Canon DT-120 Owner's Manual
Contents
1. C H ALLEN GE 1 Sports Network Needs to Relay Telephoto HD Point of View Shot From Remote Vantage Point Positioned on a hillside a quarter mile away a Canon DIGISUPER100xs HD telephoto lens on an HD camera captures a live panoramic beauty shot of a major college stadium complete with a cheering crowd surrounding the location studio hosts But how does the broadcaster relay that dramatic HD video back to their TV truck SOLUTION The Canobeam DT 150 HD Using Free Space Optics the Canobeam DT 150 HD delivers live uncompressed HD SDI video from a maximum recommended transmission distance of approximately 1 kilometer 3 168 ft Canobeam DT 150 HD advantages include Quick set up quick tear down No need to install quarter mile HD fiber cable No frequency interference coordination or licensing necessary with Free Space Optics Exclusive Canon Auto Tracking maintains beam alignment despite vibrations from camera platforms street traffic or wind conditions A SN www canobroadcast com gt email BCTV cusa canon com B 1 800 321 4388 Canada 905 795 2012 he me N Wireless Free Space Optics Transmission Using media converters the broadcaster converted the HD SDI signal from the HD camera to single mode fiber optic cable which interfaced directly to a Canobeam DT 150 HD The HD SDI signal was received by a second Canobeam DT 150 HD relayed via single mode fiber and co2. Data Transmission Speed 1 485Gbps 1 485 1 001Gbps 270Mbps 2 Transmission Device Laser Diode Laser Wavelength 785 15nm Laser Output Power Approx 11mW Safety Class of Laser Class 1M Receiving Device Si APD Auto Tracking Adjustment Horizontal 1 2 Vertical 1 2 3R Function Yes Media Interface SFP SLOT x1 Console Port RS 232C DSUB 9Pin 10Base T RJ 45 Operation Temperature Range 20 C 50 C Power 100 240VAC 50 60Hz DC 48V optional Power Consumption Approx 20W Installation Environment Indoor or outdoor Weatherproof IP56 Dimensions 246 W x 168 H x 487 D mm Weight Approx 17 6 lbs 8Kg 1 Above values are calculated under conditions of more than 99 5 reliability based on actual visibility data in Tokyo Japan Longer transmission distances can be achieved but this is a function of weather conditions and acceptable link availability 2 This model is not compliant with SDI Check Field Signals pathological signals Canon imageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon
3. Transmission Device Laser Diode Laser Wavelength 785 15nm Laser Output Power Approx 11mW Safety Class of Laser Class 1M Receiving Device Si APD Auto Tracking Adjustment Horizontal 1 2 Vertical 1 2 3R Function Yes Media Interface SFP SLOT x1 Console Port RS 232C DSUB 9Pin 10Base T RJ 45 Operation Temperature Range 20 C 50 C Power 100 240VAC 50 60Hz DC 48V optional Power Consumption Approx 20W Installation Environment Indoor or outdoor Weatherproof IP56 Dimensions 246 W x 168 H x 487 D mm Weight Approx 17 6 lbs 8Ko Visibility distances are approximate Above values are calculated by transmission margin beam divergence Gaussian intensity distribution of light Actual transmission distance should be considered with scintillation backlight noise and other factors 1 E J McCartney Optics of the Atmosphere J Wiley amp Sons New York 1976 2 T S Chu and D C Hogg Effects of precipitation on propagation at 0 63 3 5 and 10 6 Microns Bell Syst Tech J 47 pp 723 759 1968 3 All distances expressed in meters Above values are different from Canon recommended transmission distances described in specifications 1 Above values are calculated under conditions of more than 99 5 reliability based on actual visibility data in Tokyo Japan Longer transmission distances can be ach
4. Mini HD SDI Link Two Pair Transmission Distances at Varying Degrees of Atmospheric Attenuation Weather Precipitation Light Haze Light Rain 2 5mm hr Attenuation km 3dB Visibility 4333m DT 150 Transmission Distance Weather Condition Precipitation 3650m Thin Fog Heavy Rain 25mm hr Attenuation km 10dB Visibility 1300m DT 150 Transmission Distance Weather Condition Precipitation 1720m Light Fog Cloudburst 100 mm hr Attenuation km 30dB Visibility 433m DT 150 Transmission Distance 780m e Appropriate length of Single Mode Fiber Two SPECIFICATIONS Applications HD SDI SD SDI DVB ASI Standard Transmission Distance 1 20 1000m Data Transmission Speed 1 485Gbps 1 485 1 001Gbps 270Mbps 2 Transmission Device Laser Diode Laser Wavelength 785 15nm Laser Output Power Approx 11mW Safety Class of Laser Class 1M Receiving Device Si APD Auto Tracking Adjustment Horizontal 1 2 Vertical 1 2 3R Function Yes Media Interface SFP SLOT x1 Console Port RS 232C DSUB 9Pin 10Base T RJ 45 Operation Temperature Range 20 C 50 C Power 100 240VAC 50 60Hz DC 48V optional Power Consumption Approx 20W Installation Environment Indoor or outdoor Weatherproof IP56 Dimensions 246 W
