E-Vision Laser 7500 & 8500 Series HIGHlite Laser 3D II Series INSIGHT 4K Quad & Dual LED Series INSIGHT 4K Laser Series M-Vision 930 3D Series HIGHlite 660 3D & HIGHlite 740 Series HIGHlite Laser 3D (Gen I) Series Titan LED / 930 / Quad Series
4 PROTOCOL
GUIDES
Rev F October 2016 115-482F
Digital Projection
About This Document
Notes
Follow the instructions in this guide carefully to ensure safe and long-lasting use of the projector.
Symbols used in this guide Notes Many pages in this document have a dedicated area for notes. The information in that area is accompanied by the following symbol:
NOTE: this symbol indicates that there is some important information that you should read.
Product badges Product badges are sometimes used to identify information that only applies to specific projectors as opposed to all projectors covered within the section.
Product revision Because we at Digital Projection continually strive to improve our products, we may change specifications and designs, and add new features without prior notice.
Legal notice Trademarks and trade names mentioned in this document remain the property of their respective owners. Digital Projection disclaims any proprietary interest in trademarks and trade names other than its own.
Copyright © 2016 Digital Projection Ltd. All rights reserved.
Rev F October 2016 page i
Digital Projection
CONTENTS
E-VISION LASER 7500 & 8500 SERIES PROTOCOL.............1
HIGHLITE LASER II 3D SERIES PROTOCOL............................25
INTRODUCTION . . ............................................................................ 3 Network setup........................................................................................ 3 Serial Port setup.................................................................................... 3
INTRODUCTION . . .......................................................................... 27 Network setup...................................................................................... 27 Serial Port setup.................................................................................. 27 Protocol commands............................................................................. 28 Examples........................................................................................... 28 Responses.......................................................................................... 28
INPUTS. . ......................................................................................... 5 TEST PATTERNS............................................................................ 5 LENS.............................................................................................. 6 IMAGE............................................................................................ 7 COLOR........................................................................................... 9 GEOMETRY.................................................................................. 13 EDGE BLEND............................................................................... 15 3D . . ............................................................................................... 16 LASER. . ........................................................................................ 16 SETUP.......................................................................................... 17 NETWORK.................................................................................... 20 PIP.. .............................................................................................. 20 INFORMATION.............................................................................. 21 MISCELLANEOUS........................................................................ 23
INPUTS. . ....................................................................................... 29 TEST PATTERNS.......................................................................... 29 LENS............................................................................................ 30 IMAGE.......................................................................................... 31 COLOR......................................................................................... 32 GEOMETRY.................................................................................. 36 EDGE BLEND............................................................................... 38 3D . . ............................................................................................... 39 LASER. . ........................................................................................ 39 SETUP.......................................................................................... 40 NETWORK.................................................................................... 43 PIP.. .............................................................................................. 43 INFORMATION.............................................................................. 44 MISCELLANEOUS........................................................................ 45
Rev F October 2016 page ii
Digital Projection
CONTENTS (continued)
INSIGHT 4K QUAD / DUAL LED SERIES PROTOCOL..........47
INSIGHT 4K LASER SERIES PROTOCOL...................................59
INTRODUCTION . . .......................................................................... 49 Network setup...................................................................................... 49 Connecting to the projector via a network.................................................... 49 Connecting to the projector directly with a PC.............................................. 49 Network Port setup.............................................................................. 49 Serial Port setup.................................................................................. 49 Protocol commands............................................................................. 50 Examples........................................................................................... 50 Responses.......................................................................................... 50
INTRODUCTION . . .......................................................................... 61 Network Port setup.............................................................................. 61 Serial Port setup.................................................................................. 61 Command structure............................................................................. 62
POWER.. ....................................................................................... 51 INPUTS. . ....................................................................................... 51 TEST PATTERNS.......................................................................... 51 LENS............................................................................................ 52 IMAGE.......................................................................................... 52 COLOR......................................................................................... 53 3D . . ............................................................................................... 54
PROTOCOL COMMANDS.............................................................. 63 Control commands............................................................................... 63 Power On........................................................................................... 63 Power Off........................................................................................... 64 Light On............................................................................................. 65 Light Off............................................................................................. 66 Set Light Power Level............................................................................ 67 Get Light Power Level............................................................................ 68 Douser Close....................................................................................... 70 Douser Open....................................................................................... 71 Douser Status...................................................................................... 72 Running Status.................................................................................... 73
LAMPS......................................................................................... 55 SETUP.......................................................................................... 57 INFORMATION.............................................................................. 57
Rev F October 2016 page iii
Digital Projection
CONTENTS (continued)
Lens commands................................................................................... 74 Move Up............................................................................................ 74 Move Down......................................................................................... 75 Stop Up/Down Movement....................................................................... 76 Move Left........................................................................................... 77 Move Right......................................................................................... 78 Stop Left/Right Movement....................................................................... 79 Zoom In............................................................................................. 80 Zoom Out........................................................................................... 81 Stop Zoom.......................................................................................... 82 Focus In............................................................................................. 83 Focus Out........................................................................................... 84 Stop Focus......................................................................................... 85 Lens Memory commands..................................................................... 86 Store Position...................................................................................... 86 Recall Position..................................................................................... 87 Delete Position..................................................................................... 88 Title selection commands (Preset buttons).......................................... 89 Set Title............................................................................................. 89 Get Current Title................................................................................... 90
M-VISION 930 SERIES PROTOCOL................................................91 INTRODUCTION . . .......................................................................... 93 Network setup...................................................................................... 93 Serial Port setup.................................................................................. 93 Protocol commands............................................................................. 94 Examples........................................................................................... 94 Responses.......................................................................................... 94 INPUTS. . ....................................................................................... 95 TEST PATTERNS.......................................................................... 95 LENS............................................................................................ 96 IMAGE.......................................................................................... 97 COLOR......................................................................................... 98 GEOMETRY.................................................................................. 99 EDGE BLEND............................................................................. 100 3D . . ............................................................................................. 101 LAMPS....................................................................................... 102 SETUP........................................................................................ 103 NETWORK.................................................................................. 104 INFORMATION............................................................................ 105 MISCELLANEOUS...................................................................... 105
Rev F October 2016 page iv
Digital Projection
CONTENTS (continued)
HIGHLITE 660 3D & 740 SERIES PROTOCOL......................107
HIGHLITE LASER 3D (GEN I) SERIES PROTOCOL.............129
INTRODUCTION . . ........................................................................ 109 Network setup.................................................................................... 109 Serial Port setup................................................................................ 109 Protocol commands........................................................................... 110 Examples......................................................................................... 110 Responses........................................................................................ 110
INTRODUCTION . . ........................................................................ 131 Network setup.................................................................................... 131 Serial Port setup................................................................................ 131 Protocol commands........................................................................... 132 Examples......................................................................................... 132 Responses........................................................................................ 132
INPUTS. . ...................................................................................... 111
INPUTS. . ..................................................................................... 133
LENS...........................................................................................112
TEST PATTERNS........................................................................ 133
IMAGE.........................................................................................113
LENS.......................................................................................... 134
COLOR........................................................................................115
IMAGE........................................................................................ 135
GEOMETRY.................................................................................116
COLOR....................................................................................... 136
EDGE BLEND..............................................................................118
GEOMETRY................................................................................ 138
PIP.. ............................................................................................ 120
EDGE BLEND............................................................................. 139
3D . . ............................................................................................. 121
3D . . ............................................................................................. 140
LAMPS....................................................................................... 122
LASER. . ...................................................................................... 140
SETUP........................................................................................ 123
SETUP........................................................................................ 141
INFORMATION............................................................................ 125
NETWORK.................................................................................. 143
VIRTUAL OSD.. ........................................................................... 126 Menu examples.................................................................................. 126 Using the Discovery Tool to view your network.................................. 128
INFORMATION............................................................................ 144 MISCELLANEOUS...................................................................... 144
Rev F October 2016 page v
Digital Projection
CONTENTS (continued)
TITAN 930 / QUAD / LED SERIES PROTOCOL.......................145 INTRODUCTION . . ........................................................................ 147 Network setup.................................................................................... 147 Serial Port setup................................................................................ 147 Protocol commands........................................................................... 148 Examples......................................................................................... 148 Responses........................................................................................ 148 INPUTS. . ..................................................................................... 149 TEST PATTERNS........................................................................ 150 LENS.......................................................................................... 151 IMAGE........................................................................................ 152 COLOR....................................................................................... 154 GEOMETRY................................................................................ 155 EDGE BLEND............................................................................. 157 PIP.. ............................................................................................ 159 3D . . ............................................................................................. 160 LAMPS....................................................................................... 161 SETUP........................................................................................ 164 INFORMATION............................................................................ 166 VIRTUAL OSD.. ........................................................................... 167 Menu examples.................................................................................. 167 Using the Discovery Tool to view your network.................................. 169
Rev F October 2016 page vi
Digital Projection
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Protocol Guides
E-Vision Laser 7500 Series E-Vision Laser 8500 Series
High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection E-Vision Laser 7500 & 8500 Series
IN THIS GUIDE
IN THIS GUIDE Introduction........................................................................................................... 3 Network setup.............................................................................................................. 3 Serial Port setup........................................................................................................... 3 Inputs....................................................................................................................... 5 Test Patterns......................................................................................................... 5 Lens.......................................................................................................................... 6 Image....................................................................................................................... 7 Color......................................................................................................................... 9 Geometry.............................................................................................................. 13 Edge Blend........................................................................................................... 15 3D............................................................................................................................ 16 Laser....................................................................................................................... 16 Setup...................................................................................................................... 17 Network................................................................................................................. 20 PIP........................................................................................................................... 20 Information........................................................................................................... 21 Miscellaneous..................................................................................................... 23
Protocol Guide
Rev F October 2016
Digital Projection E-Vision Laser 7500 & 8500 Series
INTRODUCTION
Introduction The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Network setup 1. Connect the projector to a LAN network. 2. Open the Setup > Network menu and edit network settings. The default IP address is 192.168.0.100 and the TCP port number is 7000.
Serial Port setup
• • • • •
Baud rate
Notes For details on connecting the projector to an RS232 or LAN network, or changing network settings, see the user manual. Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
9,600 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 3
Digital Projection E-Vision Laser 7500 & 8500 Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*aspect.ratio ?
asks what the current aspect ratio is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *aspect.ratio = 1 , the projector will return ACK aspect.ratio = 1 or ack aspect.ratio = 1 , depending on the model. In either case the projector will then will change the aspect ratio accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 4
Digital Projection E-Vision Laser 7500 & 8500 Series
Inputs
INPUTS Notes
input
= ?
0 = HDMI 1 1 = HDMI 2 2 = RGB (VGA) 3 = COMP 4 = DVI 5 = DisplayPort 6 = HDBaseT 7 = 3GSDI
test.pattern
= ?
0 = Off 1 = White 2 = Black 3 = Red 4 = Green 5 = Blue 6 = Checkboard 7 = CrossHatch 8 = V Burst 9 = H Burst 10 = Color Bar 11 = Plunge
Test Patterns
Protocol Guide
Rev F October 2016 page 5
Digital Projection E-Vision Laser 7500 & 8500 Series
Lens
Notes
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right
(execute) (execute) (execute) (execute) (execute) (execute) (execute) (execute)
lens.lock
= ?
0 = Off 1 = On
lens.load
=
1 to 10 - set of lens memory
lens.save
lens.clear lens.type
Protocol Guide
LENS
= ? =
= ?
1 to 10 - set of lens memory 1 to 10 - set of lens memory 0 = non-UST 1 = UST
When used with a get operator, the lens.save command returns a string of zeroes and ones where each zero is an empty memory slot, whereas each one is an occupied slot.
Rev F October 2016 page 6
Digital Projection E-Vision Laser 7500 & 8500 Series
Image
Notes
pic.mode
= ?
0 = Bright 1 = Presentation 2 = Video
db.on
= ?
0 = Off 1 = On
brightness
= ?
0 to 200 (integer)
contrast gamma
saturation hue
sharpness
nr.temporal nr.block
nr.mosquito nr.hori nr.vert
nr.reset
IMAGE
= ?
0 to 200 (integer)
= ?
0 = 1.0 1 = 1.8 2 = 2.0 3 = 2.2 4 = 2.35 5 = 2.5 6 = S-curve 7 = DICOM
= ?
0 to 200 (integer)
= ? = ? = ? = ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer)
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Protocol Guide
Rev F October 2016 page 7
Digital Projection E-Vision Laser 7500 & 8500 Series ...Continued from previous page
Notes
h.position
= ?
0 to 200 (integer)
v.position vga.phase tracking
sync.level resync freeze
Protocol Guide
= ? = ? = ? = ?
IMAGE
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
The vga.phase command is identical to the Phase setting in the Image > Position and Phase menu.
(execute)
= ?
0 = Off 1 = On
Rev F October 2016 page 8
Digital Projection E-Vision Laser 7500 & 8500 Series
Color
Notes
color.space
= ?
0 = Auto 1 = YPbPr 2 = YCbCr 3 = RGB PC 4 = RGB Video
color.temp
= ?
0 = 3200K 1 = 5400K 2 = 6500K 3 = 7500K 4 = 9300K 5 = Native
color.mode
= ?
0 = ColorMax 1 = Manual Color Matching 2 = Color Temperature 3 = Gains and Lifts
color.max
= ?
0 = HDTV 1 = Peak 2 = User 1 3 = User 2
red.lift
= ?
0 to 200 (integer)
green.lift blue.lift red.gain
green.gain blue.gain
gainlift.reset auto.test.ptrn
COLOR
= ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
(execute)
= ?
0 = Off 1 = On
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Protocol Guide
Rev F October 2016 page 9
Digital Projection E-Vision Laser 7500 & 8500 Series ...Continued from previous page
Notes
user.std.rx
= ?
550 to 750 (integer)
user.std.ry user.std.gx user.std.gy user.std.bx user.std.by user.std.wx user.std.wy
user.std.reset user.target.rx user.target.ry user.target.gx user.target.gy user.target.bx user.target.by user.target.wx user.target.wy user.target.cx user.target.cy user.target.mx user.target.my user.target.yx user.target.yy
user.target.reset
= ? = ? = ? = ? = ? = ? = ?
COLOR
250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer)
The user.std commands are identical to the settings in the Setup > ColorMax > Measured Data
menu. Protocol values are multiples of 1000.
50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer)
(execute)
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
550 to 750 (integer) 250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer)
The user.target commands are identical to the settings in the
Setup > ColorMax > Target Data — User 1 menu. Protocol values are
multiples of 1000.
50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer) 125 to 325 (integer) 225 to 425 (integer) 200 to 400 (integer) 50 to 250 (integer) 300 to 500 (integer) 400 to 600 (integer)
(execute)
Continued on next page...
Protocol Guide
Rev F October 2016 page 10
Digital Projection E-Vision Laser 7500 & 8500 Series ...Continued from previous page
Notes
user2.target.rx
= ?
550 to 750 (integer)
user2.target.ry user2.target.gx user2.target.gy user2.target.bx user2.target.by user2.target.wx user2.target.wy user2.target.cx user2.target.cy user2.target.mx user2.target.my user2.target.yx user2.target.yy
user2.target.reset user.p7.rst
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
COLOR
250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer)
The user2.target commands are identical to the settings in the
Setup > ColorMax > Target Data — User 2 menu. Protocol values are
multiples of 1000.
50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer) 125 to 325 (integer) 225 to 425 (integer) 200 to 400 (integer) 50 to 250 (integer) 300 to 500 (integer) 400 to 600 (integer)
(execute) (execute)
Continued on next page...
Protocol Guide
Rev F October 2016 page 11
Digital Projection E-Vision Laser 7500 & 8500 Series ...Continued from previous page
Notes
hsg.hue.r
= ?
0 to 200 (integer)
hsg.hue.g hsg.hue.b hsg.hue.c hsg.hue.m hsg.hue.y hsg.sat.r hsg.sat.g hsg.sat.b hsg.sat.c hsg.sat.m hsg.sat.y
hsg.gain.r hsg.gain.g hsg.gain.b hsg.gain.c hsg.gain.m hsg.gain.y hsg.reset
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
COLOR
0 to 200 (integer) 0 to 200 (integer)
The hsg commands are identical to the settings in the Color > Manual Color Matching menu.
