WingtraOne Gen II PPK RPAS Package with A6100 - includes Hardcase
Ready to fly in five minutes
The WingtraOne drone comes with a tablet featuring WingtraPilot, the built-in app for easily managing data acquisition. The intuitive app includes various ways to prepare flight plans as well as monitor and review missions during flight.
Use one drone for all your mapping missions
With swappable cameras and propellers, and advanced flight planning features, you are able to collect different types of data in any environment.
Speed up your workflow
WingtraPilot and WingtraHub have been developed with many smart features to make your data collection faster, safer and more convenient.
Stay confident even in tough conditions
Engineered in Switzerland, WingtraOne offers the highest quality standards and is extensively used in various environments, from glaciers in Greenland to desert mines in Namibia.
Fly everywhere, safely
WingtraOne can take off and land everywhere—even in confined spaces or on rough terrain. This enables you to collect data where other drones cannot.
Trust your equipment
The WingtraOne drone comes with a rugged Samsung Galaxy Tab Active 3, which can withstand all conditions common to a drone mapping project.
DRONE | |
---|---|
Drone type | Tailsitter vertical take-off and landing (VTOL) |
Weight | 3.7 kg (8.1 lb) |
Max. payload weight | 800 g (1.8 lb) |
Wingspan | 125 cm (4.1 ft) |
Battery capacity | Two 99 Wh batteries (a pair of batteries required) |
Radio link | Bi-directional 10 km (6 mi) in direct line of sight, keep in mind that obstacles reduce the range |
SOFTWARE & TABLET | |
---|---|
Flight planning & mission control software | WingtraPilot |
Tablet supplied | Rugged Samsung Galaxy Tab Active 3, water and dust resistant, MIL-STD-810-certified, WingtraPilot pre-installed. |
OPERATIONS | |
---|---|
Flight speed | 16 m/s (35.8 mph) |
Wind resistance | Max sustained wind: 12 m/s (27 mph) |
Max wind gusts: 18 m/s (40 mph) | Max sustained wind on the ground: 8/ms (19 mph) |
Maximum flight time | Up to 59 min |
Min. space for take-off and landing | 2 m × 2 m (6.6 ft × 6.6 ft) |
Temperature | -10 to +40 °C (14 to 104 °F) |
Max. take-off altitude above sea level | 2500 m (8200 ft) - With high-altitude propellers it is possible to take off from up to 4800 m (15,700 ft) and fly up to 5000 m (16,400 ft) AMSL |
Weather | IP54, not recommended to fly in fog, rain and snow |
Ground Control Points required | No (with PPK option) - Using 3 checkpoints to verify the accuracy is recommended |
Auto-Landing accuracy | < 2 m (< 7 ft) |
Brochures | |
---|---|
WOP-GENII-A6100 - Brochure |
Brand: Wingtra |
Code: WOP-GENII-A6100
MPN:
Supplier Code:
Brand: Wingtra |
Code: WOP-GENII-A6100
MPN:
Supplier Code:
At a glance
Ready to fly in five minutesThe WingtraOne drone comes with a tablet featuring WingtraPilot, the built-in app for easily managing data acquisition. The intuitive app includes various ways to prepare flight plans as well as monitor and review missions during flight.
|
|
Use one drone for all your mapping missionsWith swappable cameras and propellers, and advanced flight planning features, you are able to collect different types of data in any environment.
|
|
Speed up your workflowWingtraPilot and WingtraHub have been developed with many smart features to make your data collection faster, safer and more convenient.
|
|
Stay confident even in tough conditionsEngineered in Switzerland, WingtraOne offers the highest quality standards and is extensively used in various environments, from glaciers in Greenland to desert mines in Namibia.
|
|
Fly everywhere, safelyWingtraOne can take off and land everywhere—even in confined spaces or on rough terrain. This enables you to collect data where other drones cannot.
|
|
Trust your equipmentThe WingtraOne drone comes with a rugged Samsung Galaxy Tab Active 3, which can withstand all conditions common to a drone mapping project.
|
5 min setup
Take off in less than five minutes, including drone setup, all pre-flight steps and planning of a simple mapping mission.
