Long-Endurance Fixed-Wing RTK Drone
Efficiency with Precision
Flying and mapping large areas is easy with the Eclipse professional RTK photogrammetry drone. Its users can quickly collect accurate spatial data, and we are here with the support to ensure that they do.
Eclipse has been designed with unmatched specifications targeting large area precision land surveys in mind, including centimeter-level precision RTK GPS with PPK capabilities and long-range 900 MHz connectivity that does not depend on cellular networks. The vehicle's performance can last up to 100 minutes with select battery pack options.
Multi-use
Eclipse 2.0 is designed for configurable payloads including Sony, Micasense, and FLIR cameras.
Land surveying productivity is ensured thanks to 100 min flight endurance combined with a long communications range and high-resolution Sony - up to 700 acres can be mapped at 1.3 inches per pixel resolution per flight at 400 feet altitude. Eclipse is the ideal tool for large land surveys, topography, geology, planimetrics, and cadastre applications.
Rugged
Eclipse 2.0 is not only built to withstand abuse, it is also the only portable fixed-wing drone available with a detachable landing skid for use in the roughest environments. Coupled with reverse thurst for landings in tight spaces, Eclipse can be used in almost any site.
Control Software
The Robota GCS (Ground Control Station) is the intuitive interface for live mission planning and vehicle monitoring.
Simple yet powerful, novice pilots can quickly get started with our intuitive interface while advanced features await. Controlling drones has never been easier.
Portable
Convenient, reliable, and portable transport is provided by our rugged transport case. Fly up to 6.5hr with the batteries available in the transport case. Everything you need to start mapping with photogrammetry is in the box and can be assembled in a minute with no tools required.
Join The Revolution
Features
Ground Sampling Distance
1.3 Inches @ 400ft
Mapping Area RX100
400 to 700 acres
GNSS Frequencies
GPS GLONASS Galileo L1/L2
Flight Time
59, 80, 100 minutes
Transport case
35.32 x 17.88 x 17.88 in
Resolution
20MP
Max Wind
28 mph
GNSS
PPK Precision
Communication Range
5+ miles
GNSS
RTK Precision
Outputs
Contour Lines
.dxf .dwg .shp
Digital Surface Model
.tiff
Point Cloud
.las .laz .ply .ascii
Vegetation Index
.tiff
Orthomosaic
.tiff
Testimonials
The RoboDot Touch has completely transformed my surveying workflow with its incredible portability and multi-mode functionality, at an amazing price for professional-grade RTK GPS! -
John Baczkowski
RoboDot Touch is awesome, but the support team is next level!
They helped me get everything set up super fast and actually stuck around to answer all my random questions. Seriously, best service I’ve had in a long time.
Morgan James, NY
The RoboDot is a versatile and reliable RTK GNSS receiver, offering multiple operational modes, robust design, efficient power management, and seamless connectivity. Its integration capabilities with drones like the DJI Mavic M3E and its effectiveness in large site mapping make it an invaluable tool for professionals requiring precise positioning and data collection.
Alejandro Gomez
Frequently Asked Questions
What is the range of a survey drone?
The range of a survey drone varies by type, but fixed-wing models like Eclipse 2.0 can cover 400 to 700 acres per flight depending on altitude and resolution settings. This makes them highly efficient mapping and surveying drones for large-scale and long-duration projects.
Do you need RTK for drone mapping?
RTK is not always required, but it's essential when high positional accuracy is critical, such as in engineering, mining, or land surveys. For these use cases, using an rtk survey drone like Eclipse 2.0 saves time, improves data reliability, and often eliminates the need for ground control points.
What does RTK do on a drone?
RTK (Real-Time Kinematic) technology corrects GPS signals in real-time, significantly improving positional accuracy during flight. When integrated into a rtk mapping drone, RTK ensures every image is tagged with precise coordinates, streamlining post-processing and reducing ground control needs.
How accurate are drone surveys?
Drone surveys using RTK or PPK technology can deliver horizontal accuracies of 1–3 cm and vertical accuracies within 5 cm, depending on conditions. Professional drones for surveying like the Eclipse 2.0 ensure consistent and reliable geospatial outputs across industries.
How accurate is drone mapping?
Drone mapping can achieve 2–10 cm horizontal accuracy when using high-quality sensors and GNSS corrections. With the Eclipse 2.0 configured as an rtk survey drone, you can achieve precision-grade results even in wide-area or rugged terrain applications.
What do mapping drones do?
Mapping drones autonomously capture overlapping aerial images that are later processed into digital surface models, orthomosaics, and topographic data. A rtk mapping drone enhances this process by providing centimeter-level accuracy using real-time satellite corrections.
What is drone aerial mapping?
Drone aerial mapping is the process of capturing high-resolution images from above and turning them into georeferenced maps or 3D models. An aerial mapping drone like Eclipse 2.0 delivers fast, accurate coverage over large landscapes, ideal for agriculture, construction, and land development.
Are fixed-wing drones faster?
Yes, fixed-wing drones are significantly faster than multirotor drones, often reaching speeds of 60–100 km/h. This speed advantage allows them to complete mapping missions quickly, especially when deployed as mapping and surveying drones in time-sensitive environments.
How far can a fixed-wing drone fly?
Fixed-wing drones can typically fly much farther than multirotor drones, often covering 50–100 km per flight depending on conditions. The Eclipse 2.0 is engineered for extended missions, making it an ideal rtk survey drone for large-area coverage with reliable data precision.
What are fixed-wing drones?
Fixed-wing drones use rigid, non-rotating wings to generate lift, similar to traditional airplanes. They’re ideal for covering large areas efficiently, making them a strong choice among professional drones for surveying due to their longer flight times and greater range.