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Equalizer Output
In this example we have created an equalization filter at Output 3 (Output Channel = 3)
We employed the 1st band (Band Index = 1), so we started on the left side of
response curve (See 3.1.1 EQ on page 17 for additional information).
We selected Low Shelving filter type (Type = 4). This number is determined by the order
occupies within the filter type drop-down. CONSIDERING THAT THE FIRST FILTER (BYPASS)
HAS VALUE 0.
Bypass = 0, Peak = 1, Low Pass = 2, HighPass = 3, Low Shelving = 4
High Shelving = 5, Band Pass = 6, Notch = 7, All Pass = 8
Parameters Frequency (in Hz), Gain (in dB) and Q, allow to adjust the values of the filter created
CrossOver
In this case we have created two crossover filters at Output 3 (Output Channel = 3)
We have created a Butterworth type high-pass filter ( high pass type = 0) and another Linkwith-Riley as
low pass filter (Low pass type = 3). The nomenclature of these filters is due to the following table:
HIGH PASS TYPE
LOW PASS TYPE
TYPE
VALUE
TYPE
Butterworth
0
Butterworth
Linkwith-Riley
2
Linkwith-Riley
Bessel
4
Bessel
NOT USED
6
NOT USED
ByPass
8
ByPass
High / Low pass order p
High / Low pass frequency values are the frequency in the filter in Hz (150 Hz and 12,000 Hz in this
case).
(See 3.1.3 XOVER on page 18 for additional information).
VALUE
1
3
5
7
8
arameters
are the order of the filter. (In this case 3rd and 2nd respectively)
MX
MKII
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