 2612 disposed between shielding films 2608 .
  • Ground conductor 2612 makes indirect electrical contact with both shielding films 2608 .
  • Ground conductor 2612 has a low but non-zero impedance with respect to shielding films 2608 .
  • ground conductor 2612 may make direct or indirect electrical contact with at least one of the shielding films 2608 in at least one location of parallel portion 2608 ′′.
  • shielded electrical cable 2602 includes a conformable adhesive layer 2610 disposed between shielding films 2608 and configured to provide controlled separation of at least one of shielding films 2608 and ground conductor 2612 .
  • conformable adhesive layer 2610 has a non-uniform thickness that allows ground conductor 2612 to make direct or indirect electrical contact with at least one of shielding films 2608 in selective locations as suitable for the intended application.
  • ground conductor 2612 may include surface asperities or a deformable wire, such as, e.g., a stranded wire, to provide this controlled electrical contact between ground conductor 2612 and at least one of shielding films 2608 .
  • shielded electrical cable 2702 includes a parallel portion 2708 ′′ including a longitudinal ground conductor 2712 disposed between shielding films 2708 .
  • Ground conductor 2712 makes direct electrical contact with both shielding films 2708 .
  • shielded electrical cable 2802 includes a parallel portion 2808 ′′ wherein shielding films 2808 make direct electrical contact with each other by any suitable means, such as, e.g., conductive element 2844 .
  • Conductive element 2844 may include a conductive plated via or channel, a conductive filled via or channel, or a conductive adhesive, to name a few.
  • shielded electrical cable 2902 includes a parallel portion 2908 ′′ including an opening 2936 in at least one location of parallel portion 2908 ′′.
  • parallel portion 2908 ′′ is discontinuous.
  • Opening 2936 may include a hole, a perforation, a slit, and any other suitable element. Opening 2936 provides at least some level of physical separation, which contributes to the electrical isolation performance of parallel portion 2908 ′′ and increases at least the lateral flexibility of shielded electrical cable 2902 . This separation may be discontinuous along the length of parallel portion 2908 ′′, and may be discontinuous across the width of parallel portion 2908 ′′.
  • shielded electrical cable 3002 includes a parallel portion 3008 ′′ wherein at least one of shielding films 3008 includes a break 3038 in at least one location of parallel portion 3008 ′′.
  • at least one of shielding films 3008 is discontinuous.
  • Break 3038 may include a hole, a perforation, a slit, and any other suitable element. Break 3038 provides at least some level of physical separation, which contributes to the electrical isolation performance of parallel portion 3008 ′′ and increases at least the lateral flexibility of shielded electrical cable 3002 . This separation may be discontinuous or continuous along the length of parallel portion 3008 ′′, and may be discontinuous across the width of parallel portion 3008 ′′.
  • shielded electrical cable 3102 includes a parallel portion 3108 ′′ that is piecewise planar in a folded configuration. All other things being equal, a piecewise planar parallel portion has a greater actual width than a planar parallel portion having the same projected width. If the actual width of a parallel portion is much greater than the spacing between the shielding films, a low characteristic impedance results, which contributes to the electrical isolation performance of the parallel portion. In one embodiment, a characteristic impedance of less than 5 to 10 Ohms results in good electrical isolation. In one embodiment, parallel portion 3108 ′′ of shielded electrical cable 3102 has an actual width to minimum spacing ratio of at least 5. In one embodiment, parallel portion 3108 ′′ is pre-bent and thereby increases at least the lateral flexibility of shielded electrical cable 3102 . Parallel portion 3108 ′′ may be piecewise planar in any other suitable configuration.
  • Shielded electrical cable 3202 includes two generally parallel shielding films 3208 include a parallel portion 3208 ′′ wherein shielding films 3208 are substantially parallel.
  • Shielding films 3208 include a non-conductive polymeric layer 3208 b, a conductive layer 3208 a disposed on non-conductive polymeric layer 3208 b, and a stop layer 3208 d disposed on conductive layer 3208 a.
  • a conformable adhesive layer 3210 is disposed on stop layer 3208 d.
  • Parallel portion 3208 ′′ includes a longitudinal ground conductor 3212 disposed between shielding films 3208 .
  • Ground conductor 3212 makes indirect electrical contact with conductive layers 3208 a of shielding films 3208 .
  • This indirect electrical contact is enabled by a controlled separation of conductive layer 3208 a and ground conductor 3212 provided by stop layer 3208 d.
  • stop layer 3208 d is a non-conductive polymeric layer.