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
(execute)
Rev F October 2016 page 12
Digital Projection E-Vision Laser 7500 & 8500 Series
GEOMETRY
Geometry
Notes
aspect.ratio
= ?
0 = 5:4 1 = 4:3 2 = 16:10 3 = 16:9 4 = 1.88 5 = 2.35 6 = TheaterScope 7 = Source 8 = Unscaled
digi.zoom
= ?
-100 to +100 (integer)
digi.pan
digi.pan.bound digi.scan
digi.scan.bound digi.room.rst
= ? ?
= ? ?
-320 to +320 (integer) (depend on input timg; use “op digi.pan.bound ?” to know) xxx / xxx (minimum / maximum integer value) -200 to +200 (integer) (depend on input timg; use “op digi.scan.bound ?” to know) xxx / xxx (minimum / maximum integer value)
(execute)
overscan
= ?
0 = Off 1 = Crop 2 = Zoom
active.warp
= ?
0 = none ( no warp function is set ) 1 = Keystone 2 = Four Coner 3 = Rotation 4 = Pin/Barrel
h.keystone
= ?
-600 to +600 (integer)
v.keystone rotation
h.pin.barrel v.pin.barrel
= ? = ? = ? = ?
-400 to +400 (integer) -100 to +100 (integer) -150 to +300 (integer) -150 to +300 (integer)
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Protocol Guide
Rev F October 2016 page 13
Digital Projection E-Vision Laser 7500 & 8500 Series
GEOMETRY
...Continued from previous page
Notes
4corner.ulx
= ?
-192 to +192 (integer)
4corner.uly 4corner.urx 4corner.ury 4corner.llx 4corner.lly 4corner.lrx 4corner.lry
blanking.top
blanking.bottom blanking.left
blanking.right blanking.reset warp.reset
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
-120 to +120 (integer) -192 to +192 (integer) -120 to +120 (integer) -192 to +192 (integer) -120 to +120 (integer) -192 to +192 (integer) -120 to +120 (integer) 0 to 360 (integer) 0 to 360 (integer) 0 to 534 (integer) 0 to 534 (integer)
(execute) (execute)
cust.wp.write
=
1 = User 1 file 2 = User 2 file
cust.wp.clear
=
1 = User 1 file 2 = User 2 file
cust.wp.send
= ?
0 = custom warp transfer mode off 1 = custom warp transfer User 1 file 2 = custom warp transfer User 2 file
cust.wp.ck.sum
?
XXXX (Reply the unsigned 32 bits check sum by summing all bytes in the current sent warp file when cust.wp.send not 0)
warp.cust
= ?
0 = Off 1 = User 1 2 = User 2
Protocol Guide
Rev F October 2016 page 14
Digital Projection E-Vision Laser 7500 & 8500 Series
Edge Blend
Notes
eb.stat
= ?
0 = Off 1 = On
eb.adl
= ?
0 = Off 1 = On
eb.top
= ?
0, 100 to 500
eb.bottom eb.left
eb.right
eb.blu.top
eb.blu.bottom eb.blu.left
eb.blu.right eb.all eb.red eb.red eb.red
eb.reset
Protocol Guide
EDGE BLEND
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
0, 100 to 500 0, 100 to 500 0, 100 to 500 0, 8, 16, 24, 32 0, 8, 16, 24, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0 to 32 (integer) 0 to 255 (integer) 0 to 255 (integer) 0 to 255 (integer)
(execute)
Rev F October 2016 page 15
Digital Projection E-Vision Laser 7500 & 8500 Series
3D
3D
Notes
3d.format
= ?
0 = Off 1 = Auto 2 = Side-By-Side (Half) 3 = Top-And-Bottom 4 = Dual-Pipe 5 = Frame Sequential
3d.dlplink
= ?
0 = Off 1 = On
3d.dominance
= ?
0 = Normal 1 = Reverse
3d.darktime
= ?
0 = 0.65 ms 1 = 1.3 ms 2 = 1.95 ms 3 = 2.5 ms
3d.syncoffset
= ?
0 to 200 (integer)
3d.syncref
= ?
0 = External 1 = Internal
laser.mode
= ?
0 = Eco 1 = Normal 2 = Custom
laser.power
= ?
20 to 100 (integer, representing 20% to 100% power level)
Laser
laser.hours
Protocol Guide
?
number
laser.power is only effective if laser.mode is set to custom.
Rev F October 2016 page 16
Digital Projection E-Vision Laser 7500 & 8500 Series
Setup
SETUP Notes
altitude
= ?
1 = On 2 = Auto
cooling.condition
= ?
0 = Table 1 = Ceiling 2 = Freetilt 3 = Auto
orientation
= ?
0 = Desktop Front 1 = Ceiling Front 2 = Desktop Rear 3 = Ceiling Rear 4 = Auto-front
screen.setting
= ?
0 = 16:10 1 = 16:9 2 = 4:3
auto.poweroff
= ?
0 = Off 1 = On
auto.poweron
= ?
0 = Off 1 = On
startup.logo
= ?
0 = Off 1 = On
blank.screen
= ?
0 = Splash 1 = Black 2 = Blue 3 = White
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Protocol Guide
Rev F October 2016 page 17
Digital Projection E-Vision Laser 7500 & 8500 Series
SETUP
...Continued from previous page
Notes
schedule.power
= ?
0 = Off 1 = On
schedule1.on.day
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule1.off.day
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule1.on.time
= ?
HH:MM
schedule1.off.time schedule2.on.day
= ?
HH:MM
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule2.off.day
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule2.on.time
= ?
HH:MM
schedule2.off.time date
time.zone
time.adjust trig.1 trig.2
= ? = ? = ? = ? = ?
HH:MM yyyy/MM/dd -11 to +12 (integer) HH:MM 0 = Off 1 = Screen 2 = 5:4 3 = 4:3 4 = 16:10 5 = 16:9 6 = 1.88 7 = 2.35 8 = Theaterscope 9 = Source 10 = Unscalled 11 = RS232 12 = RS232 on 13 = RS232 off
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Protocol Guide
Rev F October 2016 page 18
Digital Projection E-Vision Laser 7500 & 8500 Series ...Continued from previous page
Notes
auto.source
= ?
0 = Off 1 = On
ir.enable
= ?
0 = Off 1 = On
ir.code
= ?
00 to 99
ir.code.rst
(execute)
osd.lang
= ?
0 = English 1 = French 2 = German 3 = Spanish 4 = Simplified Chinese
osd.menupos
= ?
0 = Top Left 1 = Top Right 2 = Bottom Left 3 = Bottom Right 4 = Center
osd.trans
= ?
0 = 0% 1 = 25% 2 = 50% 3 = 75%
osd.timer
= ?
0 = Always On 1 = 10 seconds 2 = 30 seconds 3 = 60 seconds
osd.msgbox
= ?
0 = Off 1 = On
recall.mem
= ?
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D 4 = Default
save.mem
=
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D
Protocol Guide
SETUP
Rev F October 2016 page 19
Digital Projection E-Vision Laser 7500 & 8500 Series
NETWORK
Network
Notes
network.mode
= ?
0 = Projector Control 1 = Service
lan.power
= ?
0 = Off 1 = On
lan.dhcp
= ?
0 = Off 1 = On
lan.ip
= ?
A valid IP address in the following format: xxx.xxx.xxx.xxx
lan.subnet
lan.gateway lan.dns lan.mac lan.amx
= ? = ? = ? ?
A valid subnet address in the following format: xxx.xxx.xxx.xxx A valid gateway address in the following format: xxx.xxx.xxx.xxx A valid DNS address in the following format: xxx.xxx.xxx.xxx string
= ?
0 = Off 1 = On
pip.mode
= ?
0 = Off 1 = On
pip.input
= ?
0 = HDMI 1 1 = HDMI 2 2 = RGB (VGA) 3 = COMP 4 = DisplayPort 5 = HDBaseT 6 = 3G-SDI
pip.position
= ?
0 = Topleft 1 = TopRight 2 = BottomLeft 3 = BottomRight 4 = PBP
pip.swap
(execute)
PIP
Protocol Guide
Rev F October 2016 page 20
Digital Projection E-Vision Laser 7500 & 8500 Series
Information
Notes
model.name
?
string
serial
sw.version act.source
signal
h.refresh v.refresh
pixel.clock laser.hours atmos.alti
atmos.pressure ac.voltage g.ceiling
g.portrait g.tilt
INFORMATION
? ?
string string
?
0 = HDMI 1 1 = HDMI 2 2 = RGB (VGA) 3 = COMP 4 = DVI 5 = DisplayPort 6 = HDBaseT 7 = 3GSDI
?
string
? ? ? ? ? ?
string string string string number number
?
0 = 90 to 150 V 1 = 160 to 264 V
?
number
?
number
?
0 = table 1 = ceiling
altitude.info
?
0 = Low 1 = High
laser.power.info
?
number
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Protocol Guide
Rev F October 2016 page 21
Digital Projection E-Vision Laser 7500 & 8500 Series
INFORMATION
...Continued from previous page
Notes
ti
?
number
ti2 tc
tb1 tb2
fan1_3 fan4_6 fan7_9
fan10_12 fan13_15 fan16_18
water.pump
factory.reset
Protocol Guide
? ? ? ? ? ? ? ? ? ? ?
number number number number The speed of fans 1 - 3 formatted as xxxx / xxxx / xxxx The speed of fans 4 - 6 formatted as xxxx / xxxx / xxxx The speed of fans 7 - 9 formatted as xxxx / xxxx / xxxx The speed of fans 10 - 12 formatted as xxxx / xxxx / xxxx The speed of fans 13 - 15 formatted as xxxx / xxxx / xxxx The speed of fans 16 - 18 formatted as xxxx / xxxx / xxxx number
(execute)
Rev F October 2016 page 22
Digital Projection E-Vision Laser 7500 & 8500 Series
Miscellaneous
Notes
power
= ?
0 = Off 1 = On
shutter
= ?
0 = Open 1 = Close
total.hours
?
number
status
errcode
Protocol Guide
MISCELLANEOUS
?
0 = Standby 1 = Warm Up 2 = Imaging 3 = Cooling 4 = Error
?
Rev F October 2016 page 23
Digital Projection E-Vision Laser 7500 & 8500 Series
This page is intentionally left blank.
Protocol Guide
HIGHlite Laser II 3D Series
High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection HIGHlite Laser 3D II Series
IN THIS GUIDE
IN THIS GUIDE Introduction......................................................................................................... 27 Network setup............................................................................................................27 Serial Port setup.........................................................................................................27 Protocol commands...................................................................................................28 Examples.........................................................................................................................28 Responses.......................................................................................................................28 Inputs..................................................................................................................... 29 Test Patterns....................................................................................................... 29 Lens........................................................................................................................ 30 Image..................................................................................................................... 31 Color....................................................................................................................... 32 Geometry.............................................................................................................. 36 Edge Blend........................................................................................................... 38 3D............................................................................................................................ 39 Laser....................................................................................................................... 39 Setup...................................................................................................................... 40 Network................................................................................................................. 43 PIP........................................................................................................................... 43 Information........................................................................................................... 44 Miscellaneous..................................................................................................... 45
Protocol Guide
Rev F October 2016
Digital Projection HIGHlite Laser 3D II Series
INTRODUCTION
Introduction The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Network setup 1. Connect the projector to a LAN network. 2. Open the Setup > Network menu and edit network settings. The default IP address is 192.168.0.100 and the TCP port number is 7000.
Serial Port setup
• • • • •
Baud rate
Notes For details on connecting the projector to an RS232 or LAN network, or changing network settings, see the user manual. Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
9,600 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 27
Digital Projection HIGHlite Laser 3D II Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*aspect.ratio ?
asks what the current aspect ratio is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *aspect.ratio = 1 , the projector will return ACK aspect.ratio = 1 or ack aspect.ratio = 1 , depending on the model. In either case the projector will then will change the aspect ratio accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 28
Digital Projection HIGHlite Laser 3D II Series
INPUTS
Inputs
Notes
input
= ?
0 = HDMI 1 1 = HDMI 2 2 = RGB (VGA) 3 = COMP 4 = DisplayPort 5 = HDBaseT 6 = 3G-SDI
test.pattern
= ?
0 = Off 1 = White 2 = Black 3 = Red 4 = Green 5 = Blue 6 = Checkboard 7 = CrossHatch 8 = V Burst 9 = H Burst 10 = Color Bar 11 = Plunge
Test Patterns
Protocol Guide
Rev F October 2016 page 29
Digital Projection HIGHlite Laser 3D II Series
LENS
Lens
Notes
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right
(execute) (execute) (execute) (execute) (execute) (execute) (execute) (execute)
lens.lock
= ?
0 = Off 1 = On
lens.load
=
1 to 10 - set of lens memory
lens.save
lens.clear
Protocol Guide
= ? =
1 to 10 - set of lens memory 1 to 10 - set of lens memory
When used with a get operator, the lens.save command returns a string of zeroes and ones where each zero is an empty memory slot, whereas each one is an occupied slot.
Rev F October 2016 page 30
Digital Projection HIGHlite Laser 3D II Series
IMAGE
Image
Notes
brightness
= ?
0 to 200 (integer)
contrast gamma
saturation hue
sharpness
h.position v.position vga.phase tracking
sync.level resync
= ?
0 to 200 (integer)
= ?
0 = 1.0 1 = 1.8 2 = 2.0 3 = 2.2 4 = 2.35 5 = 2.5
= ?
0 to 200 (integer)
= ? = ? = ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
(execute)
db.on
= ?
0 = Off 1 = On
nr.temporal
= ?
0 to 3 (integer)
nr.block
nr.mosquito nr.hori nr.vert
nr.reset freeze
Protocol Guide
The vga.phase command is identical to the Phase setting in the Image > Position and Phase menu.
= ? = ? = ? = ? = ?
0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer) 0 to 3 (integer)
= ?
Rev F October 2016 page 31
Digital Projection HIGHlite Laser 3D II Series
COLOR
Color
Notes
color.space
= ?
0 = Auto 1 = YPbPr 2 = YCbCr 3 = RGB PC 4 = RGB Video
color.mode
= ?
0 = ColorMax 1 = Manual Color Matching 2 = Color Temperature 3 = Gains and Lifts
color.temp
= ?
0 = 3200K 1 = 5400K 2 = 6500K 3 = 7500K 4 = 9300K 5 = Native
color.max
= ?
0 = REC709 1 = EBU 2 = SMPTE 3 = Peak 4 = User 1 5 = User 2
auto.test.ptrn
= ?
0 = Off 1 = On
red.lift
= ?
0 to 200 (integer)
green.lift blue.lift red.gain
green.gain blue.gain
user.p7.rst
= ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
(execute)
Continued on next page...
Protocol Guide
Rev F October 2016 page 32
Digital Projection HIGHlite Laser 3D II Series
COLOR
...Continued from previous page
Notes
user.std.rx
= ?
550 to 750 (integer)
user.std.ry user.std.gx user.std.gy user.std.bx user.std.by user.std.wx user.std.wy
user.std.reset user.target.rx user.target.ry user.target.gx user.target.gy user.target.bx user.target.by user.target.wx user.target.wy user.target.cx user.target.cy user.target.mx user.target.my user.target.yx user.target.yy
= ? = ? = ? = ? = ? = ? = ?
250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer)
The user.std commands are identical to the settings in the Color > User Gamut > Measure Gamut
menu. Protocol values are multiples of 1000.
50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer)
(execute)
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
550 to 750 (integer) 250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer)
The user.target commands are identical to the settings in the
Color > User Gamut > Target RGBW Gamut and Target MCY Gamut menus. Protocol values are
multiples of 1000.
50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer) 125 to 325 (integer) 225 to 425 (integer) 200 to 400 (integer) 50 to 250 (integer) 300 to 500 (integer) 400 to 600 (integer)
Continued on next page...
Protocol Guide
Rev F October 2016 page 33
Digital Projection HIGHlite Laser 3D II Series
COLOR
...Continued from previous page
Notes
user2.target.rx
= ?
550 to 750 (integer)
user2.target.ry user2.target.gx user2.target.gy user2.target.bx user2.target.by user2.target.wx user2.target.wy user2.target.cx user2.target.cy user2.target.mx user2.target.my user2.target.yx user2.target.yy
user.target.reset
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer)
The user2.target commands are identical to the settings in the
Setup > ColorMax > Target Data — User 2 menu. Protocol values are
multiples of 1000.
