Page 5
Page 12
User's Manual
User's Manual
INPUT A
INPUT A
OUTPUT 4
OUTPUT 4
OUTPUT 3
OUTPUT 3
OUTPUT 1
OUTPUT 1
OUTPUT 2
RS-485
RS-485
INPUT B
INPUT B
Connection
Connection
Program
Program
Copy
DeviceID
DeviceID
BoxName
BoxName
Esc
Inetrface
Input
Input
DSC24
Input 1
Input 1
Input 2
Input 2
12
9
6
3
0dB
-3
-6
-9
-12
12
12
9
6
3
0dB
0dB
-3
-3
-6
-6
-9
-9
-12
-12
Output
Output
Hide
OUT 2
OUT 2
OUT 3
OUT 3
OUT 4
OUT 4
POLAR
POLAR
EQ
EQ
CURVE
Gain
Gain
0.0 dB
Boxname
Boxname
+Normal
+Normal
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
+Normal
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
+Normal
Boxname
Boxname
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
+Normal
3.2ms
3.2ms
POLAR
POLAR
EQ
EQ
Delay
Delay
Gain
Gain
0.0 dB
0.0 dB
3.2ms
3.2ms
-Invert
-Invert
Rear Panel
1. Power Switch;
2. Power Cord Receptacle, accepted voltage:90~240V 50/60Hz;
3. RS485 In-Out: RJ45 sockets. Used for transmission of remote control data over long distance
or multiple unit applications.
4. Outputs balance XLR connectors;
5. Inputs balanced XLR connectors;
1
2
4
5
3
2. Preliminary Set-up
1. Design your crossover! To do this, press MENU, and use the BACK or NEXT key to select
Xover
sub-menu
and then press ENTER. Use the BACK or NEXT key to select
Program
and then
press ENTER. Finally.
2. Note that when in a menu, ENTER is always used to confirm selections.
3. Use the EDIT keys on each output channel with the BACK and NEXT keys to select the high pass
filters, low pass filters, parametrics etc. Note that when designing a new crossover, the high and low
pass filters will be set to default values.
4. Use the EDIT keys on each input channel with the BACK and NEX T keys to select the gain, delay
and parametrics available on each input.
6. Setup output channed EQ parameter
7. Setup route of each channel and delay, HPF, LPF, Limit parameter.
Fig 2.4
Fig 2.5
Connection
Connection
Program
Program
Copy
DeviceID
DeviceID
BoxName
BoxName
Esc
Inetrface
Input
Input
DSC24
Input 1
Input 1
Input 2
Input 2
12
9
6
3
0dB
-3
-6
-9
-12
12
12
9
6
3
0dB
0dB
-3
-3
-6
-6
-9
-9
-12
-12
Output
Output
Hide
OUT 2
OUT 2
OUT 3
OUT 3
OUT 4
OUT 4
POLAR
POLAR
EQ
EQ
CURVE
Gain
Gain
0.0 dB
Boxname
Boxname
+Normal
+Normal
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
+Normal
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
+Normal
Boxname
Boxname
0.0 dB
0.0 dB
Boxname
Boxname
+Normal
+Normal
3.2ms
3.2ms
POLAR
POLAR
EQ
EQ
Delay
Delay
Gain
Gain
0.0 dB
0.0 dB
3.2ms
3.2ms
-Invert
-Invert
EQ1
0db
19.7Hz
19.7Hz
2
Freq
Freq
dB
BW
OFF
EQ
PEQ
PEQ
EQ2
0db
19.7Hz
19.7Hz
2
Freq
dB
BW
BW
EQ3
0db
0db
19.7Hz
19.7Hz
2
Freq
Freq
dB
BW
EQ4
EQ4
0db
19.7Hz
19.7Hz
2
Freq
Freq
dB
BW
BW
EQ5
EQ5
0db
0db
19.7Hz
19.7Hz
2
Freq
Freq
dB
BW
EQ6
EQ6
0db
19.7Hz
19.7Hz
2
Freq
Freq
dB
BW
ON
ON
ON
ON
ON
EQ
PEQ
EQ
PEQ
EQ
PEQ
EQ
PEQ
PEQ
EQ
PEQ
PEQ
In Soutce
In Soutce
IN 1
IN 1
OFF
ON
IN 2
IN 2
Delay
Delay
Time
Time Temp
Temp
MS
457.491
457.491
Metres
Metres
159.847
159.847
Feet
524.434
524.434
C
F
30
92
HPF
Bessel
Bessel
_
L
R
_
L
R
BTWorth
BTWorth
24dB/Oct
24dB/Oct
2182Hz
LPF
Bessel
Bessel
_
L
R
_
L
R
BTWorth
BTWorth
2182Hz
2182Hz
Threshold
Threshold
-10.0dB
-10.0dB
Attack
Attack
0.4
Release
Release
2X(8ms)
2X(8ms)
48
24
18
12
48
24
18
12
48
24
18
12
48
24
18
12
24dB/Oct
24dB/Oct
Slope
Frequency
Frequency
Frequency
Slope
Slope
DSC24
DSC24
