Gryphon Trident II User Manual
Page 8
For this reason, loudspeaker manufacturers devote considera-
ble resources during product development to selecting speci-
alised drivers for each frequency section and, more
importantly, to designing a crossover network to coerce them
all to work together. To do so, the frequency spectrum is sliced
up electronically and each piece is directed to the appropriate
driver where things are hopefully reassembled to form a cohe-
rent acoustic event.
It is at this point that so much can go wrong.
Are the selected crossover components good enough to do
their job without signal loss or distortion?
Are the drivers sufficiently similar in tonal quality and speed
that they can create the illusion of a single coherent source of
sound?
Does the crossover network properly compensate for the dri-
vers’ varying sensitivities so that the resulting sound is cor-
rectly balanced from top to bottom?
Have the crossover points between the drivers been properly
tuned for undetectable, seamless transitions with no frequency
dips or peaks or phase anomalies?
Is the cabinet designed to prevent resonances and delete-
rious interaction between the drivers?
The Gryphon Audio design team possesses unique experi-
ence in the solution of such arcane audio problems, having le-
arned the most valuable lesson of all: that eliminating a
problem before it arises is always far better than trying to
solve it.
Or, to put it in the vernacular – An ounce of prevention is worth
a pound of cure.
In accordance with this guiding principle, Gryphon Trident ll
eliminates the cabinet altogether in the mid/high frequency
range. Instead, an extremely rigid panel houses a vertical
array of four Air Motion Transformer (AMT) super-tweeters
alongside a single, two meter tall dipolar planar magnetic
thin-film ribbon transducer.
With ideal sound reproduction and mechanical behaviour
across more than seven octaves from 200 Hz to 18 kHz, the
Gryphon Trident ll ribbon eliminates multiple crossover filter
sections in the critical mid frequency range, preserving spec-
tral and temporal integrity.
The crossover consists of the finest Duelund parts and solid