50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer) 125 to 325 (integer) 225 to 425 (integer) 200 to 400 (integer) 50 to 250 (integer) 300 to 500 (integer) 400 to 600 (integer)
(execute)
Continued on next page...
Protocol Guide
Rev F October 2016 page 34
Digital Projection HIGHlite Laser 3D II Series
COLOR
...Continued from previous page
Notes
hsg.hue.r
= ?
0 to 200 (integer)
hsg.hue.g hsg.hue.b hsg.hue.c hsg.hue.m hsg.hue.y hsg.sat.r hsg.sat.g hsg.sat.b hsg.sat.c hsg.sat.m hsg.sat.y
hsg.gain.r hsg.gain.g hsg.gain.b hsg.gain.c hsg.gain.m hsg.gain.y
hsg.white.r hsg.white.g hsg.white.b hsg.reset
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer)
The hsg commands are identical to the settings in the Color > Manual Color Matching menu.
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 100 (integer) 0 to 100 (integer) 0 to 100 (integer)
(execute)
Rev F October 2016 page 35
Digital Projection HIGHlite Laser 3D II Series
GEOMETRY
Geometry
Notes
aspect.ratio
= ?
0 = 5:4 1 = 4:3 2 = 16:10 3 = 16:9 4 = 1.88 5 = 2.35 6 = TheaterScope 7 = Source 8 = Unscaled
overscan
= ?
0 = Off 1 = Crop 2 = Zoom
h.keystone
= ?
-600 to +600 (integer)
v.keystone rotation
4corner.ulx 4corner.uly 4corner.urx 4corner.ury 4corner.llx 4corner.lly 4corner.lrx 4corner.lry warp.reset
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
-400 to +400 (integer) -100 to +100 (integer) -192 to +192 (integer) -120 to +120 (integer) -192 to +192 (integer) -120 to +120 (integer) -192 to +192 (integer) -120 to +120 (integer) -192 to +192 (integer) -120 to +120 (integer)
(execute)
Continued on next page...
Protocol Guide
Rev F October 2016 page 36
Digital Projection HIGHlite Laser 3D II Series
GEOMETRY
...Continued from previous page
Notes
blanking.top
= ?
0 to 360 (integer)
blanking.bottom blanking.left
blanking.right blanking.reset digi.zoom digi.pan
digi.scan
digi.room.rst h.pin.barrel v.pin.barrel active.warp
= ? = ? = ?
0 to 360 (integer) 0 to 534 (integer) 0 to 534 (integer)
(execute)
= ? = ? = ?
-100 to +100 (integer) -320 to +320 (integer) (depend on input timg; use “op digi.pan.bound ?” to know) -200 to +200 (integer) (depend on input timg; use “op digi.scan.bound ?” to know)
(execute)
= ? = ?
-150 to +300 (integer) -150 to +300 (integer)
= ?
1 = Keystone 2 = Four Coner 3 = Rotation 4 = Pin/Barrel
cust.wp.send
= ?
0 = custom warp transfer mode off 1 = custom warp transfer User 1 file 2 = custom warp transfer User 2 file
cust.wp.write
(execute)
cust.wp.clear
(execute)
cust.wp.ck.sum
?
XXXX (Reply the unsigned 32 bits check sum by summing all bytes in the current sent warp file when cust.wp.send not 0)
warp.cust
= ?
0 = Off 1 = On
Protocol Guide
Rev F October 2016 page 37
Digital Projection HIGHlite Laser 3D II Series
EDGE BLEND
Edge Blend
Notes
eb.stat
= ?
0 = Off 1 = On
eb.adl
= ?
0 = Off 1 = On
eb.top eb.bottom eb.left eb.right eb.blu.top
= ?
0, 100 to 500
= ?
0, 100 to 800
= ?
0, 8, 16, 24, 32
eb.blu.bottom eb.blu.left
eb.blu.right eb.all eb.red
eb.green eb.blue
eb.reset
Protocol Guide
= ? = ? = ? = ? = ? = ? = ?
0, 8, 16, 24, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0 to 255 (integer) 0 to 255 (integer) 0 to 255 (integer) 0 to 255 (integer)
(execute)
Rev F October 2016 page 38
Digital Projection HIGHlite Laser 3D II Series
3D
3D
Notes
3d.format
= ?
0 = Off 1 = Auto 2 = Side-By-Side (Half) 3 = Top-And-Bottom 4 = Dual-Pipe
3d.dominance
= ?
0 = Normal 1 = Reverse
3d.darktime
= ?
0 = 0.65 ms 1 = 1.3 ms 2 = 1.95 ms 3 = 2.5 ms
3d.syncoffset
= ?
0 to 200 (integer)
3d.syncref
= ?
0 = External 1 = Internal
laser.mode
= ?
0 = Eco 1 = Normal 2 = Custom
laser.power
= ?
30 to 100 (integer, representing 30% to 100% power level)
Laser
laser.hours
Protocol Guide
?
number
laser.power is only effective if laser.mode is set to custom.
Rev F October 2016 page 39
Digital Projection HIGHlite Laser 3D II Series
SETUP
Setup
Notes
altitude
= ?
1 = On 2 = Auto
orientation
= ?
0 = Desktop Front 1 = Ceiling Front 2 = Desktop Rear 3 = Ceiling Rear
screen.setting
= ?
0 = 16:10 1 = 16:9 2 = 4:3
auto.poweroff
= ?
0 = Off 1 = On
auto.poweron
= ?
0 = Off 1 = On
schedule.power
= ?
0 = Off 1 = On
schedule1.on.day
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule1.off.day
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule1.on.time
= ?
HH:MM
schedule1.off.time schedule2.on.day
= ?
HH:MM
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule2.off.day
= ?
= 76543210 ( Bit 6 = Sat, Bit5 = Fri, Bit4 = Thu, Bit3 = Wed, Bit2 = Tue, Bit1 = Mon , Bit0= Sun)
schedule2.on.time
= ?
HH:MM
schedule2.off.time date
time.zone
time.adjust
= ? = ? = ? = ?
HH:MM yyyy/MM/dd -11 to +12 (integer) HH:MM
Continued on next page...
Protocol Guide
Rev F October 2016 page 40
Digital Projection HIGHlite Laser 3D II Series
SETUP
...Continued from previous page
Notes
startup.logo
= ?
0 = Off 1 = On
blank.screen
= ?
0 = Splash 1 = Black 2 = Blue 3 = White
trig.1 trig.2
= ?
0 = Off 1 = Screen 2 = 5:4 3 = 4:3 4 = 16:10 5 = 16:9 6 = 1.88 7 = 2.35 8 = Theaterscope 9 = Source 10 = Unscalled 11 = RS232 12 = RS232 on 13 = RS232 off
auto.source
= ?
0 = Off 1 = On
ir.enable
= ?
0 = Off 1 = On
ir.code
= ?
00 to 99
ir.code.rst
(execute)
Continued on next page...
Protocol Guide
Rev F October 2016 page 41
Digital Projection HIGHlite Laser 3D II Series
SETUP
...Continued from previous page
Notes
osd.menupos
= ?
0 = Top Left 1 = Top Right 2 = Bottom Left 3 = Bottom Right 4 = Center
osd.trans
= ?
0 = 0% 1 = 25% 2 = 50% 3 = 75%
osd.timer
= ?
0 = Always On 1 = 10 seconds 2 = 30 seconds 3 = 60 seconds
osd.msgbox
= ?
0 = Off 1 = On
recall.mem
= ?
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D 4 = Default
save.mem
=
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D
Protocol Guide
Rev F October 2016 page 42
Digital Projection HIGHlite Laser 3D II Series
NETWORK
Network
Notes
network.mode
= ?
0 = Projector Control 1 = Service
lan.power
= ?
0 = Off 1 = On
lan.dhcp
= ?
0 = Off 1 = On
lan.ip
= ?
A valid IP address in the following format: xxx.xxx.xxx.xxx
lan.subnet
lan.gateway lan.dns lan.mac lan.amx
= ? = ? = ? ?
A valid subnet address in the following format: xxx.xxx.xxx.xxx A valid gateway address in the following format: xxx.xxx.xxx.xxx A valid DNS address in the following format: xxx.xxx.xxx.xxx string
= ?
0 = Off 1 = On
pip.mode
= ?
0 = Off 1 = On
pip.input
= ?
0 = HDMI 1 1 = HDMI 2 2 = RGB (VGA) 3 = COMP 4 = DisplayPort 5 = HDBaseT 6 = 3G-SDI
pip.position
= ?
0 = Topleft 1 = TopRight 2 = BottomLeft 3 = BottomRight 4 = PBP
PIP
Protocol Guide
Rev F October 2016 page 43
Digital Projection HIGHlite Laser 3D II Series
INFORMATION
Information
Notes
model.name
?
string
serial
sw.version act.source signal
h.refresh v.refresh
pixel.clock laser.hours atmos.alti
atmos.pressure ac.voltage ti tc
laser.temp
wheel.speed fans
water.pump1 water.pump2
factory.reset
Protocol Guide
?
string
?
string
?
string
? ? ? ? ? ? ?
string string string string number number
?
0 = 100 to 110 V 1 = 200 to 240 V
?
number
? ? ? ? ? ?
number Diode1/Diode2/Diode3...DiodeN phosphor wheel / diffuser wheel Fan1/Fan2/Fan3...FanN number number
(execute)
Rev F October 2016 page 44
Digital Projection HIGHlite Laser 3D II Series
MISCELLANEOUS
Miscellaneous
Notes
shutter
= ?
0 = Open 1 = Close
total.hours
?
number
status
errcode
Protocol Guide
?
0 = Standby 1 = Warm Up 2 = Imaging 3 = Cooling 4 = Error
?
Rev F October 2016 page 45
Digital Projection HIGHlite Laser 3D II Series
This page is intentionally left blank.
Protocol Guide
INSIGHT 4K Quad Series INSIGHT 4K Dual LED Series
High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection INSIGHT 4K Quad & Dual LED Series
IN THIS GUIDE
IN THIS GUIDE Introduction......................................................................................................... 49 Network setup............................................................................................................49 Connecting to the projector via a network........................................................................49 Connecting to the projector directly with a PC.................................................................49 Network Port setup....................................................................................................49 Serial Port setup.........................................................................................................49 Protocol commands...................................................................................................50 Examples.........................................................................................................................50 Responses.......................................................................................................................50
Power..................................................................................................................... 51 Inputs..................................................................................................................... 51 Test Patterns....................................................................................................... 51 Lens........................................................................................................................ 52 Image..................................................................................................................... 52 Color....................................................................................................................... 53 3D............................................................................................................................ 54 Lamps.................................................................................................................... 55 Setup...................................................................................................................... 57 Information........................................................................................................... 57
Protocol Guide
Rev F October 2016
Digital Projection INSIGHT 4K Quad & Dual LED Series
INTRODUCTION
Introduction
Notes
The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
Network setup The projector must have its IP address assigned by a DHCP server before it can be controlled via protocol commands. The control PC should also have its IP address assigned by the same DHCP server. This will guarantee that the control PC and the projector are both on the same network subnet and can communicate with each other. Connecting to the projector via a network Most home and workplace networks have a DHCP server built into the network router. If this is the case, connect the projector and the control PC to the network and log into the router’s DHCP client list to find the IP address assigned to the projector. Alternatively, launch the DP Projector Controller software and use it to display the projector’s IP address as shown in Fig. 1. Connecting to the projector directly with a PC Connect the projector to the control PC with a network cable. In this configuration the control PC must run a local copy of a DHCP server application. There are numerous programs available. Refer to the documentation that comes with the DHCP server software for details on how to set it up. Once configured, look in the DHCP server’s client list to find the IP address which has been assigned to the projector.
Network Port setup
• •
IP address
assigned by DHCP
Port
7000
Protocol Guide
Serial Port setup
• • • • •
Baud rate
38,400 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Fig. 1
Rev F October 2016 page 49
Digital Projection INSIGHT 4K Quad & Dual LED Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*orientation ?
asks what the current orientation is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *orientation = 1 , the projector will return ACK orientation = 1 or ack orientation = 1 , depending on the model. In either case the projector will then will change the orientation accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 50
Digital Projection INSIGHT 4K Quad & Dual LED Series
POWER
Power
Notes
power
= ?
on off standby
standby.mode
= ?
normal super
input
= ?
0 = HDMI A 1 = HDMI B 2 = DisplayPort A 3 = DisplayPort B 4 = Option slot 1 5 = Option slot 2 6 = DisplayPort A+B Dual Pipe (East/West) 7 = DisplayPort A+B Dual Pipe (Left/Right)
Inputs
input.next input.prev input.max
off and standby are functionally equivalent. In normal standby the projector will consume more power in standby mode but will start up more quickly. In super standby the projector will consume less power in standby mode but will start up more slowly. input values 6 and 7 are only available on video processor software version 29.00 and above.
(execute)
(execute)
?
input.next selects the next input in the list as follows: ...HDMI A, HDMI B, DisplayPort A, DisplayPort B, Option slot 1, Option slot 2, HDMI A... Alternatively, enter input.prev to select the previous input from the list. input.max returns the number of the highest available input.
Test Patterns
formatter.pattern
= ?
13 = native white 14 = native black 15 = native green 16 = native red 17 = native blue 21 = off
Protocol Guide
Rev F October 2016 page 51
Digital Projection INSIGHT 4K Quad & Dual LED Series
LENS
Lens
Notes
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right lens.stop nudge.up
nudge.down nudge.left
nudge.right
calibrate.zoom
calibrate.focus lensmemory.save
lensmemory.recall
(execute) (execute) (execute) (execute)
= = = =
0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest)
(execute)
= = = =
0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest)
(execute) (execute)
= =
0 - 9 (integer) 0 - 9 (integer)
Image
brightness
= ?
-50 to 50 (integer)
contrast gamma
freeze Protocol Guide
When lens.up, lens.down, lens.left or lens.right is sent, the movement will continue until either a lens.stop command is sent or the limit is reached. Use a nudge command to produce a brief movement of the lens in the specified direction.
= ? = ? = ?
-50 to 50 (integer) 10 to 30 (integer) On, Off
The gamma values correspond to gamma values of 1.0 to 3.0. The get operator always returns a parametric value. When freeze is switched on, the image freezes and the projector will keep displaying the frozen frame until *freeze = off is sent. The frozen image will persist even if you disconnect the source.
Rev F October 2016 page 52
Digital Projection INSIGHT 4K Quad & Dual LED Series
Color
Notes
mcgd.data
= ?
green-x, green-y, red-x ,red-y, blue-x, blue-y, white-x, white-y
mcgd.factory
(execute)
tcgd.data
= ?
green-x, green-y, red-x ,red-y, blue-x, blue-y, white-x, white-y
gamut
=
0 = Peak 1 = Rec. 709 2 = Rec. 601 3 = 3200K 4 = 5400K 5 = 6500K 6 = 8000K 7 = 9000K
red.lift
green.lift blue.lift red.gain
green.gain blue.gain
csc.matrix csc.preset
Protocol Guide
COLOR
= ? = ? = ? = ? = ? = ? = ? =
-50 to +50 (integer) -50 to +50 (integer)
mcgd.data and tcgd.data allow for MCGD data or user TCGD data to be sent as comma separated x and y co-ordinates in the specified order. Must be preceded by leading 0, e.g. 0.663,0.332.
mcgd.factory recovers the factory set MCGD values.
gamut cannot be used as a gettype command. Once a gamut has been set, use *tcgd.data ? to query the values.
-50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) c1, c2, c3, c4, c5, c6, c7, c8, c9, Y, Cb, Cr 0 = RGB 1 = Rec.601 (limited) 2 = Rec.601 (full) 3 = Rec.709
Adjusting the brightness value will reset red.lift, green.lift and blue.lift to zero. Adjusting the contrast value will reset red.gain, green.gain and blue.gain to zero.
Rev F October 2016 page 53
Digital Projection INSIGHT 4K Quad & Dual LED Series
3D
Notes
3d.enable
= ?
On, Off
3d.frmultiplier 3d.darktime
3d.syncoffset
3d.syncinpolarity
3d.syncoutpolarity 3d.syncoutenable 3d.dominance
Protocol Guide
3D
= ? = ? = ? = ? = ? = ? = ?
