Download BB1 4 way Powerbar Manual

Transcript
User Manual
BB1 4 WAY POWERBAR
BB1 4 WAY POWERBAR
contents
INTRO, RIGGING, SET UP & MODES
SAFETY FIRST
THE BB1
RIGGING
SET UP
IDENTIFY
DIMMER CURVE
ADDRESS
MODE
MODES
page 3
page 5
page 6
page 7
page 8
page 9
page 10
page 11
OPERATING INSTRUCTIONS
STAND ALONE FUNCTIONS
CREATING A MEMORY
STORING A MEMORY
RECALLING A MEMORY
PROGRAMING A CHASE
page 12
page 12
page 14
page 15
page 16
THE TECHNICAL STUFF
BB1 TECHNICAL SPECIFICATIONS
4 WAY POWER BAR TECHNICAL SPECIFICATIONS
4 WAY POWER BAR ( HARDWIRED )TECHNICAL SPECIFICATIONS
UNIT DIMENSIONS DRAWING
TROUBLE SHOOTING
INTERNAL INFORMATION
page 18
page 19
page 20
page 21
page 22
page 24
APPENDICES
APPENDIX 1
APPENDIX 2
ROHS COMPLIANCE
AND WEEE DIRECTIVE INSTRUCTIONS
SERVICE CONTACT DETAILS
page 26
page 27
OPERATING INSTRUCTIONS - Page 2
SAFETY FIRST
WARNING!
WARNING!
Read
safety
precautions
in this
section
before
Read
thethe
safety
precautions
in this
section
before
installing,
installing,
powering,
operating
or
servicing
the
2
powering, operating or servicing the BB1 PowerbarBB4
The following symbols are used to identify important safety information in this manual:
Warning!
Safety hazard.
Risk of severe
injury or death
Warning!
LED light
emission. Risk
of eye injury
Warning!
Hazardous
voltage. Risk
of lethal or
severe
electric shock
Warning!
Fire hazard
! Read this manual before installing, powering or servicing the fixture, follow the
safety precautions listed below and observe all warnings in this manual. If you
have questions about how to operate the fixture safely, please contact I-Pix.
Warning! Class 2M LED product. Do not look into the beam from a
distance of less than 40 cm (16 inches). Do not stare into the beam
for extended periods at a short distance. Do not view the beam
directly with optical instruments.
This product is for professional use only. It is not for household
use. This product presents risks of severe injury or death due to fire
hazards, electric shock and falls.
BB4
USERSMANUAL
MANUAL - PAGE 3
BB2 USERS
PROTECTION FROM ELECTRIC SHOCK
Shut down power to the entire installation at the building’s main power distribution board and lock
out power (by removing the fuse for example) before carrying out any installation or
maintenance work.
Disconnect the fixture from AC power before removing or installing any cover or part
and when not in use.
Disconnect the fixture from AC power before removing or changing the fuse.
Always ground (earth) the fixture electrically.
Use only a source of AC power that complies with local building and electrical codes and has both
overload and ground-fault (earth-fault) protection.
Connect this fixture to AC power either using the supplied power cable or via 3- conductor cable
that is rated minimum 20 amp, hard usage. Suitable cable types include
ST, SJT, STW, SEO, SEOW and STO.
The voltage and frequency at the power outlet are the same as the voltage and frequency applied
to the power inlet. Only connect devices to the power outlet that accept this voltage & frequency.
Before using the fixture, check that all power distribution equipment and cables are in perfect
condition and rated for the current requirements of all connected devices.
Do not use the fixture if the power cable or power plug are in any way damaged, defective or wet,
or if they show signs of overheating.
PROTECTION FROM FIRE
Do not attempt to bypass thermostatic switches or fuses. Replace defective fuses with ones of
the specified type and rating only.
Provide a minimum clearance of 0.1 m (4 in.) around fans and air vents.
Do not modify the fixture
Apart from I-PIX accessories do not stick filters, masks or other materials directly onto the light.
PROTECTION FROM INJURY
when
Do not hang fixtures from each other. Use two OMEGA clamps per fixture or
I-PIXrigging
SINGLE
or DOUBLE YOLKS when suspending.
horizontally.
When suspending the fixture, ensure that the structure and all hardware used can hold at least
10 times the weight of all devices suspended from them.
Use two secondary attachments (such as a safety cable) to secure each fixture.
Secondary attachments must be able to hold at least 10 times the weight of all devices
suspended from them and must be installed as described in this manual.
Check that all external covers and rigging hardware are securely fastened.
Block access below the work area and work from a stable platform whenever installing,
servicing or moving the fixture.
The LED emission presents a hazard to eyesight at a distance of 4 - 40 cm (1.6 -16 inches)
when the eye is exposed to the beam for longer than 0.25 seconds.
Do not look at LEDs from a distance of less than 40 cm (1 ft. 4 in.) without suitable
protective eye wear.
Do not look at LEDs with magnifiers or similar optical instruments that may concentrate the
light output.
BB4
USERSMANUAL
MANUAL - PAGE 4
BB2 USERS
THE BB1 4 WAY POWERBAR
The BB1 is a compact and versatile instrument available in four beam widths ( 20°,35°,45° ) and the 10° narrow beam BB1
This is a single LED fixture, designed for outdoor and submersible use to 2m ( IP 68 ). It is an RDM device requiring just 15
Volts DC, at 3.6 amps. Full power is 30 Watts at 240 v. For entertainment use there are a choice of power boxes,
designed to facilitate quick cable hook up, with an on board user interface enabling quick parameter adjustments.
All the intelligence of the BB1 is in the head of the fixture. for fixed instillation purposes any 15V 5A DC regulated power
supply may be used to power the fixture in conjunction with data input that is DMX 512A.
The BB1 offers completely homogenized optics for the smoothest of output It's powerful custom RGB LED light engine
has incredible colour mixing capabilities including the effortless sourcing of tungsten and daylight colour temperatures.The
BB1 comes with a self contained RDM/DMX digital drive. It can be submerged and comes with a single cable fitted with a
high quality 5-pin weatherproof connection
The BB1 can be used independently, e.g. as a truss or a set toner. It is fitted with a dual set of yokes for easy floor
mounting or for quick, tool free rigging onto a truss or metalwork in the air.
The BB1 fixtures can be remotely addressed and configured with industry standard RDM (remote device management)
DMX, or run as a slave on standard USITT DMX.
i-Pix new Digital Drive technology is over 90% efficient and delivers even smoother control of the light engines, right
down to lowest intensities. True 16 bit control expands the colour range from millions to billions.
In entertainment the BB1 is driven by either a 4 or 6 way powerbox or powerbar.
The powerbox and powerbar remotely address the fixtures via RDM DMX or use the onboard user interface which provides
both operating mode and address control.Combined power and data input ensures a weatherproof connection, so the power
distro can be used outdoors in any orientation.A battery and data inlet connects to an optional battery and show DMX
wireless DMX module. Rigging mounts are provided for truss or frame mounting.
OPERATING INSTRUCTIONS - Page 5
Rigging a Powerbar
To rig the Powerbar horizontally use the two OMEGA brackets supplied with the bar.
These would have your clamps of choice bolted on to them.
First place the camloc pins in the receptacles either on the top or the bottom of the powerbox with the
levers facing out so that a quarter turn clockwise will have them facing in alternate directions as shown.
The Powerbar can also be rigged using a spigot as shown.
Always secure the Powerbar to the truss,pipe e.t.c. with a safety bond, attached to the bar through the the
safety points on the top of the bar shown in green.
Always secure the BB1 to the Powerbar through the safety points on the bottom of the bar shown in green.
OPERATING INSTRUCTIONS - Page 6
Identifying A Fixture
In order to determine wich fixture you are addressing or
changing the mode of, it it may be usefull to “ Identify “ it.
Once Identified the fixture will flash at full until the Identify
function is switched off.
1 Press the 1 - 4 button once.
MENU
1-4
PRESS
The powerbox will now search out all connected fixtures.
SEARCHING FOR
DEVICES PORT 1
Any fixture connected will be shown as an address and mode
beside the port number it is attached to - 2006 M2.
Ports with no attached fixtures will be shown as EMPTY.
1001 M2 2006 M2
3011 m2 4016 m2
PRESS
2 Press the button of the fixture you wish to Identify.
1001 M2 2006 M2
3011 m2 4016 m2
3 Press the IDENTIFY button once.
PSNLTY
IDENTIFY
ADDR
MORE
PRESS
PRESS
4 Press the ON button once.
The fixture will start flashing.
