Bosch AVIOTEC IP starlight 8000 Planning Manual
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Summary of Contents for Bosch AVIOTEC IP starlight 8000
- Page 1 AVIOTEC IP starlight 8000 FCS‑8000‑VFD‑B / Firmware 7.7x Planning manual...
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Page 3: Table Of Contents
AVIOTEC IP starlight 8000 Table of contents | en Table of contents Safety instructions General Safety Messages / Notices Introduction Disclaimer About this manual Conventions in this manual Definition of optical terms 2.4.1 Illumination 2.4.2 Focal length 2.4.3 Monitoring Area 2.4.4... - Page 4 | Table of contents AVIOTEC IP starlight 8000 8.1.1 Quick solution to solve false alarms 8.1.2 False alarms under 4 seconds concerning the whole detection area 8.1.3 False alarms at small constant areas 8.1.4 Vibrations at the camera site...
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Page 5: Safety Instructions
AVIOTEC IP starlight 8000 Safety instructions | en Safety instructions In this document, the following symbols and notations are used to draw attention to special situations: Danger! Indicates a hazardous situation which, if not avoided, will result in death or serious injury. - Page 6 | Safety instructions AVIOTEC IP starlight 8000 Caution! Make sure to test the fire detection after updating to the latest firmware. Notice! Avoid obstructions in the field of view! Covered fires cannot be detected correctly. An unobstructed view of the detection area is necessary.
- Page 7 AVIOTEC IP starlight 8000 Safety instructions | en Notice! Avoid backlight. Backlight can disturb the video-based fire detection algorithm. Notice! Optimized smoke detection. The video-based fire detection algorithm is optimized for smoke of smoldering fires. Notice! Qualified personnel only. Assembly and installation must only be performed by qualified personnel.
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Page 8: Introduction
For more information please contact the nearest Bosch Security Systems location or visit www.boschsecurity.com . All hardware and software product names used in this document are likely to be registered trademarks and must be treated accordingly. -
Page 9: Focal Length
AVIOTEC IP starlight 8000 Introduction | en Illumination is an important influencing factor for sensible optical systems. Natural light shows the huge range of illumination values from direct sunlight (~100.000 lx) to full moon on a clear night (~1.0 lx). A luxmeter can be used to measure the light levels. -
Page 10: Monitoring Area
| Introduction AVIOTEC IP starlight 8000 The maximum distance to a detectable fire may be reached by adjusting the largest focal length which decreases the width of the field of view to the minimum (green). 2.4.3 Monitoring Area The monitoring area defines the effective space that can be observed by the video-based fire detection. - Page 11 AVIOTEC IP starlight 8000 Introduction | en Opening angle of the lens The opening angle of the lens can be set from wide-angle to telephoto setting. This influences the field of view of the camera. Angle for vertical alignment of the camera The vertical alignment of the camera is also important for the video-based fire detection.
- Page 12 | Introduction AVIOTEC IP starlight 8000 Angle for horizontal alignment of the camera Align the camera according to your application by adjusting the angle of the horizontal alignment of the camera. 2020.08 | 1.0 | F.01U.391.016 Planning manual Bosch Sicherheitssysteme GmbH...
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Page 13: System Overview
The video-based fire detection is the system of choice when reliable video motion and fire detection is needed, e.g. applications which are not subjected to construction product regulation or a supplementation to existing fire detection systems. AVIOTEC IP starlight 8000 operates as stand-alone unit and doesn’t need a separate evaluation unit. Furthermore, it contains all features of the Intelligent Video Analytics which allows analyzing and evaluating moving objects in parallel. -
Page 14: Uninterruptible Power Supply
| System Overview AVIOTEC IP starlight 8000 Power-over-Ethernet (PoE) allows to use the Ethernet cabling for data transmission and for supplying power to the network device in the same cable. It is possible to realize long cable lengths in a PoE network system. The standard power supply for the video-based fire detection is Power-over-Ethernet. -
Page 15: Flame Detection Characteristics
AVIOTEC IP starlight 8000 System Overview | en 3.2.1 Flame detection characteristics Flames will be analyzed by means of their behavior. Flickering, brightness and constant illumniated parts of white and orange are the basis colors for the algorithm to split off the video image into important and unimportant areas. - Page 16 | System Overview AVIOTEC IP starlight 8000 Minimum smoke width and motion speed A minimum speed of smoke is needed together with a minimum width of the smoke plume to be detected by the video-based fire detection. The minimum motion speed of smoke and the minimum width have to be reached at the same location in the smoke plume.
