RN-1
The RN-1 is a high-performance unmanned aerial system (UAS) engineered for endurance, reliability, and operational versatility. It features a fixed-wing design combined with a robust landing gear system, allowing for stable runway-based takeoffs and landings. With an impressive endurance of over 12 hours, the RN-1 is ideal for long-duration missions, enabling extended surveillance, reconnaissance, and data-gathering operations without frequent refueling or battery changes.
RN-1
High-Altitude Precision
Capable of reaching a maximum altitude of 4,700 meters, the RN-1 excels in diverse environmental and operational conditions, ensuring consistent performance in high-altitude and challenging terrains. Its aerodynamic efficiency and advanced avionics contribute to superior flight stability, making it a dependable asset for intelligence, surveillance, target acquisition, and reconnaissance (ISTAR) missions, as well as environmental monitoring and border patrol applications.
RN-1
Versatile
With a 45 kg MTOW and an 11 kg payload capacity, the RN-1 supports diverse mission-specific equipment, including EO/IR systems and LiDAR, for military, security, and commercial use. Optimized for runway-based operations, it ensures smooth deployment and quick turnaround, maximizing mission readiness. Its endurance, altitude capability, and payload versatility make it a reliable aerial platform for demanding missions.
Performance Advantages
240 km
Video Data Link Range
12+ hrs
Endurance
Up to 11 kg
Payload Capacity
100 cc
Hybrid Engine and 300W Power Supply
Specifications
Incorporating advanced technology and enhanced capabilities, it ensures outstanding performance, reliability, and efficiency across various applications.
Payload Capacity
Up to 11 kg
Video Data Link Range
240 km
Endurance
12+ hrs
Cruising Speed
100 km/h
Range of Speed
80-140 km/h
Operating Altitude
Up to 4700 m
Flight Range
Up to 1300 km
Wingspan
5 m
Length
2.85 m
Dry weight
22 kg
MTOW (Take-Off Weight)
45 kg
Fuel Tank Capacity
11 liters
Launch System
Take off using runway
Recovery System
Land using runway
Power Supply
100cc Hybrid engine, runs on 91 gasoline
RN-1
Engine Module
100 cc Engine
4-stroke gas engine, that runs on regular 91 fuel. Consumables are available worldwide and no special fuel required.
Muffler
Specifically designed custom muffler greatly reduces acoustic signature during the flight.
Electric Generator
300 W electric generator to power up all equipment on board and charge batteries during the flight.
Integrated Sensors
See status of the engine during the flight, thanks to the RPM, temperature, air temperature, fuel level and other sensors.
Remote Starter
Start engine from a distance with a push of a button, even during the flight the engine can be automatically restarted by flight controller.
Fuel Tank
Integrated 11 liters carbon fiber fuel tank to support your long-endurance missions. With mil-grade fuel valve for quick fuelling.
RN-1
UAV Features
Navigation Lights
Used to prevent collisions at night or in times of reduced visibility, and are an essential tool in keeping people and UAVs safe.
Landing Gear with Braking System
Reduces the distance required for a runway landing.
Automatic Takeoff & Landing
Fully automatically remote take-off and landing without human intervention.
Automatic Flight Along the Route
Plan the mission and execute it perfectly.
ADS-B Transponder
Allows the UAV to determine its position and periodically broadcast it, enabling it to be tracked.
Anti-jamming
A secure encrypted connection and the dual-datalink system ensure that UAV can’t be jammed.
Robust Design
With cutting-edge technology and a robust design, the RN-1 is a top-tier choice for diverse aerial missions. Whether for aerial surveillance, precision data collection, or critical security and reconnaissance operations, the RN-1 delivers exceptional performance and reliability. Its advanced capabilities and modular design enable quick deployment and operational efficiency, making it an invaluable asset across industries. Trust the RN-1 for your most demanding missions and experience the future of unmanned aerial systems.