Pre-flight checklist
WingtraPilot guarantees full functionality of the drone before the flight by running background checks like battery health, GPS reception and test images.
Fully autonomous
Automated launch, in-flight data collection and landing without human interaction.
Pause and resume
Pause the survey mission at any time to make the drone loiter in the air, or trigger return to home (RTH), causing the drone to fly back to its take-off location automatically. From both of these states at any time, you can resume the survey mission, and the drone will start capturing images from where it stopped.
Manual take-over with in-app controls
Take manual control of the drone at any time during landing. Use the intuitive controls on the tablet to adjust its position mid-air and land safely.
Real-time monitoring
Displays information like flight location, altitude and mission progress from a range of up to 10 km (6 mi).
Smart voice
Provides you with comprehensive audio feedback during the mission.
Camera swap
Swappable camera with a single standard USB-C interface. Change between RGB, oblique, and multispectral cameras within minutes.
High-altitude propellers
Optional propellers allow take-off at altitudes at up to 4800 m (15,700 ft) AMSL and data collection at altitudes of up to 5000 m (16,400 ft) AMSL.
Corridor mapping
Fast, efficient coverage of long, narrow stretches. For road construction or inspection; railway track, pipeline and power line inspection, and environmental research.
Oblique camera
For mapping vertical structures, swap to the Sony Oblique a1600. Mounted on a tilted axis, this wide-angle camera is optimized for mapping vertical structures, allowing you to generate high-resolution 3D meshes.
Beyond visual line of sight (BVLOS)
Full mission capability even without a connection to the ground station.
Advanced mission planning
Multi-area planning and zero overlap for population counting algorithms.
KML import
No internet connection in the field? No problem. You can always download offline maps in advance while you’re still connected to the internet and use them at the mapping location.
Offline maps
For a seamless mission, simply import KML files directly from GIS programs. WingtraPilot will construct the optimal flight path to cover the area.
On-site inspection
All aerial images and geolocation information is stored on a single SD card and can be inspected in the field on the WingtraPilot tablet for early quality checks.
Integrated PPK post-processing
WingtraHub is our integrated image geotagging software. If you have a WingtraOne with a PPK module, the high-precision PPK processing will give you centimeter-accuracy geotags for flight images. WingtraOne images can be geotagged in any Earth-centered, Earth-fixed coordinate system such as WGS84.
Saved mission
For time saving and consistent results from recurring surveys, saved missions can be loaded with a single click.
Battery swap and resume
Automatically splits large missions, pausing flight and resuming after the batteries have been swapped.
Multi-flight geotagging
Allows georeferencing of multiple flights at the end of the day, saving time in the field.
Single SD card workflow
Eliminates risk of mismatched or lost data even for the PPK workflow.
Engineered and assembled in Switzerland
Each drone is subjected to more than 300 rigorous performance assurance tests to ensure the highest quality standard.
Industry-leading reliability
More than 100,000 flights and 6 years of continuous testing and enhancements will ensure maximum up-time for your operations. Payload protection. WingtraOne’s camera never comes into contact with the ground, protecting it from abrasion, dust, dirt and snow, especially on rough terrain.
Terrain following
The terrain following function relies on global terrain models and allows safe and effective mapping from steady altitudes even in the most mountainous areas. Absolute flight altitude, flight height above the ground and terrain elevation are graphically displayed in WingtraPilot.
Predictive self-diagnosis
WingtraOne diagnoses component malfunctions for batteries, motors and servos using advanced machine learning algorithms based on data from thousands of flights. WingtraPilot can thus notify you of any potential malfunction before it occurs, so that you always fly with the safest equipment.
Custom elevation data
Use your own elevation data instead of the default shuttle radar topography mission (SRTM) terrain data.
Redundant sensors
Fully redundant GPS, IMU and magnetometer sensors.
Adaptive geofence
Allows dynamic constraint of flight radius to prevent fly-aways.