  • an external pressure FIG. 17 a
  • an external pressure FIG. 17 a
  • stop layer 3208 d does not conform at least under the same conditions, it prevents direct electrical contact between ground conductor 3212 and conductive layer 3208 a of shielding films 3208 .
  • the thickness and dielectric properties of stop layer 3208 d may be selected to achieve a target characteristic impedance. In one embodiment, a characteristic impedance of less than 5 to 10 Ohms results in good electrical isolation.
  • FIG. 18 illustrates another exemplary embodiment of a shielded electrical cable according to an aspect of the present invention.
  • Shielded electrical cable 3302 includes two generally parallel shielding films 3308 disposed around spaced apart conductor sets 3304 .
  • Shielding films 3308 include parallel portions 3308 ′′ wherein shielding films 3308 are substantially parallel.
  • Parallel portions 3308 ′′ are configured to be laterally bent at an angle a of at least 30°. This lateral flexibility of parallel portions 3308 ′′ enables shielded electrical cable 3302 to be folded in any suitable configuration, such as, e.g., a configuration that can be used in a round cable (see, e.g., FIG. 10 g ).
  • the lateral flexibility of parallel portions 3308 ′′ is enabled by shielding films 3308 including two or more relatively thin individual layers. To warrant the integrity of these individual layers in particular under bending conditions, it is preferred that the bonds between them remain intact.
  • parallel portions 3308 ′′ have a minimum thickness of less than about 0.13 mm, and the bond strength between individual layers is at least 17.86 g/mm (1 lbs/inch) after thermal exposures during processing or use.
  • the parallel portions it is beneficial to the electrical performance of a shielded electrical cable according to aspect of the present invention for the parallel portions to have approximately the same size and shape on both sides of a conductor set. Any dimensional changes or imbalances may produce imbalances in capacitance and inductance along the length of the parallel portion. This in turn may cause impedance differences along the length of the parallel portion and impedance imbalances between adjacent conductor sets. At least for these reasons, control of the spacing between the shielding films may be desired. In one embodiment, the shielding films on both sides of a conductor set are spaced apart within about 0.05 mm of each other.
  • shielded electrical cable 3402 includes two conductor sets 3404 , each including two substantially parallel longitudinal insulated conductors 3406 , and two generally parallel shielding films 3408 disposed around conductor sets 3404 .
  • Shielding films 3408 include parallel portions 3408 ′′ wherein shielding films 3408 are substantially parallel.
  • Parallel portions 3408 ′′ positioned at or near an edge of shielded electrical cable 3402 are configured to electrically isolate conductor sets 3404 from the external environment.
  • parallel portions 3408 ′′ of shielding films 3408 and insulated conductors 3406 are arranged generally in a single plane.
  • shielded electrical cable 3502 includes a parallel portion 3508 ′′ wherein shielding films 3508 are spaced apart.
  • Parallel portion 3508 ′′ is similar to parallel portion 2508 ′′ described above and illustrated in FIG. 16 a . Whereas parallel portion 2508 ′′ is positioned in between conductor sets, parallel portion 3508 ′′ is positioned at or near an edge of shielded electrical cable 3502 .
  • shielded electrical cable 3602 includes a parallel portion 3608 ′′ including a longitudinal ground conductor 3612 disposed between shielding films 3608 .
  • Parallel portion 3608 ′′ is similar to parallel portion 2608 ′′ described above and illustrated in FIG. 16 b . Whereas parallel portion 2608 ′′ is positioned in between conductor sets, parallel portion 3608 ′′ is positioned at or near an edge of shielded electrical cable 3602 .
  • shielded electrical cable 3702 includes a parallel portion 3708 ′′ including a longitudinal ground conductor 3712 disposed between shielding films 3708 .
  • Parallel portion 3708 ′′ is similar to parallel portion 2708 ′′ described above and illustrated in FIG. 16 c . Whereas parallel portion 2708 ′′ is positioned in between conductor sets, parallel portion 3708 ′′ is positioned at or near an edge of shielded electrical cable 3702 .
  • shielded electrical cable 3802 includes a parallel portion 3808 ′′ wherein shielding films 3808 make direct electrical contact with each other by any suitable means, such as, e.g., conductive element 3844 .
  • Conductive element 3844 may include a conductive plated via or channel, a conductive filled via or channel, or a conductive adhesive, to name a few.
  • Parallel portion 3808 ′′ is similar to parallel portion 2808 ′′ described above and illustrated in FIG. 16 d . Whereas parallel portion 2808 ′′ is positioned in between conductor sets, parallel portion 3808 ′′ is positioned at or near an edge of shielded electrical cable 3802 .