ON
OFF
PRESS
5 Once you have Identified the fixture, press the fixture button once
( the one with the star ) press IDENTIFY then OFF and the fixture will
stop flashing
1 empty 2001❇M2
3 empty 4 empty
OPERATING INSTRUCTIONS - Page 7
Changing Dimming Curve of A BB 1
The BB1 has the option of using either one of two dimmer curves.
Linear - the output increases directly with the DMX input.
Enhanced - the first 10% of the output is directly controlled over the first 50% of the DMX input.
1 Press the 1 - 4 button once.
MENU
1-4
PRESS
The powerbox will now search out all connected fixtures.
Any fixture connected will be shown as an address and mode beside
the port number it is attached to - 2006 M2.
Ports with no attached fixtures will be shown as EMPTY.
SEARCHING FOR
DEVICES PORT 1
1001 M2 2006 M2
3011 m2 4016 m2
PRESS
2 Press the button of the fixture you wish to change the Dimmer curve of.
1001 M2 2006 M2
3011 m2 4016 m2
3 Press the MORE button once.
PSNLTY
IDENTIFY
ADDR
MORE
PRESS
CURVE L shows the dimming curve currently in use - L linear, E enhanced
RUNTIME CURVE L
softver EXIT
PRESS
4 Press the CURVE button once to change the dimming curve.
RUNTIME CURVE L
softver EXIT
OPERATING INSTRUCTIONS - Page 8
Addressing the BB 1
1 Press the 1 - 4 button once.
MENU
1-4
PRESS
The powerbox will now search out all connected fixtures.
Any fixture connected will be shown as an address and mode beside the
port number it is attached to - 2006 M2.
Ports with no attached fixtures will be shown as EMPTY.
SEARCHING FOR
DEVICES PORT 1
1001 M2 2006 M2
3011 m2 4016 m2
PRESS
2 Press the button of the fixture you wish to Address.
1001 M2 2006 M2
3011 m2 4016 m2
PRESS
3 Press the address ADDR button once.
4 Use the 1 10 and 100 buttons to create the desired address.
PSNLTY
IDENTIFY
ADDR
MORE
100
10
ADDR 021
1
PRESS
OPERATING INSTRUCTIONS - Page 9
Changing The Mode of A BB 1
MENU
1-4
1 Press the 1 - 4 button once.
PRESS
The powerbox will now search out all connected fixtures.
Any fixture connected will be shown as an address and mode beside
the port number it is attached to - 2006 M2.
Ports with no attached fixtures will be shown as EMPTY.
SEARCHING FOR
DEVICES PORT 1
1001 M2 2006 M2
3011 m2 4016 m2
PRESS
2 Press the button of the fixture you wish to change the Mode of.
1001 M2 2006 M2
3011 m2 4016 m2
PRESS
PSNLTY
IDENTIFY
3 Press the personality PSNLTY button once
ADDR
MORE
The fixture personality which is the mode the fixture is in, is now displayed
2 mode number
M master intensity
S strobe
R red
G green
5CH number of channels
4 Press the mode button to change the fixture personality
PERSONALITY
2 MSRGB 5CH
PERSONALITY
3 RGB 6CH
PRESS
OPERATING INSTRUCTIONS - Page 10
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use with
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most simple,
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idually
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can
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its
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red
INTENSITY
INTENSITY
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INTENSITY
INTENSITY
INTENSITY
CHANNEL
CHANNEL
CHANNEL
INTENSITY
INTENSITY
INTENSITY
servers,- with
alow
greater
Ideal
for byte
use with
media
with a greater
CHANNEL
CHANNEL
CHANNEL
ch11
red
byte
cell
ch11
2 8cell
- red
cell
2 servers,master
ch11
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low
byte
cell
25
ch11
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with
alow
strobe
and
a3
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resolution
cell -with
a Mode
strobe
and
a2
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resolution
ma
Mode
Mode
5
5
MODE
2
5
channels
bit
1e1
Mode
Mode
Mode
Mode
Mode
2
1
2
2
1
1
Mode
Mode
Mode
Mode
Mode
Mode
2
3
2
3
2
Mode
Mode
Mode
Mode
Mode
Mode
Mode
3
Mode
3
1
3
4
1
4
1
4
Mode
Mode
Mode
Mode
Mode
Mode
2
2
4
1
1
4
1
4
most
useful
when
each
cell
is
green
blue
channel.
(most
useful
when
each
cell
is
ch9
green
high
byte
cell
ch9
2
green
high
byte
cell
2
colours.
resolution over the colours.
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
STROBE
STROBE
STROBE
MASTER
MASTER
MASTER
ST
ch1
- master
intensity
high
byte
all
ch1
master
intensity
high
byte
all
STROBE
STROBE
STROBE
intensity
having
overall
control
over
allcells
4 cells.
intensity
having
overall
control
over
4-ST
ce
MODES
MODES
A
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
OVERVIEW
MODES
MODES
A
A
GRAPH
GRAP
- green
high
byte
cell
ch12
2A
-A
green
high
byte
cell
2GRAPHICAL
ch12
--GRAPHICAL
green
high
byte
cell
ch12
2allcells
g
MODES
MODES
MODES
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
OVERVIEW
MODES
MODES
MODES
A
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIE
OVERVIE
MODES
MODES
MODES
A
A
GRAPHICAL
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
OVERVIEW
MODES
MODES
MODES
A
A
GRAPH
A
GRAP
GRA
-6ch)ch12
patched
individually
-6ch)
MODES
MODES
A
A
GRAPHICAL
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
OVERVIEW
MODES
MODES
A
A
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIE
OVERVI
MASTER
MASTER
MASTER
INTENSITY
INTENSITY
INTENSITY
dividually
coloured
with
its
own
red
Each
cell
can
be
individually
coloured
with
its
own
red
STROBE
STROBE
STROBE
INTENSITY
INTENSITY
INTENSITY
CH
INTENSITY
INTENSITY
INTENSITY
CHANNEL
CHANNEL
CHANNEL
INTENSITY
INTENSITY
INTENSITY
CH
CHANNEL
CHANNEL
CHANNEL
Ideal for
fast programing
or limited
line
space
and
as
a node
on
aOVERVIEW
media
server
with
overall
dimming and
strobe
control.
ch10
green
low
byte
cell
ch10
2
green
low
byte
cell
2
ch2
-GRAPHICAL
master
intensity
low
byte
all cells
ch2
master
intensity
low
byte
all
cells
MODES
MODES
MODES
A
A
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
MODES
MODES
MODES
A
A
A
GRAPHICAL
GRAPHICAL
GRAPHICAL
OVERVIE
OVERV
OVERV
INTENSITY
INTENSITY
INTENSITY
CHANNEL
CHANNEL
CHANNEL
l. (most
useful
when
each
cell
is
green
blue
channel.