5. x 168 H x 487 D mm Weight Approx 17 6 lbs 8Kg Visibility distances are approximate Above values are calculated by transmission margin beam divergence Gaussian intensity distribution of light Actual transmission distance should be considered with scintillation backlight noise and other factors 1 Above values are calculated under conditions of more than 99 5 reliability based on actual visibility data in Tokyo Japan Longer transmission distances can be achieved but this is a function of weather conditions and acceptable link availability 2 This model is not compliant with SDI Check Field Signals pathological signals Canon imageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon 1 E J McCartney Optics of the Atmosphere J Wiley amp Sons New York 1976 2 T S Chu and D C Hogg Effects of precipitation on propagation at 0 63 3 5 and 10 6 Microns Bell Syst Tech J 47 pp 723 759 1968 3 All distances expressed in meters Above values are different from Canon recommended transmission distances described in specifications www canobroadcast com email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 Wireless Free Space Optics Transmission CHALLENGE 3 HD News Crew Needs to Relay Vid
6. 150 HD positioned next to the rooftop HD cameras used line of sight Free Space Optics to establish a secure bidirectional HD SDI connection with a second Canobeam DT 150 HD mounted above the production truck By using Telecast Fiber Systems SHED SMPTE Hybrid parked 1 500 ft away The two Canobeam DT 150 HD units Elimination Device or similar technology on either end and additional hardware see box at right provided HD SDI of the connection a pair of Canobeam DT 150 HD units video with embedded audio bidirectional camera control can provide not only bidirectional HD SDI video with return video tallys and IFB to and from the HDTV truck embedded audio but also bidirectional camera control signals return video tallys and IFB Maximum recommended transmission distance approximately 1 kilometer 3 168 ft Exclusive Canon Auto Tracking maintains beam alignment despite vibrations from camera platforms street traffic or _ wind conditions No frequency interference coordination or licensing mh necessary with Free Space Optics www canobroadcast com email BCTV cusa canon com mag eANYWARE ba i 1 800 321 4388 Canada 905 795 2012 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon CANOBEAM Wireless Free Space Optics Transmission CHALLENGE
7. SOLUTION EQUIPMENT LIST e HDTV Camera SMPTE Hybrid Fiber Cable output and CCU e Canon Canobeam DT 150 HD Link One Pair e Telecast SHED SMPTE Hybrid Elimination Device One e Telecast SHED HDX SMPTE Hybrid Elimination Device One e Appropriate length of SMPTE Hybrid Cable Two e Appropriate length of Single Mode Fiber Two Transmission Distances at Varying Degrees of Atmospheric Attenuation SPECIFICATIONS Weather Precipitation Light Haze Light Rain 2 5mm hr Attenuation km 3dB Visibility 4333m DT 150 Transmission Distance Weather Condition Precipitation 3650m Thin Fog Heavy Rain 25mm hr Attenuation km 10dB Visibility 1300m DT 150 Transmission Distance Weather Condition Precipitation 1720m Light Fog Cloudburst 100 mm hr Attenuation km 30dB Visibility 433m DT 150 Transmission Distance 780m Applications HD SDI SD SDI DVB ASI Standard Transmission Distance 1 20 1000m Data Transmission Speed 1 485Gbps 1 485 1 001Gbps 270Mbps 2 Transmission Device Laser Diode Laser Wavelength 785 15nm Laser Output Power Approx 11mW Safety Class of Laser Class 1M Receiving Device Si APD Auto Tracking Adjustment Horizontal 1 2 Vertical 1 2 3R Function Yes Media Interface SFP SLOT x1 Console Port RS 232
