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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 |
Avata |
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UAS design & manufaturing organisations |
DJI |
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Empty Mass |
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Maximum Take-Off Mass (MTOM) |
Takeoff Weight: |
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Dimensions for Rotorcraft / Multirotor |
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Length of aircraft body |
Dimensions: Diagonal Distance: |
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Width of aircraft body |
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Height of aircraft body |
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Propeller Configuration |
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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 |
Maximum Takeoff Altitude: |
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Maximum operating height |
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Maximum flight time during normal operation |
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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) |
Max Flight Distance: |
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Glide distances |
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Maximum radio range of the C2 Link |
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 Range: |
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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 |
Battery Capacity: Type: Chemical System: |
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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 |
Voltage: Energy: |
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Electrical load shedding functionality |
Discharge Rate: |
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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 Range: Charging Voltage Limit: |
CAP722A Table 11
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Propulsion type |
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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: 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 |
GNSS: |
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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 |
Downward: Operating Environment: |
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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 |
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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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|
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Power sources, supply management and redundancy. |
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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 |
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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 Range: Weight: Operating Temperature Range: Operating Time: Weight: |
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 |
Antennas: |
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Locations on the UAS |
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Transceivers / Modems: |
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Power levels |
Transmission Power (EIRP): Transmission Power (EIRP): Wi-Fi Transmission Power (EIRP): Bluetooth Transmission Power (EIRP): Transmission Power (EIRP): Transmission Power (EIRP): Transmission Power (EIRP): |
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Transmission schemes |
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Operating frequencies |
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Details of frequency spectrum approvals |
Communication Frequency: Communication 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 |
Max Video Transmission Bitrate [6]: Max Video Transmission Bitrate [6]: |
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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 |
|
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 |
