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Since 1997, Transparent's Reference Digital Cables have set the standard for ultimate digital signal transmission, but Transparent has a strong commitment to continue to push the parameters of the current state of the art. Dielectric materials and extrusion techniques, conductor size and composition, impedance matching, shielding, and connector technology all affect noise and jitter in high-speed digital signals.
Since 1997, Transparent's Reference Digital Cables have set the standard for ultimate digital signal transmission, but Transparent has a strong commitment to continue to push the parameters of the current state of the art. Dielectric materials and extrusion techniques, conductor size and composition, impedance matching, shielding, and connector technology all affect noise and jitter in high-speed digital signals.
Since 1997 Transparent's Reference Digital Cables have set the standard for ultimate digital signal transmission, but Transparent has a strong commitment to continue to push the parameters of the current state of the art. Dielectric materials and extrusion techniques, conductor size and composition, impedance matching, shielding, and connector technology all affect noise and jitter in high-speed digital signals.
Since 1997, Transparent's Reference Digital Cables have set the standard for ultimate digital signal transmission, but Transparent has a strong commitment to continue to push the parameters of the current state of the art. Dielectric materials and extrusion techniques, conductor size and composition, impedance matching, shielding, and connector technology all affect noise and jitter in high-speed digital signals.
Designer Caelin Gabriel set out to design a new benchmark for value that would perform well beyond the VENOM-X’s affordable price points. Based on exhaustive test results, the VENOM-X range of cables have exceeded every expectation. VENOM-X cable designs are expressly developed to offer performance previously considered unobtainable at two to three times their affordable price points.
Designer Caelin Gabriel set out to design a new benchmark for value that would perform well beyond the VENOM-X’s affordable price points. Based on exhaustive test results, the VENOM-X range of cables have exceeded every expectation. VENOM-X cable designs are expressly developed to offer performance previously considered unobtainable at two to three times their affordable price points.
Designer Caelin Gabriel set out to design a new benchmark for value that would perform well beyond the VENOM-X’s affordable price points. Based on exhaustive test results, the VENOM-X range of cables have exceeded every expectation. VENOM-X cable designs are expressly developed to offer performance previously considered unobtainable at two to three times their affordable price points.
Shunyata Research digital cables are produced using a Precision Matched Z (PMZ) concept. This means that tolerances of the conductor surface, dielectric extrusion, and the precision of the braided shield are held to minute variances. To achieve these tight tolerances, the extrusion and braiding machines must be run at one-quarter speed during the manufacturing process. The result is better performance through a reduction of cable-induced ‘signal jitter’. (Note: Z means impedance)
Shunyata Research digital cables are produced using a Precision Matched Z (PMZ) concept. This means that tolerances of the conductor surface, dielectric extrusion, and the precision of the braided shield are held to minute variances. To achieve these tight tolerances, the extrusion and braiding machines must be run at one-quarter speed during the manufacturing process. The result is better performance through a reduction of cable-induced ‘signal jitter’. (Note: Z means impedance)
Shunyata Research digital cables are produced using a Precision Matched Z (PMZ) concept. This means that tolerances of the conductor surface, dielectric extrusion, and the precision of the braided shield are held to minute variances. To achieve these tight tolerances, the extrusion and braiding machines must be run at one-quarter speed during the manufacturing process. The result is better performance through a reduction of cable-induced ‘signal jitter’. (Note: Z means impedance)
Shunyata Research digital cables are produced using a Precision Matched Z (PMZ) concept. This means that tolerances of the conductor surface, dielectric extrusion, and the precision of the braided shield are held to minute variances. To achieve these tight tolerances, the extrusion and braiding machines must be run at one-quarter speed during the manufacturing process. The result is better performance through a reduction of cable-induced ‘signal jitter’. (Note: Z means impedance)
There are many problems with off-the-shelf USB cables including poor quality conductors and dielectrics and insufficient shielding. Conventional cables induce high amounts of signal jitter and phase noise degrading sonic performance.
The Delta USB cabling is an exclusive Shunyata Research product that was designed to achieve reference level performance but at a very reasonable price point. ArNi® silver conductors and fluorocarbon dielectrics and PMZ construction achieves low levels of jitter and phase noise measurements. Silver-plated copper braided shields protect the delicate signals from external RFI/EMI. Exceptional by design.