Appendix A (Cyberlight User Manual v2.0)
Contents
1. Table A 2 Cyberlight DMX Assignments Mode 1 Channel Assignment Range Construct Parameter Channel 1 Pan coarse adjustment Position Channel 2 Pan fine adjustment Position Channel 3 Tilt coarse adjustment Position Channel 4 Tilt fine adjustment Position Appendix A DMX Control of Cyberlight A 3 Table A 2 Cyberlight DMX Assignments Mode 1 Channel Assignment Range Construct Parameter Channel 5 Color Wheel Full Color 1 open Half color 1 and 2 Color 2 Half color 2 and 3 Color 3 Half color 3 and 4 Color 4 Half color 4 and 5 Color 5 Half color 5 and 6 Color 6 Half color 6 and 7 Color 7 Half color 7 and 8 Color 8 Half color 8 and 1 Forward spin speed 8 Forward spin speed 7 Forward spin speed 6 Forward spin speed 5 Forward spin speed 4 Forward spin speed 3 Forward spin speed 2 Forward spin speed 1 Reverse spin speed 1 Reverse spin speed 2 Reverse spin speed 3 Reverse spin speed 4 Reverse spin speed 5 Reverse spin speed 6 Reverse spin speed 7 Reverse spin speed 8 Color 1 open Channel 6 Cyan Red Color Mix Channel 7 Magenta Green Color Mix Channel 8 Yellow Blue Color Mix A 4 Cyberlight User Manual Table A 2 Cyberlight DMX Assignments Mode 1 Channel Assignment Range Construct Parameter Channel 9 Static litho Full Litho 1 open Litho 2 Lit2. 25 fader home Make sure you first follow the instructions in the section titled Accessing Control Information on page A 2 Appendix A DMX Control of Cyberlight A 17 Channel Boundaries This section describes the relationship between DMX address and fixture number and explains how to mix fixtures using DMX modes 1 or 2 with DMX mode 3 on the same link Overview DMX 512 protocol provides 512 channels that are divided among all the fixtures connected to the controller in a particular link The number of channels that a fixture uses depends on the requirements and design of the fixture In theory you could have one fixture that uses 512 channels two fixtures that use 256 channels four fixtures that use 128 channels up to 512 fixtures that use one channel each Each Cyberlight fixture uses a contiguous block of channels with each block having a unique starting address The block of channels assigned to each address defines its channel boundary Channel boundaries can start at any address even or odd The exact address depends on the fixture s addressing scheme Cyberlight DMX modes 1 and 2 are each on 20 channel boundaries while mode 3 is on a 15 channel boundary Correlation of Fixture Number and DMX Address Table A 7 and Table A 8 correlate DMX mode fixture numbering to actual DMX 512 addresses Table A 7 20 Channel Addresses Modes 1 and 2 Fixture Fixture Fixture Fixture Fixt
3. 0 100 0 255 Position Channel 5 Color Wheel Full 255 Color 1 open 98 250 Half color 1 and 2 Full Speed 96 245 Color 2 94 240 Half color 2 and 3 93 237 Color 3 91 232 Half color 3 and 4 90 230 Color 4 88 224 Half color 4 and 5 87 222 Color 5 85 217 Half color 5 and 6 83 211 Color 6 82 209 Half color 6 and 7 80 204 Color 7 79 201 Half color 7 and 8 77 196 Color 8 76 194 Half color 8 and 1 Color Wheel 74 189 Color 1 open 73 186 Half color 1 and 2 Mspeed 71 181 Color 2 70 179 Half color 2 and 3 68 173 Color 3 66 168 Half color 3 and 4 65 166 Color 4 63 161 Half color 4 and 5 62 158 Color 5 61 156 Half color 5 and 6 59 150 Color 6 57 145 Half color 6 and 7 56 143 Color 7 54 138 Half color 7 and 8 52 133 Color 8 51 130 Half color 8 and 1 A 8 Cyberlight User Manual Table A 4 Cyberlight DMX Assignments Mode 2 Channel Channel Channel Assignment Value Construct Parameter Value numerical Color Wheel 50 127 Forward spin speed fastest Spin Speed 26 66 Forward spin speed slowest A A Reverse spin speed slowest 0 2 Reverse spin speed fastest 0 0 Color 1 open Channel 6 Cyan Red 0 100 0 255 Color Mix Channel 7 Magenta Green 0 100 0 255 Color Mix Channel 8 Yellow Blue 0 100 0 255 Color Mix Channel 9 Static litho Full 255 Litho 1 open 98 250 Litho 1 shake wide Full Speed 96 245 Litho 2 94 240 Litho 2 shake wide 93 237 Litho 3 91 232 Litho 3 s
