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Operator ID: |
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UAS Operating Safety Case |
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Document reference number: |
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Document version and date: |
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Amendment Number |
Date |
Amended by |
Details of changes |
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CAP722A Table 6
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UAS Model |
Inspire 2 |
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UAS design & manufaturing organisations |
DJI |
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Empty Mass |
Weight: |
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Maximum Take-Off Mass (MTOM) |
Max Takeoff Weight: |
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Dimensions for Rotorcraft / Multirotor |
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Length of aircraft body |
Diagonal Distance: |
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Width of aircraft body |
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Height of aircraft body |
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Propeller Configuration |
Propeller Model: |
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Propeller Dimensions |
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Sound power level |
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Any other relevant information |
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CAP722A Table 7
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Maximum airspeed |
Max Speed (near sea level, no wind): |
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Minimum airspeed to maintain safe flight |
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Normal/typical operating height |
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Maximum operating height |
Max Takeoff Sea Level: |
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Maximum flight time during normal operation |
Max Flight Time: |
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Maximum flight time on an ISA day at cruising speed at normal/typical operating height. |
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Maximum flight range on an ISA day (normal and emergency conditions) |
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Glide distances |
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Maximum radio range of the C2 Link |
Max Transmitting Distance (unobstructed, free of interference): |
CAP722A Table 8
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Wind speed limits |
Max Wind Speed Resistance: |
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Turbulence restrictions |
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Precipitation limits |
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OAT limits |
Operating Temperature: |
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In-flight icing condition limits |
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Any other relevant information |
CAP722A Table 9
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Type of material |
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Material characteristics or properties |
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Any other relevant information |
CAP722A Table 10
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Batteries: |
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Battery type, model and manufacturer |
Capacity: Battery Type: Model: |
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Quantity |
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Arrangement |
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Generator: |
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Generator type, model and manufacturer |
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Specification |
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Electrical loads |
Energy: Voltage: |
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Electrical load shedding functionality |
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Power supply redundancy |
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Procedures to charge and discharge batteries. |
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Safety provisions with regards to hazards inherent to high-voltage storage devices: |
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Procedures in place for safe handling by any person who may come into contact with high-voltage storage devices |
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Means of identifying high-voltage storage |
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Safety provisions for any person discovering the UA following an accident. |
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Procedures and safety provisions to mitigate the risk of battery thermal runaway. |
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Procedures for monitoring high-voltage storage devices. |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
Charging Temperature: Net Weight: Operating Temperature: Storage Temperature: |
CAP722A Table 11
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Propulsion type |
Motor Model: |
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Engines: |
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Type, model and manufacturer |
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Propeller type, model and manufacturer |
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Quantity |
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Arrangement |
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Power output |
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Propeller guards |
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In-flight restart functionality |
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Performance monitoring |
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Health monitoring |
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Safety features and redundancy in the system that allow maintaining flight after a failure or degradation has occurred in the propulsion system. |
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Fuel-powered propulsion system – Safety features to mitigate the risk of engine loss when the following hazards occur: |
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Fuel starvation |
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Fuel contamination |
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Failed signal input from the control station |
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Engine controller failure |
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Indication to the remote pilot |
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Electric-powered propulsion system: |
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Power source and supply management with regards to other systems in the UA |
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Redundant power sources |
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Maximum continuous power output of the motor |
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Maximum peak power output of the motor |
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Electrical distribution architecture |
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Electrical load shedding functionality |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 12
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Fuel type |
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Safety provisions with regards to hazardous substances within the fuel system: |