- Page 17 AVIOTEC IP starlight 8000 System Overview | en Smoke density A minimum smoke density is required to identify the smoke plume. The smoke density is described as the decrease of a local image contrast with the presence of smoke as seen in the following graphic: σ...
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Page 18: Intelligent Video Analytics
| System Overview AVIOTEC IP starlight 8000 Smoke density: 40% Smoke density: 90% In regular conditions with an equal colored background, smoke is visible when the smoke density exceeds 40%. In case of a background with high color saturation (e.g. deep blue) or a high background intensity or strong contrasts or very strong color contrast (e.g. -
Page 19: Video Management System
A Video Management System is a unique enterprise IP video security solution that provides seamless management of digital video, audio, and data across any IP network. It nevertheless offers interfaces and standards to integrate AVIOTEC IP starlight 8000. Application basics of video-based fire detection 3.5.1... -
Page 20: Planning
| Planning AVIOTEC IP starlight 8000 Planning A fire safety analysis should be performed to determine the characteristics of the area including a fire load calculation. The placement of the camera or cameras results from the application environment of the customer. -
Page 21: Influencing Factors At The Installation Site
AVIOTEC IP starlight 8000 Planning | en Emergency power o Network o Cameras o Illumination supply necessary for.. components Redundancies Redundant lighting o Necessary o Not necessary Power supply lighting o Necessary o Not necessary Power supply camera o Necessary o Not necessary Power supply for network components o Necessary o Not necessary... - Page 22 | Planning AVIOTEC IP starlight 8000 Influencing factor Countermeasure Information – Excluding windows and roof lights from the field of view of the camera. CONVEYOR BELTS Choose a mounting position Conveyor belts moving in where conveyor belts are another direction than...
- Page 23 AVIOTEC IP starlight 8000 Planning | en Influencing factor Countermeasure Information FANS Avoid rotating fans in the field The visible rotating fan of a of view of the camera. ventilation system may Alternatively use masking disturb the algorithm and (see Adjustments of image could result in false alarms.
- Page 24 | Planning AVIOTEC IP starlight 8000 Influencing factor Countermeasure Information BLINKING LIGHTS Check for blinking lights in Blinking lights in the your application. Use masking detection area may disturb to exclude blinking lights the algorithm and lead to from the detection or false alarms.
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Page 25: Minimum Distances
AVIOTEC IP starlight 8000 Planning | en Minimum distances The camera must be mounted according to the following graphic: Minimum distance to fire Installation height The table below demonstrate exemplarily the minimum distances to fire or smoke depending on the installation height:... -
Page 26: Maximum Distances
| Planning AVIOTEC IP starlight 8000 11.9 12.6 13.3 Tab. 4.1: Minimum distance to fire Maximum distances The tables below demonstrate exemplarily the maximum distances to a fire depending on fire size and opening angle of the camera lens: Maximum distance to fire in m (Flame detection) LVF-5005C-S4109 (standard lens) Opening angle [°]... - Page 27 AVIOTEC IP starlight 8000 Planning | en Maximum distance to fire in m (Smoke detection) LVF-5005C-S4109 (standard lens) Opening angle [°] Smoke width [m] 12.5 19.3 25.2 21.3 32.2 42.6 64.5 85.3 168.1 LVF-8008C-P0413 Opening angle [°] Smoke width [m] 12.9...
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Page 28: Image Margin Area
| Planning AVIOTEC IP starlight 8000 Maximum distance to fire Fire width Image margin area The following table shows exemplarily the deviation in percent from the maximum detection distances at the middle of the picture: Due to the optical distorsion of the lens, there are deviating maximum detection distances at the margin area of the picture. - Page 29 AVIOTEC IP starlight 8000 Planning | en Figure 4.1: Definition of margin areas of the picture Horizontal margin area Vertical margin area Corner area LVF-5005C-S4109 (standard lens) Margin area Opening angle of the lens 100° 90° 60° Bosch Sicherheitssysteme GmbH Planning manual...