4. 34 fixtures per link while modes 1 and 2 both support up to 25 fixtures per link Note Modes 1 2 and 3 are supported by all Cyberlight models If you have any Cyberlight CXs on the link they will not respond to color mixing or zoom commands but will otherwise respond to commands identically to CLs and SVs Performing Software Uploads Over a Link Software uploads can be performed over a link using either a Link Card or the Cyberlight Upload Module Fixtures automatically switch to LWR protocol for the upload then switch back to DMX control after the upload has been successfully completed Consult the Status Cue software documentation or the Upload Module for the procedure Note There are two things that can stop software uploads to a Cyberlight a data distributor and certain High End Systems equipment on the same link You must bypass any data distributors when performing a software upload on a link Also review the section titled Controlling Multiple High End Systems Fixtures on the Same Link on page 2 3 Appendix A DMX Control of Cyberlight A 1 Address DIP Switches Figure A 1 below shows a functional breakdown of the eight DMX address DIP switches located on the Cyberlight fixture s rear panel Review Identifying Rear Panel Components on page 1 8 for the location of the switches Fixture number t Protocol Mode Figure A 1 The DMX address switch block allows you to select the control protocol DMX 1
5. 4 Forward rotate 1 position to index with this pa 68 173 Position 5 channel Then use Channel AN y 64 163 Position 4 11 to set the rotational a eee 61 156 Position 3 open position index value from 0 a to 360 degrees 58 150 Position 2 ae 54 138 Position 1 50 127 Reverse rotate 5 Mspeed 46 117 Reverse rotate 4 42 107 Reverse rotate 2 39 99 Reverse rotate 1 36 92 Forward rotate 5 32 82 Forward rotate 4 28 71 Forward rotate 2 24 61 Forward rotate 1 20 51 Position 5 17 43 Position 4 13 33 Position 3 open 10 26 Position 2 5 13 Position 1 0 0 Position 3 open Channel 11 Rotate 0 100 0 255 For Rotating Litho rotate mode use use with Channel 10 Ch 11 to set rotate speed For Rotating Litho position mode use Ch 11 to set the index from 0 to 360 degrees Channel 12 Zoom 0 100 0 255 Zoom in out Channel 13 Focus 0 100 0 255 Focus in out Channel 14 Iris 0 100 0 255 Iris open close A 10 Cyberlight User Manual Table A 4 Cyberlight DMX Assignments Mode 2 Channel Channel Channel Assignment Value Construct Parameter Value numerical Channel 15 Effects Wheel Full 255 Effect 4 open 96 245 Effect 8 cyan color corrector Full Speed 91 232 Effect 7 diffusion 85 217 Effect 6 wide angle 80 204 Effect 5 magenta color corrector 73 186 Effect 4 open 67 171 Effect 3 yellow color corrector 62 158 Effect 2 CYM tri color mosaic 56 143 Effect 1 prism Cha
