Atlas Cables

The latest generation Hyper dd XLR interconnect offers a sophisticated, evenly balanced sound which draws you into the musical performance.Balanced connector with optimum audio performance via ‘trickle-down’ dd technology.The Atlas Hyper dd is constructed with four central multi-core conductors of high purity OCC (Ohno Continuous Casting) copper encapsulated within a low-loss foamed Polyethylene dielectric, with excellent immunity to interference and noise, making it ideally suited to longer cable runs The cable is terminated with our low-mass solder-free XLR plugs.Atlas dd (‘dual drain’) system: Normally screened cables suffer from screen distortion when they are prepared for production. (If you've ever wired a plug or connector which uses a screened cable, you've done this yourself, cutting back and probably twisting the screening braid for termination). This distortion of the screen has a measurable impact, effectively changing the impedance and therefore the performance of the cable.Our ‘dd’ configuration is based on a simplified version of the techniques we developed for our top-of-the-range Mavros and Asimi interconnects. Twin symmetrical drain wires (each attached to 180° segments of the plug) are inserted between a 100% copper/Mylar foil and screen. The unique dd system connects the screen effectively to the cable return/plug interface, meaning the cable can be terminated without distorting, twisting or mechanically stressing the precision-laid screen. The benefits are in maintaining a consistent low impedance load to the plug, and a total 360° screening against noise and signal loss caused by RFI (Radio Frequency Interference).Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performa

The latest generation Hyper dd XLR interconnect offers a sophisticated, evenly balanced sound which draws you into the musical performance.Balanced connector with optimum audio performance via ‘trickle-down’ dd technology.The Atlas Hyper dd is constructed with four central multi-core conductors of high purity OCC (Ohno Continuous Casting) copper encapsulated within a low-loss foamed Polyethylene dielectric, with excellent immunity to interference and noise, making it ideally suited to longer cable runs The cable is terminated with our low-mass solder-free XLR plugs.Atlas dd (‘dual drain’) system: Normally screened cables suffer from screen distortion when they are prepared for production. (If you've ever wired a plug or connector which uses a screened cable, you've done this yourself, cutting back and probably twisting the screening braid for termination). This distortion of the screen has a measurable impact, effectively changing the impedance and therefore the performance of the cable.Our ‘dd’ configuration is based on a simplified version of the techniques we developed for our top-of-the-range Mavros and Asimi interconnects. Twin symmetrical drain wires (each attached to 180° segments of the plug) are inserted between a 100% copper/Mylar foil and screen. The unique dd system connects the screen effectively to the cable return/plug interface, meaning the cable can be terminated without distorting, twisting or mechanically stressing the precision-laid screen. The benefits are in maintaining a consistent low impedance load to the plug, and a total 360° screening against noise and signal loss caused by RFI (Radio Frequency Interference).Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performa

RCA interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros Ultra RCA is a high speed wide-bandwidth interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros Ultra RCA uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency. Termination is with our low mass, high bandwidth, cold-weld Ultra RCA or XLR connectors, both of which have minimal effect on the integrity of the signal.

XLR interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros XLR is a superb interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros XLR uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency.Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performance.NB. Atlas XLR plugs are wire

RCA interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros Ultra RCA is a high speed wide-bandwidth interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros Ultra RCA uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency. Termination is with our low mass, high bandwidth, cold-weld Ultra RCA or XLR connectors, both of which have minimal effect on the integrity of the signal.

XLR interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros XLR is a superb interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros XLR uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency.Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performance.NB. Atlas XLR plugs are wire

RCA interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros Ultra RCA is a high speed wide-bandwidth interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros Ultra RCA uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency. Termination is with our low mass, high bandwidth, cold-weld Ultra RCA or XLR connectors, both of which have minimal effect on the integrity of the signal.

XLR interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros XLR is a superb interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros XLR uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency.Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performance.NB. Atlas XLR plugs are wire

XLR interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros XLR is a superb interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros XLR uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency.Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performance.NB. Atlas XLR plugs are wire

XLR interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros XLR is a superb interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros XLR uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency.Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performance.NB. Atlas XLR plugs are wire

XLR interconnect cable based on the same design objectives and manufacturing techniques developed for our Asimi range, utilising copper rather than silver conductors.The Mavros XLR is a superb interconnect designed to complement the performance of ‘high-end’ audio systems by achieving maximum signal transfer.The Mavros XLR uses the very highest quality ‘6N’ (99.99997% purity) copper manufactured using the OCC ‘Ohno Continuous Cast’ technique. Cables manufactured with lower grade materials and poor manufacture typically have a coarse, grainy structure which compromises sound quality. In the manufacture of Mavros, we maximise the copper’s conductivity by ensuring that there is typically one grain in approximately 125 metres of conductor, allowing the signal a continuous unbroken path –in practice, the signal has a faster, cleaner and more direct path to follow.The cable consists of a pair of conductors, each made up from six bundles of 12 multi-conductor wires, plus a thicker centre wire. This in turn is covered by a continuous copper/Mylar™ electrostatic screen with copper shielding braid, ensuring minimal susceptibility to RF interference and noise.Theoretically, the best dielectric (insulation layer) is air. Conventional dielectric (insulation) materials impose their own signature distortion and loss on the signal. Our technique uses a microporous PTFE (Teflon™) tape, which is wound around the core conductors, then covered again and stabilised using a protective FPE (Flexible PolyEthylene) dielectric. This process maintains the required conductor geometry, and bestows greater manufacturing consistency.Atlas use cold-weld terminations wherever possible, including our current generation ‘dark Chrome’ XLR connectors. By reducing the number of materials and break points in the signal path, our objective its to minimise discontinuity and loss in the signal path, resulting in more consistent construction and improved audio performance.NB. Atlas XLR plugs are wire