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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 |
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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 |
Sensor: |
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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. |
|
|
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 |
|
CAP722A Table 23
|
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. |
|
|
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. |
|
|
Ground support equipment standards |
|
|
Ground support equipment manufacturer's recommendations. |
|
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Any other relevant information |
CAP722A Table 24
|
Maintenance manual: |
|
|
Structure |
|
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Maintenance procedures: |
|
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Inspections |
|
|
Overhaul |
|
|
Repairs |
|
|
Assurance of repair procedures |
|
|
Batteries maintenance during storage periods |
|
|
Origin of each procedure |
|
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Maintenance schedules |
|
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Procedures to record maintenance that has been carried out. |
|
|
Storage of maintenance records |
|
|
Staff qualification and levels of approval. |
|
|
Procedures to use the manual by the Maintenance staff |
|
|
Configuration control |
|
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Any other relevant information |
|
CAP722A Table 25
|
Sources of procurement |
|
|
Process to confirm the suitability of the part. |
|
|
Any other relevant information |
CAP722A Table 26
|
Hardware, software, and firmware version control |
|
|
Modification standards |
|
|
Modification records storage |
|
|
Safety assessment associated with the modification |
|
|
Any other relevant information |
CAP722A Table 27
|
Step 1 – Identify the main functions of the UAS. |
|
||||
|
Step 2 – Identify the sub-functions. |
|
||||
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Step 3 – Consider the ways each function may fail. |
|
||||
|
Step 4 – Identify the failure conditions. |
|
||||
|
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 |
|
||||
|
Step 7 – Describe the consequence of the failure condition. |
|
||||
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Step 8 – Describe the failure modes. (Unmitigated Failures) |
|
||||
|
Step 9 – Identify the single points of failure. |
|
||||
|
Step 10 – Describe the risk mitigation means. |
|
||||
CAP722A Table 28
Camera | |
| Sensor | 1/1.7-inch CMOS Effective Pixels: 48 MP |
| Lens | FOV: 155 Deg. Equivalent Focal Length: 12.7 mm Focal Length: 2.34 mm Aperture: f/2.8 Focus Mode: FF Focus Range: 0.6 m to ∞ |
| ISO Range | 100-6400 (Auto) 100-25600 (Manual) |
| Shutter Speed | Video: 1/8000-1/50 s Photo: 1/8000-1/50 s |
| Still Photography Mode | Single Shot |
| Max Image Size | 4000 x 3000 |
| Photo Format | JPEG |
| Video Resolution | With DJI Goggles 2: 4K@30/50/60fps 2.7K@30/50/60/100/120fps 1080p@30/50/60/100/120fps With DJI FPV Goggles V2: 4K@30/50/60fps 2.7K@30/50/60/100/120fps 1080p@30/50/60/100/120fps |
| Video Format | MP4 |
| Max Video Bitrate | 150 Mbps |
| Color Mode | Standard D-Cinelike |
| EIS | Supports RockSteady and HorizonSteady Can be disabled |
| Distortion Correction | Supports Normal Mode, Wide Mode, and Ultra Wide Mode |
| Supported File System | exFAT (recommended) FAT32 |
Gimbal | |
| Mechanical Range | Tilt: -95 Deg. to 75 Deg. |
| Controllable Range | Tilt: -80 Deg. to +65 Deg. |
| Stabilization | Single-Axis (tilt) |
| Max Control Speed (tilt) | 60 Deg./s |
| Angular Vibration Range | ±0.01 Deg. |
| Electronic Roll Axis | Real-time screen correction is unavailable during recording, but can be applied to the footage recorded on the drone. |
Aircraft | |
| Model | QF2W4K |
| Takeoff Weight | Approx. 410 g |
| Dimensions | 180 x 180 x 80 mm |
| Diagonal Distance | 120 mm |
| Max Ascent Speed | 6 m/s (Normal Mode, Sport Mode) |
| Max Descent Speed | 6 m/s (Normal Mode, Sport Mode) |
| Max Speed (near sea level, no wind) | 8 m/s (Normal Mode) 14 m/s (Sport Mode) 27 m/s (Manual Mode) |