8. length of Serial Digital Cables As Needed Transmission Distances at Varying Degrees of Atmospheric Attenuation SPECIFICATIONS Weather Precipitation Light Haze Light Rain 2 5mm hr Attenuation km 3dB Visibility 4333m DT 150 Transmission Distance 3650m Weather Condition Thin Fog Precipitation Heavy Rain 25mm hr Attenuation km 10dB Visibility 1300m DT 150 Transmission Distance Weather Condition Precipitation 1720m Cloudburst 100 mm hr Attenuation km 30dB Visibility 433m DT 150 Transmission Distance Visibility distances are approximate 780m Above values are calculated by transmission margin beam divergence Gaussian intensity distribution of light Actual transmission distance should be considered with scintillation backlight noise and other factors 1 E J McCartney Optics of the Atmosphere J Wiley amp Sons New York 1976 2 T S Chu and D C Hogg Effects of precipitation on propagation at 0 63 3 5 and 10 6 Microns Bell Syst Tech J 47 pp 723 759 1968 3 All distances expressed in meters Above values are different from Canon recommended transmission distances described in specifications www canobroadcast com email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 Applications HD SDI SD SDI DVB ASI Standard Transmission Distance 1 20 1000m
9. or licensing simultaneously controlling the pan tilt and zoom functions necessary with Free Space Optics Using technology such as Evertz s Quad Serial Data Embedders and De pi PITZ D m E eria Head eet HD SDI o N praso Embedders and a pair of Canobeam l f HD SDI HE vee DT 150 HD video transceivers the A l network is able to transmit HD SDI video signals from the PTZ camera to their control room while simultaneously transmitting the required control signals back to the onitor robotic PTZ head and its camera SDI k www canobroadcast com A email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 cn mageANYWARE ae 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States a and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon Wireless Free Space Optics Transmission CHALLENGE SOLUTION EQUIPMENT LIST e Robotic P T Z Camera with HD SDI Video and Serial Data Control e Robotic P T Z Controller Serial Data e Canon Canobeam DT 150 HD Link One Pair e Evertz Quad Serial Data Embedder Two e Evertz Quad Serial Data De embedder Two e Electrical Optical E O Converter Two e Optical Electrical O E Converter Two e HD SDI Video Monitor Two e Appropriate length of Coax Cable Three e Appropriate length of Single Mode Fiber Two e Appropriate
10. C DSUB 9Pin 10Base T RJ 45 Operation Temperature Range 20 C 50 C Power 100 240VAC 50 60Hz DC 48V optional Power Consumption Approx 20W Installation Environment Indoor or outdoor Weatherproof IP56 Dimensions 246 W x 168 H x 487 D mm Weight Approx 17 6 lbs 8Kg Visibility distances are approximate Above values are calculated by transmission margin beam divergence Gaussian intensity distribution of light Actual transmission distance should be considered with scintillation backlight noise and other factors 1 E J McCartney Optics of the Atmosphere J Wiley amp Sons New York 1976 2 T S Chu and D C Hogg Effects of precipitation on propagation at 0 63 3 5 and 10 6 Microns Bell Syst Tech J 47 pp 723 759 1968 3 All distances expressed in meters Above values are different from Canon recommended transmission distances described in specifications 1 Above values are calculated under conditions of more than 99 5 reliability based on actual visibility data in Tokyo Japan Longer transmission distances can be achieved but this is a function of weather conditions and acceptable link availability 2 This model is not compliant with SDI Check Field Signals pathological signals Canon imageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered tradema
11. Indoor or outdoor Weatherproof IP56 Dimensions 246 W x 168 H x 487 D mm Weight Approx 17 6 lbs 8Kg 1 Above values are calculated under conditions of more than 99 5 reliability based on actual visibility data in Tokyo Japan Longer transmission distances can be achieved but this is a function of weather conditions and acceptable link availability 2 This model is not compliant with SDI Check Field Signals pathological signals Canon imageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon CANOBEAM DT 150 D Wireless Free Space Optics Transmission CHALLENGE 4 Major Live Entertainment Event Needs Bi Directional HD Alternative to 1500 ft Fiber Cable Atop a building in the heart of the city HD cameras outfitted with a Canon portable HD zoom lens and a Canon DIGISUPER 100xs HD telephoto lens provide live coverage of celebrities entering a major entertainment venue Meanwhile 1 500 ft away a mobile HDTV control room is set up to switch the event HD SDI video with embedded audio bidirectional camera control return video tallys and IFB are a must but it s too far to run a heavy SMPTE hybrid fiber cable or single mode fiber cable along city streets SOLUTION The Canobeam DT 150 HD A Canobeam DT