  • shielded electrical cable 3902 includes a parallel portion 3908 ′′ that is piecewise planar in a folded configuration.
  • Parallel portion 3908 ′′ is similar to parallel portion 3108 ′′ described above and illustrated in FIG. 16 g . Whereas parallel portion 3108 ′′ is positioned in between conductor sets, parallel portion 3908 ′′ is positioned at or near an edge of shielded electrical cable 3902 .
  • shielded electrical cable 4002 includes a parallel portion 4008 ′′ that is piecewise planar in a curved configuration and positioned at or near an edge of shielded electrical cable 4002 .
  • a shielded electrical cable may include at least one longitudinal ground conductor, an electrical article extending in substantially the same direction as the ground conductor, and two generally parallel shielding films disposed around the ground conductor and the electrical article.
  • the shielding films and ground conductor are configured to electrically isolate the electrical article.
  • the ground conductor may extend beyond at least one of the ends of the shielding films, e.g., for termination of the shielding films to any suitable individual contact element of any suitable termination point, such as, e.g., a contact element on a printed circuit board or an electrical contact of an electrical connector.
  • the electrical article may include at least one longitudinal conductor, at least one conductor set including one or more substantially parallel longitudinal insulated conductors, a flexible printed circuit, or any other suitable electrical article of which electrical isolation is desired.
  • FIGS. 21 a - 21 b illustrate two exemplary embodiments of such shielded electrical cable configuration.
  • shielded electrical cable 4102 includes two spaced apart substantially parallel longitudinal ground conductors 4112 , an electrical article 4140 positioned between and extending in substantially the same direction as ground conductors 4112 , and two generally parallel shielding films 4108 disposed around ground conductors 4112 and electrical article 4140 .
  • Electrical article 4140 includes three conductor sets 4104 . Each conductor set 4104 includes two substantially parallel longitudinal insulated conductors 4106 . Ground conductors 4112 make indirect electrical contact with both shielding films 4108 . Ground conductors 4112 have a low but non-zero impedance with respect to shielding films 4108 .
  • ground conductors 4112 may make direct or indirect electrical contact with at least one of the shielding films 4108 in at least one location of shielding films 4108 .
  • shielded electrical cable 4102 includes a conformable adhesive layer 4110 disposed between shielding films 4108 and bonding shielding films 4108 to each other on both sides of ground conductors 4112 and electrical article 4140 .
  • Conformable adhesive layer 4110 is configured to provide controlled separation of at least one of shielding films 4108 and ground conductors 4112 . In one aspect, this means that conformable adhesive layer 4110 has a non-uniform thickness that allows ground conductors 4112 to make direct or indirect electrical contact with at least one of shielding films 4108 in selective locations as suitable for the intended application.
  • ground conductors 4112 may include surface asperities or a deformable wire, such as, e.g., a stranded wire, to provide this controlled electrical contact between ground conductors 4112 and at least one of shielding films 4108 .
  • shielding films 4108 are spaced apart by a minimum spacing in at least one location of shielding films 4108 , and ground conductors 4112 have a thickness that is greater than the minimum spacing. In one embodiment, shielding films 4108 have a thickness of less than about 0.025 mm.
  • shielded electrical cable 4202 includes two spaced apart substantially parallel longitudinal ground conductors 4212 , an electrical article 4240 positioned between and extending in substantially the same direction as ground conductors 4212 , and two generally parallel shielding films 4208 disposed around ground conductors 4212 and electrical article 4240 .
  • Shielded electrical cable 4202 is similar to shielded electrical cable 4102 described above and illustrated in FIG. 21 a .
  • electrical article 4140 includes three conductor sets 4104 each including two substantially parallel longitudinal insulated conductors 4106
  • electrical article 4240 includes a flexible printed circuit including three conductor sets 4242 .
  • FIG. 22 illustrates the far end crosstalk (FEXT) isolation between two adjacent conductor sets of a conventional electrical cable wherein the conductor sets are completely isolated, i.e., have no common ground (Sample 1), and between two adjacent conductor sets of shielded electrical cable 2202 illustrated in FIG. 15 a wherein shielding films 2208 are spaced apart by about 0.025 mm (Sample 2), both having a cable length of about 3 m.
  • the test method for creating this data is well known in the art. The data was generated using an Agilent 8720ES 50 MHz-20 GHz S-Parameter Network Analyzer. It can be seen by comparing the far end crosstalk plots that the conventional electrical cable and shielded electrical cable 2202 provide a similar far end crosstalk performance.