(most
useful
when
each
cell
is
ch13 - green low byte cell
ch13
2ch1
- green
low
byte
cell
2 cells
ch13
green
byte
cell
ch13
ch3
-master
strobe
all-cells
ch3---master
strobe6
alllow
cells
-cell
intensity
highhigh
byte all
ch1
intensity
high byte
all2cells - g
6
6
blue
high byte
ch11
216
blue
2ch
12
12
12
ch
8
ch
8
8
bit
bit
ly
patched
individually
ell
1
ch1
-5
red
high
byte
cell -6ch)
1 byte5cell
bit
t -6ch)
6ch1
6
ch
3ch11
6ch
3
ch
16
3
ch
ch
16
ch
8-16
bit
8
bit
8
bit
bit
bit
bit
6
5
6
ch
6
ch
ch
5
ch
ch
8
ch
16
16
bit
8
8
bit
bit
bit
5
ch
9
3
5
ch
3
9
8
ch
3
9
ch
8
bit
16
ch
8
8
ch
bit
8
16
bit
bit
8
bit
16
bit
bit
bit
bit
6
6
9
ch
6
3
ch
9
3
16
ch
9
ch
3
16
ch
ch
ch
8
16
bit
16
8
bit
bit
16
8
bit
bit
bit
bit
bit
65
MASTER
MASTER
MASTER
STROBE
STROBE
STROBE
master
intensity
ch2
master
intensity
low
byte
all
cells
ch2
master
intensity
low
byte
all
cells - b
ch4
-GRAPHICAL
red high
byte
cellOVERVIEW
1cell
- blue
red high
bytebyte
cell OVERVIEW
1 OVERVIE
MODES
MODES
MODES
AA
A
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
MODES
MODES
MODES
Ach4
AA
GRAPHICAL
GRAPHICAL
GRAPHICAL
OVERVI
high
byte
cell
ch14
2
blue
high
byte
2
ch14
high
cell
ch14
2
INTENSITY
INTENSITY
INTENSITY
CHANNEL
CHANNEL
CHANNEL
ll 1 ch14 - blue
ch2
red
low
byte
cell
1
ch2
- strobe
g
ch12
- blue low byte
ch12
2low
-high
blue
rr byte
rcell
ch3
--strobe
all cells
ch3
allbyte
cells
g ch15
ch5cell
red
cell
1low1byte cell 2
ch5 --strobe
red low
rgrrg1ggcell
cell
ch1
- redbyte
byte
cell 1ch15
1
- green
high
byte
cell 2
- blue
low byte cellch15
2 ch4
- ch3
blue
low
byte
cell
ch15
---red
blue
low
-b
ch3 - red
--red
high
byte
cell 1cell
ch4
highhigh
bytebyte
cell 1
ch6
green
high
byte
1
ch6
green
cell
1 2
ch13
cell
ch13
3
red
cell
ch2
- redlow
low
bytehigh
cell 11byte cell 3
cell 11
ch4
green
byte
cell
ch4
- green- red high byte
bbyte
--red
low
bytebyte
cell 1cell
ch5
low
bytebyte
cell
1b
b bb
bcell
ch7
green
low
byte
1 cell
ch7---red
green
low
cell
1 ch16
- red
high byte cellch16
3 ch5
- ch5
red
high
cell
31
ch16
red
high
3
-r
yte
1
ch3
- green
high
byte
cellcell
1ch16
-ch14
blue
high
byte
cell
ch5
- blue - red low bytech6
ch14
cell
3
red
low
--green
high
byte
cell
11 1byte cell 3
ch6
--green
high byte
byte cell
11
ch8
blue
high
byte
cell
ch8
blue
high
cell
te
cell
1
ch4
green
low
byte
cell
1
Mode
Mode
Mode
1
1
1
Mode
Mode
Mode
2
2
2
Mode
Mode
Mode
3
3
3
Mode
Mode
Mode
Mode
1
Mode
1
1
Mode
4
4
4
Mod
M
Mode
Mode
5
5
5
Mode
Mode
Mode
1
1
1
Mode
Mode
Mode
2
2
2
Mode
Mode
Mode
3
3
3
Mode
Mode
Mode
Mode
1
Mode
1
1
Mode
4
4
4
Mode
Mode
Mode
2
2
2
Mode
Mode
Mod
Mode
Mode
11 1
Mode
Mode
Mode
Mode
3 Mode
Mode
Mode
Mode
1Mode
Mode
1 54
4Mode
Mo
ell 2 ch17 - red low byte
- blue
low
byte
cell
23 Mode
Mode
5
54Mode
cell
ch17
- ch6
red
low
byte
cell
ch17
low
byte
cell
3ch17
-M3rM
Mode
Mode
13 1 ch7
Mode
Mode
Mode
2
22
Mode
Mode
3Mode
332 22
Mode
Mode
Mode
1
Mode
Mode
1Mode
434-34red
Mode
Mode
2
2Mode
2
Mod
3
low
byte
cell
ch7
low
byte
cell
11Mode
ch9--green
blue
low
byte
cell
1 cell
ch9 --green
blue low
byte
cell
r
r
r
r
r
R
R
R
R
R
R
g
g
g
r
r
r
r
r
r
r
r
r
R
R
R
R
R
R
R
R
R
g
g
g
e
cell
1
ch5
blue
high
byte
1
r
r
r
ch15
green
high
byte
cell
ch15
3
green
high
byte
cell
3
g
g
g
r
r
r
ell 2
ch7
- red
high
byte
cell 2
- blue
high
cell
ch8
blue
high
byte
cell
154
M
ch18MODE
- green
byte
ch18
3ch8
-bit
green
high
byte
cell
3Mode
--bit
green
byte
ch18
3Mode
-6ch
Mode
Mode
1byte
11112cell
Mode
Mode
Mode
2222
Mode
Mode
Mode
3
34
3
Mode
Mode
Mode
Mode
1
4
1
Mod
Mo
Mode
Mode
5
ch10
-Mode
red
cell
ch10
- Mode
red
high
byte
cell
2444cell
Mode
Mode
Mode
1cell
11116
Mode
Mode
2byte
2byte
22
Mode
Mode
3Mode
3
32
Mode
Mode
Mode
Mode
1
1
4ch18
134
Mode
Mode
2high
2
2Mode
Mode
Mode
Mode
3Mo
3
3
3 high
- 6 channels
Mode
Mode
Mode
1cell
Mode
Mode
Mode
Mode
Mode
34
38bit
Mode
Mode
Mode
Mode
Mode
15
4
15
1
Mode
Mg
ellcell
ch6
-high
blue
low
2Mode
Mode
5
59
Mode
1
Mode
Mode
Mode
2
2
Mode
Mode
3
316
3216
Mode
Mode
Mode
Mode
Mode
1
4
1
4
Mode
Mode
Mode
2
2
2
Mode
Mode
Mode
3
3
2 2
red
low
byte
2low
3byte
3
ch
ch
8
8
bit
bit
6
6
ch
68
ch
ch
16
bit
bit
bit
5
ch
5
5
ch
8
ch
bit
8
3Mode
3
ch
ch
9
8
8
ch
bit
9
bit
ch
16
ch
bit
16
bit
bit
6
6
ch
c
12
12
ch
12
ch
8
ch
bit
8
8
bit
bit
333
ch
3
ch
ch
8Mode
8
bit
bit
66-6
ch
ch
16
16
16
bit
bit
bit
5
5
ch
5ch
8
bit
8
bit
bit
333
ch
3
ch
9
ch
898
8
ch
bit
9ch
9bit
ch
16
ch
16
bit
16
bit
6
6
ch
ch
16
16
16
bit
bit
bit
5
5
ch
5
ch
8
8
bi
ch16
green
low
byte
ch16
3
green
byte
cell
3
ch9ch8
- cell
blue
low
cell
1bit
ch9
-bit
blue
low
byte
cell
1
3
3
ch
3
ch
8
ch
8
8
bit
bit
6
6
6
ch
16
ch
16
16
bit
bit
bit
5
ch
5
5
ch
8
ch
bit
8
8
bit
bit
3
3
ch
3
ch
9
8
ch
ch
9
8
bit
9
ch
bit
16
ch
16
bit
16
bit
6ch
6
6
c8
12
12
12
ch
8
ch
bit
816
8
bit
bit
ch
3
8
ch
8
bit
8
bit
bit
6
ch
6
ch
16
ch
16
16
bit
bit
bit
5
5
ch
5
ch
8
ch
bit
8
8
bit
bit
ch
3
ch
9
8
bit
8
9
bit
16
bit
ch
16
bit
16
bit
6
6
ch
6
ch
16
ch
16
16
bit
bit
bit
5bit
5
ch
5
8ch
b
81
b
b
b
ch11
red
low
byte
cell
2
ch11
red
low
byte
cell
2
cell 2ch19 - green low byte
ch7
red
high
byte
cell
2
b
b
b
b
b
b
Mode
Mode
Mode
5cell
5ch19
5Mode
Mode
Mode
Mode
1ch19
113ch10
Mode
Mode
2 2byte
2
Mode
Mode
3 33
Mode
Mode
Mode
Mode
11
Mode
1Mode
4 4- 4-green
Mode
Mode
Mode
22
2
Mode
Mod
3
cell
green
low
cell
ch19
low
byte
3
g
cell 2
ch9
- Mode
green
high
byte2 cell
2 3Mode
red
high
byte
cell
ch10
red
high
byte
cell
2
Ideal for
fast
or
line
and
as
a8
node
on22a 5
media
server,
with
resolution
over
colours
12
cell 2
ch8
-16
red
low
byte
cell
3
3
ch
ch
8
bit
bit
6
6
ch
68
ch
ch
16
16
bit
bit
5
5
5
ch
ch
bit
8
8
bit
bit
312
9
3
ch
9
ch
9
16
ch
8bit
16
bit
bit
16
bit
bit
bit
6
6
ch
68
ch
ch
1
ch12
-space
green
high
byte
cell
ch12
-the
green
high
byte
cell
2555
g
g
g3ch-bit
gbit3bit
ggaGggreater