1 = x1, 2 = x2, 3 = x3 0 to 8000, steps of 50 (in µs) -1500 to 1500, steps of 100 pos, neg pos, neg on, off left, right
Rev F October 2016 page 54
Digital Projection INSIGHT 4K Quad & Dual LED Series
LAMPS
Lamps
Notes
lamp1.hours lamp1.strikes lamp1.serial lamp1.status
? ? ? ?
lamp.power
= ?
Protocol Guide
The lamp1.hours command returns the lamp hours in HH:MM format. 0 = Off 1 = Pre cooling 2 = Ignition 3 = Ignition confirm 4 = Enable communication 5 = Delay cooling 6 = Warm up eco mode 7 = Warm up 8 = Cool down no restrike 9 = Cool down ok restrike 10 = Normal 11 = Error 12 = Ignition retry 13 = Re strike delay 14 = Enable CSI 15 = Deferred shutdown 16 = Shutdown confirm 17 = Error shutdown 18 = Lamp warmup stage 1 19 = Lamp warmup stage 2 1 to 100 (integer)
Depending on the projector model, the lamp.power command has a different value range as follows:
•
For INSIGHT 4K Quad, the range is between 80 and 100. Any value lower than 80 will be interpreted as 80 by the projector.
•
For INSIGHT 4K Dual LED, lamp power cannot be changed.
Rev F October 2016 page 55
Digital Projection INSIGHT 4K Quad & Dual LED Series
LAMPS
The commands in the table below can be used with INSIGHT 4K Quad:
lamp.mode
= ?
0 = all lamps 1 = auto 1 2 = auto 2 3 = auto 3
lamp2.hours lamp3.hours lamp4.hours lamp2.strikes lamp3.strikes lamp4.strikes lamp2.serial lamp3.serial lamp4.serial lamp2.status lamp3.status lamp4.status
?
Protocol Guide
Notes
The lampX.hours commands (where X is the lamp number, 2 to 4) return the lamp hours in HH:MM format.
? ? ?
0 = Off 1 = Pre cooling 2 = Ignition 3 = Ignition confirm 4 = Enable communication 5 = Delay cooling 6 = Warm up eco mode 7 = Warm up 8 = Cool down no restrike 9 = Cool down ok restrike 10 = Normal
11 = Error 12 = Ignition retry 13 = Re strike delay 14 = Enable CSI 15 = Deferred shutdown 16 = Shutdown confirm 17 = Error shutdown 18 = Lamp warmup stage 1 19 = Lamp warmup stage 2
Rev F October 2016 page 56
Digital Projection INSIGHT 4K Quad & Dual LED Series
Setup
Notes
orientation
= ?
0 = Desktop Front 1 = Ceiling Front 2 = Desktop Rear 3 = Ceiling Rear
shutter
= ?
on or open off or close
ir.address
= ?
0 to 255
power
factory.reset identify
SETUP
= ?
On, Off
(execute)
identify flashes the keypad lights for 10 seconds to identify the projector. sw.version returns the software release version.
(execute)
board.id returns the CPU hardware version. videoboard.id returns the video hardware version.
Information
sw.version
?
videoboard.id
?
board.id
fw.version
from.version lens.version seq.version model.name serial
videosw.version
Protocol Guide
? ?
fw.version returns the firmware version. from.version returns the factory ROM version. lens.version returns the lens mount version.
?
seq.version returns the formatter sequences version.
?
model.name returns the projector model name.
?
serial returns the projector serial number.
? ? ?
videosw.version returns the software release version of the video processor.
Rev F October 2016 page 57
Digital Projection INSIGHT 4K Quad & Dual LED Series
This page is intentionally left blank.
Protocol Guide
INSIGHT 4K Laser Series
High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection INSIGHT 4K Laser Series
IN THIS GUIDE
IN THIS GUIDE Introduction......................................................................................................... 61 Network Port setup....................................................................................................61 Serial Port setup.........................................................................................................61 Command structure...................................................................................................62
Lens Memory commands..........................................................................................86
Protocol Commands.......................................................................................... 63 Control commands....................................................................................................63 Power On.........................................................................................................................63 Power Off.........................................................................................................................64 Light On...........................................................................................................................65 Light Off...........................................................................................................................66 Set Light Power Level......................................................................................................67 Get Light Power Level......................................................................................................68 Douser Close...................................................................................................................70 Douser Open....................................................................................................................71 Douser Status..................................................................................................................72 Running Status................................................................................................................73
Title selection commands (Preset buttons).............................................................89
Store Position...................................................................................................................86 Recall Position.................................................................................................................87 Delete Position.................................................................................................................88 Set Title............................................................................................................................89 Get Current Title...............................................................................................................90
Lens commands.........................................................................................................74 Move Up...........................................................................................................................74 Move Down......................................................................................................................75 Stop Up/Down Movement................................................................................................76 Move Left.........................................................................................................................77 Move Right.......................................................................................................................78 Stop Left/Right Movement...............................................................................................79 Zoom In............................................................................................................................80 Zoom Out.........................................................................................................................81 Stop Zoom.......................................................................................................................82 Focus In...........................................................................................................................83 Focus Out........................................................................................................................84 Stop Focus.......................................................................................................................85
Protocol Guide
Rev F October 2016
Digital Projection INSIGHT 4K Laser Series
Introduction
INTRODUCTION Notes
Network Port setup
• •
IP address
assigned by user
Port
43728
Serial Port setup
• • • • •
Baud rate
38,400 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 61
Digital Projection INSIGHT 4K Laser Series
INTRODUCTION
Command structure
Notes
Byte
Description
Comments
0
Command One (1)
First level commands
1
Command Two (2)
Second level commands
2
Command Three (3)
Third level commands
3
Length (MSB)
Number of bytes of command data
4
Length (LSB)
Number of bytes of command data
5…n
Command Data 0 … n
n+1
Checksum
If the checksum is greater than 100, then only the least significant byte shall be sent.
The LSB of the sum of all preceding bytes
In this section bytes are shown separated for clarity: each string is placed in a table where each byte occupies a separate cell.
Example 1
All values are in hexadecimal format unless explicitly stated otherwise.
The Laser On command looks like this:
Checksum must be correctly calculated. The projector does not respond to an incorrect checksum.
03 2f 00 00 02 12 01 47,
where the checksum 47 is obtained by adding up all preceding bytes:
3 + 2f + 0 + 0 + 2 + 12 + 1 = 47
Command example: Laser On Byte
Value
Description
0
03
Command 1
Example 2
1
2f
Command 2
2
00
Command 3
3
00
Length (MSB)
The checksum of the Set Light Power Level command with a light power value of 1e (30%) is obtained by adding up all preceding bytes:
4
02
Length (LSB)
5
12
3 + 10 + 0 + 0 + 5 + c1 + ff + 0 + 1e + 0 = 1f6
6
01
7
47
The checksum 1f6 contains more than one byte, therefore only the LSB will be sent with the command:
03 10 00 00 05 c1 ff 00 1e 00 f6
Similarly, if the light power value is 64 (100%), the checksum will be 23c and the actual command will look like this:
03 10 00 00 05 c1 ff 00 64 00 3c
Data Checksum (see Example 1 in the note for calculation)
The control system should wait for the full response to a command before transmitting the next command.
Protocol Guide
Rev F October 2016 page 62
Digital Projection INSIGHT 4K Laser Series
Protocol Commands
PROTOCOL COMMANDS Notes
Control commands Power On
Command 1
Command 2
Command 3
Length MSB
Length LSB
Checksum
Send
02
00
00
00
00
02
22 00 00 c0
Protocol Guide
Checksum
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
00 e2
Rev F October 2016 page 63
Digital Projection INSIGHT 4K Laser Series Power Off
PROTOCOL COMMANDS Notes
Command 1
Command 2
Command 3
Length MSB
Length LSB
Checksum
Send
02
01
00
00
00
03
22 01 00 c0
Protocol Guide
Checksum
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
00 e3
Rev F October 2016 page 64
Digital Projection INSIGHT 4K Laser Series Light On
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
2f
00
00
02
12
01
Checksum
Command 2
03
Command Data
Command 1
Send
47
23 2f
00 c0
Protocol Guide
Checksum
Data 2
Data 1
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
02 12 00 26
Rev F October 2016 page 65
Digital Projection INSIGHT 4K Laser Series Light Off
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
2f
00
00
02
12
02
Checksum
Command 2
03
Command Data
Command 1
Send
48
23 2f
00 c0
Protocol Guide
Checksum
Data 2
Data 1
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
02 12 00 26
Rev F October 2016 page 66
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Set Light Power Level
Notes
Send
Command 3
Length MSB
Length LSB
10
00
00
05
c1
ff
00
23 10 00 c0
Protocol Guide
Checksum
Data 2
Data 1
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
Checksum
Command 2
03
Light Power Level
Command 1
Command Data
Light Power Level is represented as a percentage between 30% and 100% (in hex), as in the following examples:
1e 00 f6
1e = 30 decimal 63 = 99 decimal 64 = 100 decimal
Change the byte in bold and recalculate the checksum.
02 00 00 f5
Rev F October 2016 page 67
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Get Light Power Level
Notes
Command 3
Length MSB
Length LSB
05
00
00
03
Checksum
Command 2
03
Command Data
Command 1
Send
c1
00
00
cc
Response (example)
23 05 00 c0
10 02 64 00 1e 00 00 00 63 00 07 00 01 00 00 ff
Checksum
Light Power Level
Length
Response 4
Response 3
Response 2
Response 1
Response Data
ff
Light Power Level is represented as a percentage between 30% and 100% (in hex), as in the following examples:
e5
Protocol Guide
1e = 30 decimal 63 = 99 decimal 64 = 100 decimal
Rev F October 2016 page 68
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Get Light Status
Notes
Command 1
Command 2
Command 3
Length MSB
Length LSB
Command Data
Checksum
Send
03
2f
00
00
01
1e
51
Response (example)
Protocol Guide
Checksum
Light Strike Count
Light % Remaining
0f
Light Warning Time
Length
00 c0
Light Hours
Response 4
23 2f
Response 3
Response 2
Response 1
Response Data
1e 42 00 20 4e 64 47 00 00 00 20 4e 64 00 00 6c
Light Hours: 0042 = 66 hours
Light Warning Time: 4e20 = 20,000 hours
Light % Remaining: 64 = 100%
Light Strike Count: 0047 = 71 strikes
Rev F October 2016 page 69
Digital Projection INSIGHT 4K Laser Series Douser Close
PROTOCOL COMMANDS Notes
Command 1
Command 2
Command 3
Length MSB
Length LSB
Checksum
Send
02
16
00
00
00
18
Response 1
Response 2
Response 3
Response 4
Length
Checksum
Response (example)
22
16
00
c0
00
f8
Protocol Guide
Rev F October 2016 page 70
Digital Projection INSIGHT 4K Laser Series Douser Open
PROTOCOL COMMANDS Notes
Command 1
Command 2
Command 3
Length MSB
Length LSB
Checksum
Send
02
17
00
00
00
19
Response 1
Response 2
Response 3
Response 4
Length
Checksum
Response (example)
22
17
00
c0
00
f9
Protocol Guide
Rev F October 2016 page 71
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Douser Status
Notes
Command 1
Command 2
Command 3
Length MSB
Length LSB
Command Data
Checksum
Send
00
85
00
00
01
03
89
Response 1
Response 2
Response 3
Response 4
Length
Data 1
Data 2
Data 3
Data 4
Data 5
Data 6
Data 7
Data 8
Data 9
Data 10
Data 11
Data 12
Data 13
Data 14
Data 15
Data 16
Checksum
Response (example)
20
85
00
c0
10
81
00
00
00
00
00
00
00
00
00
ff
ff
ff
ff
ff
ff
f0
Protocol Guide
In the Douser Status response:
81 = Douser closed 00 = Douser open
Rev F October 2016 page 72
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Running Status
Notes
Send
External Control:
Command 1
Command 2
Command 3
Length MSB
Length LSB
Command Data
Checksum
Power:
00
85
00
00
01
01
87
00 = Normal 01 = Powering up or down Projector Status / Mode:
10 00 00 01 00 00 0c 00 00 00 00 00 ff
Checksum
Light On / Off Status
Light Status
Projector Status / Mode
Power Processing
Light Cooling Status
Power
External Control
Length
Response 4
Response 3
Response 2
00 = Normal, 01 = On Power Processing:
Response Data
Response 1
00 = Off, 01 = On Light Cooling Status:
Response (example)
20 85 00 c0
00 = Off, 01 = On
00 00 00 00 81
00 = Standby 01 = Power on protect 02 = Ignition first attempt 03 = Power on running 04 = Running: power on, light on 05 = Cooling 06 = ----- (reserved) 07 = Reset wait 08 = Fan stop error 09 = Light ignition retry 0a = Light error 0c = Running: power on, light off Light Status:
00 = Off, 01 = On Light On / Off Status:
Protocol Guide
00 = Normal 01 = Powering up or down
Rev F October 2016 page 73
Digital Projection INSIGHT 4K Laser Series
Lens commands
PROTOCOL COMMANDS Notes
Move Up
Command 3
Length MSB
Length LSB
18
00
00
02
03
7f
Checksum
Command 2
02
Command Data
Command 1
Send
9e
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 74
Digital Projection INSIGHT 4K Laser Series Move Down
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
03
81
Checksum
Command 2
02
Command Data
Command 1
Send
a0
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 75
Digital Projection INSIGHT 4K Laser Series Stop Up/Down Movement
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
03
00
Checksum
Command 2
02
Command Data
Command 1
Send
1f
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 76
Digital Projection INSIGHT 4K Laser Series Move Left
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
02
81
Checksum
Command 2
02
Command Data
Command 1
Send
9f
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 77
Digital Projection INSIGHT 4K Laser Series Move Right
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
02
7f
Checksum
Command 2
02
Command Data
Command 1
Send
9d
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 78
Digital Projection INSIGHT 4K Laser Series Stop Left/Right Movement
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
02
00
Checksum
Command 2
02
Command Data
Command 1
Send
1e
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 79
Digital Projection INSIGHT 4K Laser Series Zoom In
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
00
7f
Checksum
Command 2
02
Command Data
Command 1
Send
9b
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 80
Digital Projection INSIGHT 4K Laser Series Zoom Out
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
00
81
Checksum
Command 2
02
Command Data
Command 1
Send
9d
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 81
Digital Projection INSIGHT 4K Laser Series Stop Zoom
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
00
00
Checksum
Command 2
02
Command Data
Command 1
Send
1c
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 82
Digital Projection INSIGHT 4K Laser Series Focus In
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
01
7f
Checksum
Command 2
02
Command Data
Command 1
Send
9c
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 83
Digital Projection INSIGHT 4K Laser Series Focus Out
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
01
81
Checksum
Command 2
02
Command Data
Command 1
Send
9e
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 84
Digital Projection INSIGHT 4K Laser Series Stop Focus
PROTOCOL COMMANDS Notes
Command 3
Length MSB
Length LSB
18
00
00
02
01
00
Checksum
Command 2
02
Command Data
Command 1
Send
1d
22 18 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 fb
Rev F October 2016 page 85
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Lens Memory commands
Notes
Store Position
The first Memory Number byte will accept a value between 00 and 09.
00
42
ee
00
01
00
...
00
6d
65
6d
6f
72
79
20
30
00
...
Checksum
Command Data 5
Command Data 4
Memory Number
Command Data 3
Command Data 2
00
Command 4
Command 3
b1
Memory Number
Command 2
03
Command Data 1
Command 1
Send
00
ff
...
ff
ba
The second Memory Number byte will accept a value between 30 and 39.
Command Data 2 contains thirteen identical 00 bytes.
23 b1 00 c0
Protocol Guide
04 ee
00
Checksum
Response 5
Response 4
Memory Number
Response Data 1
Response 3
Response 2
Response 1
Response (example)
01 00 87
Command Data 4 contains twentytwo identical 00 bytes.
Command Data 5 contains twenty identical ff bytes.
Rev F October 2016 page 86
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Recall Position
Notes
00
42
ee
00
02
00
...
23 b1 00 c0
04 ee
00
00
6d
65
6d
6f
79
20
30
00
...