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List of hazardous substances and their characteristics. |
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Procedures in place for safe handling of the UA by any person who may come into contact with the hazardous substances. |
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Means of identifying the hazardous substances. |
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Safety provisions for any person discovering the UA following an accident. |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 13
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Design and operation of flight control units, surfaces, actuators, control linkages, etc. |
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Flight controller: |
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Type, model and manufacturer |
Model: |
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Functions |
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Flight modes available |
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Automatic functions: |
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Take-off and landing |
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Stabilisation |
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Autopilot |
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Return to home |
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If functions are provided by COTS equipment, provide type, model and manufacturer. |
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Safety features and redundancy in the system which allow maintaining flight after a failure or degradation of the flight control system, including indication to the remote pilot. |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 14
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Sensors |
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Type, model and manufacturer |
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Quantity |
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Telemetry links |
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Method to determine current position. |
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Method to navigate to intended destination. |
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Automatic/automated navigation functions |
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Geo-awareness functions |
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Containment functions |
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Safety features and redundancy in the system which allow maintaining flight after a failure or degradation has occurred in the navigation system: |
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Backup means of navigation |
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Detection of and response to loss of primary means and secondary means of navigation. |
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Indication to the remote pilot |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 15
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DAA system functions |
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Devices used |
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Technology used |
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Interface between the DAA system and the flight control computer |
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Limitations of the DAA system |
Velocity Range: Altitude Range: Operating Range: Operating Environment: Ultrasonic Sensor Operating Range: Ultrasonic Sensor Operating Environment: Obstacle Sensing Range: FOV: Operating Environment: Obstacle Sensing Range: FOV: Operating Environment: |
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Evidence of equipment qualification and approval. |
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DAA event sequence: |
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Level of automation |
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Actions required by the remote pilot |
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Means to verify normal system operation. |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 16
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Power sources, supply management and redundancy. |
Battery: |
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Radio signal: |
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Determination of the signal strength and health value. |
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Threshold values which represent a critically degraded signal. |
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Control handover between two CUs |
Dual User Capability: |
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Safety features to mitigate the risk of inadvertent command activation: |
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List of critical commands |
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Mitigation means |
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Safety features to mitigate the risk of display or HMI lock-up. |
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Safety features to maintain flight-critical processing when multiple programs are running concurrently. |
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HMI: |
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Information indicated to the remote pilot. |
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Radio signal strength and/or health indication to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
Operating Temperature: |
CAP722A Table 17
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RLOS |
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BRLOS |
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Antennas: |
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Type, model and manufacturer |
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Locations on the UAS |
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Transceivers / Modems: |
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Power levels |
EIRP: |
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Transmission schemes |
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Operating frequencies |
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Details of frequency spectrum approvals |
Operating Frequency: |
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Maximum power output/range |
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Type of signal processing |
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Datalink margin in terms of the overall link bandwidth at the maximum anticipated distance from the CU. |
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Operational C2 link management: |
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Frequency switchovers |
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Contingency situations |
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Third party link service provider |
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Radio signal: |
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Determination of the signal strength and health value |
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Threshold values which represent a critically degraded signal. |
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Minimum and average assured data rates |
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Minimum and average assured latencies |
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Design features and procedures to maintain availability, continuity, and integrity of the datalink: |
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RF or other interference |
