DecaLED 95350246 Manuale - Pagina 7

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2.Full DMX Control Mode
2. Full DMX control mode
In this mode, the Dip Switch 11(2
2.Full DMX Control Mode
In this mode, the Dip Switch 3(4-digit function Dip Switch) is flipped to
is flipped to the "
OFF
the "OFF" position, the Dip Switch 10(10-digit addressing Dip Switch)
addressing Dip Switch
In this mode, the Dip Switch 11(2
2.Full DMX Control Mode
is to the "ON" position. And these switches are used to activate
switches sometimes used to activate a fixture special functions.
is flipped to the "
special functions of attached fixtures.
addressing Dip Switch
In this mode, the Dip Switch 11(2
DMX Addressing
switches sometimes used to activate a fixture special functions.
is flipped to the "
OFF
DMX Addressing
addressing Dip Switch
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
DMX Addressing
switches sometimes used to activate a fixture special functions.
intelligent fixtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
Dip Switch 1 address equals 1
DMX Addressing
intelligent fixtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
intelligent fixtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
Dip Switch 2 address equals 2
Dip Switch 3 address equals 4
DMX is short for Digital Multiplex. This is a universal binary language used as a form of communication between
Dip Switch 4 address equals 8
intelligent fixtures. Each Dip Switch(10-digit Addressing Dip Switch) represents a binary value.
Dip Switch 5 address equals 16
Dip Switch 6 address equals 32
Dip Switch 7 address equals 64
Dip Switch 8 address equals 128
Dip Switch 9 address equals 256
Dip Switch 5 address equals 16
Dip Switch 6 address equals 32
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to achieve,
Dip Switch 7 address equals 64
for example:
Dip Switch 8 address equals 128
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to achieve,
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to
Dip Switch 9 address equals 256
for example:
achieve, for example:
A DMX value(address) is set by combining the different dipswitches that will add up to the value you wish to achieve,
for example:
In
DMX Mode
, one output with R.G.B. Is controlled by three channels separately. And the Red effect is controlled
Remark:
by Channel1, the Green effect is controlled by Channel 2 and the Blue effect is controlled by Channel3.
In
DMX Mode
Remark:
by Channel1, the Green effect is controlled by Channel 2 and the Blue effect is controlled by Channel3.
In
DMX Mode
, one output with R.G.B. Is controlled by three channels separately. And the Red effect is controlled
by Channel1, the Green effect is controlled by Channel 2 and the Blue effect is controlled by Channel3.
Remark:
In DMX Mode one output with R.G.B. Is controlled by three channels separately. And the Red effect is controlled
by Channel1, the Green effect is controlled by Channel 2 and the Blue effect is controlled by Channel3.
-digit function Dip Switch
" position, the Dip Switch 10(
) is to the "
ON
" position. And these
-digit function Dip Switch
OFF
" position, the Dip Switch 10(
) is to the "
ON
-digit function Dip Switch
" position, the Dip Switch 10(
) is to the "
ON
" position. And these
Dip Switch 1 address equals 1
Dip Switch 2 address equals 2
Dip Switch 3 address equals 4
Dip Switch 1 address equals 1
Dip Switch 4 address equals 8
Dip Switch 2 address equals 2
Dip Switch 5 address equals 16
Dip Switch 3 address equals 4
Dip Switch 6 address equals 32
Dip Switch 4 address equals 8
Dip Switch 7 address equals 64
Dip Switch 8 address equals 128
Dip Switch 9 address equals 256
Setting DMX address for 21.
Flip switches1,3,&5 to the
"ON" position
Setting DMX address for 21.
1=1
Flip switches1,3,&5 to the
3=4
"ON" position
Setting DMX address for 21.
Dipswitches#
5=16
Flip switches1,3,&5 to the
=21
"ON" position
Dipswitches#
1=1
3=4
Dipswitches#
5=16
=21
, one output with R.G.B. Is controlled by three channels separately. And the Red effect is controlled
)
10-digit
10-digit
" position. And these
)
10-digit
1 =
1 2 3 4 5 6 7 8 9 10
0=
START
SWITCHES ON
CH#
1
1
1 2 3 4 5 6 7 8 9 10
2
2
START
1,2
3
4
3
5
1,3
1 2 3 4 5 6 7 8 9 10
6
2,3
START
7
1,2,3
SWITCHES ON
CH#
8
4
1
1,4
9
2
10
2,4
3
4
5
6
Setting DMX address for 201.
7
8
Flip switches1,4,7,& 8 to the
9
10
"ON" position
Setting DMX address for 201.
Flip switches1,4,7,& 8 to the
"ON" position
Setting DMX address for 201.
Value
Dipswitches#
1=1
Flip switches1,4,7,& 8 to the
3=4
"ON" position
Value
Dipswitches#
5=16
=21
Value
Dipswitches#
-Page 7-
-Page 7-
-Page 7-
)
1 2 3 4 5 6 7 8 9 10 11 12
1 2 3 4 5 6 7 8 9 10 11 12
ON
(10-digit Addressing Dip Switch)
OFF
START
SWITCHES ON
1 =
ON
CH#
(10-digit Addressing Dip Switch)
1,2,4
11
0=
OFF
12
3,4
START
1,3,4
13
SWITCHES ON
SWITCHES ON
CH#
CH#
1 =
ON
2,3,4
14
(10-digit Addressing Dip Switch)
1
1
11
15
1,2,3,4
0=
OFF
2
2
12
1,2
START
3
13
SWITCHES ON
CH#
4
3
14
1
1,3
11
1,2,4
1,2,3,4
5
15
3,4
2
2,3
12
6
511
1,2,3,4,5,6,7,8,9
1,2
1,3,4
7
1,2,3
13
3
14
2,3,4
8
4
1,3
1,2,3,4
1,4
15
9
2,3
10
2,4
511
1,2,3,4,5,6,7,8,9
1,2,3
4
1,4
2,4
511
1,2,3,4,5,6,7,8,9
1=1
4=8
Value
7=64
1=1
8=128
4=8
=201
Value
7=64
1=1
8=128
4=8
=201
Value
7=64
8=128
=201
1 =
ON
0=
OFF
1 2 3 4 5 6 7 8 9 10 11 12
1 =
0=
1,2,4
3,4
1,3,4
2,3,4
1 =
ON
ON
0=
OFF
OFF