Checksum
Command Data 5
Command Data 4
Memory Number
72
00
ff
...
ff
bb
The first Memory Number byte will accept a value between 00 and 09.
The second Memory Number byte will accept a value between 30 and 39.
Command Data 2 contains thirteen identical 00 bytes. Checksum
Response 5
Response 4
Memory Number
Response Data 1
Response 3
Response 2
Response 1
Response (example)
Command Data 3
Command Data 2
00
Command 4
Command 3
b1
Memory Number
Command 2
03
Command Data 1
Command 1
Send
02 00 88
Command Data 4 contains twentytwo identical 00 bytes.
Command Data 5 contains twenty identical ff bytes.
Protocol Guide
Rev F October 2016 page 87
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Delete Position
Notes
00
42
ee
00
00
00
...
23 b1 00 c0
04 ee
00
00
6d
65
6d
6f
79
20
30
00
...
Checksum
Command Data 5
Command Data 4
Memory Number
72
00
ff
...
ff
b9
The first Memory Number byte will accept a value between 00 and 09.
The second Memory Number byte will accept a value between 30 and 39.
Command Data 2 contains thirteen identical 00 bytes. Checksum
Response 5
Response 4
Memory Number
Response Data 1
Response 3
Response 2
Response 1
Response (example)
Command Data 3
Command Data 2
00
Command 4
Command 3
b1
Memory Number
Command 2
03
Command Data 1
Command 1
Send
00 00 86
Command Data 4 contains twentytwo identical 00 bytes.
Command Data 5 contains twenty identical ff bytes.
Protocol Guide
Rev F October 2016 page 88
Digital Projection INSIGHT 4K Laser Series
Title selection commands (Preset buttons)
PROTOCOL COMMANDS Notes
Set Title
Command 3
Length MSB
Length LSB
03
00
00
02
06
Checksum
Command 2
02
Title Number
Command 1
Command Data
Send
00
0d
22 03 00 c0
Protocol Guide
Checksum
Data
Length
Response 4
Response 3
Response 2
Response 1
Response (example)
01 00 e6
Title number: 00 to 63 (i.e. between 0 and 99 decimal).
Title count in the protocol begins from 00. To set the correct title number, convert the decimal value to hex and then decrease the result by 1. For example, if you want to set title 12, send a value of 0b, the hex equivalent of (decimal) 11.
Rev F October 2016 page 89
Digital Projection INSIGHT 4K Laser Series
PROTOCOL COMMANDS
Get Current Title
Notes
Command 1
Command 2
Command 3
Length MSB
Length LSB
Command Data
Checksum
Send
02
85
00
00
01
02
88
Response (example)
20 85 00 c0
10 00 0e 04 0d 02 00 00 00 ff
Checksum
Title Number
Length
Response 4
Response 3
Response 2
Response 1
Response Data
00 00 00 00 00 00 00 95
Title number: 00 to 63 (i.e. between 0 and 99 decimal).
Title count in the protocol begins from 00. To get the real title number, convert the protocol value to decimal and then increase the result by 1. For example, if Get Current Title returns a value of 0e (14 in decimal), the current title is 15.
Protocol Guide
Rev F October 2016 page 90
M-Vision 930 Series
High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection M-Vision 930 Series
IN THIS GUIDE
IN THIS GUIDE Introduction......................................................................................................... 93 Network setup............................................................................................................93 Serial Port setup.........................................................................................................93 Protocol commands...................................................................................................94 Examples.........................................................................................................................94 Responses.......................................................................................................................94 Inputs..................................................................................................................... 95 Test Patterns....................................................................................................... 95 Lens........................................................................................................................ 96 Image..................................................................................................................... 97 Color....................................................................................................................... 98 Geometry.............................................................................................................. 99 Edge Blend......................................................................................................... 100 3D.......................................................................................................................... 101 Lamps.................................................................................................................. 102 Setup.................................................................................................................... 103 Network............................................................................................................... 104 Information......................................................................................................... 105 Miscellaneous................................................................................................... 105
Protocol Guide
Rev F October 2016
Digital Projection M-Vision 930 Series
INTRODUCTION
Introduction The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Network setup 1. Connect the projector to a LAN network. 2. Open the Setup > Network menu and edit network settings. The default IP address is 192.168.0.100 and the TCP port number is 7000.
Serial Port setup
• • • • •
Baud rate
Notes For details on connecting the projector to an RS232 or LAN network, or changing network settings, see the user manual. Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
9,600 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 93
Digital Projection M-Vision 930 Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*aspect.ratio ?
asks what the current aspect ratio is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *aspect.ratio = 1 , the projector will return ACK aspect.ratio = 1 or ack aspect.ratio = 1 , depending on the model. In either case the projector will then will change the aspect ratio accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 94
Digital Projection M-Vision 930 Series
INPUTS
Inputs
Notes
input
= ?
0 = HDMI 1 1 = HDMI 2 2 = VGA 3 = Component 1 4 = Component 2 5 = DVI 6 = HDBaseT
test.pattern
= ?
0 = Off 1 = White 2 = Black 3 = Red 4 = Green 5 = Blue 6 = ANSI Checkboard 7 = Focus Grid 8 = V Burst 9 = H Burst 10 = Color Bar
Test Patterns
Protocol Guide
Rev F October 2016 page 95
Digital Projection M-Vision 930 Series
LENS
Lens
Notes
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right
Protocol Guide
(execute) (execute) (execute) (execute) (execute) (execute) (execute) (execute)
Rev F October 2016 page 96
Digital Projection M-Vision 930 Series
IMAGE
Image
Notes
picture.mode
= ?
0 = Bright 1 = Presentation 2 = Video
brightness
= ?
0 to 200 (integer)
contrast gamma
= ?
0 to 200 (integer)
= ?
0 = 1.0 1 = 1.8 2 = 2.0 3 = 2.2 4 = 2.35 5 = 2.5
dblack
= ?
0 = Off 1 = On
adcontrast
= ?
0 = Off 1 = On
saturation
= ?
0 to 200 (integer)
hue
sharpness nr
h.position v.position vga.phase tracking
sync.level resync
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
The vga.phase command is identical to the Phase setting in the Image > Position and Phase menu.
(execute)
Rev F October 2016 page 97
Digital Projection M-Vision 930 Series
COLOR
Color
Notes
color.space
= ?
0 = Auto 1 = YPbPr 2 = YCbCr 3 = RGB PC 4 = RGB Video
color.temp
= ?
0 = 5500K 1 = 6500K 2 = 7500K 3 = 9300K 4 = Native
color.gamut
= ?
0 = Auto 1 = REC709 2 = SMPTE-C 3 = EBU 4 = Native
red.lift
= ?
0 to 200 (integer)
green.lift blue.lift red.gain
green.gain blue.gain
Protocol Guide
= ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
Rev F October 2016 page 98
Digital Projection M-Vision 930 Series
GEOMETRY
Geometry
Notes
aspect.ratio
= ?
0 = 16:9 1 = TheaterScope 2 = 4:3 3 = 4:3 Narrow 4 = 16:10 5 = 5:4 6 = Source
overscan
= ?
0 = Off 1 = Crop 2 = Zoom
h.keystone
= ?
-350 to +350 (integer)
v.keystone rotation
pin.barrel
4corner.ulx 4corner.uly 4corner.urx 4corner.ury 4corner.llx 4corner.lly 4corner.lrx 4corner.lry warp.reset
blanking.top
blanking.bottom blanking.left
blanking.right blanking.reset Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
-200 to +200 (integer) -20 to +20 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer)
(execute)
= ? = ? = ? = ?
0 to 360 (integer) 0 to 360 (integer) 0 to 534 (integer) 0 to 534 (integer)
(execute)
Rev F October 2016 page 99
Digital Projection M-Vision 930 Series
EDGE BLEND
Edge Blend
Notes
eb.stat
= ?
0 = Off 1 = On
eb.adl
= ?
0 = Off 1 = On
eb.top eb.bottom eb.left eb.right
= ?
0, 200 to 500
= ?
0, 200 to 800
= ?
0, 8, 16, 24, 32
eb.blu.top
eb.blu.bottom eb.blu.left
eb.blu.right eb.all
eb.red eb.green eb.blue eb.reset
Protocol Guide
= ? = ? = ? = ? = ?
0, 8, 16, 24, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0 to 32 (integer) 0 to 32 (integer)
(execute)
Rev F October 2016 page 100
Digital Projection M-Vision 930 Series
3D
3D
Notes
3d.format
= ?
0 = Off 1 = Auto 2 = Side-By-Side (Half) 3 = Top-And-Bottom 4 = Dual-Pipe
3d.dominance
= ?
0 = Normal 1 = Reverse
3d.darktime
= ?
0 = 0.65 ms 1 = 1.3 ms 2 = 1.95 ms 3 = 2.5 ms
3d.syncoffset
= ?
0 to 60 (integer)
3d.dlplink
Protocol Guide
= ?
0 = Off 1 = On
Rev F October 2016 page 101
Digital Projection M-Vision 930 Series
LAMPS
Lamps
Notes
lamp.mode
= ?
0 = Auto 1 1 = Dual 2 = Lamp1 3 = Lamp2
power.mode
= ?
0 = Eco 1 = Normal 2 = Power
lamp.power
= ?
0 = 77% 1 = 78% 2 = 79% 3 = 80% 4 = 82% 5 = 83% 6 = 84% 7 = 85% 8 = 86% 9 = 87% 10 = 89% 11 = 90% 12 = 91% 13 = 92% 14 = 93% 15 = 94% 16 = 95% 17 = 97% 18 = 98% 19 = 99% 20 = 100%
altitude
= ?
0 = Off 1 = On
lamp1.status
?
0 = Off 1 = On
lamp2.status
?
0 = Off 1 = On
lamp1.hours lamp2.hours
? ?
string
Protocol Guide
string
Rev F October 2016 page 102
Digital Projection M-Vision 930 Series
SETUP
Setup
Notes
orientation
= ?
0 = Desktop Front 1 = Ceiling Front 2 = Desktop Rear 3 = Ceiling Rear
auto.poweroff
= ?
0 = Off 1 = On
auto.poweron
= ?
0 = Off 1 = On
startup.logo
= ?
0 = Off 1 = On
blank.screen
= ?
0 = Splash 1 = Black 2 = Blue 3 = White
trig.1, trig.2
= ?
0 = Screen 1 = 16:9 2 = Theaterscope 3 = 4:3 4 = 4:3 Narrow 5 = RS-232 6 = RS232 On 7 = RS232 Off
auto.source
= ?
0 = Off 1 = On
ir.enable
= ?
0 = Off 1 = On
osd.menupos
= ?
0 = Top Left 1 = Top Right 2 = Bottom Left 3 = Bottom Right 4 = Center
Continued on next page...
Protocol Guide
Rev F October 2016 page 103
Digital Projection M-Vision 930 Series
NETWORK
...Continued from previous page
Notes
osd.trans
= ?
0 = 0% 1 = 25% 2 = 50% 3 = 75%
osd.timer
= ?
0 = Always On 1 = 10 seconds 2 = 30 seconds 3 = 60 seconds
osd.msgbox
= ?
0 = Off 1 = On
recall.mem
= ?
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D 4 = Default
save.mem
=
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D
lan.dhcp
= ?
0 = Off 1 = On
lan.ip
= ?
A valid IP address in the following format: xxx.xxx.xxx.xxx
Network
lan.subnet
lan.gateway lan.dns
lan.standby
Protocol Guide
= ? = ? = ? = ?
A valid subnet address in the following format: xxx.xxx.xxx.xxx A valid gateway address in the following format: xxx.xxx.xxx.xxx A valid DNS address in the following format: xxx.xxx.xxx.xxx 0 = Off 1 = On
Rev F October 2016 page 104
Digital Projection M-Vision 930 Series
INFORMATION
Information
Notes
model.name
?
string
serial
sw.version act.source
signal
h.refresh v.refresh
pixel.clock
factory.reset lamp1.hours lamp2.hours
? ?
string string
?
0 = HDMI 1 1 = HDMI 2 2 = VGA 3 = Component 1 4 = Component 2 5 = DVI 6 = HDBaseT
?
string
? ? ?
string string string
(execute)
?
string
?
string
power
= ?
0 = Off 1 = On
shutter
= ?
0 = Open 1 = Close
Miscellaneous
Protocol Guide
Rev F October 2016 page 105
Digital Projection M-Vision 930 Series
This page is intentionally left blank.
Protocol Guide
HIGHlite 660 3D Series HIGHlite 740 Series High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection HIGHlite 660 3D & 740 Series
IN THIS GUIDE
IN THIS GUIDE Introduction....................................................................................................... 109 Network setup......................................................................................................... 109 Serial Port setup...................................................................................................... 109 Protocol commands.................................................................................................110 Examples...................................................................................................................... 110 Responses.................................................................................................................... 110 Inputs....................................................................................................................111 Lens...................................................................................................................... 112 Image................................................................................................................... 113 Color..................................................................................................................... 115 Geometry............................................................................................................ 116 Edge Blend......................................................................................................... 118 PIP......................................................................................................................... 120 3D.......................................................................................................................... 121 Lamps.................................................................................................................. 122 Setup.................................................................................................................... 123 Information......................................................................................................... 125 Virtual OSD........................................................................................................ 126 Menu examples....................................................................................................... 126 Using the Discovery Tool to view your network.................................................. 128
Protocol Guide
Rev F October 2016
Digital Projection HIGHlite 660 3D & 740 Series
INTRODUCTION
Introduction The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Network setup 1. Connect the projector to a LAN network. 2. Open the Setup > Network menu and edit network settings. The default IP address is 192.168.0.100 and the TCP port number is 7000.
Serial Port setup
• • • • •
Baud rate
Notes For details on connecting the projector to an RS232 or LAN network, or changing network settings, see the user manual. Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
38,400 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 109
Digital Projection HIGHlite 660 3D & 740 Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*aspect.ratio ?
asks what the current aspect ratio is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *aspect.ratio = 1 , the projector will return ACK aspect.ratio = 1 or ack aspect.ratio = 1 , depending on the model. In either case the projector will then will change the aspect ratio accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 110
Digital Projection HIGHlite 660 3D & 740 Series
Inputs
INPUTS Notes
The input command can assign the values in the table below to all projectors:
input
= ?
0 = CVBS 1 1 = CVBS 2 2 = S-Video 3 = Component 4 = VGA 5 = 3G-SDI 6 = DVI 7 = HDMI 8 = Test Pattern
The input command can assign additional values to HIGHlite 660 3D projectors:
input
= ?
9 = HDBaseT 10 = DVI 2 11 = HDMI 2 12 = HDMI 3 13 = Dual Pipe
Protocol Guide
Rev F October 2016 page 111
Digital Projection HIGHlite 660 3D & 740 Series
LENS
Lens
Notes
The commands in the table below can be used with all projectors:
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right lens.stop nudge.up
nudge.down nudge.left
nudge.right
Protocol Guide
(execute) (execute) (execute) (execute)
= = = =
0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest)
(execute)
= = = =
0 - 3 (integer, nudge time: 0 = shortest, 3 = longest)
When lens.up, lens.down, lens.left or lens.right is sent, the movement will continue until either a lens.stop command is sent or the limit is reached. Use a nudge command to produce a brief movement of the lens in the specified direction.
0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest)
Rev F October 2016 page 112
Digital Projection HIGHlite 660 3D & 740 Series
Image
IMAGE Notes
The commands in the table below can be used with all projectors:
brightness
= ?
-50 to 50 (integer)
contrast gamma
freeze hue
saturation
blacklevel.offset sharpness detail
luma.sharpness chroma.sharpness
= ?
-50 to 50 (integer)
= ?
0 = 1.0 1 = 1.8 2 = 2.0 3 = 2.2 4 = 2.4 5 = 2.6 6 = 2.8
= ?
On, Off
= ? = ? = ? = ? = ?
-50 to 50 (integer) -50 to 50 (integer) 0 = 0 IRE, 1 = 7.5 IRE -50 to 50 (integer)
When freeze is switched on, the image freezes and the projector will keep displaying the frozen frame until *freeze = off is sent. The frozen image will persist even if you disconnect the source.
0 to 100
= ?
0 = Off 1 = Low 2 = High
= ?
0 = Off 1 = Low 2 = High
Continued on next page...