  • both the conventional electrical cable and shielded electrical cable 2202 provide satisfactory electrical isolation performance.
  • the satisfactory electrical isolation performance in combination with the increased strength of the parallel portion due to the ability to space apart the shielding films is an advantage of a shielded electrical cable according to an aspect of the present invention over conventional electrical cables.
  • the shielded electrical cable includes two generally parallel shielding films disposed around a conductor set or around a plurality of spaced apart conductor sets.
  • the shielded electrical cable may include a single shielding film.
  • Advantages of a shielded electrical cable including a single shielding film include a decrease in its material cost and an increase in its mechanical flexibility, manufacturability, and ease of stripping and termination.
  • a single shielding film may provide an acceptable level of electromagnetic interference (EMI) isolation and may reduce the proximity effect thereby decreasing signal attenuation.
  • FIGS. 23-29 d illustrate various exemplary embodiments of a shielded electrical cable according to aspects of the present invention including a single shielding film.
  • shielded electrical cable 4302 includes two spaced apart conductor sets 4304 and a single shielding film 4308 .
  • Each conductor set 4304 includes a single longitudinal insulated conductor 4306 .
  • Insulated conductors 4306 are arranged generally in a single plane and effectively in a coaxial or single ended cable arrangement.
  • Shielding film 4308 includes parallel portions 4308 ′′ extending from both sides of each conductor set 4304 .
  • Parallel portions 4308 ′′ cooperatively define a generally planar shielding film.
  • Shielding film 4308 further includes two cover portions 4308 ′′′ each partially covering a conductor set 4304 .
  • Each cover portion 4308 ′′′ includes a concentric portion 4308 ′ substantially concentric with corresponding conductor 4306 .
  • Shielding film 4308 includes a conductive layer 4308 a and a non-conductive polymeric layer 4308 b .
  • Conductive layer 4308 a faces insulated conductors 4306 .
  • Shielded electrical cable 4302 further includes an optional non-conductive carrier film 4346 .
  • Carrier film 4346 includes parallel portions 4346 ′′ extending from both sides of each conductor set 4304 and disposed opposite parallel portions 4308 ′′ of shielding film 4308 .
  • Carrier film 4346 further includes two cover portions 4346 ′′′ each partially covering a conductor set 4304 opposite cover portion 4308 ′ of shielding film 4308 .
  • Each cover portion 4346 ′′′ includes a concentric portion 4346 ′ substantially concentric with corresponding conductor 4306 .
  • Carrier film 4346 may include any suitable polymeric material, including but not limited to polyester, polyimide, polyamide-imide, polytetrafluoroethylene, polypropylene, polyethylene, polyphenylene sulfide, polyethylene naphthalate, polycarbonate, silicone rubber, ethylene propylene diene rubber, polyurethane, acrylates, silicones, natural rubber, epoxies, and synthetic rubber adhesive.
  • Carrier film 4346 may include one or more additives and/or fillers to provide properties suitable for the intended application. Carrier film 4346 may be used to complete physical coverage of conductor sets 4304 and add to the mechanical stability of shielded electrical cable 4302 .
  • shielded electrical cable 4402 is similar to shielded electrical cable 4302 described above and illustrated in FIG. 23 . Whereas shielded electrical cable 4302 includes conductor sets 4304 each including a single longitudinal insulated conductor 4306 , shielded electrical cable 4402 includes conductor sets 4404 including two substantially parallel longitudinal insulated conductors 4406 . Insulated conductors 4406 are arranged generally in a single plane and effectively in a twinaxial or differential pair cable arrangement.
  • shielded electrical cable 4502 is similar to shielded electrical cable 4402 described above and illustrated in FIG. 24 . Whereas shielded electrical cable 4402 has individually insulated conductors 4406 , shielded electrical cable 4502 has jointly insulated conductors 4506 .
  • the shielding film is re-entrant between adjacent conductor sets.
  • the shielding film includes a parallel portion that is disposed between adjacent conductor sets. This parallel portion is configured to electrically isolate the adjacent conductor sets from each other.
  • the parallel portion eliminates the need for a ground conductor to be positioned between adjacent conductor sets, which simplifies the cable construction and increases the cable flexibility, among other benefits.
  • the parallel portion is positioned at a depth d ( FIG. 23 ) that is greater than about one third of the diameter of the insulated conductors.
  • the parallel portion is positioned at a depth d that is greater than about one half of the diameter of the insulated conductors.
