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Next Generation e-VTOL Fixed-Wing Mapping Drone

Trinity Pro: Mapping Drone

The Trinity Pro is a state-of-the-art mapping drone that boasts cutting-edge technology, including the powerful Quantum-Skynode autopilot and a Linux mission computer. With increased internal storage and connectivity capabilities, Trinity Pro can seamlessly integrate with advanced cameras, logging systems, simulation software, and artificial intelligence tools. With Trinity Pro, mapping and surveying tasks are easier, safer, and more efficient than ever before.



Wind Tolerance


Area Coverage


Take-off Altitude


Flight Time

Gather Precise Data with Ease and Efficiency

Together, the Trinity Pro and QBase 3D deliver a seamless, powerful solution for mapping and surveying tasks, providing precise data with ease and efficiency.

The Quantum-Skynode flight control stack a key component of the Trinity Pro, ensures that the UAV operates in the safest manner possible. With features such as automatic self-diagnostics, terrain awareness, wind simulation, and AI-powered "return to home," operators can rest assured that the Trinity Pro is always in control, even in challenging conditions.

Built on The Legacy of The Trinity F90+ 

Trinity Pro Technical advances include an enhanced terrain-following system, which significantly improves safety during operations. Additionally, improvements to trigger point calculations results in improved image overlap and higher data quality. Trinity Pro also features automatic wind simulation for crash avoidance in bad weather and a linear approach for landing. Furthermore, Trinity Pro is equipped with a downfacing LiDAR scanner that provides highly accurate ground avoidance and landing control.

Vertical Take-Off and Land

The Trinity Pro takes-off and lands like a helicopter, but flies like a plane. Combining the handling of multi-rotor drone with the aerodynamics of an airplane, the Trinity Pro does not need a runway or extra equipment to take-off or land. The drone lands smoothly and controlled on its shock absorbing landing gear. This means reduced harm on the sUAS and sensors for an extended product life. 
How does VTOL increase drone survey success?
  • Take-off and land anywhere regardless of terrain
  • No belly landing
  • Easy and safe for the operator
  • Better payload protection
  • Ability to adapt to moving environment
  • Heavier cameras for higher image quality
  • Easy and Safe Handling

    A push of a button is enough and the UAV will do its assigned job. The remote control has a clean layout without confusing switches and levers. The Trinity Pro and the remote controller work together seamlessly to get your job done automatically, while still providing emergency override capabilities.

    Thanks to Quantum’s sophisticated electric VTOL design your investment is never in danger due to a flawed hand launch or a rough belly landing.

  • Reliable and Integrated Design

    Quantum Systems designed the Trinity Pro to meet the requirements of professionals.

    You can see the result in every detail, such as the optimized electric layout, the efficient cargo container or the clean finish of the outer shell. It truly showcases the best of German engineering.

  • Longest Flight Time in Class

    The ability to switch to gliding mode enables the Trinity Pro to directly benefit from an enhanced long range capability. Many hours were dedicated to optimize the wing geometry to push the glide ratio to an outstanding 14:1.

    Using only one specially-designed motor in the rear fuselage increases the flight time far beyond current industrial UAVs by reducing energy consumption to a minimum.

  • Small Footprint

    The Trinity Pro comes “ready to fly” (RTF) in a molded transport case which offers enough space for the whole package with room to add two optional battery packs, accessories, and a tablet PC.

    A padded cover with convenient carrying options makes it easy to transport the package to the farthest operation area. At a size of 100x83x27cm it can be stowed away easily.

More survey data in less time

The Trinity Pro demonstrates its range advantage in comparison to rotary and other fixed-wing drones due to the longer flight time and covers up to 20 times larger areas. The larger the area to be covered, the more attractive the use of Trinity Pro gets.
The Trinity Pro sets a new standard for high-accuracy survey equipment. Thanks to a high-end PPK GNSS L1/L2 receiver and full-frame mapping cameras, it is possibly for customers to achieve absolute accuracy down to 1 cm.
GCPs are no longer needed to get highly-accurate results. To verify your results’ accuracy, place as few as three on the field and use them as checkpoints.

Up To


MP Camera

Down To


Centimeter Absolute 


Integrated Payload



Integrated Receiver

PPK Capability in Every Situation

PPK and RTK (post-processing kinematics and real-time kinematics) are the algorithms that allow the user to cancel most of GNSS errors via processing data from two receivers that are close enough to each other.
They share the same common errors for most error sources such as ionospheric and tropospheric influence on the signal transmission, satellites ephemeris and clock errors.

When properly applied, these algorithms reduce positioning errors from several meters (typical for standalone GNSS receivers) down to centimeters.

iBase is an entry-level GNSS reference station. It automatically logs GNSS reference measurements on the ground to a file on a micro SD card. This file enables QBase 3D to do PPK processing of the collected survey data with a absolute accuracy of 2 – 5 cm.
Full Autonomy

• No supporting infrastructure required
• Compact data format: months of logging on a single SD card
• Energy efficient: 10h on a single charge
What is included in the package?
Every Trinity Pro is supplied with the following iBase Set

• IBase Reference GNSS Base Station
• Rugged IP67 rated GNSS antenna with magnetic mounting option (L1 / L2 / L5 Bands) & 5m RG174 cable
• Micro SD card (32GB)
• 3350mAh Power Bank
• Micro USB ADS-N cable for powering and charging - Integrates Live-Air Traffic- Info into Qbase
• Instruction manual

Quantum-Skynode Autopilot

The latest Quantum-Skynode autopilot is a game-changer for mapping and surveying tasks, offering a range of cutting-edge features that enhance computing power, internal storage, and connectivity onboard the aircraft.