6. Appendix A DMX Control of Cyberlight Use this appendix to control your Cyberlight fixtures using DMX 512 modes 1 2 and 3 Overview The Cyberlight is a block addressed fixture that is you do not address it at an arbitrary DMX start channel but rather at a channel boundary There are two channel boundaries you can select 15 channel and 20 channel If you choose to control your Cyberlight on a 20 channel boundary for example each fixture takes up a contiguous block of 20 DMX channels Selecting a DMX Mode The three DMX modes available for your Cyberlight provide three different levels of control and flexibility and can be used with CLs SVs and CXs as summarized below e Mode 1 standard 20 channel control Mode 2 recommended enhanced 20 channel control Mode 2 offers the same features as mode 1 but at greater resolution for example mode 2 supports frost strobing and 96 shutter strobe speeds while mode does not support frost strobing and supports only eight shutter strobe speeds e Mode 3 minimal 15 channel minimal control Mode 3 does not support color mixing or zoom You can select mode 3 in two possible situations e You are controlling only CXs on a link Mode 3 utilizes all CX features but does not support color mixing or zoom which are supported by CLs and SVs only e You have do not have enough available DMX channels on the link to allocate 20 channels per Cyberlight fixture Mode 3 also supports up to
7. DMX 2 DMX 3 or LWR and the fixture number Related Topics Other information you might need to reference when assigning DMX channel numbers is summarized below The section titled Channel Boundaries on page A 18 explains the relationship between fixture number which you set with the address DIP switches and actual DMX address ranges The section titled Choosing DMX 512 or LWR Protocol on page 2 2 explains what to consider before selecting either DMX 512 or Lightwave Research LWR control protocol The section titled Controlling Multiple High End Systems Fixtures on the Same Link on page 2 3 explains important considerations when mixing Cyberlight fixtures Intellabeam fixtures Emulator fixtures and AF1000 fixtures on the same link Accessing Control Information In order to access the control channel channel 20 in 20 channel DMX modes and 2 and channel 15 in 15 channel DMX mode 3 you must follow the procedure below 1 2 Put the dim channel and the control channel at full Put the dim channel at zero and the control channel at full Must occur within 3 seconds Put the dim channel at zero Put the control channel at 25 for home or 50 for shutdown Hold for an additional 3 seconds Rounding Conventions The values displayed in the Range and Channel Value columns in the following tables may vary slightly depending on your controller s rounding convention A 2 Cyberlight User Ma
8. ard rotate 4 28 Forward rotate 2 24 Forward rotate 1 20 Position 5 17 Position 4 13 Position 3 open 10 Position 2 5 Position 1 0 Position 3 open Channel 8 Rotate For Rotating Litho rotate mode use Ch 8 to set use with Channel 7 rotate speed For Rotating Litho position mode use Ch 8 to set the index from 0 to 360 degrees Channel 9 Focus Focus in out Channel 10 Iris Iris open close Channel 11 Effects Wheel Full Effect 4 open 96 Effect 8 cyan color corrector Full Speed 91 Effect 7 diffusion 85 Effect 6 wide angle 80 Effect 5 magenta color corrector 73 Effect 4 open 67 Effect 3 yellow color corrector 62 Effect 2 cym tri color mosaic 56 Effect 1 prism Channel 11 Effects Wheel 50 Effect 8 cyan color corrector 44 Effect 7 diffusion Mspeed 37 Effect 6 wide angle 33 Effect 5 magenta color corrector 27 Effect 4 open 21 Effect 3 yellow color corrector 14 Effect 2 tri color mosaic C Y M 8 Effect 1 prism 0 Effect 4 open A 16 Cyberlight User Manual Table A 6 Cyberlight DMX Assignments Mode 3 Channel Assignment Range Construct Parameter Channel 12 Shutter Full Open 98 Closed Strobe 97 Strobe speed fastest 50 duty cycle 1 Strobe speed slowest 1 Open 0 Closed Channel 13 Dim Dim open close Channel 14 Motor Speed Full Speed 97 Speed 1 0 Speed 94 Channel 15 Control 50 fader shutdown