Lights
Optional green and red LED flashing position lights enhance visibility and indicate flight direction.
Up to 59 min flight time
Efficient fixed-wing flight mode allows WingtraOne to take on missions that last up to 59 min. (Maximum flight time varies depending on payloads and environmental factors)
10 km telemetry range
Stay connected with your drone via a direct line of site range of up to 10 km (6 mi).
Remote ID ready
The WingtraOne GEN II is equipped with a WiFi module that ensures full compliance with existing and upcoming Remote ID regulations.
2 x 2 m landing accuracy (6.6 x 6.6 ft)
WingtraOne lands exactly where it started, allowing you to operate in confined spaces and increasing the overall safety of your flight.
Smart batteries
Li-ion cells, with short circuit, over-charging, and under-voltage protection. Safe and compliant with UN regulations for carry-on luggage.
Down to 0.7 cm (0.3 in) GSD
The full-frame 42 MP Sony RX1R II payload enables you to achieve sub-centimeter GSDs. Such low GSDs guarantee better map reconstruction, broader coverage and the highest accuracy results.
Centimeter-level accuracy without GCPs
Using the built-in multi-frequency L1/L2 PPK GNSS receiver, achieve centimeter-level absolute accuracy without GCP (Ground Control Points) for all types of maps, from orthomosaics to 3D reconstructions and multispectral images. Combined with the high-resolution Sony RX1R II camera, you can even achieve best-in class horizontal absolute accuracy down to 1 cm (0.4 in).
Sharp results in high winds
Advanced wind control algorithms guarantee stable data collection in sustained winds up to 12 m/s (27 mph) and gusts up to 18 m/s (40 mph).
Quad-constellation GNSS receiver
Redundant modules using GPS (L1, L2), GLONASS (L1, L2), Galileo (L1) and BeiDou (L1).
Payload damping
Passive damping for consistent brilliant, sharp images.
MIL-STD-810 certified
Military standard for durability amidst excessive pressure, temperatures, vibrations and drops.
IP68-rated
IP68-rated for water and dust resistance.
Replaceable battery
Replaceable batteries through the back panel.
Anti-shock
Up to 1.2 m (4 ft) with in-box protective covering.
DRONE | |
---|---|
Drone type | Tailsitter vertical take-off and landing (VTOL) |
Weight | 3.7 kg (8.1 lb) |
Max. payload weight | 800 g (1.8 lb) |
Wingspan | 125 cm (4.1 ft) |
Battery capacity | Two 99 Wh batteries (a pair of batteries required) |
Radio link | Bi-directional 10 km (6 mi) in direct line of sight, keep in mind that obstacles reduce the range |
SOFTWARE & TABLET | |
---|---|
Flight planning & mission control software | WingtraPilot |
Tablet supplied | Rugged Samsung Galaxy Tab Active 3, water and dust resistant, MIL-STD-810-certified, WingtraPilot pre-installed. |
OPERATIONS | |
---|---|
Flight speed | 16 m/s (35.8 mph) |
Wind resistance | Max sustained wind: 12 m/s (27 mph) |
Max wind gusts: 18 m/s (40 mph) | Max sustained wind on the ground: 8/ms (19 mph) |
Maximum flight time | Up to 59 min |
Min. space for take-off and landing | 2 m × 2 m (6.6 ft × 6.6 ft) |
Temperature | -10 to +40 °C (14 to 104 °F) |
Max. take-off altitude above sea level | 2500 m (8200 ft) - With high-altitude propellers it is possible to take off from up to 4800 m (15,700 ft) and fly up to 5000 m (16,400 ft) AMSL |
Weather | IP54, not recommended to fly in fog, rain and snow |
Ground Control Points required | No (with PPK option) - Using 3 checkpoints to verify the accuracy is recommended |
Auto-Landing accuracy | < 2 m (< 7 ft) |
Brochures | |
---|---|
WOP-GENII-A6100 - Brochure |
News | Feb 2, 2022
News | Jun 22, 2021
News | Jan 30, 2019