  • this re-entrant configuration of the shielding film more than adequately electrically isolates the conductor sets from each other.
  • the conductor sets and shielding film may be cooperatively configured in an impedance controlling relationship.
  • this impedance variation is less than 5 Ohms and preferably less than 3 Ohms along a representative cable length, such as, e.g., 1 m.
  • this impedance variation is less than 2 Ohms and preferably less than 0.5 Ohms along a representative cable length, such as, e.g., 1 m.
  • FIGS. 26 a - 26 d illustrate various exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 26 a - 26 d are specifically intended to illustrate various examples of partial coverage of the conductor set by the shielding film.
  • the amount of coverage by the shielding film varies between the embodiments. In the embodiment illustrated in FIG. 26 a , the conductor set has the most coverage. In the embodiment illustrated in FIG. 26 d , the conductor set has the least coverage. In the embodiments illustrated in FIGS. 26 a and 26 b , more than half of the periphery of the conductor set is covered by the shielding film. In the embodiments illustrated in FIGS. 26 c and 26 d , less than half of the periphery of the conductor set is covered by the shielding film. A greater amount of coverage provides better electromagnetic interference (EMI) isolation and reduced signal attenuation (resulting from a reduction in the proximity effect).
  • EMI electromagnetic interference
  • shielded electrical cable 4602 includes a conductor set 4604 and a shielding film 4608 .
  • Conductor set 4604 includes two longitudinal insulated conductors 4606 .
  • Shielding film 4608 includes parallel portions 4608 ′′ extending from both sides of conductor set 4604 . Parallel portions 4608 ′′ cooperatively define a generally planar shielding film.
  • Shielding film 4608 further includes a cover portion 4608 ′′′ partially covering conductor set 4604 .
  • Cover portion 4608 ′ includes concentric portions 4608 ′ substantially concentric with corresponding conductor 4306 .
  • Shielded electrical cable 4602 further includes an optional non-conductive carrier film 4646 .
  • Carrier film 4646 includes parallel portions 4646 ′′ extending from both sides of conductor set 4604 and disposed opposite parallel portions 4608 ′′ of shielding film 4608 .
  • Carrier film 4646 further includes a cover portion 4646 ′′′ partially covering conductor set 4604 opposite cover portion 4608 ′ of shielding film 4608 .
  • Cover portion 4608 ′′′ of shielding film 4608 covers the top side and the entire left and right sides of conductor set 4604 .
  • Cover portion 4646 ′′′ of carrier film 4646 covers the bottom side of conductor set 4604 , completing the enclosure of conductor set 4604 .
  • parallel portions 4646 ′′ and cover portion 4646 ′′′ of carrier film 4646 are substantially coplanar.
  • shielded electrical cable 4702 is similar to shielded electrical cable 4602 described above and illustrated in FIG. 26 a .
  • cover portion 4708 ′ of shielding film 4708 covers the top side and more than half of the left and right sides of conductor set 4704 .
  • Cover portion 4746 ′′′ of carrier film 4746 covers the bottom side and the remainder (less than half) of the left and right sides of conductor set 4704 , completing the enclosure of conductor set 4704 .
  • Cover portion 4746 ′′′ of carrier film 4746 includes concentric portions 4746 ′ substantially concentric with corresponding conductor 4706 .
  • shielded electrical cable 4802 is similar to shielded electrical cable 4602 described above and illustrated in FIG. 26 a .
  • cover portion 4808 ′ of shielding film 4808 covers the bottom side and less than half of the left and right sides of conductor set 4804 .
  • Cover portion 4846 ′′′ of carrier film 4846 covers the top side and the remainder (more than half) of the left and right sides of conductor set 4804 , completing the enclosure of conductor set 4804 .
  • shielded electrical cable 4902 is similar to shielded electrical cable 4602 described above and illustrated in FIG. 26 a .
  • cover portion 4908 ′′′ of shielding film 4908 covers the bottom side of conductor set 4904 .
  • Cover portion 4946 ′′′ of carrier film 4946 covers the top side and the entire left and right sides of conductor set 4904 , completing the enclosure of conductor set 4904 .
  • parallel portions 4908 ′′ and cover portion 4908 ′′′ of shielding film 4908 are substantially coplanar.
  • embodiments of the shielded electrical cable including a single shielding film may include at least one longitudinal ground conductor.
  • this ground conductor facilitates electrical contact of the shielding film to any suitable individual contact element of any suitable termination point, such as, e.g., a contact element on a printed circuit board or an electrical contact of an electrical connector.
