7 mixed arrays of j-, v-subs and j-infras, 8 dispersion displays – d&b TI 385 d&b Line array design User Manual

Export/import of SUB array settings
You can export defined SUB array settings to an ArrayCalc
description file (*.dbesa). This file including the exported
SUB array settings can then be imported in other projects or
in the same project again, for example for comparative
purposes.
To use the SUB array export/import function, right-click in
the SUB array dialog to activate the context menu or select
'Export source/Import source' from the Sources menu.

10.10.7 Mixed arrays of J-, V-SUBs and J-INFRAs
In general, a SUB array should always be set up using

identical systems for all positions in order to obtain a

predictable and frequency consistent total behavior.
However, it is possible to build a SUB array consisting of

source positions with J-SUBs, V-SUBs or J-INFRAs. The

dispersion characteristics of these subwoofer types have

been closely matched across their entire frequency ranges

and the full spheres to enable a combined operation.
In this case, a default ratio of 2 x V-SUBs to 1 x J-SUB is set
in order to balance the SPL/headroom.
A setup consisting of alternating positions of 3 x J-SUBs and

2 x J-INFRAs is most beneficial. The same applies to a

setup consisting of alternating positions of 2 x V-SUBs and

1 x J-INFRA. In such a combination, the J-INFRA subwoofers

can provide all the extended frequency range on the very

low end with sufficient headroom. However, it is important

to match the upper frequency extension.
If you have selected a mixed array of J/V-SUB and J-INFRA

subwoofers in the SUB systems drop-down list, the cabinet

types listed in the Cabinet setup section are displayed in a

list box from which you can select the system for each

position.
The bandwidth selection switches (Switch 1) of the two

systems work in reverse, i.e the J-SUB has an "INFRA" (the

V-SUB a 100 Hz) switch lowering the upper frequency

extension when "on", while the J-INFRA has a "70 Hz"

switch rising the upper frequency extension when "on".

Consequently, they have to be combined and are mutually

exclusive. When you activate one, the other one is

disabled. Their proper use is controlled by the "hip/hop"

selector.

10.10.8 Dispersion displays
The following displays help to evaluate the performance of

the array.

Mapping diagram
Select the simulation frequency.

Consider and compare all relevant frequencies within the

system´s operating bandwidth. Each colored isobar

represents a drop in level by 6 dB. Place the mouse onto

the drop-down list and use the wheel to quickly change

between the frequencies.

Mapping diagram with color scale

Color scale
The color scale for the SPL mapping has a fixed 6 dB per

division resolution. The color scale window displayed can

be set according to the calculation results. This is done by

either clicking the +/-- buttons underneath the scale or

using the mouse wheel while the mouse pointer is on the

scale. The small arrow to the right of the scale indicates the

highest SPL value calculated for the plot.
The color scale does not rescale automatically. This enables

you to quickly notice the result of any change in the setup

while optimizing the project.

Polar diagram
Polar diagrams visualize the far field behavior of the array,

i.e. the dispersion pattern at a distance which is much larger

than the array dimensions.
Although this distance might often extend beyond the actual

audience area, the polar diagram provides helpful

information about the consistency of the dispersion patterns

for different frequency bands displayed in a single plot.
Third-octave frequency bands between 32 Hz and 100 Hz

can be selected, as well as the octave average at 40 Hz

and 80 Hz.

TI 385 (6.0 EN) d&b Line array design, ArrayCalc V8.x

Page 37 of 54