12
ch
12
8ch
ch
bit
8
bit
ch17
-gblue
byte
cell
ch17
blue
high
byte
cell
gGprograming
g3byte
gG9393Mode
g16
g
g16
ch
3
ch
ch
88
8
bit
8
bit
bit
66
6
ch
6
16
ch
16
16
bit
bit
ch
5ch
8
bit
8
bit
bit
3
ch
3
ch
9
ch
8
ch
16
ch
8
bit
16
bit
bit
16
bit
66
6
ch
6ch
ch
16
16
bit
bit
bit
ch
5ch
8
bit
8
bit
b1
12
3
3
ch
8
ch
8
bit
82bit
bit
6ch
6
6
ch
16
ch
16
16
bit
bit
5
5
58
ch
8
ch
bit
8bit
8bit
bit
3
9
3
ch
ch
9
3
9
ch
8
ch
ch
bit
16
8
bit
16
bit
bit
bit
6ch
6
6
ch
16
ch
12
12
ch
12
ch
8
88
bit
33
ch
3high
ch
bit
8limited
bit
ch
63
ch
16
16
bit
bit
bit
5
ch
5
8ch
bit
816
8
bit
bit
ch
9
39ch
9ch
8
ch
16
ch
8
bit
16
8
bit
16
bit
bit
ch
616
16
ch
16
bit
bit
bit
5
ch
5
8ch
bit
816
8
bi
G
G
G
G
e cellch20
2
-ch
green
byte
cell5523
G
G
G
G
G
G
G
- red
low
byte
cell
ch11
red
low
byte
cell
Mode
Mode
Mode
5 2cell
5 5cell
Mode
Mode
Mode
1ch20
113 ch11
Mode
Mode
2 low
2byte
2
Mode
3 33
Mode
Mode
Mode
Mode
Mode
11
4144
Mode
Mode
Mode
2
2byte
2
Mode
Mode
Mode
3- 3
- blueGhigh
cell
- ch10
blue
high
cell
ch20
- -blue
high
byte
ch20
3
b
yte cell
2
-Mode
green
high byte
2 Mode
ch13
- ch9
green
low
byte
cell
2cellMode
ch13
- green
low
2
g
g
g
g
g
g
r
r
r
ch12
-6
green
high
byte
celllow
2 2byte
ch12
-6green
high
byte
cell
2g
6
6
6
cell 2
ch11
-36
blue
high
byte
cell
ch18
blue
low
byte
cell
ch18
blue
cell
3
12
12
ch
12
ch
8
ch
bit
8
8
bit
bit
g
g
r
r
r
3
3
ch
3
ch
ch
8
8
bit
8
bit
bit
6
ch
ch
16
ch
16
16
bit
bit
bit
5
5
ch
5
ch
8
ch
8
bit
8
bit
bit
3
3
ch
3
ch
ch
8
9
8
bit
ch
9
8
9
bit
ch
bit
16
ch
16
bit
16
bit
bit
6
ch
6
ch
16
ch
16
16
bit
bit
bit
5
5
ch
5
ch
8
ch
8
b
ch1
red
high
byte
yte cell
2
ch10
-high
green
lowcell
byte2 cell
2
ch14
bluelow
byte
ch14
-green
blue high
byte
cell2cell
2 3
- blue
low byte
cellch21
3 ch13
- ch12
blue
byte
ch21
- -blue
low
byte
-b
--green
lowlow
byte
cellcell
2 23
ch13
low byte
g
cellcell
2ch21
- blue
byte
cell
rbit
rbit
rcell
rgrbit
r2gggg5ch21
ch2ch19
- red low
byte
6
612
6b
yte
2
ch11
-low
blue
high
byte
cell
2
12
12
ch
ch
8
ch
8
8
3
3
ch
3
ch
ch
8
8
bit
8
bit
bit
6
6
ch
6
ch
16
ch
16
16
bit
bit
bit
5
5
ch
5
ch
8
ch
8
bit
8
bit
bit
3
9
3
ch
3
ch
9
ch
9
ch
8
ch
16
ch
8
bit
8
16
bit
bit
16
bit
bit
bit
6
6
ch
6
ch
16
ch
16
16
bit
bit
bit
5
ch5ch
8ch8
bit
8bib
red
high
byte
cell
ch19
4
red
high
byte
cell
4
ch15
blue
byte
cell
2
ch15
blue
low
byte
cell
b
b
b
b
b
b
b
b
b
b
b
b
b
b
b
b
ch14
blue
high
byte
cell
2
ch14
blue
high
byte
cell
2
b
b
b
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
b
b
b
cell
3
ch13
red
high
byte
cell
3
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
ch3 - high
green high
byte
- red
byte
cellch22
4 ch16
- red
high
byte
cell
4
ch22
red
high
byte
cell
ch22
4
r
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
g
g
g
te cellch22
2
ch12
blue
low
byte
cell
2
b
b
b
r
r
r
g
g
g
b2b3 b
r rcell
highbyte
cell
3 byte cell 4
ch16--blue
red high
byte
cell
--blue
low
cell
2INTENSITY
ch15
low rbyte
redbyte
low bytech15
cell
4red
ch20
-byte
red
low
ell
3 3
ch14
- red
low
byte
cell
3 3
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
ch4ch20
- green- low
e cell
ch13
red
high
byte
cell
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
ch17
red
low
bytecell
cell
ch17
-red
redhigh
low
byte
cell
bbbyte
bbg
b
- red
low byte
cellrch23
4 ch16
- ch15
red
byte
cell
433 r r r
low
cell
b
--red
high
byte
33 cell
byte
cell
R Rch16
R - -red
g
gg
r rr ch23
R
R
R
RCHANNEL
R
R
gr3rg
gggg4ch23r -r r
rg
cellch23
-low
green
byte
gg
g
ch5ch21
- blue high
byter rhigh
rrrrg
r3cell
r
r
eecell
33
ch14
low
byte
cell
g
g
g
- green
byte
ch21
4- red
-high
green
high
byte cell 4
r
r
ch18--cell
green
high
byte
cell
3
ch18--red
green
high
byte
3
ch17
red
low
byte
cell
3
ch17
low
byte
cell
3
e cellcell
3 3 - green
- green
bytebyte
cell
3 4
ch6 - bluehigh
low byte
R ch19- green
r4r r- g
g
gbgb
r rrcell
r rRr Rch24
R-R
R low
RRlow
Rhigh
ch24
byte
ch244ch18
- ch16
green
high
byte
cell
ch24
gb
rr rbyte
byte
ch15
green
high
3r r r
ggrrgggbyte
bbb3bb3bcell
rbyte
ch19cell
-green
green
low
byte
cell3low
3 cell byte
-green
greenhigh
cell
high
byte
cell
ch18
cell
ch22
green
low
byte
ch22
4
green
cell
4
g
g
g
g g- gg
cellcell
3 3
ch17ch16
- blue
high
byte
cell
3
b
b
b
g
g
g
g
g
g
yte
green
low
byte
cell
3
b
b
b
bbbbbrbyte
bcell
bgr3g3gcell
G Gch19
G - -green
GGbyte
Glow
Gbbyte
bbbyte
bbcell
ch20
blueGhigh
byte
cell3cell
3 4
ch20
-green
blueGhigh
ch25 - green low byte
cell
ch25
4ch19
- ch18
green
low
byte
ch25
ch25
4
--green
low
cell
low
g
g
g
r
cellcell
3 3
-4
blue
low
byte
cell
3
g
g
g
g
g
g
g
g
g
yte
ch17
blue
high
byte
cell
3
g
g
g
g
g
g
r
r
r
ch23
blue
high
byte
cell
ch23
blue
high
byte
cell
4
G GG ch20
Ghigh
Glow
G byte
Ghigh
G
G byte
MODE
- 9 byte
channels
bit
ch21
blue
bytecell
cell3 3
ch21--blue
blue
low
byte
cell
ch20
--blue
cell
33
g
g
g
g
g
g
r
r
r
te cell
3
ch18
- blue
low
byte
cell
3
- blue4high
cell
ch26
416
blue
high
cell
ch26
blue
high
byte
cell
ch26
4
-bb
cell
4ch26
ch19
- red
highbyte
byte
cell
44
g
g
g
r
r
r
b
b
b
b
b
b
b
b
b
b
b
b
b
MASTER
MASTER
MASTER
MASTER
bbSTROBE
b4bOVERVI
bbOVERV
STROBE
STROBE
STROBE
STROBE
STROBE
B
B
B
B- red
B
B
BBB
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
g
g
ch21
-OVERVIEW
blue
low
byte
cell
3low
ch21
-OVERVIEW
blue
low
byte
cell
3g
ch22
-GRAPHICAL
red
high
cell
4cell
ch22
-GRAPHICAL
red
high
byte
cell
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
r
r
r
ch24
- GRAPHICAL
blue
low
byte
cell
ch24
-byte
blue
cellMASTER
4MASTER
MODES
A
A
A
GRAPHICAL
GRAPHICAL
MODES
MODES
MODES
A
OVERVIEW
A
A
GRAPHICAL
OVERVIEW
GRAPHICAL
OVERVIEW
MODES
OVERVIEW
MODES
OVERVIEW
MODES
A
A
A
GRAPHICAL
GRAPHICAL
GRAPHICAL
MODES
MODES
MODES
A
OVERVIEW
A
A
GRAPHICAL
OVERVIEW
GRAPHICAL
OVER
e cell
4MODES
ch19
high
byte
4byte
ell
4MODES
ch20
-4
red