  • the ground conductor may extend beyond at least one of the ends of the shielding film to facilitate this electrical contact.
  • the ground conductor may make direct or indirect electrical contact with the shielding film in at least one location along its length, and may be placed in suitable locations of the shielded electrical cable.
  • FIG. 27 is specifically intended to illustrates exemplary locations of a ground conductor in a shielded electrical cable according to an aspect of the present invention.
  • Shielded electrical cable 5002 is similar to shielded electrical cable 4402 described above and illustrated in FIG. 24 , but includes ground conductors 5012 in various exemplary locations.
  • Ground conductors 5012 extend in substantially the same direction as insulated conductors 5006 of conductor sets 5004 and are positioned between shielding film 5008 and carrier film 5046 .
  • One ground conductor 5012 is included in a parallel portion 5008 ′′ of shielding film 5008 and three ground conductors 5012 are included in a conductor set 5004 .
  • One of these three ground conductors 5012 is positioned between insulated conductors 5006 and shielding film 5008 and two of these three ground conductors 5012 and insulated conductors 5006 are arranged generally in a single plane.
  • FIGS. 28 a - 28 d illustrate various exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 28 a - 28 d are specifically intended to illustrate various examples of partial coverage of the conductor set by the shielding film without the presence of a carrier film. The amount of coverage by the shielding film varies between the embodiments.
  • the conductor set has the most coverage.
  • the conductor set has the least coverage.
  • more than half of the periphery of the conductor set is covered by the shielding film.
  • FIG. 28 a and 28 b illustrates various exemplary embodiments of a shielded electrical cable according to aspects of the present invention.
  • FIGS. 28 a - 28 d are specifically intended to illustrate various examples of partial coverage of the conductor set by the shielding film without the presence of a carrier film.
  • the amount of coverage by the shielding film varies between the embodiments.
  • the conductor set has the most coverage.
  • the conductor set has the least coverage.
  • a conductor set includes two substantially parallel longitudinal insulated conductors, in other embodiments, a conductor set may include one or more than two substantially parallel longitudinal insulated conductors.
  • shielded electrical cable 5102 includes a conductor set 5104 and a shielding film 5108 .
  • Conductor set 5104 includes two longitudinal insulated conductors 5106 .
  • Shielding film 5108 includes parallel portions 5108 ′′ extending from both sides of conductor set 5104 . Parallel portions 5108 ′′ cooperatively define a generally planar shielding film.
  • Shielding film 5108 further includes a cover portion 5108 ′′′ partially covering conductor set 5104 .
  • Cover portion 5108 ′ includes concentric portions 5108 ′ substantially concentric with corresponding conductor 5106 .
  • Cover portion 5108 ′′′ of shielding film 5108 covers the bottom side and the entire left and right sides of conductor set 5104 .
  • shielded electrical cable 5202 is similar to shielded electrical cable 5102 described above and illustrated in FIG. 28 a . However, in shielded electrical cable 5202 , cover portion 5208 ′′′ of shielding film 5208 covers the bottom side and more than half of the left and right sides of conductor set 5204 .
  • shielded electrical cable 5302 is similar to shielded electrical cable 5102 described above and illustrated in FIG. 28 a . However, in shielded electrical cable 5302 , cover portion 5308 ′′′ of shielding film 5308 covers the bottom side and about half of the left and right sides of conductor set 5304 .
  • shielded electrical cable 5402 is similar to shielded electrical cable 5102 described above and illustrated in FIG. 28 a . However, in shielded electrical cable 5402 , cover portion 5408 ′′′ of shielding film 5408 covers the bottom side and less than half of the left and right sides of conductor set 5404 .
  • shielded electrical cables may include an optional non-conductive support.
  • This support may be used to complete physical coverage of a conductor set and add to the mechanical stability of the shielded electrical cable.
  • FIGS. 29 a - 29 d illustrate various exemplary embodiments of a shielded electrical cable according to aspects of the present invention including a non-conductive support.
  • a non-conductive support is used with a conductor set that includes two substantially parallel longitudinal insulated conductors
  • a non-conductive support may be used with a conductor set that includes one or more than two substantially parallel longitudinal insulated conductors, or with a ground conductor.
  • the support may include any suitable polymeric material, including but not limited to polyester, polyimide, polyamide-imide, polytetrafluoroethylene, polypropylene, polyethylene, polyphenylene sulfide, polyethylene naphthalate, polycarbonate, silicone rubber, ethylene propylene diene rubber, polyurethane, acrylates, silicones, natural rubber, epoxies, and synthetic rubber adhesive.