9. d SVs are compatible with all three DMX modes The only differences in functionality are between CXs and CLs SVs namely CXs do not support zoom or color mixing A CX will simply not respond to color mixing or zoom commands If you do wish to mix DMX modes on a particular link however you need to be aware that addressing 20 channel and 15 channel fixtures in an unplanned fashion can cause wasted channels because of boundary overlapping For example notice in Figure A 2 that to address two 20 channel fixtures and two 15 channels fixtures in the order 20 15 20 15 would waste 35 channels Fixture numbers 2 5 and 6 cannot be used because address ranges used by the fixtures would overlap Addressing the same fixtures in a planned order 20 20 15 15 would waste only 5 channels as Figure A 3 shows Fixture 1 2 3 4 5 6 7 20 Channel e a 21 40 41 60 L 61 80 81 100 101 120 121 140 15 Channel 1 15 16 30 LE 31 45 46 60 61 75 76 90 L 91 105 CX Figure A 2 Unplanned channel addressing wastes DMX addresses because of fixture boundary overlap Fixture 1 2 3 2 5 20 Channel b 1 20 B 21 40 41 60 61 80 81 100 101 120 121 140 15 Channel 1 15 16 30 31 45 L 46 60 i 61 75 76 90 91 105 CX Figure A 3 Planned channel addressing wastes a minimum of DMX address space Appendix A DMX Control of Cyberlight A 20
10. hake wide 90 230 Litho 4 88 224 Litho 4 shake wide 87 222 Litho 5 85 217 Litho 5 shake wide 83 211 Litho 6 82 209 Litho 6 shake wide 80 204 Litho 7 79 201 Litho 7 shake wide 77 196 Litho 8 76 194 Litho 8 shake wide Static litho 74 189 Litho 1 open 73 186 Litho 1 shake narrow Mspeed 71 181 Litho 2 70 179 Litho 2 shake narrow 68 173 Litho 3 66 168 Litho 3 shake narrow 65 166 Litho 4 63 161 Litho 4 shake narrow 62 158 Litho 5 61 156 Litho 5 shake narrow 59 150 Litho 6 57 145 Litho 6 shake narrow 56 143 Litho 7 54 138 Litho 7 shake narrow 52 133 Litho 8 51 130 Litho 8 shake narrow Appendix A DMX Control of Cyberlight A 9 Table A 4 Cyberlight DMX Assignments Mode 2 Channel Channel Channel Assignment 7 Value Construct Parameter Value numerical Static litho 50 127 Forward spin speed fastest Spin Speed 26 66 Forward spin speed slowest 25 64 Reverse spin speed slowest 0 2 Reverse spin speed fastest 0 0 Litho 1 open Channel 10 Rotating Litho Full 255 Position 3 open Full Speed 98 250 Reverse rotate 5 Select the litho to rotate 95 242 Reverse rotate 4 forward reverse with this 91 232 Reverse rotate 2 channel Then use Channel 87 222 Reverse rotate 1 11 to set the rotation speed 83 212 Forward rotate 5 EN T 80 204 Forward rotate 4 For rotating litho position 4 76 194 Forward rotate 2 parameters select the litho a f 72 18
11. ho 3 Litho 4 Litho 5 Litho 6 Litho 7 Litho 8 Forward spin speed 8 Forward spin speed 7 Forward spin speed 6 Forward spin speed 5 Forward spin speed 4 Forward spin speed 3 Forward spin speed 2 Forward spin speed 1 Reverse spin speed 1 Reverse spin speed 2 Reverse spin speed 3 Reverse spin speed 4 Reverse spin speed 5 Reverse spin speed 6 Reverse spin speed 7 Reverse spin speed 8 Litho 1 open Channel 10 Rotating Litho Select the litho to rotate forward reverse with this channel Then use Channel 11 to set the rotation speed For rotating litho position parameters select the litho position to index with this channel Then use Channel 11 to set the rotational position index value from 0 to 360 degrees Position 3 open Reverse rotate 5 Reverse rotate 4 Reverse rotate 2 Reverse rotate 1 Forward rotate 5 Forward rotate 4 Forward rotate 2 Forward rotate 1 Position 5 Position 4 Position 3 open Position 2 Position 1 Position 3 open Channel 11 Rotate use with Channel 10 For Rotating Litho rotate mode use Ch 11 to set rotate speed For Rotating Litho position mode use Ch 11 to set the index from 0 to 360 degrees Channel 12 Zoom Zoom in out Channel 13 Focus Focus in out Channel 14 Iris Iris open close Appendix A DMX Control of Cyberlight A 5 Table A 2 Cyberlight DMX Assignments Mode 1 Channel Assignment Range Const