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Flight beyond communications range |
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Antenna masking |
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Loss of CU functionality |
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Loss of UA functionality |
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Atmospheric attenuation |
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Safety features to mitigate the risk of loss of C2 link: |
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C2 links redundancy |
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Automatic triggering of an emergency recovery function |
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Automatic return to home |
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Safety features to mitigate the risk of harmful interference. |
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HMI: |
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Information indicated to the remote pilot. |
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Radio signal strength and/or health indication to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 18
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Antennas: |
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Type, model and manufacturer |
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Locations on the UAS |
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Communication method: |
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VHF |
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GSM network |
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Satellite |
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Safety features to mitigate the loss of communication function: |
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Primary communication means |
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Secondary / back-up communication means |
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HMI: |
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Information indicated to the remote pilot. |
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Radio signal strength and/or health indication to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 19
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Wheels, skids, rails, launchers, etc. |
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If various mechanisms can be fitted: |
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Primary mechanism |
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Secondary mechanisms |
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Operational conditions/requirements for each mechanism. |
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Any other relevant information |
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CAP722A Table 20
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Mode of operation |
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Safety features which mitigate the risk of loss of control or situational awareness. |
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Means to verify normal system operation. |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 21
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Type, model and manufacturer |
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Locations on the UA |
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Colour |
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Operation |
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Operating modes |
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Purpose |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 22
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Types |
Model: |
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Mass |
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Interfaces with the UA: |
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Mechanical interface |
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Electrical interface |
Interface Type: |
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Data interface |
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Release mechanism |
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Any other interface |
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Procedures to install the payload onto the UA. |
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Effects of the payload on the UA |
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Sensors |
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Safety features to mitigate the risk of the payload affecting the flight of the UA: |
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Effects on aerodynamics |
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Effects of electro-magnetic interference. |
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Effects of electrical power and / or data connection failures on the UAS. |
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Effects of complete detachment of the payload from the UA (either caused by a failure or through intentional lowering / dropping of the payload). |
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Effects of partial detachment of the payload from the UA. |
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Distraction of the remote pilot generated by the payload during flight. |
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Procedures to verify the attachment points to the UA. |
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Procedures to verify the UA MTOM and CG location. |
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Procedures to detect and mitigate any failure of the payload in flight. |
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Safety provisions with regards to hazards inherent to the payload |
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Procedures in place for safe handling of the payload. |
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Means of identifying hazards. |
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HMI: |
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Information indicated to the remote pilot. |
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Alert messages indicated to the remote pilot. |
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Any other relevant information |
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CAP722A Table 23
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UAS launch and recovery systems |
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Power sources |
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Transportation equipment |
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Backup or emergency equipment |
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Procedures to transport UA, CU, battery/fuel, and other equipment between operation sites and from the loading/off-loading area to the take-off/landing area. |
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Storage of ground support equipment. |
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Suitability of the ground support equipment and transportation method with regards to the UAS components’ fragility, sensitivity or inherent hazards. |
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Ground support equipment standards |
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Ground support equipment manufacturer's recommendations. |
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Any other relevant information |
CAP722A Table 24
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Maintenance manual: |
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Structure |
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Maintenance procedures: |