  • the support may include one or more additives and/or fillers to provide properties suitable for the intended application.
  • shielded electrical cable 5502 is similar to shielded electrical cable 5102 described above and illustrated in FIG. 28 a , but further includes a non-conductive support 5548 partially covering conductor set 5504 opposite cover portion 5508 ′′′ of shielding film 5508 .
  • Support 5548 covers essentially the entire top side of conductor set 5504 , essentially fully enclosing insulated conductors 5506 .
  • Support 5548 includes a generally planar top surface 5548 a. Top surface 5548 a and parallel portions 5508 ′′ are substantially coplanar.
  • shielded electrical cable 5602 is similar to shielded electrical cable 5202 described above and illustrated in FIG. 28 b , but further includes a non-conductive support 5648 partially covering conductor set 5604 opposite cover portion 5608 ′′′ of shielding film 5608 .
  • Support 5648 only partially covers the top side of conductor set 5604 , leaving insulated conductors 5606 partially exposed.
  • shielded electrical cable 5702 is similar to shielded electrical cable 5302 described above and illustrated in FIG. 28 c , but further includes a non-conductive support 5748 partially covering conductor set 5704 opposite cover portion 5708 ′′′ of shielding film 5708 .
  • Support 5748 covers essentially the entire top side of conductor set 5704 , essentially fully enclosing insulated conductors 5706 . At least a portion of support 5748 is substantially concentric with insulated conductors 5706 . A portion of support 5748 is disposed between insulated conductors 5706 and shielding film 5708 .
  • shielded electrical cable 5802 is similar to shielded electrical cable 5402 described above and illustrated in FIG. 28 d , but further includes a non-conductive support 5848 partially covering conductor set 5804 opposite cover portion 5808 ′′′ of shielding film 5808 .
  • Support 5848 only partially covers the top side of conductor set 5804 , leaving insulated conductors 5806 partially exposed.
  • a portion of support 5848 is disposed between insulated conductors 5806 and shielding film 5808 .
  • Item 1 is a shielded electrical cable comprising a conductor set including one or more substantially parallel longitudinal insulated conductors; and a shielding film including a cover portion partially covering the conductor set, and parallel portions extending from both sides of the conductor set.
  • Item 2 is the shielded electrical cable of item 1, wherein the parallel portions cooperatively define a generally planar shielding film.
  • Item 3 is the shielded electrical cable of item 1, wherein the cover portion includes a concentric portion substantially concentric with at least one of the conductors.
  • Item 4 is the shielded electrical cable of item 1 further comprising a non-conductive carrier film including a cover portion partially covering the conductor set opposite the cover portion of the shielding film, and parallel portions extending from both sides of the conductor set and disposed opposite the parallel portions of the shielding film.
  • Item 5 is the shielded electrical cable of item 4, wherein the cover portion of the carrier film includes a concentric portion substantially concentric with at least one of the conductors.
  • Item 6 is the shielded electrical cable of item 1 further comprising at least one longitudinal ground conductor extending in substantially the same direction as the one or more insulated conductors.
  • Item 7 is the shielded electrical cable of item 6, wherein the ground conductor makes direct electrical contact with the shielding film in at least one location along its length.
  • Item 8 is the shielded electrical cable of item 6, wherein the ground conductor makes indirect electrical contact with the shielding film in at least one location along its length.
  • Item 9 is the shielded electrical cable of item 6, wherein the ground conductor extends beyond at least one of the ends of the shielding film.
  • Item 10 is the shielded electrical cable of item 6, wherein the ground conductor is included in the conductor set.
  • Item 11 is the shielded electrical cable of item 6, wherein the ground conductor is included in the parallel portion.
  • Item 12 is the shielded electrical cable of item 1, wherein the conductor set and shielding film are cooperatively configured in an impedance controlling relationship.
  • Item 13 is the shielded electrical cable of item 1 further comprising a non-conductive support partially covering the conductor set opposite the cover portion of the shielding film.
  • Item 14 is the shielded electrical cable of item 13, wherein the support includes a concentric portion substantially concentric with at least one of the conductors.
  • Item 15 is a shielded electrical cable comprising a plurality of spaced apart conductor sets arranged generally in a single plane, each conductor set including one or more substantially parallel longitudinal insulated conductors; and a shielding film including a plurality of cover portions partially covering the conductor sets, and a parallel portion disposed between adjacent conductor sets and configured to electrically isolate the adjacent conductor sets from each other.