12. mode 2 channel assignments Table A 3 Addressing Fixtures in 20 Channel DMX 512 Mode 2 Ee Page Ree aan ce Switches ON Switches ON Fixture 1 none 001 Fixture 14 1 3 and 4 261 Fixture 2 1 021 Fixture 15 2 3 and 4 281 Fixture 3 2 041 Fixture 16 1 2 3 and 4 301 Fixture 4 1 and 2 061 Fixture 17 5 321 Fixture 5 3 081 Fixture 18 1 and5 341 Fixture 6 1 and3 101 Fixture 19 2and5 361 Fixture 7 2 and 3 121 Fixture 20 1 2 and 5 381 Fixture 8 1 2 and 3 141 Fixture 21 3and5 401 Fixture 9 4 161 Fixture 22 1 3 and 5 421 Fixture 10 1 and 4 181 Fixture 23 2 3 and 5 441 Fixture 11 2 and 4 201 Fixture 24 1 2 3 and5 461 Fixture 12 1 2 and 4 221 Fixture 25 4and5 481 Fixture 13 3 and 4 241 Appendix A DMX Control of Cyberlight A 7 The Channel Value column in Table A 4 below has values you should use if your controller has dimmer type controls The Channel Value numerical column has values you should use if you are using the Status Cue system or another controller that uses digital or numerical controls Table A 4 Cyberlight DMX Assignments Mode 2 Channel Channel Channel Assignment Value Construct Parameter Value numerical Channel 1 Pan coarse adjustment 0 100 0 255 Position Channel 2 Pan fine adjustment 0 100 0 255 Position Channel 3 Tilt coarse adjustment 0 100 0 255 Position Channel 4 Tilt fine adjustment
13. nments Mode 3 Channel Assignment Range Construct Parameter Channel 1 Pan coarse adjustment Position Channel 2 Pan fine adjustment Position Channel 3 Tilt coarse adjustment Position Channel 4 Tilt fine adjustment Position Channel 5 Color Wheel Full Color 1 open 98 Half color 1 and 2 Full Speed 96 Color 2 94 Half color 2 and 3 93 Color 3 91 Half color 3 and 4 90 Color 4 88 Half color 4 and 5 87 Color 5 85 Half color 5 and 6 83 Color 6 82 Half color 6 and 7 80 Color 7 79 Half color 7 and 8 77 Color 8 76 Half color 8 and 1 Color Wheel 74 Color 1 open 73 Half color 1 and 2 Mspeed 71 Color 2 70 Half color 2 and 3 68 Color 3 66 Half color 3 and 4 65 Color 4 63 Half color 4 and 5 62 Color 5 61 Half color 5 and 6 59 Color 6 57 Half color 6 and 7 56 Color 7 54 Half color 7 and 8 52 Color 8 51 Half color 8 and 1 Color Wheel 50 Forward spin speed fastest Spin Speed A 26 Forward spin speed slowest 4 Reverse spin speed slowest 0 Reverse spin speed fastest 0 Color 1 open A 14 Cyberlight User Manual Table A 6 Cyberlight DMX Assignments Mode 3 Channel Assignment Range Construct Parameter Channel 6 Static litho Full Litho 1 open 98 Litho 1 shake wide Full Speed 96 Litho 2 94 Litho 2 shake wide 93 Litho 3 91 Litho 3 shake wide 90 Litho 4 88 Litho 4 shake wide 87 Litho 5 85 Litho 5 shake wide 83 Litho 6 82 Litho 6 shake wide 80 Li
14. nnel 15 Effects Wheel 50 127 Effect 8 cyan color corrector 44 112 Effect 7 diffusion Mspeed 37 94 Effect 6 wide angle 33 84 Effect 5 magenta color corrector 27 69 Effect 4 open 21 54 Effect 3 yellow color corrector 14 36 Effect 2 tri color mosaic C Y M 8 20 Effect 1 prism 0 0 Effect 4 open Channel 16 Frost Full 255 Frost frost free Frost variable None to full 50 129 Frost frost full Frost 50 126 Frost strobing fastest Full Frost Strobing Frost in 0 2 Frost strobing slowest 0 0 Frost frost free Channel 17 Shutter Full 255 Open 98 250 Closed Strobe 97 247 Strobe speed fastest 50 duty cycle 1 4 Strobe speed slowest 1 1 Open 0 0 Closed Channel 18 Dim 100 255 No dim 0 0 Full dim blackout Channel 19 Motor Speed Full 255 200 Speed 99 21 Speed 1 0 0 Speed 95 Appendix A DMX Control of Cyberlight A 11 Table A 4 Cyberlight DMX Assignments Mode 2 Channel enannel Channel Assignment 7 Value Construct Parameter Value numerical Channel 20 Control 50 128 shutdown 25 64 home Make sure you first follow the instructions in the section titled Accessing Control Information on page A 2 A 12 Cyberlight User Manual DMX 512 Mode 3 Cyberlight 15 Channel DMX Control Each Cyberlight fixture in DMX mode 3 uses 15 channels of the DMX 512 protocol thus providing control for
