# iSOUND

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## iSOUND MEZZO DCT 6N OFHC Speaker Cable with locking DCT iPLUG

Length: | 8.0 Foot |

Construction: | 2 x LCHC |

Conductors: | 6N OHFC |

Insulation: | PET |

Dielectric constant: | 1.0 (avg over cable length) |

Capacitance: | 12 pF/ft |

Inductance: | 0.8 uH/ft |

Nominal current: | 30A |

## iSOUND QUARTET Twisted Pairs 4N OFHC Speaker Cable

*QUARTET* minimize inductance by grouping the conductors as multiple twisted-pairs. The pairs are connected so that the current in first conductor of each pair runs in the opposite direction from the current in the second conductor. The magnetic field coupling between the twisted-pairs reduces the inductance, making it lower than the self-inductance of the wires themselves. Twisted pair cabling is a type of wiring in which two conductors (the forward and return conductors of a single circuit) are twisted together for the purposes of canceling out electromagnetic interference (EMI) from external sources; for instance, electromagnetic radiation from Unshielded Twisted Pair (UTP) cables, and crosstalk between neighboring pairs. Twisting the wires in a cable improves the cable's ability to reject external noise. It also reduces the cable inductance and may be the most effective way to keep the individual wires from vibrating with respect to each other.

Length: | 8.0 Foot / 10 Foot |

Construction: | 8 x LCHC |

Conductors: | 4N OHFC |

Insulation: | PET |

Dielectric constant: | 1.35 (avg over cable length) |

Capacitance: | 18 pF/ft |

Inductance: | 0.95 uH/ft |

Nominal current: | 20A |

LCHC factor: | 85% |

## iSOUND TRIO Twisted Pairs 4N OFHC Speaker Cable

*TRIO* minimize inductance by grouping the conductors as multiple twisted-pairs. The pairs are connected so that the current in first conductor of each pair runs in the opposite direction from the current in the second conductor. The magnetic field coupling between the twisted-pairs reduces the inductance, making it lower than the self-inductance of the wires themselves. Twisted pair cabling is a type of wiring in which two conductors (the forward and return conductors of a single circuit) are twisted together for the purposes of canceling out electromagnetic interference (EMI) from external sources; for instance, electromagnetic radiation from Unshielded Twisted Pair (UTP) cables, and crosstalk between neighboring pairs. Twisting the wires in a cable improves the cable's ability to reject external noise. It also reduces the cable inductance and may be the most effective way to keep the individual wires from vibrating with respect to each other.

Length: | 8.0 Foot / 10 Foot |

Construction: | 6 x LCHC |

Conductors: | 4N OHFC |

Insulation: | PET |

Dielectric constant: | 1.35 (avg over cable length) |

Capacitance: | 18 pF/ft |

Inductance: | 0.95 uH/ft |

Nominal current: | 12A |

LCHC factor: | 80% |

## iSOUND SOPRANO mkII 6N OFHC Speaker Cable

Length: | 8.0 Foot / 10 Foot |

Construction: | 2 x LCHC |

Conductors: | 6N OHFC |

Insulation: | PET |

Dielectric constant: | 1.15 (avg over cable length) |

Capacitance: | 12 pF/ft |

Inductance: | 0.8 uH/ft |

Nominal current: | 20A |

## iSOUND RAINFOREST 4N OFHC Speaker Cable

INCRECABLE *RAINFOREST* speaker cables minimize resistance by using a sufficient number of parallel runs of wire to equal the equivalent of 12 gauge. We have determined empirically that iSOUND speaker cables is required to work effectively with a broad range of amplifiers and speakers. We offer a cost-reduced version of iSOUND series for more efficient or low-budget systems, it will variably be installed in low efficiency systems, resulting in powerful and an audible dynamics.

Length: | 8.0 Foot / 10 Foot |

Construction: | 2 x LCHC |

Conductors: | 4N OHFC |

Insulation: | PET |

Dielectric constant: | 1.25 (avg over cable length) |

Capacitance: | 15 pF/ft |

Inductance: | 0.93 uH/ft |

Nominal current: | 10A |

LCHC factor: | 75% |

## iSOUND DUO Twisted Pairs 4N OFHC Speaker Cable

*DUO* minimize inductance by grouping the conductors as multiple twisted-pairs. The pairs are connected so that the current in first conductor of each pair runs in the opposite direction from the current in the second conductor. The magnetic field coupling between the twisted-pairs reduces the inductance, making it lower than the self-inductance of the wires themselves. Twisted pair cabling is a type of wiring in which two conductors (the forward and return conductors of a single circuit) are twisted together for the purposes of canceling out electromagnetic interference (EMI) from external sources; for instance, electromagnetic radiation from Unshielded Twisted Pair (UTP) cables, and crosstalk between neighboring pairs. Twisting the wires in a cable improves the cable's ability to reject external noise. It also reduces the cable inductance and may be the most effective way to keep the individual wires from vibrating with respect to each other.

Length: | 8.0 Foot |

Construction: | 4 x LCHC |

Conductors: | 4N OHFC |

Insulation: | PET |

Dielectric constant: | 1.35 (avg over cable length) |

Capacitance: | 16 pF/ft |

Inductance: | 0.95 uH/ft |

Nominal current: | 10A |

LCHC factor: | 75% |

## iSOUND DUO BiWire Twisted Pairs 4N OFHC Speaker Cable

*DUO* minimize inductance by grouping the conductors as multiple twisted-pairs. The pairs are connected so that the current in first conductor of each pair runs in the opposite direction from the current in the second conductor. The magnetic field coupling between the twisted-pairs reduces the inductance, making it lower than the self-inductance of the wires themselves. Twisted pair cabling is a type of wiring in which two conductors (the forward and return conductors of a single circuit) are twisted together for the purposes of canceling out electromagnetic interference (EMI) from external sources; for instance, electromagnetic radiation from Unshielded Twisted Pair (UTP) cables, and crosstalk between neighboring pairs. Twisting the wires in a cable improves the cable's ability to reject external noise. It also reduces the cable inductance and may be the most effective way to keep the individual wires from vibrating with respect to each other.

Length: | 8.0 Foot |

Construction: | 4 x LCHC |

Conductors: | 4N OHFC |

Insulation: | PET |

Dielectric constant: | 1.35 (avg over cable length) |

Capacitance: | 16 pF/ft |

Inductance: | 0.95 uH/ft |

Nominal current: | 10A |

LCHC factor: | 75% |