PMZ - Shunyata Research
digital cables are produced using a
Precision Matched Impedance cable
geometry. 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.
(Z definition = impedance)
ArNi® wire was designed by
Shunyata Research to be the finest
quality wire available. It begins
with the highest purity of copper
and silver metals available,
including Ohno (single crystal),
PCOCC silver and OFE C0101
conductors. Fluorocarbon dielectrics,
usually only found in aerospace
applications that have exceptional
electrical characteristics including
extremely low dielectric absorption,
high dielectric strength and superb
heat resistance. When used in
digital wiring it significantly
reduces transient energy storage and
release which affects phase noise
performance.
- And finally every cable undergoes
our proprietary KPIP™ process.
CMODE - Common-node noise is
different than differential noise
and is much more difficult to
measure and eliminate. For the
purest signal possible, Shunyata
Research has developed a CMODE
filter that effectively reduces
common-mode noise without
introducing the sonic compression
effects associated with conventional
filters. It reduces high-frequency
noise distortion while delivering an
analog ease and palpable background
silence that closes the gap between
digital and analog systems.
- Reduces common-mode noise.
PMZ Connectors — Pulse timing
is critical to digital transmission
accuracy. It is critical that a
digital connector’s impedance
precisely match the cables's
characteristic impedance. A
mismatched connector will create
signal reflections which increases
digital jitter or phase noise. A
50-ohm cable requires a 50-ohm
termination — not the commonly used
75-ohm connector. Shunyata Research
is careful to ensure that every
cable and connector are precisely
matched for a seamless component to
component connection.
Kinetic Phase Inversion
Processing was developed by
Caelin Gabriel after years of
research into the underlying causes
of various effects such as burn-in,
wire directionality and the effects
of cryogenic treatment. He
discovered that there was an
underlying core principle that
burn-in and cryogenics only
partially addressed. Once the
governing principle was understood
it became possible to create a
processor that reduces the need for
long burn-in periods and eliminates
the effects of cryogenic treatment.
Four-days of continuous KPIP™
processing dramatically reduces the
sonic ups and downs associated with
burn-in, delivering a relaxed and
natural presentation.
Specifications
- Cable Type: PMZ coaxial
- Conductors: ArNi ® / Silver
- Dielectric: fluorocarbon
- Impedance: 75 ohms
- Connectors: BNC-75
- CMODE Modules: two
- KPIP Processing: 4-days
- Length: 1.00 meters
- Safety Assurance:
- Continuity and polarity tests – by
two technicians
- HiPOT tests insulation breakdown @
1,200 VAC
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