12. eo of Manhattan Street Demonstration Back to Washington DC TV Station A spontaneous political demonstration in midtown Manhattan left no time for a news crew to make a costly long haul fiber connection back to Washington DC or to establish an HD microwave relay to the roof of a nearby TV station with satellite connectivity How then could the crew get live video of this important news event back to the Washington DC TV station SOLUTION The Canobeam DT 150 HD Inexpensive enough for news operations the Canobeam DT 150 HD sets up quickly to establish a temporary line of sight HD connection The news crew used a Canobeam DT 150 HD to link their ENG van to a second Canobeam on the roof of a nearby TV station with satellite connectivity This provided the crew with a quick and easy way to relay live HD video of the demonstration back to Washington DC Maximum recommended transmission distance approximately 1 kilometer 3 168 ft Exclusive Canon Auto Tracking maintains beam alignment despite vibrations from camera platforms street traffic or wind conditions No frequency interference coordination or licensing necessary with Free Space Optics b www canobroadcast com _ email BCTV cusa canon com D 1 800 321 4388 Canada 905 795 2012 Telecast SHED located at satellite dish antenna Telecast SHED HDxX located in the news van By using Telecast Fiber Systems SHED SMPTE Hybrid Elimination Device
13. etwork converts Its video link with embedded audio that the network required HD SDI video to travel on single mode fiber optic cable which interfaces directly to the Canobeam DT 150 HD Maximum recommended transmission distance permanently mounted on their roof This HD SDI signal approximately 1 kilometer 3 168 ft is then received by the Canobeam DT 150 HD on the neighboring office building and relayed via single mode Exclusive Canon Auto Tracking maintains beam fiber to a second media converter which interfaces with alignment despite vibrations from camera platforms a coaxial cable feeding the fiber connection The result N street traffic or wind conditions is a two way bidirectional HD SDI video link N with embedded audio No frequency interference coordination or A N licensing necessary with Free Space Optics A www canobroadcast com email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 mageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon CANOBEAM Wireless Free Space Optics Transmission CHALLENGE SOLUTION EQUIPMENT LIST e HD SDI bidirectional signals e Canon Canobeam DT 150 HD Link One Pair e Stratos Video BNC to ST Media Converter or e Appropriate length of Coax Cable Four Telecast Rattler
14. ieved but this is a function of weather conditions and acceptable link availability 2 This model is not compliant with SDI Check Field Signals pathological signals Canon imageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon www canobroadcast com email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 CANOBEAM 207 150 D Wireless Free Space Optics Transmission OS ee a E Cable Network HQ Requires Permanent Bidirectional HD Link to its Production Facility Executives at the headquarters of a major cable network had no direct satellite or fiber connection with their production studios in a neighboring state Neither location could send the other instant bidirectional HD video with embedded audio which was essential to their operations SOLUTION The Canobeam DT 150 HD Fortunately the cable network s headquarters did have direct line of sight to a nearby building with access to either satellite connectivity or long haul fiber A permanent installation of a pair of Canobeam DT 150 HD s one on the roof of the building housing the cable network and a second i unit on the roof of the building with satellite fiber He Aaa oon connectivity established the reliable bidirectional HD SDI Using media converters the cable n
15. ion margin beam divergence Gaussian intensity distribution of light Actual transmission distance should be considered with scintillation backlight noise and other factors 1 E J McCartney Optics of the Atmosphere J Wiley amp Sons New York 1976 2 T S Chu and D C Hogg Effects of precipitation on propagation at 0 63 3 5 and 10 6 Microns Bell Syst Tech J 47 pp 723 759 1968 3 All distances expressed in meters Above values are different from Canon recommended transmission distances described in specifications www canobroadcast com email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 e Appropriate length of SMPTE Hybrid Cable Two e Appropriate length of Single Mode Fiber Two SPECIFICATIONS Applications HD SDI SD SDI DVB ASI Standard Transmission Distance 1 20 1000m Data Transmission Speed 1 485Gbps 1 485 1 001Gbps 270Mbps 2 Transmission Device Laser Diode Laser Wavelength 785 15nm Laser Output Power Approx 11mW Safety Class of Laser Class 1M Receiving Device Si APD Auto Tracking Adjustment Horizontal 1 2 Vertical 1 2 3R Function Yes Media Interface SFP SLOT x1 Console Port RS 232C DSUB 9Pin 10Base T RJ 45 Operation Temperature Range 20 C 50 C Power 100 240VAC 50 60Hz DC 48V optional Power Consumption Approx 20W Installation Environment
