Autopilot 4x
Redundant Flight Control System
Veronte Autopilot 4x is a redundant control system for critical drone and eVTOL aircraft vehicle installation. Fail-operational redundant autopilot architecture has been designed for avoiding single point of failure.
Any Vehicle
Certification Datapack
4x redundancy
Drone or eVTOL
No SPOF
Flight Controller
Advanced Flight Control System
Custom Control Strategy
Configured by the user through a block diagram flow. The model based design tool allows for flexible and personalized system customization according to specific user needs. Custom C++ code can also be loaded for advanced customization options.
Aircraft Certification
Designed in compliance with manned aviation certification standards . The DO178C and DO254 compliance up to DAL B (DAL A ongoing) and DO160 provides airworthiness evidence needed to face an eVTOL / drone certification.
Autonomous Flight & Fly-by-wire
Flexible architecture in Veronte Autopilot 4x permits to configure custom control modes for both remote and onboard control. It includes autonomous flight, fly-by-wire and manual control modes, benign configurable to eVTOL and drone needs.
Any Vehicle
4x redundancy
Drone or eVTOL
No SPOF
Certification Datapack
Flight Controller
Advanced Flight Control System
Custom Control Strategy
Configured by the user through a block diagram flow. The model based design tool allows for flexible and personalized system customization according to specific user needs. Custom C++ code can also be loaded for advanced customization options.
Aircraft Certification
Designed in compliance with manned aviation certification standards . The DO178C and DO254 compliance up to DAL B (DAL A ongoing) and DO160 provides airworthiness evidence needed to face an eVTOL / drone certification.
Autonomous Flight & Fly-by-wire
Flexible architecture in Veronte Autopilot 4x permits to configure custom control modes for both remote and onboard control. It includes autonomous flight, fly-by-wire and manual control modes, benign configurable to eVTOL and drone needs.
All Kind Of Vehicles
The use of model-based design in Veronte Autopilot permits to create custom control phases and aircraft layouts so it can be easily adapted to any aircraft, even if it is a manned or unmanned vehicle. All this without source code modifications.
VTOL
Fixed Wing
Multirotor
MALE/HALE
Helicopter
Gyrocopter
Parafoil
Blimp
UGV
USV
All Kind Of Vehicles
The use of model-based design in Veronte Autopilot permits to create custom control phases and aircraft layouts so it can be easily adapted to any aircraft, even if it is a manned or unmanned vehicle. All this without source code modifications.
VTOL
Fixed Wing
Multirotor
MALE
HALE
Helicopter
Blimp
Parafoil
Gyrocopter
UGV
USV
Critical eVTOL & Drone Control
The configurable control logics and the compliance with aircraft certification standards makes Veronte Autopilot the perfect choice for the control of autonomous vehicles operating in critical scenarios or aiming to pass a certification program.
eVTOL Flight Control
Installation on manned vehicles for autonomous control or fly-by-wire operations
MALE & HALE UAV Autopilot
Control of high altitude drones, even for those operating in the stratosphere
Urban Air Mobility Operations
Safe operation for logistics and drones operating in critical and populated areas
Critical eVTOL & Drone Control
The configurable control logics and the compliance with aircraft certification standards makes Veronte Autopilot the perfect choice for the control of autonomous vehicles operating in critical scenarios or aiming to pass a certification program.
eVTOL Flight Control
Installation on manned vehicles for autonomous control or fly-by-wire operations.
MALE & HALE UAV Autopilot
Control of high altitude drones, even for those operating in the stratosphere.
Urban Air Mobility Operations
Safe operation for logistics and drones operating in critical and populated areas
Aircraft Certification
eVTOL and Drone Airworthiness Certification
4x Redundant
Hardware design includes 4x redundancy. It embeds three complete Veronte Autopilot cores and allows connectivity for a 4th external autopilot. The external core adds dissimilarity and permits to use Veronte 4x as a backup unit for certification.
Certification Evidence
Developed according to the DO178C / ED12 and DO254 / ED80 certification standards with DAL B compliance (DAL A ongoing) and tested according to the DO160, the certification datapack includes the evidence required for a certification program.
No Single Point Of Failure
Hardware design is performed so the system does not have a single point of failure. The architecture makes it robust to a failure in any component in the system, even to a failure in the arbiter board in charge of the redundancy management.
Aircraft Certification
eVTOL and Drone Airworthiness Certification
4x Redundant
Hardware design includes 4x redundancy. It embeds three complete Veronte Autopilot cores and allows connectivity for a 4th external autopilot. The external core adds dissimilarity and permits to use Veronte 4x as a backup unit for certification.
Certification Evidence
Developed according to the DO178C / ED12 and DO254 / ED80 certification standards with DAL B compliance (DAL A ongoing) and tested according to the DO160, the certification datapack includes the evidence required for a certification program.