low
byte
cell
4
MODES
MODES
A
A
GRAPHICAL
GRAPHICAL
MODES
MODES
A
OVERVIEW
A
GRAPHICAL
OVERVIEW
OVERVIEW
GRAPHICAL
OVERVIEW
MODES
OVERVIEW
OVERVIEW
MODES
A
A
GRAPHICAL
GRAPHICAL
MODES
MODES
A
OVERVIEW
A
GRAPHICAL
OVERVIEW
OVERVIEW
GRAPHICAL
OVERV
OVERV
OVER
b
b
b
b
b
b
b
b
b
b
b
b
b
b
b
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
b
b
b
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
b
b
b
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
STROBE
STROBE
STROBE
STROBE
STROBE
B
B
B
Blow
BBbyte
Blow
BSTROBE
Bbyte
MASTER
MASTER
MASTER
MASTER
MASTER
MASTER
ch27
- blue
low
byte
cell
4 A
-line
blue
byte
ch27
-INTENSITY
blue
low
byte
cell
ch27
4 -MMb
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
ch22
-GRAPHICAL
red
high
4cell
ch22
-GRAPHICAL
red
high
cell
4CHANNEL
Ideal
for A
fast
programing
orch27
limited
and
as
acell
node
on
a4
media
server,
with
aGRAPHICAL
greater
resolution
over
the
colours
with
STROBE
STROBE
STROBE
STROBE
STROBE
STROBE
ch23
-space
red
low
4
ch23
-OVERVIEW
red
byte
cell
4OVERVIEW
MODES
MODES
A
GRAPHICAL
GRAPHICAL
MODES
MODES
MODES
OVERVIEW
A
GRAPHICAL
OVERVIEW
OVERVIEW
OVERVIEW
OVERVIEW
OVERVIEW
MODES
MODES
A
A
GRAPHICAL
MODES
MODES
MODES
A
OVERVIEW
A
GRAPHICAL
OVERVIEW
OVERVIEW
OVERV
g
ggOVERVIE
gOVERVI
eecell
ch20
- redbyte
low cell
byte
cell
4MODES
r
r
r
MODES
A
A
A
GRAPHICAL
GRAPHICAL
GRAPHICAL
MODES
MODES
A
OVERVIEW
A
A
GRAPHICAL
OVERVIEW
OVERVIEW
GRAPHICAL
GRAPHICAL
OVERVIEW
OVERVIEW
OVERVIEW
MODES
MODES
A
A
A
GRAPHICAL
GRAPHICAL
GRAPHICAL
MODES
MODES
A
OVERVIEW
A
A
GRAPHICAL
OVERVIEW
GRAPHICAL
GRAPHICAL
OVERVIE
OVERV
g
g
g
g
g
cell4MODES
4MODES
ch21
green
high
byte
cell
4
r
r
r
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
ININ
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
INTENSITY
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
CHANNEL
overall dimming and strobe control.
ch23
lowhigh
byte byte
cell 4cell 4
ch23
lowhigh
byteb
cellb
4cell
b4
ch24--red
green
ch24--red
green
byte
rrRrRrr rrrrRR
rR
rR
rr
rR
rRrRR
rR
rR
rrRrRR
rR
rrRrR
rR
rrRR
rrRrrrrrr RR
rR
RRR
RRRR
r
r
r
r
r
r
r
r
r
r
r
r
r
r
R
R
R
R
R
R
R
R
R
R
R
R
R
R
g
g
g
g
g
ggGG
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
gGG
g
g
g
g
gGGg
GG
GGGGG gGGGGG
GGGgGG
GG
GGGGGGGg
rrrrr AOVERVIEW
rg
rrrR
rrR
rR
rAGRAPHICAL
rrrrrAAOVERVIEW
r
r
r
r
r
r
r
r
r
r
r
R
R
R
R
R
r
r
r
r
r
rR
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
DES
ES
SCAL
ICAL
AL
ES
SCAL
AAAOVERVIEW
AGRAPHICAL
A
GRAPHICAL
OVERVIEW
GRAPHICAL
OVERVIEW
GRAPHICAL
GRAPHICAL
MODES
MODES
MODES
A
OVERVIEW
A
GRAPHICAL
OVERVIEW
OVERVIEW
GRAPHICAL
OVERVIEW
GRAPHICAL
MODES
MODES
MODES
A
A
OVERVIEW
GRAPHICAL
OVERVIEW
GRAPHICAL
GRAPHICAL
MODES
MODES
MODES
A
OVERVIEW
A
OVERVIEW
OVERVIEW
GRAPHICAL
GRAPHICAL
MODES
MODES
MODES
A
OVE
A
A
GR
OV
O
G
G
g
g
g
g
g
g
g
g
g
g
g
g
g
CAL
DES
ICAL
OVERVIEW
A
OVERVIEW
OVERVIEW
GRAPHICAL
MODES
MODES
A
GRAPHICAL
OVERVIEW
OVERVIEW
GRAPHICAL
MODES
MODES
A
OVERVIEW
A
OVERVIEW
GRAPHICAL
OVERVIEW
GRAPHICAL
MODES
MODES
A
OVERVIEW
A
GRAPHICAL
OVERVIEW
OVERVIEW
GRAPHICAL
MODES
MODES
A
OV
A
G
O
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
R
R
R
R
R
R
R
R
rr
rRRRRR
r rRR GG
G
G
G
G
G
G
G
G
G
RRR
RRG
RG
RR r rRR
R RR
RR
RG
B
B
B
B
B
B
B
b
b
b
b
b
B
B
B
BBB
BbBbbbgbgrrb
Bb
B
B
B
B
B
bb
b
b
b
b
b
b
b
b
rrb
rr
rrgg
rrg
rrgR
rgrgrgrb
r
r
r
B
B
B
B
B
B
B
B
B
b
b
b
b
b
b
b
b
b
b
B
B
B
b
b
b
R
R
R
R
R
R
R
R
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
g
r
r
r
r
r
GGG GGG
G
GGG gggG
GG
G
G
G
G
G
R
R
R
RG
R
R
RGgggGg
GG
G
GGGGG G
G
gR
gR
ggggg
ggG
gG
g
GGG
G
G
G
G
G
G
GG
GG
Gggggg ggggg
GG
GG
G GgGGGGGGGggggg
gggggg GGG B
ggggbbb
gggg
G
G
G
G
G
G
B
B
B
B
B
BB
B
B
B
B
bBbbbggbbggbggb BGb
b
b
b
b
b
b
b
g
g
g
g
GbGB
G
G
GBB
GB
GBbbbbbB
bbBB
bB
BB
BG
BBBBB bbbbB
bBb B
B
BBbbbbb bbbbB
bBBBB bbbb
bB
BBB
bbB
bBB
bb
BB
BBBBBbbbbb bbbbB
b
b
b
b
b
B
B
b
b
b
b
b
MODE 7 - 14
MODE
8 bit
7 - 14
8 channel
8 channel 8 bit
BBB
B
B
B
bbb
b
bbbbBbbBB
bbbb
B
B
B
b
b
b
b
Mode
Mode
Mode
88
Mode
Mode
Mode
8
887
8
Mode
Mode
Mode
8
89
86
Mode
Mode
68
67
77
Mode
Mode
Mode
Mode
877
Mode
Mode
Mode
7
6Mode
7
6Mode
6
7 66666
Mode
Mode
Mode
7Mode
78Mode
7
Mode
Mode
Mode
Mode
9
67
9
Mode
Mode
Mode
Mode
86
8
8
Mode
Mode
Mode
Mode
767
6
6
Mode
787
788
bBbB
BBBBBbbB
bBBB bbbbB
bBBB
BBB
B
bbbb
B
B
b
b
Mode
Mode
Mode
86
Mode
Mode
Mode
9
9
69
9
86
8
896
Mode
Mode
Mode
Mode
Mode
Mode
Mode
Mode
Mode
Mode
9
Mode
7
6Mode
9
7
10
6
9
786
10
10
Mode
Mode
Mode
98
6
rr rg
ggbbbbb
- green
high
byte
rggrrggggbcell
ch22ch21
- green
low
byte
cellcell
4 4
bcellb4b4
ch24
high
byte
cell
4
ch24
--green
high
byte
ch25--green
green
low
byte
cell
4
ch25
green
low
byte
ch22
- green
low
byte
cell
4
b
b
b
ch23
blue
high
byte
cell
4
b
b
b
b
b
b
ch25
green
low
byte
cell
4
ch25
green
low
byte
cell
4
ch26 - ch23
blue -high
byte
cell
4cell 4
ch26 - blue high byte cell
blue
high
byte
ch1 - master intensity high byte
g4r4gg
r
r
ch24
- blue
low
byte
cell
4
ch26
blue
high
byte
cell
4
ch26
blue
high
byte
cell
blue -low
ch27 - blue lowrbyte
g 4
rgr gcell
bluebyte
low cell
byte4cell 4
ch2 - master intensity low bytech27 - ch24
ch27 - blue low byte cell 4
ch27 - blue low byte cellb4 bb
ch3 - strobe
b bb
ch4 - red high byte
hannel
8
bit
MODE
7
14
channel
8
bit
8
ell
with
a
master
Colour
control
over
each
Colour
individual
control
cell
over
with
each
a
master
individual
cell
with
a
master
channel 8ch5
bit- red low byte
MODE 7 - 14
8 channel 8 bit
Mode
Mode
Mode
Mode
Mode
Mode
8
887
8
Mode
Mod
Mo
ch6
-4
green
high
byte
Mode
66control
666strobe
Mode
Mode
77 Mode
Mode
Mode
6
Mode
6Mode
999
M
Mode
Mode
Mode
88888
ontrolMode
over
all
intensity
cells.
and
having
intensity
overall
and
over
having
all
4787747overall
cells.
control
over
all
4Mode
cells.