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Page 30: Immediate Environment Of The Camera
Try to minimize the amount of very bright background lights in your specific environment as far as it is meaningful and possible. AVIOTEC IP starlight 8000 needs a minimum illumination of 2 lx. Generally, a uniformly illuminated monitoring area with a dynamic range in the camera image equal or less than factor 5 is advantageous. -
Page 31: Infrared (Ir) Illumination
AVIOTEC IP starlight 8000 Planning | en 4.6.2 Infrared (IR) illumination Notice! When using infrared light, it is necessary to set the Day/Night mode in the camera menu to Monochrome or Auto. Notice! If you use infrared light in poor lighting situations and different lighting situations arise in... -
Page 32: Camera Integration
| Camera integration AVIOTEC IP starlight 8000 Camera integration The video-based fire detection can be easily integrated into the network environment of the customer. There are several possibilities to connect the camera. Various combinations are possible. The individual customer network properties determine the performance and scalability of the system. -
Page 33: Local Area Network
AVIOTEC IP starlight 8000 Camera integration | en Mobile devices Local Area Network Due to the IP-based camera, the integration of the video-based fire detection into the network of the customer is easy. There are a lot of opportunities regarding to scalability and enlargement of the network. -
Page 34: Fire Alarm Control Panel
| Camera integration AVIOTEC IP starlight 8000 Fire Alarm Control Panel AVIOTEC IP starlight 8000 can be connected to the a fire alarm control panel. The alarm will be triggered by the relay output of the camera. Notice! No existing standards. -
Page 35: Mobile Devices
AVIOTEC IP starlight 8000 Camera integration | en Connection to a fire alarm control panel The alarm output of the camera can be connected to a fire alarm control panel. The camera alarm output is triggered by a relay that is normally open. In case of alarm the relay is closed. - Page 36 | Camera integration AVIOTEC IP starlight 8000 2020.08 | 1.0 | F.01U.391.016 Planning manual Bosch Sicherheitssysteme GmbH...
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Page 37: Use Cases
AVIOTEC IP starlight 8000 Use cases | en Use cases Fire detection in combination with VCA functionality offers different use cases. These four use cases are described below. Fire detection only This is the standard setting of the camera. You can choose this standard option if different fire detection profiles and profile scheduling are not necessary for your application. -
Page 38: External Trigger To Switch Fire Detection Mode
| Use cases AVIOTEC IP starlight 8000 In the VCA configuration drop-down list, select Scheduled. Link any number of 15-minute intervals with the VCA profiles for each day of the week. Moving the mouse cursor over the table displays the time below it. This aids orientation. - Page 39 AVIOTEC IP starlight 8000 Use cases | en Delay [s] Select the delay period for the reaction of the video content analysis to trigger signals. The alarm is only triggered after a set time interval in seconds has elapsed and then only if the triggering condition still exists.
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Page 40: Technical Data
| Technical data AVIOTEC IP starlight 8000 Technical data Algorithm Overview Min. detection size for Smoke, standard setting (% of picture width) Smoke speed 0.7 - 8.4 (% of picture height /s) Min. Smoke density (%) Min. detection size for Flame, standard setting (% of picture width) Min. - Page 41 AVIOTEC IP starlight 8000 Technical data | en Local storage Recording Continuous recording, ring recording. alarm/events/schedule recording Mechanical Dimensions (W x H x L) 78 x 66 x140 mm (3.07 x 2.6 x 5.52 inch) without lens Weight 855 g (1.88 lb) without lens Color RAL 9006 Metallic Titanium Tripod Mount Bottom and top 1/4-inch 20 UNC...
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Page 42: Troubleshooting
| Troubleshooting AVIOTEC IP starlight 8000 Troubleshooting The following issues can be solved in the detection settings (Configuration > Alarm > Fire detection). False Alarms 8.1.1 Quick solution to solve false alarms A fast way to identify and solve region-stable false alarms in the camera image is automasking. -
Page 43: No Alarm Transmission
AVIOTEC IP starlight 8000 Troubleshooting | en Vibrations are transferred to the camera. Avoid vibrations at the camera site. Camera picture is trembling. Make sure the camera is firmly mounted. The camera position changed because of Move the camera to its initial position and vibrations. - Page 44 | Troubleshooting AVIOTEC IP starlight 8000 The camera offers a variety of configuration options. Therefore, check that it works properly after installation and configuration. This is the only way to ensure that the camera will function as intended in the event of an alarm.
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Page 45: Appendices
AVIOTEC IP starlight 8000 Appendices | en Appendices Maximum detection distances for margin areas Due to the optical distorsion of the lens, there are deviating maximum detection distances at the margin area of the picture. Figure 9.1: Definition of margin areas of the picture... - Page 46 | Appendices AVIOTEC IP starlight 8000 0.75 39.8 27.3 22.1 45.7 53.1 36.5 29.5 60.9 1.25 66.4 45.6 37.0 76.2 79.7 54.7 44.3 91.4 106.3 73.0 59.2 121.9 132.9 91.3 74.0 152.4 159.5 109.6 88.8 182.9 Opening angle 90°...