15. nual DMX 512 Mode 1 Standard Cyberlight DMX Control Each Cyberlight fixture in DMX mode 1 uses 20 channels of the DMX 512 protocol thus providing control for up to 25 fixtures 512 20 25 6 fixtures Use the procedure below to control your Cyberlight with DMX mode 1 1 Set the fixture to DMX mode 1 by setting address switch 7 to OFF and address switch 8 to ON 2 Set address switches through 5 to correspond to the desired fixture number as shown in Table A 1 Note that Cyberlight CX fixtures configured for 20 channel mode work properly and can be mixed with Cyberlight fixtures they do not respond to the color mixing zoom or variable frost constructs 3 Refer to Table A 2 for the Cyberlight DMX 20 channel assignments Table A 1 Addressing Fixtures in 20 Channel DMX 512 Mode 1 ae Se Ee Switches ON Switches ON Fixture 1 none 001 Fixture 14 1 3 and 4 261 Fixture 2 1 021 Fixture 15 2 3 and 4 281 Fixture 3 2 041 Fixture 16 1 2 3 and 4 301 Fixture 4 1 and 2 061 Fixture 17 5 321 Fixture 5 3 081 Fixture 18 1 and5 341 Fixture 6 1 and3 101 Fixture 19 2and5 361 Fixture 7 2 and 3 121 Fixture 20 1 2 and5 381 Fixture 8 1 2 and 3 141 Fixture 21 3and5 401 Fixture 9 4 161 Fixture 22 1 3 and 5 421 Fixture 10 1 and 4 181 Fixture 23 2 3 and 5 441 Fixture 11 2 and 4 201 Fixture 24 1 2 3 and5 461 Fixture 12 1 2 and 4 221 Fixture 25 4and5 481 Fixture 13 3 and 4 241
16. ruct Parameter Channel 15 Effects Wheel Full Effect 4 open Effect 8 Effect 7 Effect 6 Effect 5 Effect 4 Effect 3 Effect 2 Effect 1 0 Effect 4 open Channel 16 Frost Frost in out Channel 17 Shutter Full Open Closed Strobe speed 8 Strobe speed 7 Strobe speed 6 Strobe speed 5 Strobe speed 4 Strobe speed 3 Strobe speed 2 Strobe speed 1 Open 0 Closed Channel 18 Dim Dim open close Channel 19 Motor Speed Speed 99 Speed 1 Speed 94 n oc Channel 20 Control 50 fader shutdown 25 fader home Make sure you first follow the instructions in the section titled Accessing Control Information on page A 2 A 6 Cyberlight User Manual DMX 512 Mode 2 Enhanced Cyberlight DMX Control Each Cyberlight fixture in DMX mode 2 uses 20 channels of the DMX 512 protocol thus providing control for up to 25 fixtures 512 20 25 6 fixtures Use the procedure below to control your Cyberlight with DMX mode 2 1 Set the Cyberlight fixture to DMX mode 2 by setting address switch 7 to ON and address switch 8 to OFF 2 Set address switches 1 through 5 to correspond to the desired fixture number as shown in Table A 3 Note that Cyberlight CX fixtures configured for 20 channel mode work properly and can be mixed with Cyberlight fixtures they do not respond to the color mixing zoom and frost constructs 3 Refer to Table A 4 for the Cyberlight DMX