  • Item 16 is the shielded electrical cable of item 15, wherein the parallel portion is positioned at a depth that is greater than about one third of the diameter of the insulated conductors.
  • Item 17 is the shielded electrical cable of item 15, wherein the parallel portion is positioned at a depth that is greater than about one half of the diameter of the insulated conductors.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Insulated Conductors (AREA)
  • Engineering & Computer Science (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)
  • Communication Cables (AREA)
  • Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
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US14/689,365 Continuation US9324477B2 (en) 2009-06-19 2015-04-17 Shielded electrical cable

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US13/968,755 Continuation US9685259B2 (en) 2009-06-19 2013-08-16 Shielded electrical cable
US15/208,666 Division US9715951B2 (en) 2009-06-19 2016-07-13 Shielded electrical cable
US15/353,243 Continuation US9763369B2 (en) 2009-06-19 2016-11-16 Shielded electrical cable

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US13/377,864 Active 2030-10-04 US8946558B2 (en) 2009-06-19 2010-06-17 Shielded electrical cable
US13/377,873 Abandoned US20120090873A1 (en) 2009-06-19 2010-06-17 Shielded electrical cable
US13/377,840 Abandoned US20120090866A1 (en) 2009-06-19 2010-06-17 Shielded electrical cable and method of making
US13/377,852 Active US8658899B2 (en) 2009-06-19 2010-06-17 Shielded electrical cable
US14/149,980 Expired - Fee Related US9035186B2 (en) 2009-06-19 2014-01-08 Shielded electrical cable
US14/457,739 Active US9686893B2 (en) 2009-06-19 2014-08-12 Shielded electrical cable
US14/538,957 Abandoned US20150053454A1 (en) 2009-06-19 2014-11-12 Shielded Electrical Cable
US14/689,365 Active US9324477B2 (en) 2009-06-19 2015-04-17 Shielded electrical cable
US15/208,666 Active US9715951B2 (en) 2009-06-19 2016-07-13 Shielded electrical cable
US15/235,151 Abandoned US20160360655A1 (en) 2009-06-19 2016-08-12 Shielded electrical cable
US15/235,143 Abandoned US20160351302A1 (en) 2009-06-19 2016-08-12 Shielded electrical cable
US15/235,156 Abandoned US20160351301A1 (en) 2009-06-19 2016-08-12 Shielded electrical cable
US15/353,243 Active US9763369B2 (en) 2009-06-19 2016-11-16 Shielded electrical cable
US15/596,282 Active US9883620B2 (en) 2009-06-19 2017-05-16 Shielded electrical cable
US15/859,788 Active US10080319B2 (en) 2009-06-19 2018-01-02 Shielded electrical cable
US16/101,741 Expired - Fee Related US10306819B2 (en) 2009-06-19 2018-08-13 Shielded electrical cable
US16/122,113 Active US10448547B2 (en) 2009-06-19 2018-09-05 Shielded electrical cable

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US13/377,840 Abandoned US20120090866A1 (en) 2009-06-19 2010-06-17 Shielded electrical cable and method of making
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US14/149,980 Expired - Fee Related US9035186B2 (en) 2009-06-19 2014-01-08 Shielded electrical cable
US14/457,739 Active US9686893B2 (en) 2009-06-19 2014-08-12 Shielded electrical cable
US14/538,957 Abandoned US20150053454A1 (en) 2009-06-19 2014-11-12 Shielded Electrical Cable
US14/689,365 Active US9324477B2 (en) 2009-06-19 2015-04-17 Shielded electrical cable
US15/208,666 Active US9715951B2 (en) 2009-06-19 2016-07-13 Shielded electrical cable
US15/235,151 Abandoned US20160360655A1 (en) 2009-06-19 2016-08-12 Shielded electrical cable
US15/235,143 Abandoned US20160351302A1 (en) 2009-06-19 2016-08-12 Shielded electrical cable
US15/235,156 Abandoned US20160351301A1 (en) 2009-06-19 2016-08-12 Shielded electrical cable
US15/353,243 Active US9763369B2 (en) 2009-06-19 2016-11-16 Shielded electrical cable
US15/596,282 Active US9883620B2 (en) 2009-06-19 2017-05-16 Shielded electrical cable
US15/859,788 Active US10080319B2 (en) 2009-06-19 2018-01-02 Shielded electrical cable
US16/101,741 Expired - Fee Related US10306819B2 (en) 2009-06-19 2018-08-13 Shielded electrical cable
US16/122,113 Active US10448547B2 (en) 2009-06-19 2018-09-05 Shielded electrical cable

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