Mode
Mode
Mode
6strobe
666
Mode
Mode
Mode
7Mode
7Mode
7
Mode
Mode
Mode
6Mode
6
Mode
9
9
98
Mode
Mode
7Mode
Mode
7
7
Mode
10
10
10
Mode
Mode
Mode
8Mode
Mode
Mo
M
Mode
Mode
Mode
7
Mode
Mode
Mode
Mode
6
Mode
Mode
6
69
9
9
Mode
Mode
62
Mode
Mode
Mode
7Mode
7
7
Mode
Mode
Mode
6
Mode
Mode
6
6
9
98
95
Mode
Mode
Mode
7
Mode
7
7
Mode
10
10
Mode
Mode
Mode
8
8
Mode
Mode
8
8
Mode
8
8
Mode
Mode
6
66each
Mode
Mode
Mode
7
74
Mode
Mode
Mode
Mode
Mode
62
9
6
9
9
Mode
Mo
M
Mode
Mode
Mode
8
8
8
Mode
Mode
Mode
6
616
Mode
Mode
Mode
7
7
7
Mode
Mode
Mode
Mode
Mode
62
9
6
9
9Mode
Mode
Mode
7
Mode
7
710
10
10
Mode
Mode
Mode
5Mode
Mode
Mode
Mode
5510
55Mode
5
Mode
Mode
Mode
8
8
8
Mode
Mode
Mod
8M
Mode
Mode
1ch7
11
11
Mode
Mode
Mode
Mode
Mode
Mode
2
212
1111 Colour
Mode
Mode
Mode
3
2
3
2
3
2
Mode
Mode
Mode
Mode
Mode
Mode
1
Mode
Mode
18
1
Mode
3
3
3
4
Mode
Mode
Mode
Mode
Mode
Mode
2
2
Mode
1
2
Mode
1
1
Mode
45
445
4
Mode
Mode
Mode
3
2
3
2
3
2
Mode
Mod
Mo
Mode
63
6 individual
Mode
Mode
7with
7
Mode
Mode
Mode
Mode
Mode
6
9
6
9
6
9
Mo
M
Mode
62
6
Mode
Mode
Mode
7Mode
7
7
Mode
Mode
Mode
Mode
Mode
6
9
6
9
6
9
Mode
Mode
Mode
7
Mode
7
10
73
10
10
Mode
Mode
Mode
5
5
5
Mode
Mode
Mode
5
each
individual
cell
with
a
master
control
over
cell
a
master
Mode
Mode
1
1
Mode
Mode
Mode
Mode
2
Mode
Mode
Mode
Mode
Mode
3
2
3
2
2
Mode
Mode
Mode
Mode
1
Mode
Mode
3
1
3
4
3
4
4
Mode
Mode
Mode
Mode
Mode
1
2
Mode
1
4
4
Mode
Mode
Mode
Mode
3
2
3
2
Mode
Mo
Mo
Mode
Mode
5
5
Mode
Mode
Mode
5
5
5
green
low
byte
Mode
Mode
Mode
1
Mode
Mode
Mode
Mode
Mode
Mode
2
1
2
1
Mode
Mode
Mode
3
2
3
2
3
2
Mode
Mode
Mode
Mode
Mode
Mode
Mode
Mode
Mode
3
1
3
1
4
3
1
4
4
Mode
Mode
Mode
Mode
Mode
Mode
2
Mode
Mode
2
1
2
1
4
1
4
4
Mode
Mode
Mode
3
2
3
2
3
2
Mode
Mode
Mode
Mode
Mod
Mo
3M
Mode
Mode
Mode
r each individual
Colour
control
Mode
Mode
1cell1with a master
Mode
Mode
Mode
Mode
2 12 1
Mode
Mode
Mode
Mode
Mode
32 3232over each individual
Mode
Mode
Mode
31cell
34314with
4 a master
Mode
Mode
Mode
Mode
Mode
2Mode
Mode
124514545
Mode
Mode
Mode
Mode
Mode
32Mode
32Mode
32 5 5 5
Mode
Mode
Mod
Mo
M
3M
having
overall
control
over
all
4
cells.
intensity
and
strobe
having
overall
control
over
all
4
cells.
- blueover
high
byte
be having overallch8
control
all
4
cells.
intensity
and
strobe
having
overall
control
all
420
cells.
27
27
ch
27
ch
16
ch
16
bit
16
bit
bit
27
27
27
ch
ch
16
ch
16
16
bit
bit
bit
27
27
27
ch
ch
16
ch
24
24
ch
ch
16
16
bit
bit
14
14
14
ch
ch
8
ch
bit
8
bit
bit
24
24
ch
ch
20
16
20
16
ch
20
bit
ch
bit
8
ch
bit
8
8bit
bit
bit
14
14
14
ch
27
27
ch
27
ch
16
ch
16
bit
16
bit
bit
24
24
24
ch
ch
ch
16
16
16
bit
bit
bit
14
14
14
ch
ch
8
ch
8
bit
8bit
bit
bit
24
24
24
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Page
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PAGE
13
BB4
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Stand Alone Functions
The BB1 is able to run in stand alone mode without any need of data from a lighting console .
The BB1 is capable of outputting up to 20 programmable memories and 1 chase that can step through these memories.
Creating A Memory
When creating a memory make sure all the BB1s plugged into the
powerbox are in mode 2, 5 channels M2 5CH and addressed as 001.
PRESS
1 Press the MENU button once.
2 Press the manual MAN button once.
MENU
1-4
DMX
CHASE
MAN
PRESS
3 Press the program memory PROG MEM button once.
USE MEM PROG MEM
PRESS
You are now presented with the first variable of your memory wich is
the master intensity MINT.
The default value for MINT is 100% - intensity full.
4 if you wish to alter this value use the UP and DOWN buttons to achieve
the desired % value.
UP MINT 100%
DOWN
UP MINT 80%
DOWN
PRESS
PRESS
5 When happy with the MINT value press the MINT button once.
UP MINT 100%
DOWN
All the BB1s plugged into the powerbox will be treated as one.
OPERATING INSTRUCTIONS - Page 12
Next you are presented with the strobe STRB, the second variable of your
memory wich has a default value of 0 % - no strobe.
In the same way if you wish to alter this value use the UP and DOWN buttons
to give you the desired % value.
UP STRB 000%
DOWN
PRESS
6 When happy with the strobe value press the STRB button once.
UP STRB 000%
DOWN
You are now presented with your first colour RED default 0%.
UP RED 000%
DOWN
In the same way if you wish to alter this value use the UP, DOWN buttons. to
give you the desired %, if you require 100% use the DOWN button.
UP RED 000%
DOWN
PRESS
PRESS
7 When happy with the red value press the RED button once.
Next you are presented with the second colour green GRN, default 0%.
In the same way use the UP, DOWN buttons to give you the desired % value.
If you require 100% press the DOWN button.
UP
DOWN
RED 100%
PRESS
UP GRN 000%
DOWN
8 When happy with the green value press the GRN button once.
Finally you are presented with the third colour blue BLU default 0%.
In the same way use the UP, DOWN buttons to give you the desired % value.
If you require 100% press the DOWN button.
PRESS
UP BLU 000%
DOWN
9 When happy with the blue value press the BLU button once.
10 If you are happy with the memory and wish to use it straight away press the
YES button once.
UP
DOWN
EXIT
YES
PRESS
OPERATING INSTRUCTIONS - Page 13
PRESS
Next press the MEM 01 button once and you will be returned to the first
parameter master intensity MINT and you can reprogram the memory.