Protocol Guide
Rev F October 2016 page 113
Digital Projection HIGHlite 660 3D & 740 Series ...Continued from previous page
Notes
recursive.nr
= ?
0 = Off 1 = Low 2 = Medium 3 = High
mosquito.nr
= ?
0 = Off 1 = Low 2 = Medium 3 = High
ccs
= ?
0 = Off 1 = On
vga.phase
= ?
-15 to 15 (integer)
vga.samples vga.auto
Protocol Guide
= ?
IMAGE
0 to 1444 (integer)
(execute)
Rev F October 2016 page 114
Digital Projection HIGHlite 660 3D & 740 Series
Color
COLOR Notes
The commands in the table below can be used with all projectors:
gamut
= ?
0 = Peak 1 = HDTV 2 = SDTV 3 = 3200K 4 = 5400K 5 = 6500K 6 = 8000K 7 = 9000K 8 = User 1 9 = User 2
mcgd.data
= ?
green-x, green-y, red-x ,red-y, blue-x, blue-y, white-x, white-y
tcgd1.data tcgd2.data
= ?
green-x, green-y, red-x ,red-y, blue-x, blue-y, white-x, white-y
red.lift
= ?
-50 to +50 (integer)
green.lift blue.lift red.gain
green.gain blue.gain red.dmd
green.dmd blue.dmd
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ?
gamut sends a selection of factory set target data or the two user tables defined by tcgd1.data and tcgd2.data.
mcgd.data, tcgd1.data and tcgd2.data allow for MCGD data or user TCGD data to be sent as comma separated x and y co-ordinates in the specified order. Must be preceded by leading 0, e.g. 0.663,0.332.
-50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) On, Off On, Off On, Off
red.dmd enables and disables the red DMD™. Likewise, the green.dmd and blue.dmd commands control the other two DMDs.
Rev F October 2016 page 115
Digital Projection HIGHlite 660 3D & 740 Series
GEOMETRY
Geometry
Notes
The commands in the table below can be used with all projectors:
aspect.ratio
= ?
0 = Source 1 = Fill & Display 2 = Fill & Crop 3 = Anamorphic 4 = TheaterScope
overscan
= ?
0 = 0% 1 = 2.5% 2 = 5% 3 = 7.5%
sizepos.enable
= ?
On, Off
sizepos.setting h.position v.position h.size
sizepos.aspect v.size
blanking.enable blanking.top
blanking.bottom blanking.left
blanking.right
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
Global, Modal -50 to +50 (integer) -50 to +50 (integer) 50 to 400 (integer) On, Off 50 to 400 (integer) On, Off 1 to 100 (integer) 1 to 100 (integer) 1 to 255 (integer) 1 to 255 (integer)
sizepos.enable is identical to the Enable setting in the Geometry > Size & Position
menu.
sizepos.setting is identical to the Setting setting in the Geometry > Size & Position
menu.
sizepos.aspect is identical to the Aspect Lock setting in the Geometry > Size & Position
menu.
Continued on next page...
Protocol Guide
Rev F October 2016 page 116
Digital Projection HIGHlite 660 3D & 740 Series ...Continued from previous page
Notes
geometry.engine
= ?
0 = Off 1 = Keystone 2 = 4 Corner 3 = Rotation 4 = Warp
h.keystone
= ?
-40 to +40 (integer)
v.keystone pin.barrel
4corner.ulx 4corner.uly 4corner.urx 4corner.ury 4corner.llx 4corner.lly 4corner.lrx 4corner.lry rotation warp.map
Protocol Guide
= ? = ? = ?
GEOMETRY
-30 to +30 (integer) -20 to +20 (integer) -1000 to +1000
pin.barrel sets pincushion / barrel distortion when geometry.engine is set to 1 (keystone) or 3 (rotation). The 4corner commands provide X and Y adjustment for each corner of the image. They are identical to the settings within the Geometry > Cornerstone menu.
= ? = ?
-180 to 180 (integer) 0 to 8 (integer)
warp.map is identical to the Warp Map setting in the Geometry menu. Set to 0 to switch this off.
Rev F October 2016 page 117
Digital Projection HIGHlite 660 3D & 740 Series
EDGE BLEND
Edge Blend
Notes
The commands in the table below can be used with all projectors:
array.width
= ?
1 to 4 (integer)
array.height array.hset array.vset
scurve.value blending
segmentation eb.top
= ? = ? = ? = ?
The array.width and array.height commands set the width and height of the segmented array respectively.
1 to 4 (integer) 0 to 3 (integer) 0 to 3 (integer)
array.hset and array.vset set the horizontal and vertical position of the projector within the segmented array.
10 to 25 (integer, corresponding to real values of 1.0 to 2.5)
= ?
0 = Off 1 = On 2 = Alignment Pattern
= ?
On, Off
= ?
0 to a value of up to 720, depending on eb.bottom (integer, pixels)
eb.bottom
= ?
0 to a value of up to 720, depending on eb.top (integer, pixels)
eb.left
= ?
0 to a value of up to 1280, depending on eb.right (integer, pixels)
eb.right
= ?
0 to a value of up to 1280, depending on eb.left (integer, pixels)
scurve.value affects the shape of the S-curve which is applied to gradually reduce the brightness in the overlapped regions. eb.top and eb.bottom are identical to the Top Blend Region and Bottom Blend Region settings from the Edge Blend > Blend Width menu.
eb.left and eb.right are identical to Left Blend Region and Right Blend Region from the Edge Blend > Blend Width menu.
Continued on next page...
Protocol Guide
The maximum value for one region will equal 720 minus the pixels already applied to the other region.
The maximum value for one region will equal 1280 minus the pixels already applied to the other region.
Rev F October 2016 page 118
Digital Projection HIGHlite 660 3D & 740 Series ...Continued from previous page
Notes
eb.blu.unblended
= ?
0 to 63 (integer)
eb.blu.topl eb.blu.top
eb.blu.topr
eb.blu.bottoml eb.blu.bottom
eb.blu.bottomr eb.blu.midl eb.blu.midr eb.blu.x1 eb.blu.y1 eb.blu.x2 eb.blu.y2 eb.blu.x3 eb.blu.y3 eb.blu.x4 eb.blu.y4 eb.reset
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? =
EDGE BLEND
0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 100 (integer) 0 to 100 (integer) -100 to 0 (integer) -100 to 0 (integer) 0 to 100 (integer) 0 to 100 (integer) -100 to 0 (integer) -100 to 0 (integer) 1 = reset width 2 = reset offset 3 = reset width and offset 4 = reset black level uplift 5 = reset width and black level uplift 6 = reset offset and black level offset 7 = reset all
eb.blu.unblended is identical to the Unblended Region setting in the Edge Blend > Black Level Uplift menu. eb.blu.topl, eb.blu.top and eb.blu.topr are identical to the Upper Left, Upper Middle and Upper Right settings in the Edge Blend > Black Level Uplift menu. eb.blu.bottoml, eb.blu.bottom and eb.blu.bottomr are identical to the Lower Left, Lower Middle and Lower Right settings in the Edge Blend > Black Level Uplift menu. eb.blu.midl and eb.blu.midr are identical to the Middle Left and Middle Right settings in the Edge Blend > Black Level Uplift menu. The eb.blu x and y commands are identical to the X and Y settings from the Edge Blend > Reduce Black Level Uplift Width menu. 1 is top left, 2 is top right, 3 is bottom left, 4 is bottom right.
Rev F October 2016 page 119
Digital Projection HIGHlite 660 3D & 740 Series
PIP
PIP Notes
The commands in the table below can be used with all projectors:
pip.mode
= ?
0 = Off 1 = PIP 2 = PAP 3 = POP
pip.input
= ?
0 = CVBS 1 1 = CVBS 2 2 = S-Video 3 = Component 4 = VGA 5 = 3G-SDI 6 = DVI 7 = HDMI
pip.size
= ?
0 = small 1 = medium 2 = large
pip.position
= ?
0 = Top Left 1 = Top Right 2 = Bottom Left 3 = Bottom Right 4 = Custom
pip.hpos
= ?
0 to 100 (integer)
pip.vpos
Protocol Guide
= ?
0 to 100 (integer)
Rev F October 2016 page 120
Digital Projection HIGHlite 660 3D & 740 Series
3D
3D Notes
The commands in the table below can be used with HIGHlite 660 3D:
3d.enable
= ?
On, Off
3d.frmultiplier 3d.darktime
3d.syncoffset
3d.syncpolarity 3d.dominance 3d.format
Protocol Guide
= ?
1 = x1, 2 = x2, 3 = x3
= ?
0 = 0 µs 1 = 650 µs 2 = 1300 µs 3 = 7500 µs
= ?
-15 to +15 (integer)
= ? = ? = ?
pos, neg
The values -15 to +15 represent -1500 µs to +1500 µs.
left, right auto, seq, fpack, tab, sbs
Rev F October 2016 page 121
Digital Projection HIGHlite 660 3D & 740 Series
Lamps
LAMPS Notes
The commands in the table below can be used with all projectors:
lamp.mode
?
0 = both lamps 1 = lamp 1 2 = lamp 2 3 = auto 1
lamp1.hours lamp2.hours lamp1.strikes lamp2.strikes lamp1.serial lamp2.serial lamp1.status lamp2.status
?
lamp.power Protocol Guide
?
The lamp1.hours and lamp2.hours commands return the lamp hours in HH:MM format.
? ?
= ?
0 = Off 1 = Pre cooling 2 = Ignition 3 = Ignition confirm 4 = Enable communication 5 = Delay cooling 6 = Warm up eco mode 7 = Warm up 8 = Cool down no restrike 9 = Cool down ok restrike 10 = Normal 11 = Error 12 = Ignition retry 13 = Re strike delay 14 = Enable CSI 15 = Deferred shutdown 16 = Shutdown confirm 17 = Error shutdown 18 = Lamp warmup stage 1 19 = Lamp warmup stage 2
Depending on the projector model, the lamp.power command has a value range between 85 and 100. Any value lower than 85 will be interpreted as 85 by the projector.
1 to 100 (integer)
Rev F October 2016 page 122
Digital Projection HIGHlite 660 3D & 740 Series
SETUP
Setup
Notes
The commands in the table below can be used with all projectors:
orientation
= ?
0 = Desktop Front 1 = Ceiling Front 2 = Desktop Rear 3 = Ceiling Rear
control.dhcp
= ?
On, Off
control.ip
control.subnet shutter
ir.address power
factory.reset identify
= ? = ?
A valid IP address in the following format: xxx.xxx.xxx.xxx A valid subnet address in the following format: xxx.xxx.xxx.xxx
= ?
on or open off or close
= ?
0 to 255
= ?
On, Off
(execute) (execute)
latency
= ?
0 = Low Latency 1 = Best Video
dvi.boosteq
= ?
On, Off
digital.colspace
= ?
0 = RGB 1 = YPbPr 2 = Auto
digital.range
= ?
0 = full 1 = limited 2 = auto
dvi.port
= ?
0 = digital 1 = analog
identify flashes the keypad lights for 10 seconds to identify the projector.
Continued on next page...
Protocol Guide
Rev F October 2016 page 123
Digital Projection HIGHlite 660 3D & 740 Series
SETUP
...Continued from previous page
Notes
component.colspace
= ?
0 = RGB 1 = YPbPr
component.synctype
= ?
0 = 3 wire 1 = 4 wire 2 = Auto
3gsdi.stream
= ?
0 = Stream 1 1 = Stream 2
lan.dhcp
= ?
On, Off
lan.ip
lan.subnet
configuration
Protocol Guide
= ? = ? = ?
A valid IP address in the following format xxx.xxx.xxx.xxx A valid subnet address in the following format xxx.xxx.xxx.xxx 0 = PIP 1 = Edge Blend
Rev F October 2016 page 124
Digital Projection HIGHlite 660 3D & 740 Series
Information
INFORMATION Notes
The commands in the table below can be used with all projectors:
sw.version
?
fw.version
?
board.id
from.version lens.version seq.version model.name serial
inlet.temp dmd.temp
?
sw.version returns the software release version, identical to Information > Configuration > Interface.
board.id is identical to
Information > Configuration > Hardware.
? ?
fw.version returns the firmware version.
?
from.version returns the factory ROM version.
?
lens.version returns the lens mount version - identical to
? ?
Information > Configuration > Lens.
?
The commands in the table below can be used with HIGHlite 660 3D:
seq.version returns the formatter sequences version, identical to Information >
Configuration > Sequences.
board.id3d
?
fw.version3d
?
inlet.temp and dmd.temp return the temperature in °C at the air inlets and the DMD™ respectively. board.id3d is identical to
Information > Configuration > 3D Hardware.
fw.version3d is identical to
Information > Configuration > 3D Firmware.
Protocol Guide
Rev F October 2016 page 125
Digital Projection HIGHlite 660 3D & 740 Series
VIRTUAL OSD
Virtual OSD
Notes
The LAN IP Address of the projector can be set by using the Network submenu, which can be found in the Setup menu. Once the LAN IP Address has been set, it is possible to control all the functions available on the OSD by using the embedded Virtual OSD. To access the Virtual OSD, do one of the following:
• •
Type the URL http:// into the address bar of your browser, then press ENTER. Use the DiscoveryTool_V1.0.exe application.
The embedded webpage shown below right should appear.
See Using the Discovery Tool to view your network later in this section.
Menu examples The webpages mirror the OSD menus, as shown in the following examples:
• • • •
The last 3 bytes of the projector’s MAC Address are shown in the Unit ID, 00‑3E‑7A in the example shown here. The menu name is shown in orange underlined text, as in the Main Menu shown here. Drop-down lists are represented by similar drop-down lists, as in the Input Selection list shown here. Sub-menus are represented by yellow underlined links, as shown here.
Protocol Guide
Rev F October 2016 page 126
Digital Projection HIGHlite 660 3D & 740 Series Examples (continued)
•
Sliders are represented by similar sliders, as in the Array Width and Array Height sliders shown here.
• •
Items that are not available are shown grayed-out, as shown here.
•
Commands are represented by Do it buttons, as shown here.
VIRTUAL OSD Notes
To return from a sub-menu to the previous menu, click on the Back link at the bottom of the menu.
Protocol Guide
Rev F October 2016 page 127
Digital Projection HIGHlite 660 3D & 740 Series
VIRTUAL OSD
Using the Discovery Tool to view your network The Discovery Tool allows you to view the IP addresses of all projectors in your network. The tool opens the following page in your browser:
Notes The tool will only find projectors from the same subnet as the host computer. The IP addresses of these projectors will be identical up to the third octet as shown in the example.
Click on a projector IP address to access the Virtual OSD for that projector.
Protocol Guide
Rev F October 2016 page 128
HIGHlite Laser 3D (Gen I) Series
High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection HIGHlite Laser 3D (Gen I) Series
IN THIS GUIDE
IN THIS GUIDE Introduction....................................................................................................... 131 Network setup......................................................................................................... 131 Serial Port setup...................................................................................................... 131 Protocol commands................................................................................................ 132 Examples...................................................................................................................... 132 Responses.................................................................................................................... 132 Inputs................................................................................................................... 133 Test Patterns..................................................................................................... 133 Lens...................................................................................................................... 134 Image................................................................................................................... 135 Color..................................................................................................................... 136 Geometry............................................................................................................ 138 Edge Blend......................................................................................................... 139 3D.......................................................................................................................... 140 Laser..................................................................................................................... 140 Setup.................................................................................................................... 141 Network............................................................................................................... 143 Information......................................................................................................... 144 Miscellaneous................................................................................................... 144
Protocol Guide
Rev F October 2016
Digital Projection HIGHlite Laser 3D (Gen I) Series
INTRODUCTION
Introduction The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Network setup 1. Connect the projector to a LAN network. 2. Open the Setup > Network menu and edit network settings. The default IP address is 192.168.0.100 and the TCP port number is 7000.
Serial Port setup
• • • • •
Baud rate
Notes For details on connecting the projector to an RS232 or LAN network, or changing network settings, see the user manual. Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
9,600 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 131
Digital Projection HIGHlite Laser 3D (Gen I) Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*aspect.ratio ?
asks what the current aspect ratio is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *aspect.ratio = 1 , the projector will return ACK aspect.ratio = 1 or ack aspect.ratio = 1 , depending on the model. In either case the projector will then will change the aspect ratio accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 132
Digital Projection HIGHlite Laser 3D (Gen I) Series
Inputs
INPUTS Notes
input
= ?