| Maximum Takeoff Altitude | 5000 m |
| Max Hover Time (without wind) | Approx. 18 mins [2] |
| Max Flight Distance | 11.6 km |
| Max Wind Speed Resistance | 10.7 m/s (Level 5) |
| Operating Temperature Range | -10 Deg. to 40 Deg. C (14 Deg. to 104 Deg. F) |
| Transmission Power (EIRP) | FCC: < 33 dBm CE: < 14 dBm SRRC: < 30 dBm |
| Antennas | Dual Antennas, 2T2R |
| GNSS | GPS + Galileo + BeiDou |
| Hovering Accuracy Range | Vertical: ±0.1 m (with Vision Positioning) ±0.5 m (with GNSS Positioning) Horizontal: ±0.3 m (with Vision Positioning) ±1.5 m (with GNSS Positioning) |
| Supported SD Cards | microSD (up to 256 GB) |
| Recommended microSD Cards | SanDisk Extreme U3 V30 A1 32GB microSDXC SanDisk Extreme Pro U3 V30 A1 32GB microSDXC Kingston Canvas Go!Plus U3 V30 A2 64GB microSDXC Kingston Canvas React Plus U3 V90 A1 64GB microSDXC Kingston Canvas React Plus U3 V90 A1 128GB microSDXC Kingston Canvas React Plus U3 V90 A1 256GB microSDXC Samsung PRO Plus U3 V30 A2 256GB microSDXC |
| Internal Storage | 20 GB |
Sensing System | |
| Downward | ToF Effective Measurement Height: 10 m Precise Hovering Range: 0.5-10 m Vision Sensor Hovering Range: 0.5-20 m |
| Operating Environment | Diffuse reflective surfaces with a clear pattern > 20% (such as walls, trees, or people) Adequate lighting (lux > 15, normal indoor lighting conditions) |
Intelligent Flight Battery | |
| Battery Capacity | 2420 mAh |
| Voltage | 14.76 V |
| Charging Voltage Limit | 17 V |
| Type | Li-ion |
| Chemical System | LiNiMnCoO2 |
| Energy | 35.71 Wh@0.5C |
| Discharge Rate | Typical: 7C |
| Weight | Approx. 162 g |
| Charging Temperature Range | 5 Deg. to 40 Deg. C (41 Deg. to 104 Deg. F) |
Video Transmission | |
| Communication Frequency | 2.400-2.4835 GHz (RX only) 5.725-5.850 GHz (RX and TX) [4] |
| Communication Bandwidth | Max 40 MHz |
| Live View Quality and Latency [5] | With DJI FPV Goggles V2: 810p/120fps Video Transmission Quality: The video transmission latency is lower than 28 ms. 810p/60fps Video Transmission Quality: The video transmission latency is lower than 40 ms. With DJI Goggles 2: 1080p/100fps Video Transmission Quality: The video transmission latency is as low as 30 ms. 1080p/60fps Video Transmission Quality: The video transmission latency is as low as 40 ms. |
| Max Video Transmission Bitrate [6] | 50 Mbps |
| Max Video Transmission Range [7] | 10 km (FCC), 2 km (CE), 6 km (SRRC) |
| Audio Transmission | N/A |
DJI Goggles 2 | |
| Model | RCDS18 |
| Weight | Approx. 290 g (headband included) |
| Dimensions (L×W×H) | With antennas folded: 167.40 x 103.90 x 81.31 mm With antennas unfolded: 196.69 x 103.90 x 104.61 mm |
| Screen Size (single screen) | 0.49-inch |
| Resolution (single screen) | 1920 x 1080 |
| Refresh Rate | Up to 100 Hz |
| Interpupillary Distance Range | 56-72 mm |
| Diopter Adjustment Range | -8.0 D to +2.0 D |
| FOV (single screen) | 51 Deg. |
| Communication Frequency | 2.400-2.4835 GHz 5.725-5.850 GHz [4] |
| Transmission Power (EIRP) | 2.4 GHz: < 30 dBm (FCC), < 20 dBm (CE/SRRC/KC) 5.8 GHz [4]: < 30 dBm (FCC), < 23 dBm (SRRC), < 14 dBm (CE/KC) |
| Wi-Fi Protocol | Wi-Fi 802.11b/a/g/n/ac |
| Wi-Fi Communication Frequency | 2.400-2.4835 GHz 5.150-5.250 GHz (indoor use only) [8] 5.725-5.850 GHz [4] |
| Wi-Fi Transmission Power (EIRP) | 2.4 GHz: < 20 dBm (FCC/CE/SRRC/KC) 5.1 GHz [8]: < 20 dBm (FCC/CE/KC) 5.8 GHz [4]: < 20 dBm (FCC/SRRC/KC), < 14 dBm (CE) |
| Bluetooth Protocol | Bluetooth 5.2 |
| Bluetooth Communication Frequency | 2.400-2.4835 GHz |
| Bluetooth Transmission Power (EIRP) | < 8 dBm |
| Max Video Transmission Bitrate [6] | 50 Mbps |
| Video Recording Format | MOV |
| Supported Video and Audio Playback Formats | MP4 and MOV (video coding formats: H.264 and H.265; audio format: ACC, PCM) |
| Wi-Fi Wireless Streaming | Supports DLNA Protocol |
| Operating Temperature Range | -10 Deg. to 40 Deg. C (14 Deg. to 104 Deg. F) |
| Power Input | DJI Goggles 2 Battery |
| Supported SD Cards | microSD (up to 256 GB) |
DJI Goggles 2 Battery | |
| Capacity | 1800 mAh |
| Voltage | 7-9 V (1.5 A) |
| Type | Li-ion |
| Chemical System | LiNiMnCoO2 |
| Energy | 18 Wh |
| Charging Temperature Range | 0 Deg. to 45 Deg. C (32 Deg. to 113 Deg. F) |