UP
DOWN
EXIT
YES
PRESS
If you are unhappy with the memory you have created and wish to change
some of the parameters press the EXIT button once.
UP
DOWN
MEM 01
STORE
Storing A Memory
PRESS
1 When you are happy with the memory you have created - Creating A
Memory steps 4 to 9 - and you wish to store the memory,
press the EXIT button once.
UP
DOWN
EXIT
YES
PRESS
2 Using the UP, DOWN buttons assign the memory a number.
UP
DOWN
MEM 02
STORE
3 When you are happy with the assigned memory number press the STORE
button once.
UP
DOWN
MEM 02
STORE
PRESS
You will now be returned to the first parameter master intensity MINT.
Repeat Creating A Memory steps 4 to 9 to create further memories.
UP MINT 100%
DOWN
Once you have created and stored all the memories you require, press
the YES button to return to the main menu.
UP
DOWN
EXIT
YES
PRESS
OPERATING INSTRUCTIONS - Page 14
Recalling A Memory
PRESS
1 Press the MENU button once.
2 Press the manual MAN button once.
MENU
1-4
DMX
CHASE
MAN
PRESS
3 Press the use memory USE MEM button once.
USE MEM PROG MEM
PRESS
Now you will be offered the first memory MEM 01.
This will come on automatically.
UP
MEM 01
DOWN DMX MODE
PRESS
4 Use the UP and DOWN buttons to select the desired memory.
The memories will come on as you scroll through them.
5 To exit the memory ( If the unit is receiving dmx ) press the DMX MODE button.
If the unit is not receiving dmx then it must be powered down.
UP
MEM 03
DOWN DMX MODE
UP
MEM 03
DOWN DMX MODE
PRESS
You will then be returned to menu.
MENU
1-4
OPERATING INSTRUCTIONS - Page 15
Programing A Chase
1 Ensure you have programed all the memories that will go to make up the steps of your chase.
PRESS
2 Press the “MENU” button once.
MENU
1-4
PRESS
3 Press the CHASE button once.
Now the WAIT TIME will appear this is the first parameter of the chase to be set.
The WAIT TIME is the time period between crossfades that the colour is held
constant for.
DMX
CHASE
MAN
WAIT TIME
UP
DOWN
001s
PRESS
4 Select the appropriate time (in seconds) using the up down buttons.
WAIT TIME
UP
DOWN
004s
PRESS
5 When happy with the WAIT TIME press the WAIT TIME button once.
Now the crossfade time XFADE will appear this is the second parameter of the
chase to be set.
The crossfade time is the length of time the light takes to change from one colour
to another.
WAIT TIME
UP
DOWN
004s
UP xfade TIME
DOWN
001s
PRESS
6 Select the appropriate time (in seconds) using the up down buttons.
UP xfade TIME
DOWN
004s
OPERATING INSTRUCTIONS - Page 16
PRESS
7 When happy with the crossfade time press the XFADE TIME button once.
Now chase start CHASE STRT will appear along with the option memory 1 MEM 01
This will be the first step of your chase.
UP xfade TIME
DOWN
004s
UP chase strt
DOWN
mem 01
PRESS
8 Choose which memory you would like to be the first step of your chase using the
up down buttons.
UP chase strt
DOWN
mem 02
PRESS
9 Once happy with the memory you would like to be the first step of your chase
press the CHASE STRT button.
Now CHASE END will appear will appear along with the memory option one memory
above the one chosen to start the chase.
The chase will run through all the memories between the memories in the first and
last step.
UP chase strt
DOWN
mem 02
UP chase end
DOWN
mem 03
PRESS
10 Choose which memory you would like to be the last step of your chase using the
up down buttons.
UP chase end
DOWN
mem 04
PRESS
11 Once happy with the memory you would like to be the last step of your chase
press the CHASE END button.
12 Now you will be offered the option USE CHASE if you wish to simply press YES.
UP chase end
DOWN
mem 05
use chase
yes
no
PRESS
The interface will now say CHASE RUNNING.
When you wish to end or change the chase press MENU.
chase running
menu
If you leave a chase running when the the powerbox is powered down,the
chase will resume as soon as the powerbox powered back up again.
OPERATING INSTRUCTIONS - Page 17
BB1 Technical Specifications
Dimensions:
• Length
• Width
• Weight
with yoke
270 mm
145 mm
2.5Kg
without yoke
220 mm
145 mm
1.8Kg
Mechanical design & materials:
• Body
• Front
• Yoke
• Finish
one piece cast alloy
plastic polycarbonate front cover with stainless steel retaining ring and dual rubber
seals for underwater capability
folded stainless steel
electro static powder coated black satin as standard with white and grey also available
Rigging:
• Style
• Number of positions
• Conventional mounts
2 ¼ turn camloc fasteners
1 rigging location on yoke
10mm bolt holes on inner yoke, 12mm bolt holes on outer yoke
Note: unit comes with Omega rigging bracket to accept 12mm bolts,
Electrical:
• Input
• Current
• Power
• Input
15 volt DC
3.9 amps on full
25 watts total power on full
trailing male IP67 5 pin ( Combined power and data connection )
compatible with power distribution box
Control:
• DMX channels
• User interface
• Data type
RGB additive colour mixing
3 channels minimum 9 channels maximum
backlit lcd display with four membrane switches on power box or power bar
Any RDM DMX desk or control device
USITT DMX512-A & RDM DMX
Output:
• Source
• Optics
customised RGB, warm white, daylight white and tunable LED light engines
20°optic with 35° & 45° also available
Thermal characteristics:
• Operating temperature Customized passive heat dissipation of led core temperature designed for high ambient
conditions
Minimum: -20 degrees C, Maximum:+ 46 degrees C
Weather protection:
Rated to IP68
submersible
Approvals & Compliance:
BS EN 55103-1 Harmonics
BS EN 55103-2 Immunity
BS EN 61000-3-2 Emissions
• Humidity max
USA / Canada ETL pending
OPERATING INSTRUCTIONS - Page 18
BB1 4 Way Powerbar Technical Specifications
Dimensions:
• Length
• Height
• Width
• Weight
920 mm
80 mm
80 mm
5Kg
Mechanical design & materials:
• Box
• Finish
folded and welded steel
Electro static powder coated black satin
Rigging:
• Style
• Number of positions
6 ¼ turn camloc fasteners
3 rigging locations bar
Note: unit comes with two Omega rigging brackets to accept 12mm bolts,
Electrical:
• Input
• Current
• Power
• Fuse
• Input
• Through Output
• Low Voltage Output
90- 265 Volt 50/60 Hz
0.5 amps @ 240 volts
120 watts total power on full @ 240 volts
20mm x 5mm slow blow 2 amp
chassis mounted IP67 6 pin ( Combined power and data connection )
chassis mounted female IP67 6 pin ( Combined power and data connection )
4 x chassis mounted IP67 5 pin ( Combined low voltage power and data connection )
Note; units comes complete with 16 amp plug and 5 pin male.
Control:
• User interface
• Data type
weatherproof backlit lcd display with four membrane switches
USITT DMX512-A & RDM DMX
Thermal characteristics:
• Operating temperature force air cooled via low airflow/ low noise fans
Minimum: -20 degrees C, Maximum:+ 46 degrees C
Weather protection:
Rated to IP65
20% ~ 90% RH non-condensing
Approvals & Compliance:
BS EN 55103-1 Harmonics
BS EN 55103-2 Immunity
BS EN 61000-3-2 Emissions
• Humidity max
USA / Canada ETL pending
OPERATING INSTRUCTIONS - Page 18
BB1 4 Way Powerbar ( Hardwired )Technical Specifications
Dimensions:
• Length
• Height
• Width
• Weight
920 mm
340 mm
144 mm
15.2Kg
Mechanical design & materials:
• Box
• Finish
• BB 1 Body
• BB 1 Front
• BB 1 Yoke
folded and welded steel
Electro static powder coated black satin
one piece cast alloy
plastic polycarbonate front cover with stainless steel retaining ring and dual rubber seals for
underwater capability
folded stainless steel
Rigging:
• Style
• Number of positions
6 ¼ turn camloc fasteners
3 rigging locations bar
Note: unit comes with two Omega rigging brackets to accept 12mm bolts,
Electrical:
• Input
• Current
• Power
• Fuse
• Input
• Through Output
• Low Voltage Output
90- 265 Volt 50/60 Hz
0.5 amps @ 240 volts
120 watts total power on full @ 240 volts
20mm x 5mm slow blow 2 amp
chassis mounted IP67 6 pin ( Combined power and data connection )
chassis mounted female IP67 6 pin ( Combined power and data connection )
4 x chassis mounted IP67 glands ( Combined low voltage power and data connection )
Note; units comes complete with 16 amp plug and 5 pin male.
