Hybrid Audio Technologies Legatia SE Carbon User Manual

Legatia SE Carbon User’s Manual

©Hybrid Audio Technologies

Page 26 of 30

In scenario “a”, we show the installation of the Legatia SE Carbon midbass in the dashboard or high
in a door panel. As you can see from the diagram, the PLD’s between the left and right speakers are
large, due to the proximity of the listener to the near-side speaker. While the mounting of primary
drivers in the dashboard or a-pillars has become increasingly popular, this configuration will
undoubtedly require both time and intensity domain equalization in most vehicles to ensure a good,
focused center image, properly located in the center of the vehicle for one seated position. There
are, however, some rare exceptions, and you may actually find that the dashboard locations provide
the best equalized PLD of the available mounting locations; this is very rare though – in our
experience, less than one percent of vehicles on the market today have optimized dashboard speaker
locations for the midbass drivers.

In scenario “b”, a typical door installation location is shown, and in many vehicles represents a good
improvement in PLD’s from the dashboard, high in the door panel, and a-pillar location identified in
scenario “a.” The door speaker installation scenario is the one detailed in the basic installation section
at the beginning of this manual, and in most vehicles represents a satisfactory location to mount
speakers; not ideal but satisfactory. The door speaker installation scenario will likely also require
some amount of time and intensity equalization to ensure a centered image in most vehicles; this can
be as simple as adjusting the balance control on your source unit, to more advanced ways of digital
time and intensity manipulation.

The third and final potential mounting location as shown in this diagram (scenario “c”) represents a
kick panel installation, where the midbass are placed far forward in the A-frame cavity of the kick
panels, present in most vehicles. The kick panels are the small panel next to the throttle and brake
pedals, down by your feet. While it is not immediately obvious looking at a two-dimensional drawing,
in many cases the kick panel location affords the best equalization of pathlength differences for most
vehicles. And the reason why this is a good choice for most vehicles is defined in the second full
paragraph of Lesson Three, below.

The lesson to be learned here is that by taking a few moments to evaluate the potential mounting
locations in your vehicle, in a very short period of time, you will be able to find the best location for
your Legatia SE Carbon midbass by determining the location with the smallest PLD.

Lesson Three: The Effect of HRTF, ITD, and IID

Head-related transfer function (HRTF), interaural intensity differences (IID), and interaural time delay
(ITD) all play a key role in the optimum placement location for the Legatia SE Carbon component
speakers. A sound wave approaching the eardrum from your chosen speaker location is shaped by
interactions with the size and shape of your head, torso, and outer ear, resulting in the HRTF. More
specifically, the HRTF is the ratio between the sound pressures of the wave at the eardrum, as
compared to the sound pressure that would exist at the center of the head if the head were removed.
In general, the sound arriving at the ear further from the source is attenuated and delayed relative to
the sound arriving at the ear closer to the source. This generates an interaural intensity difference
(IID) and an interaural time delay (ITD). As a sound approaches the head, the ratio of distances from
the speaker location to the near and far ears increases, and the effects of head-shadowing are
amplified, causing the IID to increase. The spectral shaping caused by the head and the shape of the
outer ear may also change. The ITD, which results from the absolute difference in path length from
the source to the ears, remains approximately constant as distance decreases. From this we learn:

• ITD is the dominant factor for frequencies below about 500 Hz;