17. tho 7 79 Litho 7 shake wide 77 Litho 8 76 Litho 8 shake wide Static litho 74 Litho 1 open 73 Litho 1 shake narrow Mspeed 71 Litho 2 70 Litho 2 shake narrow 68 Litho 3 66 Litho 3 shake narrow 65 Litho 4 63 Litho 4 shake narrow 62 Litho 5 61 Litho 5 shake narrow 59 Litho 6 57 Litho 6 shake narrow 56 Litho 7 54 Litho 7 shake narrow 52 Litho 8 51 Litho 8 shake narrow Static litho 50 Forward spin speed fastest Spin Speed 26 Forward spin speed slowest 25 Reverse spin speed slowest 0 Reverse spin speed fastest 0 Litho 1 open Appendix A DMX Control of Cyberlight A 15 Table A 6 Cyberlight DMX Assignments Mode 3 Channel Assignment Range Construct Parameter Channel 7 Rotating Litho Full Position 3 open Full Speed 98 Reverse rotate 5 Select the litho to rotate 95 Reverse rotate 4 forward reverse with this 91 Reverse rotate 2 channel Then use Channel 87 Reverse rotate 1 11 to set the rotation speed 83 Forward rotate 5 For rotating litho position a beheld cae or rotanng p 76 Forward rotate 2 parameters select the litho 72 ForwWaid totate 1 position to index with this Position 5 channel Then use Channel a akah osition 4 11 to set the rotational 61 Position 3 open position index value from 0 58 Position 2 to 360 degrees 54 Position 1 50 Reverse rotate 5 Mspeed 46 Reverse rotate 4 42 Reverse rotate 2 39 Reverse rotate 1 36 Forward rotate 5 32 Forw
18. up to 34 fixtures 512 15 34 1 fixtures Use the procedure below to control your Cyberlight with DMX mode 3 1 Set the Cyberlight fixture to DMX mode 3 by setting address switches 7 and 8 to ON 2 Set address switches through 6 as shown in Table A 5 3 Refer to Table A 6 for the Cyberlight 15 channel assignments Table A 5 Addressing Fixtures in 15 Channel DMX 512 Mode 3 Cybetlgh Paes DMX Channel Cyberlight eae DMX Channel ure Switches ON Number Fixture Switches ON Number Fixture 1 none 001 Fixture 18 1 and5 256 Fixture 2 1 016 Fixture 19 2and5 271 Fixture 3 2 031 Fixture 20 1 2 and 5 286 Fixture 4 1 and 2 046 Fixture 21 3 and 5 301 Fixture 5 3 61 Fixture 22 1 3 and 5 316 Fixture 6 1 and3 076 Fixture 23 2 3 and 5 331 Fixture 7 2and3 091 Fixture 24 1 2 3 and 5 346 Fixture 8 1 2 and 3 106 Fixture 25 4and5 361 Fixture 9 4 121 Fixture 26 1 4 and 5 376 Fixture 10 1 and 4 136 Fixture 27 2 4 and 5 391 Fixture 11 2 and 4 151 Fixture 28 1 2 4 and5 406 Fixture 12 1 2 and 4 166 Fixture 29 3 4 and 5 421 Fixture 13 3 and 4 181 Fixture 30 1 3 4 and5 436 Fixture 14 1 3 and 4 196 Fixture 31 2 3 4 and 5 451 Fixture 15 2 3 and 4 211 Fixture 32 1 2 3 4 and 5 466 Fixture 16 1 2 3 and 4 226 Fixture 33 6 481 Fixture 17 5 241 Fixture 34 1 and 6 496 Appendix A DMX Control of Cyberlight A 13 Table A 6 Cyberlight DMX Assig
19. ure Number DMX Number DMX Number DMX Number DMX Number DMX Address Address Address Address Address Range Range Range Range Range 1 1 20 6 101 120 11 201 220 16 301 320 21 401 420 2 21 40 7 121 140 12 221 240 17 321 340 22 421 440 3 41 60 8 141 160 13 241 260 18 341 360 23 441 460 4 61 80 9 161 180 14 261 280 19 361 380 24 461 480 5 81 100 10 181 200 15 281 300 20 381 400 25 481 500 Appendix A DMX Control of Cyberlight A 18 Table A 8 15 Channel Addresses Mode 3 Fixture Fixture Fixture Fixture Fixture Fixture Number DMX Number DMX Number DMX Number DMX Number DMX Number DMX Address Address Address Address Address Address Range Range Range Range Range Range 1 1 15 7 91 105 13 181 195 19 271 285 25 361 375 31 451 465 2 16 30 8 106 120 14 196 210 20 286 300 26 376 390 32 466 480 3 31 45 9 121 135 15 211 225 21 301 315 27 391 405 33 481 495 4 46 60 10 136 150 16 226 240 22 316 330 28 406 420 34 496 511 5 61 75 11 151 165 17 241 255 23 331 345 29 421 435 6 76 90 12 166 180 18 256 270 24 346 360 30 436 450 Appendix A DMX Control of Cyberlight A 19 Mixing Modes on the Same Link High End Systems recommends that you assign all Cyberlight fixtures on a particular link to the same DMX mode This saves you from having to remember which commands are supported by which mode for which fixture All Cyberlight models CLs CXs an
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