0 = HDMI 1 1 = HDMI 2 2 = VGA 3 = Component 1 4 = Component 2 5 = DVI 6 = HDBaseT 7 = 3GSDI
test.pattern
= ?
0 = Off 1 = White 2 = Black 3 = Red 4 = Green 5 = Blue 6 = ANSI Checkboard 7 = Focus Grid 8 = V Burst 9 = H Burst 10 = Color Bar
Test Patterns
Protocol Guide
Rev F October 2016 page 133
Digital Projection HIGHlite Laser 3D (Gen I) Series
Lens
Notes
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right
Protocol Guide
LENS
(execute) (execute) (execute) (execute) (execute) (execute) (execute) (execute)
Rev F October 2016 page 134
Digital Projection HIGHlite Laser 3D (Gen I) Series
Image
Notes
brightness
= ?
0 to 200 (integer)
contrast gamma
saturation hue
sharpness
h.position v.position vga.phase tracking
sync.level resync
= ?
0 to 200 (integer)
= ?
0 = 1.0 1 = 1.8 2 = 2.0 3 = 2.2 4 = 2.35 5 = 2.5
= ?
0 to 200 (integer)
= ? = ? = ? = ? = ? = ? = ?
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer)
The vga.phase command is identical to the Phase setting in the Image > Position and Phase menu.
(execute)
adcontrast
= ?
0 = Off 1 = On
nr
= ?
0 to 200 (integer)
Protocol Guide
IMAGE
Rev F October 2016 page 135
Digital Projection HIGHlite Laser 3D (Gen I) Series
Color
Notes
color.space
= ?
0 = Auto 1 = YPbPr 2 = YCbCr 3 = RGB PC 4 = RGB Video
color.temp
= ?
0 = 5500K 1 = 6500K 2 = 7500K 3 = 9300K 4 = Native 5 = 3200K
red.lift
= ?
0 to 200 (integer)
green.lift blue.lift red.gain
green.gain blue.gain
color.gamut
user.p7.set Continued on next page...
Protocol Guide
COLOR
= ? = ? = ? = ? = ? = ?
(execute)
0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 to 200 (integer) 0 = Auto 1 = REC709 2 = SMPTE-C 3 = EBU 4 = Native 5 = User
The user.p7.set command implements user gamut values as defined in the user.std and user.target commands below. user.p7.set will not work unless color.gamut is set to 5 (user) in advance.
Rev F October 2016 page 136
Digital Projection HIGHlite Laser 3D (Gen I) Series ...Continued from previous page
Notes
user.std.rx
= ?
550 to 750 (integer)
user.std.ry user.std.gx user.std.gy user.std.bx user.std.by user.std.wx user.std.wy
user.target.rx user.target.ry user.target.gx user.target.gy user.target.bx user.target.by user.target.wx user.target.wy user.target.cx user.target.cy user.target.mx user.target.my user.target.yx user.target.yy user.p7.rst
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
COLOR
250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer) 50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer) 550 to 750 (integer) 250 to 450 (integer) 200 to 400 (integer) 400 to 750 (integer) 50 to 250 (integer) 0 to 120 (integer) 200 to 400 (integer) 250 to 450 (integer) 125 to 325 (integer) 225 to 425 (integer) 200 to 400 (integer) 50 to 250 (integer) 300 to 500 (integer) 400 to 600 (integer)
(execute)
Rev F October 2016 page 137
Digital Projection HIGHlite Laser 3D (Gen I) Series
Geometry
Notes
aspect.ratio
= ?
0 = 16:9 1 = TheaterScope 2 = 4:3 3 = 4:3 Narrow 4 = 16:10 5 = 5:4 6 = Source
overscan
= ?
0 = Off 1 = Crop 2 = Zoom
h.keystone
= ?
-350 to +350 (integer)
v.keystone rotation
4corner.ulx 4corner.uly 4corner.urx 4corner.ury 4corner.llx 4corner.lly 4corner.lrx 4corner.lry warp.reset
blanking.top
blanking.bottom blanking.left
blanking.right blanking.reset pin.barrel Protocol Guide
GEOMETRY
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
-200 to +200 (integer) -20 to +20 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer) -100 to +100 (integer)
(execute)
= ? = ? = ? = ?
0 to 360 (integer) 0 to 360 (integer) 0 to 534 (integer) 0 to 534 (integer)
(execute)
= ?
-100 to +100 (integer)
Rev F October 2016 page 138
Digital Projection HIGHlite Laser 3D (Gen I) Series
Edge Blend
Notes
eb.stat
= ?
0 = Off 1 = On
eb.adl
= ?
0 = Off 1 = On
eb.top
= ?
0, 200 to 500
eb.bottom eb.left
eb.right
eb.blu.top
eb.blu.bottom eb.blu.left
eb.blu.right eb.all eb.red
eb.green eb.blue
eb.reset
Protocol Guide
EDGE BLEND
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
0, 200 to 500 0, 200 to 800 0, 200 to 800 0, 8, 16, 24, 32 0, 8, 16, 24, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0, 4, 8, 12, 16, 20, 24, 28, 32 0 to 32 (integer) 0 to 32 (integer) 0 to 32 (integer) 0 to 32 (integer)
(execute)
Rev F October 2016 page 139
Digital Projection HIGHlite Laser 3D (Gen I) Series
3D
3D
Notes
3d.format
= ?
0 = Off 1 = Auto 2 = Side-By-Side (Half) 3 = Top-And-Bottom 4 = Dual-Pipe
3d.dominance
= ?
0 = Normal 1 = Reverse
3d.darktime
= ?
0 = 0.65 ms 1 = 1.3 ms 2 = 1.95 ms 3 = 2.5 ms
3d.syncoffset
= ?
0 to 60 (integer)
laser.mode
= ?
0 = Eco 1 = Normal 2 = Custom 3 = Quiet
laser.power
= ?
0 = 30 1 = 32.5 2 = 35 3 = 37.5 4 = 40 5 = 42.5
laser.hours
?
number
Laser
altitude
laser.status
Protocol Guide
= ?
0 = Off 1 = On
?
0 = Off 1 = On
6 = 45 7 = 47.5 8 = 50 9 = 52.5 10 = 55 11 = 57.5
12 = 60 13 = 62.5 14 = 65 15 = 67.5 16 = 70 17 = 72.5
18 = 75 19 = 77.5 20 = 80 21 = 82.5 22 = 85 23 = 87.5
24 = 90 25 = 92.5 26 = 95 27 = 97.5 28 = 100
laser.power is only effective if laser.mode is set to Custom.
Rev F October 2016 page 140
Digital Projection HIGHlite Laser 3D (Gen I) Series
Setup
SETUP Notes
orientation
= ?
0 = Front Tabletop 1 = Front Ceiling 2 = Rear Tabletop 3 = Rear Ceiling
auto.poweroff
= ?
0 = Off 1 = On
auto.poweron
= ?
0 = Off 1 = On
startup.logo
= ?
0 = Off 1 = On
blank.screen
= ?
0 = Splash 1 = Black 2 = Blue 3 = White
trig.1 trig.2
= ?
0 = Screen 1 = 16:9 2 = Theaterscope 3 = 4:3 4 = 4:3 Narrow 5 = RS-232 6 = RS232 On 7 = RS232 Off
auto.source
= ?
0 = Off 1 = On
ir.enable
= ?
0 = Off 1 = On
Continued on next page...
Protocol Guide
Rev F October 2016 page 141
Digital Projection HIGHlite Laser 3D (Gen I) Series ...Continued from previous page
Notes
osd.menupos
= ?
0 = Top Left 1 = Top Right 2 = Bottom Left 3 = Bottom Right 4 = Center
osd.trans
= ?
0 = 0% 1 = 25% 2 = 50% 3 = 75%
osd.timer
= ?
0 = Always On 1 = 10 seconds 2 = 30 seconds 3 = 60 seconds
osd.msgbox
= ?
0 = Off 1 = On
recall.mem
= ?
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D 4 = Default
save.mem
=
0 = Preset A 1 = Preset B 2 = Preset C 3 = Preset D
Protocol Guide
SETUP
Rev F October 2016 page 142
Digital Projection HIGHlite Laser 3D (Gen I) Series
NETWORK
Network
Notes
lan.dhcp
= ?
0 = Off 1 = On
lan.ip
= ?
A valid IP address in the following format: xxx.xxx.xxx.xxx
lan.subnet
lan.gateway lan.dns
lan.standby
Protocol Guide
= ? = ? = ? = ?
A valid subnet address in the following format: xxx.xxx.xxx.xxx A valid gateway address in the following format: xxx.xxx.xxx.xxx A valid DNS address in the following format: xxx.xxx.xxx.xxx 0 = Off 1 = On
Rev F October 2016 page 143
Digital Projection HIGHlite Laser 3D (Gen I) Series
Information
Notes
model.name
?
string
serial
sw.version act.source
signal
h.refresh v.refresh
pixel.clock
factory.reset laser.hours
INFORMATION
? ?
string string
?
0 = HDMI 1 1 = HDMI 2 2 = VGA 3 = Component 1 4 = Component 2 5 = DVI 6 = HDBaseT 7 = 3GSDI
?
string
? ? ?
string string string
(execute) ?
string
power
= ?
0 = Off 1 = On
shutter
= ?
0 = Open 1 = Close
Miscellaneous
Protocol Guide
Rev F October 2016 page 144
Titan 930 / Quad / LED Series Mercury 930 Series High Brightness Digital Video Projector
4 PROTOCOL GUIDE
Rev F October 2016
Digital Projection Titan 930 / Quad / LED Series
IN THIS GUIDE
IN THIS GUIDE Introduction....................................................................................................... 147 Network setup......................................................................................................... 147 Serial Port setup...................................................................................................... 147 Protocol commands................................................................................................ 148 Examples...................................................................................................................... 148 Responses.................................................................................................................... 148 Inputs................................................................................................................... 149 Test Patterns..................................................................................................... 150 Lens...................................................................................................................... 151 Image................................................................................................................... 152 Color..................................................................................................................... 154 Geometry............................................................................................................ 155 Edge Blend......................................................................................................... 157 PIP......................................................................................................................... 159 3D.......................................................................................................................... 160 Lamps.................................................................................................................. 161 Setup.................................................................................................................... 164 Information......................................................................................................... 166 Virtual OSD........................................................................................................ 167 Menu examples....................................................................................................... 167 Using the Discovery Tool to view your network.................................................. 169
Protocol Guide
Rev F October 2016
Digital Projection Titan 930 / Quad / LED Series
INTRODUCTION
Introduction The projector can be controlled by using an external control system or a PC via an RS232 or LAN interface, using a terminal-emulation program.
Network setup 1. Connect the projector to a LAN network. 2. Open the Setup > Network menu and edit network settings. The default IP address is 192.168.0.100 and the TCP port number is 7000.
Serial Port setup
• • • • •
Baud rate
Notes For details on connecting the projector to an RS232 or LAN network, or changing network settings, see the user manual. Only one control path at a time should be used for protocol control. Attempts to send commands to both serial and network ports at the same time may result in unpredictable behavior.
38,400 bps
Data length 8 bits Stop bits
one
Parity none Flow control none
Protocol Guide
Rev F October 2016 page 147
Digital Projection Titan 930 / Quad / LED Series
INTRODUCTION
Protocol commands
Notes
Commands are used to simulate menu operations and determine the settings of the projector, and use the following format:
•
All commands consist of ASCII text strings starting with an asterisk and ending with an ASCII Carriage Return character
• • •
The string determines which setting the command will affect.
*command operator
(code 13):
Spaces are required before the operator and before the value. The string can take one of the following formats:
Command type
Description
Set
= ?
Makes the setting take the .
Get Execute
Asks what the current value is. The value is returned as an ASCII text string.
To set the default value of a command, simply enter the command name and , without an operator. For example *orientation will set the orientation to 0 (Desktop Front). You must wait for the complete response to a command before sending another command.
Performs an action. No operator is entered for this type of command.
Examples
*orientation = 3
sets the orientation to Rear Ceiling (for a ceiling mounted projector positioned behind the screen)
*aspect.ratio ?
asks what the current aspect ratio is
*zoom.in
commands the projector to zoom in
*orientation=3
is an invalid instruction because of the missing spaces before the operator and the value
Responses If the command has been successful, the projector response begins with ACK or ack (“acknowledged”). For example, if the command is *aspect.ratio = 1 , the projector will return ACK aspect.ratio = 1 or ack aspect.ratio = 1 , depending on the model. In either case the projector will then will change the aspect ratio accordingly. If the command has not been acknowledged, due to a syntax error or another problem, the projector response will be NAK or nack, followed by a brief description of the problem.
Protocol Guide
Rev F October 2016 page 148
Digital Projection Titan 930 / Quad / LED Series
Inputs
INPUTS Notes
The input command can assign the values in the table below to all Titan projectors:
input
= ?
0 = CVBS 1 1 = CVBS 2 2 = S-Video 3 = Component 4 = VGA 5 = 3G-SDI 6 = DVI 7 = HDMI 8 = Test Pattern
The input command can assign additional values to the following projectors:
input
= ?
9 = Main/DVI 10 = Sub/HDMI 11 = Dual Pipe
Protocol Guide
Rev F October 2016 page 149
Digital Projection Titan 930 / Quad / LED Series
TEST PATTERNS
Test Patterns
Notes
The test.pattern and formatter.pattern commands can be used with all projectors:
test.pattern
= ?
0 = Grey V Bars 1 = Grey H Bars 2 = Aspect Test 3 = Alignment Grid 4 = Warp Adjust 5 = SMPTE 6 = Checkerboard 7 = White Field 8 = Black Field 9 = Screen Layout
formatter.pattern
Protocol Guide
0 = white 1 = black 2 = green 3 = red 4 = blue 5 = magenta 6 = cyan 7 = yellow 8 = checker 9 = align 10 = h-ramp 11 = v-ramp 12 = max lumens 13 = native white 14 = native black 15 = native green 16 = native red 17 = native blue 18 = native magenta 19 = native cyan 20 = native yellow 21 = off
The test.pattern command is only accessible if the input command is set to 8 (Test Pattern): *input = 8 .
The formatter.pattern command is used to display formatter test patterns. The patterns are shown as soon as they are selected, regardless of which input the projector may be set to. The off command must be sent in order to return to normal picture:
*formatter.pattern = 21 .
When formatter test patterns are displayed, the OSD is not available.
Rev F October 2016 page 150
Digital Projection Titan 930 / Quad / LED Series
LENS
Lens
Notes
The commands in the table below can be used with all projectors:
zoom.in
(execute)
zoom.out
focus.near focus.far
lens.center lens.up
lens.down lens.left
lens.right lens.stop nudge.up
nudge.down nudge.left
nudge.right
calibrate.zoom
calibrate.focus lensmemory.save
lensmemory.recall
Protocol Guide
(execute) (execute) (execute) (execute)
= = = =
0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest) 0 - 3 (integer, movement speed: 0 = slowest, 3 = fastest)
(execute)
= = = =
0 - 3 (integer, nudge time: 0 = shortest, 3 = longest)
When lens.up, lens.down, lens.left or lens.right is sent, the movement will continue until either a lens.stop command is sent or the limit is reached. Use a nudge command to produce a brief movement of the lens in the specified direction.
0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest) 0 - 3 (integer, nudge time: 0 = shortest, 3 = longest)
(execute) (execute)
= =
0 - 9 (integer) 0 - 9 (integer)
Rev F October 2016 page 151
Digital Projection Titan 930 / Quad / LED Series
Image
IMAGE Notes
The commands in the table below can be used with all projectors:
brightness
= ?
-50 to 50 (integer)
contrast gamma
freeze hue
saturation
blacklevel.offset sharpness detail
luma.sharpness chroma.sharpness
= ?
-50 to 50 (integer)
= ?
0 = 1.0 1 = 1.8 2 = 2.0 3 = 2.2 4 = 2.4 5 = 2.6 6 = 2.8
= ?
On, Off
= ? = ? = ? = ? = ?
-50 to 50 (integer) -50 to 50 (integer) 0 = 0 IRE, 1 = 7.5 IRE -50 to 50 (integer)
When freeze is switched on, the image freezes and the projector will keep displaying the frozen frame until *freeze = off is sent. The frozen image will persist even if you disconnect the source.