16. nverted back to coaxial cable via a media converter and then received by the HD broadcast truck mageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon CANOBEAM Wireless Free Space Optics Transmission CHALLENGE SOLUTION EQUIPMENT LIST e HDTV Camera with an HD SDI output e Canon Canobeam DT 150 HD Link One Pair e Stratos Video BNC to ST Media Converter or e Appropriate length of Coax Cable Two Telecast Rattler Mini HD SDI Link One Pair Transmission Distances at Varying Degrees of Atmospheric Attenuation Weather Precipitation Light Haze Light Rain 2 5mm hr Attenuation km 3dB Visibility 4333m DT 150 Transmission Distance Weather Condition Precipitation 3650m Thin Fog Heavy Rain 25mm hr Attenuation km 10dB Visibility 1300m DT 150 Transmission Distance Weather Condition Precipitation 1720m Cloudburst 100 mm hr Attenuation km 30dB Visibility 433m DT 150 Transmission Distance 780m e Appropriate length of Single Mode Fiber Two SPECIFICATIONS Applications HD SDI SD SDI DVB ASI Standard Transmission Distance 1 20 1000m Data Transmission Speed 1 485Gbps 1 485 1 001Gbps 270Mbps 2
17. or similar technology on either end of the connection a pair of Canobeam DT 150 HD units provided bidirectional HD SDI video with embedded audio to a nearby New York TV station which then transmitted the video via a simple satellite link to a second TV station in Washington DC mageANYWARE 2008 Canon U S A Inc All rights reserved Canon is a registered trademark of Canon Inc in the United States and may also be a registered trademark or trademark in other countries IMAGEANYWARE is a trademark of Canon CANOBEAM Wireless Free Space Optics Transmission CHALLENGE SOLUTION EQUIPMENT LIST e HDTV Camera SMPTE Hybrid Fiber Cable output and CCU e Canon Canobeam DT 150 HD Link One Pair e Telecast SHED SMPTE Hybrid Elimination Device One e Telecast SHED HDX SMPTE Hybrid Elimination Device One Transmission Distances at Varying Degrees of Atmospheric Attenuation Weather Light Haze Precipitation Light Rain 2 5mm hr Attenuation km 3dB Visibility 4333m DT 150 Transmission Distance 3650m Weather Condition Thin Fog Heavy Rain 25mm hr 10dB 1300m Precipitation Attenuation km Visibility DT 150 Transmission Distance 1720m Weather Condition Cloudburst 100 mm hr 30dB 433m 780m Precipitation Attenuation km Visibility DT 150 Transmission Distance Visibility distances are approximate Above values are calculated by transmiss
18. rk or trademark in other countries IMAGEANYWARE is a trademark of Canon www canobroadcast com email BCTV cusa canon com 1 800 321 4388 Canada 905 795 2012 CANOBEAM 011505 Wireless Free Space Optics Transmission cCc H ALLEN GE 5 Major Broadcast Network Needs to Transmit Control Signals to Robotic PTZ Camera Mounted capture panoramic shots of a world famous ice on the Side of a Skyscraper skating rink It s the perfect vantage point but how can the TV network transmit control signals to the PTZ A robotic PTZ pan tilt zoom camera is mounted 20 camera while simultaneously receiving the camera s floors up on the side of a landmark office building to HD SDI video ouput SOLUTION The Canobeam DT 150 H D of their sky high robotic camera which is outfitted with a Canon HD telephoto lens Rather than running bulky and expensive SMPTE hybrid fiber cable or single mode fiber cable up to the 20th floor a far better solution is the convenience and reliability of Maximum recommended transmission distance approximately 1 kilometer 3 168 ft Canon s Canobeam DT 150 HD bidirectional wireless Free Exclusive Canon Auto Tracking maintains beam alignment Space Optics technology The Canobeam DT 150 HD despite vibrations from street traffic or wind conditions enables the TV network to capture bird s eye point of view shots of a world famous tourist destination in HDTV while No frequency interference coordination
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