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Page 47: Smoke Detection
AVIOTEC IP starlight 8000 Appendices | en 0.75 65.4 58.6 54.9 69.1 87.3 78.2 73.3 92.2 1.25 109.1 97.7 91.6 115.2 131.0 117.3 110.0 138.3 174.7 156.4 146.7 184.4 218.3 195.5 183.4 230.5 262.0 234.6 220.1 276.6 Opening angle 45°... - Page 48 | Appendices AVIOTEC IP starlight 8000 20.5 15.4 13.7 23.0 0.75 30.8 23.1 20.6 34.5 41.1 30.8 27.5 46.0 1.25 51.3 38.5 34.4 57.5 61.6 46.2 41.3 69.0 82.3 61.7 55.1 92.1 102.8 77.1 68.9 115.1 123.4 92.6 82.7 138.1...
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Page 49: Lvf-8008C-P0413
AVIOTEC IP starlight 8000 Appendices | en 40.8 38.3 37.5 42.0 0.75 61.3 57.5 56.3 63.0 81.7 76.7 40.7 84.0 1.25 102.1 95.9 50.9 105.0 122.6 115.1 112.6 126.0 163.5 153.5 150.2 168.1 204.4 191.9 187.8 210.1 245.3 230.3 225.3 252.1... - Page 50 | Appendices AVIOTEC IP starlight 8000 Opening angle 60° Fire width (m) 26.3 23.4 21.8 27.6 43.9 39.1 36.4 46.0 0.75 65.9 58.7 54.7 69.1 87.9 78.2 73.0 92.1 1.25 109.9 97.9 91.3 115.2 131.9 117.4 109.5 138.2 175.9 156.6...
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Page 51: Smoke Detection
AVIOTEC IP starlight 8000 Appendices | en 9.2.2 Smoke detection Opening angle 100° Fire width (m) 10.9 12.9 18.2 12.4 21.5 0.75 27.4 18.6 14.5 32.3 36.6 24.9 19.4 43.1 1.25 45.7 31.0 24.2 53.8 54.9 37.3 29.1 64.6 73.2 49.8... -
Page 52: Lvf-5005N-S1250
| Appendices AVIOTEC IP starlight 8000 Opening angle 45° Fire width (m) 24.4 22.7 22.1 25.3 40.8 37.9 36.9 42.2 0.75 61.2 56.8 55.4 63.3 81.8 75.9 73.9 84.5 1.25 102.2 94.8 92.4 105.6 122.6 113.8 110.9 126.7 163.6 151.8... - Page 53 AVIOTEC IP starlight 8000 Appendices | en 397.7 381.9 374.9 404.6 477.2 458.3 449.8 485.5 Opening angle 26° Fire width (m) 60.5 59.0 58.4 61.2 100.8 98.3 97.3 102.0 0.75 151.2 147.5 146.0 153.0 201.6 196.6 194.7 204.0 1.25 252.0 245.8...
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Page 54: Smoke Detection
| Appendices AVIOTEC IP starlight 8000 935.0 929.9 925.1 938.4 1122.1 1115.9 1110.2 1126.1 Opening angle 8.5° Fire width (m) 184.9 184.4 184.1 185.1 308.1 307.4 306.9 308.5 0.75 462.2 461.1 460.4 462.8 616.2 614.8 613.8 617.0 1.25 770.3 768.5... - Page 55 AVIOTEC IP starlight 8000 Appendices | en 282.3 275.3 272.6 285.6 352.9 344.1 340.7 357.0 423.5 413.0 408.9 428.4 Opening angle 20° Fire width (m) 54.9 54.1 53.7 55.3 91.6 90.4 89.7 92.3 0.75 137.4 135.5 134.5 138.4 183.3 180.8 179.5...
- Page 56 | Appendices AVIOTEC IP starlight 8000 862.8 860.8 859.5 863.9 1078.5 1076.0 1074.4 1079.9 1294.1 1291.2 1289.2 1295.8 2020.08 | 1.0 | F.01U.391.016 Planning manual Bosch Sicherheitssysteme GmbH...
- Page 57 AVIOTEC IP starlight 8000 Appendices | Bosch Sicherheitssysteme GmbH Planning manual 2020.08 | 1.0 | F.01U.391.016...
- Page 58 | Appendices AVIOTEC IP starlight 8000 2020.08 | 1.0 | F.01U.391.016 Planning manual Bosch Sicherheitssysteme GmbH...
- Page 60 Bosch Sicherheitssysteme GmbH Robert-Bosch-Ring 5 85630 Grasbrunn Germany www.boschsecurity.com © Bosch Sicherheitssysteme GmbH, 2020 202009011105...