0 to 100
= ?
0 = Off 1 = Low 2 = High
= ?
0 = Off 1 = Low 2 = High
Continued on next page...
Protocol Guide
Rev F October 2016 page 152
Digital Projection Titan 930 / Quad / LED Series ...Continued from previous page
Notes
recursive.nr
= ?
0 = Off 1 = Low 2 = Medium 3 = High
mosquito.nr
= ?
0 = Off 1 = Low 2 = Medium 3 = High
ccs
= ?
0 = Off 1 = On
vga.phase
= ?
-15 to 15 (integer)
vga.samples vga.auto
Protocol Guide
= ?
IMAGE
0 to 1444 (integer)
(execute)
Rev F October 2016 page 153
Digital Projection Titan 930 / Quad / LED Series
Color
COLOR Notes
The commands in the table below can be used with all projectors:
gamut
= ?
0 = Peak 1 = HDTV 2 = SDTV 3 = 3200K 4 = 5400K 5 = 6500K 6 = 8000K 7 = 9000K 8 = User 1 9 = User 2
mcgd.data
= ?
green-x, green-y, red-x ,red-y, blue-x, blue-y, white-x, white-y
tcgd1.data tcgd2.data
= ?
green-x, green-y, red-x ,red-y, blue-x, blue-y, white-x, white-y
red.lift
= ?
-50 to +50 (integer)
green.lift blue.lift red.gain
green.gain blue.gain red.dmd
green.dmd blue.dmd
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ?
gamut sends a selection of factory set target data or the two user tables defined by tcgd1.data and tcgd2.data.
mcgd.data, tcgd1.data and tcgd2.data allow for MCGD data or user TCGD data to be sent as comma separated x and y co-ordinates in the specified order. Must be preceded by leading 0, e.g. 0.663,0.332.
-50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) -50 to +50 (integer) On, Off On, Off On, Off
red.dmd enables and disables the red DMD™. Likewise, the green.dmd and blue.dmd commands control the other two DMDs.
Rev F October 2016 page 154
Digital Projection Titan 930 / Quad / LED Series
GEOMETRY
Geometry
Notes
The commands in the table below can be used with all projectors:
aspect.ratio
= ?
0 = Source 1 = Fill & Display 2 = Fill & Crop 3 = Anamorphic 4 = TheaterScope
overscan
= ?
0 = 0% 1 = 2.5% 2 = 5% 3 = 7.5%
sizepos.enable
= ?
On, Off
sizepos.setting h.position v.position h.size
sizepos.aspect v.size
blanking.enable blanking.top
blanking.bottom blanking.left
blanking.right
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ?
Global, Modal -50 to +50 (integer) -50 to +50 (integer) 50 to 400 (integer) On, Off 50 to 400 (integer) On, Off 1 to 100 (integer)
sizepos.enable is identical to the Enable setting in the Geometry > Size & Position
menu.
sizepos.setting is identical to the Setting setting in the Geometry > Size & Position
menu.
sizepos.aspect is identical to the Aspect Lock setting in the Geometry > Size & Position
menu.
1 to 100 (integer) 1 to 255 (integer) 1 to 255 (integer)
Continued on next page...
Protocol Guide
Rev F October 2016 page 155
Digital Projection Titan 930 / Quad / LED Series ...Continued from previous page
Notes
geometry.engine
= ?
0 = Off 1 = Keystone 2 = 4 Corner 3 = Rotation 4 = Warp
h.keystone
= ?
-40 to +40 (integer)
v.keystone pin.barrel
4corner.ulx 4corner.uly 4corner.urx 4corner.ury 4corner.llx 4corner.lly 4corner.lrx 4corner.lry rotation warp.map
Protocol Guide
= ? = ? = ?
= ? = ?
GEOMETRY
-30 to +30 (integer) -20 to +20 (integer) -1000 to +1000
-180 to 180 (integer) 0 to 8 (integer)
pin.barrel sets pincushion / barrel distortion when geometry.engine is set to 1 (keystone) or 3 (rotation). The 4corner commands provide X and Y adjustment for each corner of the image. They are identical to the settings within the Geometry > Cornerstone menu.
warp.map is identical to the Warp Map setting in the Geometry menu. Set to 0 to switch this off.
Rev F October 2016 page 156
Digital Projection Titan 930 / Quad / LED Series
EDGE BLEND
Edge Blend
Notes
The commands in the table below can be used with all projectors:
array.width
= ?
1 to 4 (integer)
array.height array.hset array.vset
scurve.value blending
segmentation eb.top
= ? = ? = ? = ?
The array.width and array.height commands set the width and height of the segmented array respectively.
1 to 4 (integer) 0 to 3 (integer) 0 to 3 (integer)
array.hset and array.vset set the horizontal and vertical position of the projector within the segmented array.
10 to 25 (integer, corresponding to real values of 1.0 to 2.5)
= ?
0 = Off 1 = On 2 = Alignment Pattern
= ?
On, Off
= ?
0 to a value of up to 720, depending on eb.bottom (integer, pixels)
eb.bottom
= ?
0 to a value of up to 720, depending on eb.top (integer, pixels)
eb.left
= ?
0 to a value of up to 1280, depending on eb.right (integer, pixels)
eb.right
= ?
0 to a value of up to 1280, depending on eb.left (integer, pixels)
scurve.value affects the shape of the S-curve which is applied to gradually reduce the brightness in the overlapped regions. eb.top and eb.bottom are identical to the Top Blend Region and Bottom Blend Region settings from the Edge Blend > Blend Width menu.
eb.left and eb.right are identical to Left Blend Region and Right Blend Region from the Edge Blend > Blend Width menu.
Continued on next page...
Protocol Guide
The maximum value for one region will equal 720 minus the pixels already applied to the other region.
The maximum value for one region will equal 1280 minus the pixels already applied to the other region.
Rev F October 2016 page 157
Digital Projection Titan 930 / Quad / LED Series ...Continued from previous page
Notes
eb.blu.unblended
= ?
0 to 63 (integer)
eb.blu.topl eb.blu.top
eb.blu.topr
eb.blu.bottoml eb.blu.bottom
eb.blu.bottomr eb.blu.midl eb.blu.midr eb.blu.x1 eb.blu.y1 eb.blu.x2 eb.blu.y2 eb.blu.x3 eb.blu.y3 eb.blu.x4 eb.blu.y4 eb.reset
Protocol Guide
= ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? = ? =
EDGE BLEND
0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 63 (integer) 0 to 100 (integer) 0 to 100 (integer) -100 to 0 (integer) -100 to 0 (integer) 0 to 100 (integer) 0 to 100 (integer) -100 to 0 (integer) -100 to 0 (integer) 1 = reset width 2 = reset offset 3 = reset width and offset 4 = reset black level uplift 5 = reset width and black level uplift 6 = reset offset and black level offset 7 = reset all
Rev F October 2016 page 158
Digital Projection Titan 930 / Quad / LED Series
PIP
PIP Notes
The commands in the table below can be used with all projectors:
pip.mode
= ?
0 = Off 1 = PIP 2 = PAP 3 = POP
pip.input
= ?
0 = CVBS 1 1 = CVBS 2 2 = S-Video 3 = Component 4 = VGA 5 = 3G-SDI 6 = DVI 7 = HDMI
pip.size
= ?
0 = small 1 = medium 2 = large
pip.position
= ?
0 = Top Left 1 = Top Right 2 = Bottom Left 3 = Bottom Right 4 = Custom
pip.hpos
= ?
0 to 100 (integer)
pip.vpos
Protocol Guide
= ?
0 to 100 (integer)
Rev F October 2016 page 159
Digital Projection Titan 930 / Quad / LED Series
3D
3D Notes
The commands in the table below can be used the following 3D projectors:
3d.enable
= ?
On, Off
3d.frmultiplier 3d.darktime
3d.syncoffset
3d.syncpolarity 3d.dominance
= ?
1 = x1, 2 = x2, 3 = x3
= ?
0 = 0 µs 1 = 650 µs 2 = 1300 µs 3 = 7500 µs
= ?
-15 to +15 (integer)
= ? = ?
The values -15 to +15 represent -1500 µs to +1500 µs.
pos, neg left, right
In addition, the 3d.format command can be used the following 3D projectors:
3d.format
= ?
auto, seq, fpack, tab, sbs
Protocol Guide
Rev F October 2016 page 160
Digital Projection Titan 930 / Quad / LED Series
LAMPS
Lamps
Notes
The commands in the table below can be used with the following projectors:
lamp.mode
= ?
Dual lamp projectors:
Quad lamp projectors:
0 = both lamps 1 = lamp 1 2 = lamp 2 3 = auto 1
0 = all lamps 1 = auto 3 2 = auto 2 3 = auto 1 4 = lamps 1,2 and 3 5 = lamps 1,2 and 4 6 = lamps 1,3 and 4 7 = lamps 2,3 and 4 8 = lamps 1 and 2 9 = lamps 1 and 3 10 = lamps 1 and 4 11 = lamps 2 and 3 12 = lamps 2 and 4 13 = lamps 3 and 4 14 = lamp 1 15 = lamp 2 16 = lamp 3 17 = lamp 4
lamp.power
compensation.mode compensation
= ?
1 to 100 (integer)
= ?
auto manual
= ?
1 to 200 (integer)
The lamp.power command has a value range between 80 and 100. Any value lower than 80 will be interpreted as 80 by the projector.
Continued on next page...
Protocol Guide
Rev F October 2016 page 161
Digital Projection Titan 930 / Quad / LED Series ...Continued from previous page
lamp1.hours lamp2.hours lamp3.hours lamp4.hours lamp1.strikes lamp2.strikes lamp3.strikes lamp4.strikes lamp1.serial lamp2.serial lamp3.serial lamp4.serial lamp1.status lamp2.status lamp3.status lamp4.status
?
Protocol Guide
LAMPS Notes
?
?
?
0 = Off 1 = Pre cooling 2 = Ignition 3 = Ignition confirm 4 = Enable communication 5 = Delay cooling 6 = Warm up eco mode 7 = Warm up 8 = Cool down no restrike 9 = Cool down ok restrike 10 = Normal 11 = Error 12 = Ignition retry 13 = Re strike delay 14 = Enable CSI 15 = Deferred shutdown 16 = Shutdown confirm 17 = Error shutdown 18 = Lamp warmup stage 1 19 = Lamp warmup stage 2
Rev F October 2016 page 162
Digital Projection Titan 930 / Quad / LED Series The conditioning command can be used with the following projectors:
conditioning
= ?
On, Off
Protocol Guide
LAMPS Notes
Rev F October 2016 page 163
Digital Projection Titan 930 / Quad / LED Series
SETUP
Setup
Notes
The commands in the table below can be used with all projectors:
orientation
= ?
0 = Desktop Front 1 = Ceiling Front 2 = Desktop Rear 3 = Ceiling Rear
control.dhcp
= ?
On, Off
control.ip
control.subnet shutter
ir.address power
factory.reset identify
= ? = ?
A valid IP address in the following format: xxx.xxx.xxx.xxx A valid subnet address in the following format: xxx.xxx.xxx.xxx
= ?
on or open off or close
= ?
0 to 255
= ?
On, Off
(execute) (execute)
latency
= ?
0 = Low Latency 1 = Best Video
dvi.boosteq
= ?
On, Off
digital.colspace
= ?
0 = RGB 1 = YPbPr 2 = Auto
digital.range
= ?
0 = full 1 = limited 2 = auto
dvi.port
= ?
0 = digital 1 = analog
identify flashes the keypad lights for 10 seconds to identify the projector.
Continued on next page...
Protocol Guide
Rev F October 2016 page 164
Digital Projection Titan 930 / Quad / LED Series
SETUP
...Continued from previous page
Notes
component.colspace
= ?
0 = RGB 1 = YPbPr
component.synctype
= ?
0 = 3 wire 1 = 4 wire 2 = Auto
3gsdi.stream
= ?
0 = Stream 1 1 = Stream 2
lan.dhcp
= ?
On, Off
lan.ip
lan.subnet
configuration
Protocol Guide
= ? = ? = ?
A valid IP address in the following format xxx.xxx.xxx.xxx A valid subnet address in the following format xxx.xxx.xxx.xxx
0 = PIP 1 = Edge Blend
Rev F October 2016 page 165
Digital Projection Titan 930 / Quad / LED Series
Information
INFORMATION Notes
The commands in the table below can be used with all projectors:
sw.version
?
fw.version
?
board.id
from.version lens.version seq.version model.name serial
inlet.temp dmd.temp
?
sw.version returns the software release version, identical to Information > Configuration > Interface.
board.id is identical to
Information > Configuration > Hardware.
? ?
fw.version returns the firmware version.
?
from.version returns the factory ROM version.
?
lens.version returns the lens mount version - identical to
? ?
Information > Configuration > Lens.
?
The commands in the table below can be used with all 3D projectors:
seq.version returns the formatter sequences version, identical to Information >
Configuration > Sequences.
board.id3d
?
fw.version3d
?
inlet.temp and dmd.temp return the temperature in °C at the air inlets and the DMD™ respectively. board.id3d is identical to
Information > Configuration > 3D Hardware.
fw.version3d is identical to
Information > Configuration > 3D Firmware.
Protocol Guide
Rev F October 2016 page 166
Digital Projection Titan 930 / Quad / LED Series
VIRTUAL OSD
Virtual OSD
Notes
The LAN IP Address of the projector can be set by using the Network submenu, which can be found in the Setup menu. Once the LAN IP Address has been set, it is possible to control all the functions available on the OSD by using the embedded Virtual OSD. To access the Virtual OSD, do one of the following:
• •
Type the URL http:// into the address bar of your browser, then press ENTER. Use the DiscoveryTool_V1.0.exe application.
The embedded webpage shown below right should appear.
See Using the Discovery Tool to view your network later in this section.
Menu examples The webpages mirror the OSD menus, as shown in the following examples:
• • • •
The last 3 bytes of the projector’s MAC Address are shown in the Unit ID, 00‑3E‑7A in the example shown here. The menu name is shown in orange underlined text, as in the Main Menu shown here. Drop-down lists are represented by similar drop-down lists, as in the Input Selection list shown here. Sub-menus are represented by yellow underlined links, as shown here.
Protocol Guide
Rev F October 2016 page 167
Digital Projection Titan 930 / Quad / LED Series Examples (continued)
•
Sliders are represented by similar sliders, as in the Array Width and Array Height sliders shown here.
• •
Items that are not available are shown grayed-out, as shown here.
•
Commands are represented by Do it buttons, as shown here.
VIRTUAL OSD Notes
To return from a sub-menu to the previous menu, click on the Back link at the bottom of the menu.
Protocol Guide
Rev F October 2016 page 168
Digital Projection Titan 930 / Quad / LED Series
VIRTUAL OSD
Using the Discovery Tool to view your network The Discovery Tool allows you to view the IP addresses of all projectors in your network. The tool opens the following page in your browser:
Notes The tool will only find projectors from the same subnet as the host computer. The IP addresses of these projectors will be identical up to the third octet as shown in the example.
Click on a projector IP address to access the Virtual OSD for that projector.
Protocol Guide
Rev F October 2016 page 169
Contact Information: Digital Projection Limited
Digital Projection Inc.
Digital Projection China
Digital Projection Asia
Greenside Way, Middleton Manchester M24 1XX, UK
55 Chastain Road, Suite 115 Kennesaw, GA 30144, USA
中国 北京市 朝阳区 芍药居北里101号 世奥国际中心A座2006室(100029)
Registered in England No. 2207264 Registered Office: as above
Tel Fax
Tel Fax
[email protected] www.digitalprojection.com
Rm A2006 ShaoYaoJu 101 North Lane Shi Ao International Center Chaoyang District Beijing 100029, PR CHINA
16 New Industrial Road #02-10 Hudson Technocentre Singapore 536204
(+44) 161 947 3300 (+44) 161 684 7674
[email protected] [email protected] www.digitalprojection.co.uk
115-482F Protocol Guides
(+1) 770 420 1350 (+1) 770 420 1360
Tel Fax
(+86) 10 84888566 (+86) 10 84888566-805
[email protected] www.dp-china.com.cn
Tel Fax
(+65) 6284-1138 (+65) 6284-1238
www.digitalprojectionasia.com