No Single Point Of Failure
Hardware design is performed so the system does not have a single point of failure. The architecture makes it robust to a failure in any component in the system, even to a failure in the arbiter board in charge of the redundancy management.
Advanced Flight Control
Sense & Avoid
Veronte Autopilot includes avoidance algorithms for the automatic evasion of obstacles nearby. The obstacle detection can be feed with the embedded ADS-B/Remote ID module or through an external source such as radar or vision.
GNSS Denied Operations
Position estimation algorithms merge INS with wind estimation and other sensors in reducing the position drifting in the event of a GNSS loss. It can be merged with external data sources to improve the position accuracy with no GNSS signal.
Companion Computer
For applications requiring advanced computing power or communications with external computers, such as custom user interfaces, Veronte Autopilot uses STANAG 4586. Simpler devices can be interfaced with custom message tools.
Peripheral Compatibility
Veronte Autopilot is agnostic to the external peripherals. The configuration tools permit connecting any external device.
Peripheral Compatibility
Veronte Autopilot is agnostic to the external peripherals. The configuration tools permit connecting any external device.
Extended Communications
Veronte Autopilot 4x includes a wide variety of inputs and outputs. RS232, RS485, CAN Bus, I2C, PWM, Analog, Digital I/O… are available and can be easily configured for interfacing with all kinds of devices. The Veronte CEX module is designed for large vehicles so the number of I/O available can be easily expanded and complex system architectures can be defined.
LOS & BLOS Flights
A wide variety of communication channels can be used. Veronte Tracker is the preferred solution for long range LOS communication. The internal 4G module enables BLOS communications with no additional hardware. External third party LOS, 4G/LTE and Satcom datalink modules can be used for communications with no range limitations.
Extended Communications
Veronte Autopilot 4x includes a wide variety of inputs and outputs. RS232, RS485, CAN Bus, I2C, PWM, Analog, Digital I/O… are available and can be easily configured for interfacing with all kinds of devices. The Veronte CEX module is designed for large vehicles so the number of I/O available can be easily expanded and complex system architectures can be defined.
LOS & BLOS Flights
A wide variety of communication channels can be used. Veronte Tracker is the preferred solution for long range LOS communication. The internal 4G module enables BLOS communications with no additional hardware. External third party LOS, 4G/LTE and Satcom datalink modules can be used for communications with no range limitations.
3D Model
Interact with the 3D model and explore every 4x detail.
Size
70 x 125 x 84mm
Weight
615g | 632 + ADS-B/Remote ID
Temperature
-40º to 65ºC
Standards
DO178-C, DO254, DO160-G,…
MTBF
10⁹
Power
17-47W | 6.5-36VDC
Specifications
All Vehicles | Plane | Multi | Heli | Autogiro | VTOL | USV | + |
100% Autonomous | Mission & payload | Assisted / Manual / Auto |
Fly-by-wire | Onboard or remote joystick |
High Reliability | Full redundant | Fail operational |
Sense & Avoid | Radar | Lidar | Camera | ADS-B | Remote ID |
Internal Sensors | 9x IMU | 9x Magneto | 6x Barometer | 3x Pitot |
Positioning | 6x GNSS | RTK | GNSS Heading |
Communications | Custom protocols | Mission computer |
Programs | Model based design |Customization |PID level |
Phases | Takeoff | Landing | Cruise | Hover | Transition | + |
Automations | Failsafe | Phase change | Operation | Payload |
Navigation | Sensor mix | Kalman filter | External sensors |
Pheripherals | Gimbal | ADS-B | Altimeter | Cameras | Others |
Compatibility | Custom protocols | Mission computer |
Ports | PWM/GPIO | ADC |
Buses | CAN | I2C | RS232 | RS485 | UART |
Auxiliary | PWM | I2C | RS232 | RS485 | ADC | ARINC |
Expandible | Veronte CEX | Up to 32 actuators |
Redundancy | 3 Internal autopilot cores | 4th External |
Customizable | Configurable voting logics |
Robustness | No single point of failure |
Certification | DO178-C | DO254 | DAL-B | DO160-G |
Failsafe | Dissimilar supervisor | FTS |
Protections | ESD, Overtemperature, Short Circuit, RP |
Robust Manuf. | ATR, DDP & DoD | ESS & Calibration in all units |
Power Input | 6,5 – 36VDC | 17 – 47W | Redundant input |
Construction | Anodized aluminium | IP67 |
Temperature | -40 to 60ºC |
Weight | 750g |
Price
4x – w/o DAA 1.8 | 23500€ |
4x – Remote ID 1.8 | 24000€ |
4x – ADS-B 1.8 | 27000€ |
Note: Custom C++, simulation and other advanced tools excluded.