Control:
• User interface
• Data type
weatherproof backlit lcd display with four membrane switches
USITT DMX512-A & RDM DMX
Thermal characteristics:
• Operating temperature force air cooled via low airflow/ low noise fans
Minimum: -20 degrees C, Maximum:+ 46 degrees C
Weather protection:
Rated to IP65
20% ~ 90% RH non-condensing
Approvals & Compliance:
BS EN 55103-1 Harmonics
BS EN 55103-2 Immunity
BS EN 61000-3-2 Emissions
• Humidity max
USA / Canada ETL pending
OPERATING INSTRUCTIONS - Page 18
OUTPUT
1
2
4 Way Powerbar Dimensions
OUTPUT
1380mm
144mm
OUTPUT
OUTPUT
4
3
80mm
260mm
80mm
OPERATING INSTRUCTIONS - Page 19
TROUBLE SHOOTING
DISCLAIMER: Please note that the information contained in this trouble-shooting guide is generalized in nature & cannot
account for all possibilities. Any proposed remedies for specific situations should not be considered as absolute or all
encompassing. Please seek professional assistance if there is any doubt as to the efficacy of a remedy or of the exact nature of
any encountered problem. I-pix provides the information contained herein only as a guide.
No response from the light
Does the LCD
screen light up
No
Yes
Does the unit have
a good power supply
Yes
Is the LCD
screen flashing
Check the fuse
is it blown
No
Yes
Yes
There is no signal
check DMX input
Contact I-Pix for more specific help with
your problem, as it could be an
internal fault.
If you have the technical knowledge &
skills you could open up the unit & Yes
check for loose connections
Replace with the
appropriate fuse 4A
Mains supply keeps tripping out blowing fuses:
Does the mains
supply trip before
the light/s are
given power?
Yes
No
Contact I-Pix for more specific help with
your problem, as it could be an
internal fault.
If you have the technical knowledge &
skills you could open up the unit & check
for loose connections shorts & faults
Does the mains
supply trip when
the light/s are
given power?
Yes
No
Check all external
wiring for faults or
the supply overloaded.
If problem persists
contact a competent
electrician.
Is the mains supply
overloaded with the
addition of the
lamp?
Yes
Remove some of the
load from the supply
upgrade the supply
rating - split the load
across more circuits
No
When you try the
lamp on a different
supply does it work
Yes
Contact a competent
electrician to
check out the supply
that
could be faulty
BB4
USERSMANUAL
MANUAL - PAGE 26
BB2 USERS
20
OPERATING INSTRUCTIONS - Page 2O
TROUBLE SHOOTING
The fuse on a unit repeatedly blows
•
•
•
Are you fitting right rating/type of fuse into unit?
Contact I-pix for more specific help with your problem, there may be an internal fault in the unit.
If you have the technical knowledge/skills you could look inside the unit and check the internal wiring for a lose
connections/shorts and also the power supply is working with a 15v output when
there is no load connected to it.
Dmx trouble shooting
The obvious
•
It is good practice to connect data line and terminate before switching on device.
•
Is the dmx line fitted to a buffer and data is being received
•
Is the dmx data line fitted with a line termination?
•
Does the unit’s dmx mode set-up match the personality/ profile for the console provided?
•
Note: the LCD screen flashes intermittently when no data is present
OPERATING
INSTRUCTIONS
- Page
BB4
USERS
MANUAL
- PAGE
27
21 21
BB2
USERS
MANUAL
Lamp Information Software Version
The BB1contains some usefull internal information, RUNTIME and SOFTVER.
Software version SOFTVER shows the software version the lamp is running
1 Press the 1 - 4 button once.
MENU
1-4
PRESS
The powerbox will now search out all connected fixtures.
Any fixture connected will be shown as an address and mode beside
the port number it is attached to - 2001 M2.
Ports with no attached fixtures will be shown as EMPTY.
SEARCHING FOR
DEVICES PORT 1
1 empty 2001 M2
3 empty 4 empty
PRESS
2 Press the button of the fixture you wish to change the Mode of.
1 empty 2001 M2
3 empty 4 empty
3 Press the MORE button once.
PSNLTY
IDENTIFY
ADDR
MORE
PRESS
4 Press the SOFTVER button once.
RUNTIME CURVE L
softver EXIT
PRESS
01 05 is the version of software the lamp is running
SOFTVER 01 05
BB1 WITH SLT CRV
OPERATING INSTRUCTIONS - Page 22
Lamp Information Runtime
The BB1contains some usefull internal information, RUNTIME and SOFTVER.
RUNTIME lets you know how long each individual L.E.D. has been running as
well as how long the lamp as a whole has been running.
1 Press the 1 - 4 button once.
MENU
1-4
PRESS
The powerbox will now search out all connected fixtures.
Any fixture connected will be shown as an address and mode beside
the port number it is attached to - 2001 M2.
Ports with no attached fixtures will be shown as EMPTY.
SEARCHING FOR
DEVICES PORT 1
1 empty 2001 M2
3 empty 4 empty
PRESS
2 Press the button of the fixture you wish to change the Mode of.
1 empty 2001 M2
3 empty 4 empty
3 Press the MORE button once.
PSNLTY
IDENTIFY
ADDR
MORE
PRESS
PRESS
4 Press the RUNTIME button once.
You are now shown the time in minutes the individual L.E.D.s have been on.
R - red, G - green, B - blue.
F shows the time in minutes that the lamp has been on as a whole.
RUNTIME CURVE L
softver EXIT
R000097 G000088
B000094 F000190
OPERATING INSTRUCTIONS - Page 23
RoHS AND WARRANTIES
I-PIX BB4s
1 COMPLY WITH RoHS RESTRICTIONS
I-PIX BB4s
1 are compliant with all of the criteria proposed by the European
RoHS directive 2002/95/EC for hazardous material content in electronic and
electrical equipment as listed in Annex 1A and 1B of the WEEE Directive.
In addition to containing no mercury, the LED light engines have the
following environmental advantages over traditional light sources:
!
High energy efficiency
!
Long lifetime
!
Fully dim-able
!
Very low IR and UV radiation
For attachment of electrical connections I-Pix use lead free solder
R
C
US
RoHS
2002/95/EC
COMPLIANT
WARRANTY STATEMENT
1 produced by
I-Pix (seller) extends warranty on all the electronics in the BB4
the Seller for two (2) years from original date of shipment, that the goods
sold hereunder are new and free from substantive defects in workmanship
and materials. This warranty extends only to the Buyer and not to indirect
purchasers or users . Sellers liability under the foregoing warranty is limited
to replacement of goods or repair of defects or refund of the purchase price
at the Sellers sole option. The above warranty does not apply to defects
resulting from the improper or inadequate maintenance, unauthorized
modification, improper use or operation outside of Sellers specifications for
the product, abuse, neglect, or accident. THE ABOVE WARRANTY IS
EXCLUSIVE AND NO OTHER WARRANTY, WHETHER WRITTEN OR ORAL, IS
EXPRESSED OR IMPLIED. I-PIX SPECIFICALLY DISCLAIMS THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE - I-PIX Jan 01, 2009
WEEE
COMPLIANT
WARRANTY STATEMENT
I-Pix (seller) extends warranty on all the L.E.Ds in the BB41 produced by the
Seller for one (1) year from original date of shipment, that the goods sold
hereunder are new and free from substantive defects in workmanship and
materials. This warranty extends only to the Buyer and not to indirect
purchasers or users. Sellers liability under the foregoing warranty is limited
to replacement of goods or repair of defects or refund of the purchase price
at the Sellers sole option. The above warranty does not apply to defects
resulting from the improper or inadequate maintenance, unauthorized
modification, improper use or operation outside of Sellers specifications for
the product, abuse, neglect or accident. THE ABOVE WARRANTY IS
EXCLUSIVE AND NO OTHER WARRANTY, WHETHER WRITTEN OR ORAL, IS
EXPRESSED OR IMPLIED. I-PIX SPECIFICALLY DISCLAIMS THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE - I-PIX Jan 01, 2009
BB4 USERS MANUAL - PAGE 29
24
OPERATING INSTRUCTIONS - Page 24
SERVICE CONTACT DETAILS
Broadstone Mill
Broadstone Road
Houldsworth Village
Cheshire
SK5 7DL
[Located 4 miles from Manchester airport and the city centre]
Tel: 44 (0)161 443 4140
E-mail: [email protected]
www.i-pix.com
BB4
USERS
MANUAL
- PAGE- 30
29 25
BB2
USERS MANUAL
OPERATING
INSTRUCTIONS
Page