With its advanced capabilities, it's easier than ever to integrate next-generation cameras, AI tools, and application-specific software, streamlining workflows and making complex tasks more manageable.

As technology continues to evolve, the Quantum-Skynode autopilot can be upgraded with new capabilities, ensuring that your drone remains at the forefront of the industry. Whether you're capturing data for mapping or conducting surveys, the Quantum-Skynode autopilot offers the power and flexibility you need to get the job done right.


  • Easy payload swapping

    Payloads can easily be swapped in seconds by using the QuickLock mechanism. No tools are required and the sensors are highly integrated to support the pilots’ mission planning. 

  • Payload damping

    All cameras are damped against in-flight vibrations to guarantee highest image quality.

  • No belly landings

    Rough landings should be avoided at any time. We rely on vertical take-off and landing to guarantee smooth landings and therefore a long service life. The landing gear keeps your payload safe.

  • Easy access to your data

    Access to the recorded data is uncomplicated via external card slots.


Oblique D2M

4 oblique and one NADIR camera 

  • Five-lens RGB Camera
  • GSD at 1.50 cm @100m AGL
  • Cameras : 1 x NADIR, 4 x oblique
  • Resolution: 26 MP (6252 x 4168 px)


Sony UMC-R10C

APS-C​ 20.1 MP camera

  • Orthophoto & DEM
  • point clouds & 3D models
  • 2.1cm/px @ 100m altitude
  • 16 mm & 20 mm lens option



5 spectral band sensor

  • RGB at 3.98cm/px @120m altitude
  • multispectral for vegetation analysis
  • 1 flight => orthophoto (5 bands)
  • various indices for plant stress



Full-frame 42 MP camera

  • Orthophoto & DEM
  • point clouds & 3D models
  • 1.29cm/px @ 100m altitude



5 spectral bands & thermal sensor

  • RGB colour output 12.4 MP
  • multispectral data + thermal layer
  • 1 flight => orthophoto (6bands)
  • various indices for plant stress

Qube 640 LiDAR

The Qube 640 LiDAR is a survey-grade payload for the Trinity Pro enabling over an hour of flight-time.

  • Suggested altitude: 75 m AGL
  • Precision: 3 cm*
  • Accuracy: 2.5 cm**
  • Scanner field of view:  176° x 40.3°
  •  640 000 points/sec
  • Point density @100m: 34 -100 points/sqm
  • Multi-echo technology: up to 3 echoes

*Precision, also called reproducibility or repeatability, accounts for the variation in successive measurements taken on the same target. Depends on altitude AGL.

**Accuracy is the degree of conformity of a measured position to its actual (true) value

QBase 3D

Intuitive Mission Planning, Flight Monitoring, and Data-Post Processing
QBase 3D is the most convenient platform to plan aerial survey missions with Quantum-Systems UAS. It automatically generates efficient flight paths after the observation areas and the mission parameters have been defined with just a few clicks. This allows the operator to be up and flying within no-time, saving valuable resources. For advanced missions, the pilot is in complete control over the photogrammetric aerial survey mission and can adjust all relevant parameters to generate professional and optimum results.

During flight mode, QBase 3D provides accurate information on aircraft and mission status to ensure flight safety and mission success. After mission completion, QBase 3D enables processing of the captured images, precision enhancement with the built-in PPK solution and export of all metadata to file formats suitable for a variety of platforms for further post-processing. 
  • Fully Autonomous Missions

  • Terrain Following

  • Corridor Mapping

  • Manual Take-Over

  • KML Import

  • Offline Maps

  • 3D Flight Planning

  • Integrated PPK Post-Processing

Tech Specs

Max Take-Off Weight: 12.7 lbs
Max Flight Time: 90+ Minutes
Max Range=Area 100 km = 700 ha
Max Flight Altitude: 18045 Feet (5500 m)
Command and Control Range 5 - 7.5 km 
Payload Max: 700 grams
Optimal Cruise Speed: 17 m/s
Wind Tolerance (ground) 11 m/s
Wind Tolerance (In Cruise) 18 m/s
Battery Capacity 10 Ah
RC Transmitter Frequency 2.4 GHz
Flight Data Link (Trinity - QBase) Frequency: 2.4 GHz
Flight Data Link (Trinity - QBase) Power Max. 100 mW
Operating Temperature Range: -12 C to 50 °C
Wingspan: 2.394 m (7.85 ft)
Length 4.85 feet
Transport Case Dimension 39.4 x 32.7 x 10.6 inch
Battery Specs

Charging Current 12 A
Discharging Current 2 A
Discharging Voltage 3.1 V
TVC Voltage 4.2 V
Charging Time
Around 1 hour
Charging Current USB Port
2.1 A
Weight 3.3 Lb
In The Box

Trinity PRO UAV
Anti-Collision Lights
USB ADS-B Receiver Set
iBase Reference GNSS Base Station
QBase 3D Software - Ground Control Station (runs on any Windows 10 computer/tablet)
Remote Controller
3 Battery Packs + 1 Charger unit
Air Data Probe
Lightweight Transport Case
Warranty (1 Year)
Technical Support


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Trinity Pro Package



Payload + Trinity Pro Package Price


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