Built on the same framework of SPLChart, it's objective is to display the slider positions of an EQ for a given db gain and given frequency positions. The input charts are all the same files as SPLChart.
EQs are complicated things in they way that they all behave differently, so this tool, like SPLChart, is intended for guidance only.
[eq eqgain=12]J110M12[/eq]
Code: Select all
[eq eqgain=12]J110M12[/eq]
So, here are the commands:
eqtype
freqs
eqgain
dbmin
dbtarget
fmin
fmax
sliders
highlight
nochart
alpha
width
height
eqgain
The range of db gain available on the EQ.
eqtype
There are a number of preset EQ slider positions:
1) 7 Band 2) 31 band 3) 15 band 4) 9 band 5) 3 band
You don't have to use these, you can define your own frequency positions using freqs
freqs
Define the frequency positions being displayed in the visible curve. This can be used in conjuction with eqtype or on it's own. The frequencies blocks are comma separated but the frequency blocks are colon ':' separated. The definition of a frequency block is the frequency, the db gain [optional] and the visibility [optional].
<frequency>:<db gain>:<visibility>,<frequency>:<db gain>:<visibility>,...
With the db gain and visibility being optional you can just state the frequency:
<frequency>,<frequency>,...
or combinations
<frequency>:<db gain>,<frequency>,<frequency>:<db gain>,<visibility>,<frequency>:<db gain>,....
using the db gain will override the calculated value from the spl chart and visibility will turn off the red dots.
Using these three together, this is what you get:
[eq eqgain=15&eqtype=4]J110M12[/eq]
Code: Select all
[eq eqgain=15&eqtype=4]J110M12[/eq]
Code: Select all
[eq eqgain=6&eqtype=3]J110M12[/eq]
There are two ways round this.
dbmin
The minimum db on the splchart that should be used
dbtarget
The target sensitivity of the EQ
[eq eqgain=6&eqtype=3&dbtarget=100]J110M12[/eq]
Code: Select all
[eq eqgain=6&eqtype=3&dbtarget=100]J110M12[/eq]
Code: Select all
[eq eqgain=6&eqtype=3&dbmin=85]J110M12[/eq]
[eq eqgain=6&eqtype=3&dbtarget=100&freqs=40:3,10000:-4]J110M12[/eq]
Code: Select all
[eq eqgain=6&eqtype=3&dbtarget=100&freqs=40:3,10000:-4]J110M12[/eq]
I going to post this in a series of posts and compile afterwards.
Here are the supported cabs:
8x10Sealed
ATDMCM8
D2510
D2512
D3012HO
D3015LF
DBeta10
DBP102
DR200 (unported)
DR200ASD1001 (ported)
DR250 (unported)
DR250ASD1001 (ported)
DR280 (unported)
DR280NSD2005 (ported)
DS2010
EVSX100
EVSX300
J110ASD1001
J110
J110M12
J110NSD2005
J112D2512ASD1001
J112D2512
J112D2512M16
J112D3012
J115D2515
J115D2515M20
J115D2515ASD1001
J115D2515NSD2005
J210F12
JBLMRX525
JBLSRX718
JBLSRX728
JBLVRX915M
JBLVRX932LAP
LABSUB
Mackie1501
Mackie1501M
MackieS218
O105D2510 [Obsolete]
O105D2510P1005 [Obsolete]
O10D2510 [Obsolete]
O12 [Obsolete]
O15D3015 [Obsolete]
O15DEVM [Obsolete]
O12D2512DA6AAPT80
O12DBP102X2DA6AAPT80
O15D2515DA6AAPT80
O15DD12LFX2DA6AAPT80
OT12D2512M12
OT12D2512ASD1001
OT12D3012NSD2005
OT12P [Obsolete]
OT15P20M [Obsolete]
OT15M20
OT15D3015CDASD
OT212P [Obsolete]
OT215P [Obsolete]
peavey112
PiezoMA20OnAxis
PiezoMAOnAxis
PiezoSA16OnAxis
PiezoSAOnAxis
RAD1
RAD2
sb4112ht
SLA
SLAPRO4ALPHA6
T24W16D2010
T24W16DBP102
T24W24D2010
T24W24DBP102
T30W16D2010
T30W16D3012LF
T30W24D2010
T30W24D2010x2
T30W27D3012LF
T30W27D3012LFX2
T30W30D3012LF
T36W25D3015
T36W27D4012X2C2
T36W27D4012X2C4
T36W27D4012X2
T39W14D2010
T39W16D3012
T39W18D2010
T39W20D102VC2
T39W20D10
T39W20D3012
T39W24D3012LF
T39W24D3012LFC2
T39W24D3012LFC4
T39W24D3012LFC8
T39W30D12
T39W30D3012
T48W14DHL10C
T48W15D3012
T48W18D3015
T48W18D4012
T48W24D3012
T48W24D3015
T48W36D3015
T60W15DLab12
T60W20DLab12
T60W27DLab15
T60W30DLab12X2
THTW15DLab12
THTW30DLab12
THTW18DTempest
THTW30DTempest
TLAH
TTW16DMCMCorner
TTW16DMCMFree
TTW16DMCMWall
W10D2510M
W10 [Obsolete]
W8M
W8DLA8MB [Obsolete]
Yamaha112V
Yamaha115V
Yamaha215V