| Max Charging Power | 12.6 W (5 V/2 A, 9 V/1.4 A) |
| Weight | Approx. 122 g |
| Dimensions (L×W×H) | 73.04 x 40.96 x 26 mm |
| Operating Time | Approx. 2 hours |
DJI FPV Goggles V2 | |
| Model | FGDB28 |
| Weight | Approx. 420 g (headband and antennas included) |
| Supported Video and Audio Playback Formats | MP4, MOV, MKV (video coding format: H.264; audio formats: AAC-LC, AAC-HE, AC-3, MP3) |
| Operating Temperature Range | 0 Deg. to 40 Deg. C (32 Deg. to 104 Deg. F) |
| Video Recording Format | MOV (video coding format: H.264) |
| FOV | 30 Deg. to 54 Deg., adjustable Image Size: 50% to 100% |
| Communication Frequency | 2.400-2.4835 GHz 5.725-5.850 GHz [4] |
| Max Video Transmission Bitrate [6] | 50 Mbps |
| Dimensions (L×W×H) | Without antennas: 184 x 122 x 110 mm With antennas: 202 x 126 x 110 mm |
| Transmission Power (EIRP) | 2.400-2.4835 GHz FCC: <= 28.5 dBm CE: <= 20 dBm SRRC: <= 20 dBm 5.725-5.850 GHz [4] FCC: <= 31.5 dBm CE: <= 14 dBm SRRC: <= 19 dBm |
| Screen Size (single screen) | 2-inch |
| Power Input | Dedicated DJI Goggles batteries |
| Supported SD Cards | microSD (up to 256 GB) |
| Communication Bandwidth | Max 40 MHz |
| Interpupillary Distance Range | 58-70 mm |
| Refresh Rate | 144 Hz |
| Screen Resolution | 1440 x 810 |
DJI FPV Goggles V2 Battery | |
| Weight | Approx. 119 g |
| Dimensions (L×W×H) | 73.04 x 40.96 x 26 mm |
| Capacity | 1800 mAh |
| Voltage | Max 9 V |
| Chemical System | LiNiMnCoO2 |
| Type | Li-Po 2S |
| Energy | 18 Wh |
| Charging Temperature Range | 0 Deg. to 45 Deg. C (32 Deg. to 113 Deg. F) |
| Max Charging Power | 10 W |
| Operating Time | Approx. 110 mins |
DJI Motion Controller | |
| Model | FC7BMC |
| Weight | Approx. 167 g |
| Communication Frequency | 2.400-2.4835 GHz 5.725-5.850 GHz [4] |
| Transmission Power (EIRP) | 2.4 GHz: <= 28.5 dBm (FCC), <= 20 dBm (CE/SRRC) 5.8 GHz [4]: <= 31.5 dBm (FCC), <= 19 dBm (SRRC), <= 14 dBm (CE) |
| Operating Temperature Range | -10 Deg. to 40 Deg. C (14 Deg. to 104 Deg. F) |
| Operating Time | Approx. 5 hours |
DJI FPV Remote Controller 2 | |
| Model | FC7BGC |
| Weight | Approx. 346 g |
| Communication Frequency | 2.400-2.4835 GHz 5.725-5.850 GHz [4] |
| Transmission Power (EIRP) | 2.4 GHz: <= 28.5 dBm (FCC), <= 20 dBm (CE/SRRC) 5.8 GHz [4]: <= 31.5 dBm (FCC), <= 19 dBm (SRRC), <= 14 dBm (CE) |
| Dimensions (L×W×H) | 190 x 140 x 51 mm |
| Operating Time | Approx. 9 hours |
| Operating Temperature Range | -10 Deg. to 40 Deg. C (14 Deg. to 104 Deg. F) |
| Charging Time | 2.5 hours |
Other | |
| Footnotes | 1. The max flight speed is subject to dynamic local restrictions. Please abide by local laws and regulations when flying. 2. Tested when hovering in an environment without wind or interference. 3. DJI Avata only supports downward obstacle sensing when used with DJI FPV Remote Controller 2, or DJI Motion Controller in N Mode and S Mode. 4. The 5.8 GHz frequency band is currently banned in certain countries or regions. For details, please refer to local laws and regulations. 5. Tested in an outdoor open environment without interference. The video transmission latency data varies with different models. 6. Tested in an outdoor open environment without interference. The video transmission bitrate varies with operating environments. 7. FCC compliant and tested in an outdoor open environment without interference. Data is tested under different standards in an outdoor open environment without interference. Only to serve as a reference for the max one-way communication distance without considering RTH. Please pay attention to the RTH prompts during actual flight. Max one-way communication distance of DJI Avata in countries/regions of different standards: FCC: United States, Australia, Canada, Hong Kong, Taiwan, Chile, Colombia, Puerto Rico, and other regions. SRRC: Mainland China. CE: UK, France, Germany, Portugal, Spain, Switzerland, Macau, New Zealand, UAE, and other regions. 8. The 5.1 GHz frequency band is currently banned in China and Thailand. For details, please refer to local laws and regulations. |
Data source: https://www.dji.com/avata/specs
Generated using dronespec.info
Source data acquired 2023-01-23 19:03:42