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Inspections |
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Overhaul |
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Repairs |
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Assurance of repair procedures |
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Batteries maintenance during storage periods |
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Origin of each procedure |
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Maintenance schedules |
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Procedures to record maintenance that has been carried out. |
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Storage of maintenance records |
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Staff qualification and levels of approval. |
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Procedures to use the manual by the Maintenance staff |
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Configuration control |
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Any other relevant information |
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CAP722A Table 25
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Sources of procurement |
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Process to confirm the suitability of the part. |
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Any other relevant information |
CAP722A Table 26
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Hardware, software, and firmware version control |
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Modification standards |
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Modification records storage |
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Safety assessment associated with the modification |
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Any other relevant information |
CAP722A Table 27
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Step 1 – Identify the main functions of the UAS. |
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Step 2 – Identify the sub-functions. |
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Step 3 – Consider the ways each function may fail. |
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Step 4 – Identify the failure conditions. |
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Step 5 – Select those failure conditions that may lead to mid-air collision or harm to uninvolved people on the ground. (Identified Hazard) |
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Step 6 – Assurance |
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Step 7 – Describe the consequence of the failure condition. |
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Step 8 – Describe the failure modes. (Unmitigated Failures) |
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Step 9 – Identify the single points of failure. |
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Step 10 – Describe the risk mitigation means. |
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CAP722A Table 28
Aircraft | |
| Model | T650A |
| Weight | 7.58 lbs (3440 g, including propellers and two batteries, without gimbal and camera) |
| Max Takeoff Weight | 9.37lbs (4250 g) |
| GPS Hovering Accuracy | Vertical: ±1.64 feet (0.5 m) or ±0.33 feet (0.1 m, Downward Vision System enabled) Horizontal: ±4.92 feet (1.5 m) or ±0.98 feet (0.3 m, Downward Vision System enabled) |
| Max Angular Velocity | Pitch: 300 Deg./s Yaw: 150 Deg./s |
| Max Tilt Angle | P-mode: 35 Deg. (Forward Vision System enabled: 25 Deg.) A-mode: 35 Deg. S-mode: 40 Deg. |
| Max Ascent Speed | P-mode/A-mode: 16.4 ft/s (5 m/s) S-mode: 19.7 ft/s (6 m/s) |
| Max Descent Speed | Vertical: 13.1 ft/s (4 m/s) Tilt: 13.1-29.5 ft/s (4-9 m/s) |
| Max Takeoff Sea Level | 1.55 mi (2500 m) 3.1 mi (5000 m with specially-designed propeller) |
| Max Wind Speed Resistance | 10 m/s |
| Max Flight Time | Approx. 27min (with Zenmuse X4S) Approx. 23min (with Zenmuse X7) (Hovering at sea level with no wind.) |
| Motor Model | DJI 3512 |
| Propeller Model | DJI 1550T |
| Indoor Hovering | Enabled by default |
| Operating Temperature | -4 Deg. to 104 Deg. F (-20 Deg. to 40 Deg. C) |
| Diagonal Distance | 23.8 inch (605 mm, Landing Mode) |
| Max Speed (near sea level, no wind) | 58 mph or 94 kph(Sport mode) |
Remote Controller | |
| Model | GL6D10A |
| Operating Frequency | 2.400-2.483 GHz 5.725-5.850 GHz |
| Max Transmitting Distance (unobstructed, free of interference) | 2.4 GHz: FCC: 4.3 miles (7 km); CE: 2.2 miles (3.5 km); SRRC: 2.5 miles (4 km); MIC: 2.5 miles (4 km); 5.8 GHz: FCC: 4.3 miles (7 km); CE: 1.2 miles (2 km); SRRC: 3.1 miles (5 km); MIC: - ; |
| EIRP | 2.4 GHz: FCC: 26 dBm; CE: 17 dBm; SRRC: 20 dBm; MIC: 17dBm; 5.8 GHz: FCC: 28 dBm; CE:14 dBm; SRRC: 20 dBm; MIC: - ; |
| Video Output Ports | USB, HDMI |
| Power Supply | Built-in battery |
| Charging | DJI charger |
| Dual User Capability | Host-and-Slave connection |
| Mobile Device Holder | Tablet or Smart Phone |
| Max Mobile Device Width | 170 mm |
| Output Power | 9 W (Without supplying power to smart device) |
| Operating Temperature | -4 Deg. to 104 Deg. F (-20 Deg. to 40 Deg. C) |
| Storage Temperature | Less than 3 months: -4 Deg. to 113 Deg. F (-20 Deg. to 45 Deg. C) More than 3 months: 72 Deg. to 82 Deg. F (22 Deg. to 28 Deg. C) |
| Charging Temperature | 32 Deg. to 104 Deg. F (0 Deg. to 40 Deg. C) |
| Battery | 6000mAh 2S LiPo |
| USB Supply Power | iOS: 1 A @ 5.2 V (Max); Android: 1.5 A @ 5.2 V (Max) |
Battery | |
| Name | Intelligent Flight Battery |
| Model | TB50 |
| Capacity | 4280 mAh |
| Voltage | 22.8 V |
| Battery Type | LiPo 6S |
| Energy | 97.58 Wh |
| Net Weight | 515 g |
| Charging Temperature | 41 Deg. to 104 Deg. F (5 Deg. to 40 Deg. C) |
| Operating Temperature | -4 Deg. to 104 Deg. F (-20 Deg. to 40 Deg. C) |
| Max Charging Power | 180 W |
| Storage Temperature | Less than 3 months: -4 Deg. to 113 Deg. F (-20 Deg. to 45 Deg. C) More than 3 months: 72 Deg. to 82 Deg. F (22 Deg. to 28 Deg. C) |
Downward Vision System | |
| Velocity Range | <32.8 ft/s (10 m/s) at height of 6.56 feet (2 m) |
| Altitude Range | <32.8 feet (10 m) |
| Operating Range | <32.8 feet (10 m) |
| Operating Environment | Surfaces with clear patterns and adequate lighting (> 15 lux) |
| Ultrasonic Sensor Operating Range | 0.33-16.4 feet (10-500 cm) |
| Ultrasonic Sensor Operating Environment | Non-absorbing material, rigid surface (thick indoor carpeting will reduce performance) |
Upward Infrared Sensor | |
| Obstacle Sensing Range | 0-16.4 feet (0-5 m) |
| FOV | ±5 Deg. |
| Operating Environment | Large-size non-reflective obstacles |
Notes | |
| The terms HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress and the HDMI Logos are trademarks or registered trademarks of HDMI Licensing Administrator, Inc. | |
Gimbal | |
| Model | ZENMUSE X7(optional) ZENMUSE X5S(optional) ZENMUSE X4S(optional) |
| Angular Vibration Range | ±0.01 Deg. |
| Controllable Range | Pitch: -130 Deg. to+40 Deg. Roll: ±20 Deg. Pan: ±320 Deg. |
| Max Controllable Speed (tilt) | Pitch: 180 Deg./s Roll: 180 Deg./s Pan: 270 Deg./s |
| Interface Type | Detachable |
| Mechanical Range | Pitch: -140 Deg. to+50 Deg. Roll: -50 Deg. to+90 Deg. Pan: ±330 Deg. |
Charger | |
| Model | IN2C180 |
| Voltage | 26.1 V |
| Rated Power | 180 W |
Charging Hub | |
| Model | IN2CH |
| Input Voltage | 26.1 V |
| Input Current | 6.9 A |
Forward Vision System | |
| Obstacle Sensing Range | 2.3-98.4 feet (0.7-30 m) |
| FOV | Horizontal: 60 Deg.; Vertical: 54 Deg. |
| Operating Environment | Surfaces with clear patterns and adequate lighting (> 15 lux) |
APP | |
| Name | DJI GO 4 |
Data source: https://www.dji.com/inspire-2/info#specs
Generated using dronespec.info
Source data acquired 2023-01-23 19:03:43