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SparkNavi HERO

Flight Controller with Ardupilot


SparkNavi HERO PXV6 Drone Flight Controller


Product Features


  1. Pixhawk Stardand

  2. Ardupilot Compatible

  3. High Cost-Performance Ratio: SparkNavi HERO delivers top-tier performance at a highly competitive price, making advanced flight control technology more accessible.

  4. Exceptional Stability: Utilizing the latest attitude estimation algorithms and high-precision sensors, it ensures excellent stability under various flight conditions.

  5. Wide Compatibility: Fully compatible with the Pixhawk V6X standard, supporting multiple aircraft types including multirotor, fixed-wing, and VTOL aircraft.

  6. Flexible Expansion: Rich interfaces support various peripheral connections, such as GPS, telemetry radios, and optical flow sensors, meeting diverse application needs.

  7. Open-Source Ecosystem: Based on an open-source flight control platform, enjoy continuous updates and extensive community support.

  8. Multifunctional Applications: Suitable for multiple fields including mapping, agriculture, inspection, and photography, meeting various commercial and research needs.

  9. User-Friendly: Intuitive configuration interface and comprehensive documentation greatly reduce the learning curve.
    Reliability: Undergone rigorous quality control and field testing, ensuring stable performance in various environments.


Product Description


SparkNavi HERO is a revolutionary low-cost flight control computer for drones, bringing unprecedented performance and value to various unmanned aerial applications. As a fully compatible product with the Pixhawk V6X standard, SparkNavi HERO combines advanced technology with ultimate stability, offering a reliable and cost-effective solution for both professional and amateur drone enthusiasts.

SparkNavi HERO is not just a flight control computer; it's the key to unlocking your drone's potential. Whether you're a professional drone operator, researcher, or model aircraft enthusiast, SparkNavi HERO provides you with an exceptional flying experience and unlimited innovative possibilities. Choose SparkNavi, and let your drone fly higher, farther, and more stably!


Specifications


Pixhawk Adapter

- Maximum Voltage Input: +55V

Compatible with Ardupilot and Pixhawk connector adapter board.


Flight Controller Power

- Maximum Voltage Input: +5.0V ~ +6.0V

- All peripheral outputs over-current protected, 

  all inputs ESD protected

    

Specification
Processor

- 32-bit ARM Cortex M7 core with FPU

- STM32H7 480 MHz / 2 MB Flash

- STM32F1 IOMCU

- TCXO

IMU

- ICM-42688-P 6-Axis MEMS IMU x 2

   (GYRO Noise 2.8(mdps/rt-Hz))

Barometer

- TDK MS5611 (resolution: 1.2 Pa)

- Bosch BMP388 (resolution: 1.2 Pa)

Compass

- PNI RM3100 (resolution: 0.0013 uT) Microtesla

- Bosch BMM150 (resolution: 0.3 uT) Microtesla

Interfaces

- PWM 12 (PWM x 8, AUX x 4)

- Telemetry x 2

- CAN x 1

- USB x 1

- I2C x 1

- SPI x 1

- GPS x 2 (GPS x 1 + UART x 1)

- Futaba S.BUS input

- PPM sum signal

- RSSI Input

- 3.3V and 6.6V ADC inputs

Dimensions

- Length: 74 mm 

- Width: 56 mm 

- Height: 35 mm

Weight138g
Place of originDesign and Made in Taiwan 



Pricing


Please contact our sales team for a quote:
Email: ethan@robotlab.com.tw


Long-term Corporate Partnerships and Tailored Solutions:
Exclusive Preferential Pricing Available - Contact Our Professional Sales Team


Agent Sales:
For detailed information and exclusive offers, please contact our professional sales team


Customer Testimonials


  1. "Since adopting this flight control computer, the reliability of our drone operations has improved by at least 30%. In over 200 flight missions over the past six months, we haven't encountered any system failures. Its stability is impressive and has greatly enhanced our efficiency in complex environments. This is undoubtedly one of the most trustworthy flight control systems on the market." - Emily Thompson, Director of Aerial Mapping Company


  2. "As a professional drone manufacturer, we've been searching for key components that could elevate our product quality. This flight control computer meets all our needs perfectly. It not only offers exceptional performance stability but also significantly simplifies our production process. Since using this flight control computer, our product failure rate has decreased by 40%, and customer satisfaction has reached new heights. It has injected new life into our drones." - Michael Schmidt, CEO of Drone Manufacturing Company


  3. "Conducting environmental monitoring in extreme weather conditions is part of our daily work. The reliability of this flight control computer has left a deep impression on us. Even in strong winds and low temperatures, it maintains stable operation, ensuring the accuracy of data collection. Over the past year, we've conducted over 500 hours of flights in various harsh environments, and this flight control computer's performance has remained consistent throughout. It has significantly improved the overall quality and credibility of our drone systems." - Klaus Müller, Chief Engineer of Environmental Monitoring Station

  4. "As a tech company focused on precision agriculture, we have extremely stringent requirements for flight control systems. This flight control computer not only meets our high standards but exceeds our expectations. Its high-precision control and stability allow us to conduct more accurate crop monitoring and spraying operations. In the past growing season, our operational efficiency increased by 25%, and pesticide use decreased by 20%, largely thanks to this reliable flight control system. It has become a core component in our delivery of high-quality agricultural drone solutions." - Sarah Anderson, Operations Director of AgriTech Company


  5. "In the field of power line inspection, the stability and reliability of the flight control system are crucial. This flight control computer has performed excellently in our 18-month field tests. Even in the complex electromagnetic environment around high-voltage lines, it has maintained outstanding stability and anti-interference capabilities. This has greatly improved our inspection efficiency and safety. Since adopting this flight control computer, our inspection coverage has expanded by 35% while minimizing the risks of manual inspections. It has set a new quality standard for our drone inspection systems." - Hans Weber, UAV Project Manager of National Power Grid



Frequently Asked Questions


Q: What types of drones does this flight control computer support?
A: Our flight control computer supports a wide range of drone types, including multirotor, fixed-wing, helicopter, and vertical takeoff and landing (VTOL) aircraft. Its versatility allows it to adapt to various flight platform requirements.

Q: What are the benefits of a high-precision Inertial Measurement Unit (IMU) for drones?
A: A high-precision IMU significantly enhances flight attitude stability. It more accurately measures the aircraft's motion state, allowing the flight control system to make faster and more precise adjustments, resulting in more stable flight performance, especially in complex flying environments.

Q: What is the maximum flight radius of this flight control computer?
A: The flight radius is primarily limited by the drone's design and battery capacity, not the flight control computer. Our flight controller supports long-distance data links and can theoretically support a flight radius of over 100 kilometers, but the actual flight range must comply with local regulations.

Q: Can the flight control computer support automatic takeoff and landing?
A: Yes, our flight control computer has built-in automatic takeoff and landing functions. This not only improves operational safety but also makes the drone easier to use for operators with varying levels of experience.

Q: How does this flight control computer ensure flight safety?
A: Our flight control computer is equipped with multiple safety mechanisms, including lost link protection, geofencing, dynamic obstacle avoidance, and low battery auto-return. These features collectively ensure the safety of flight missions.

Q: Does the flight control computer support multiple navigation systems?
A: Yes, our flight control computer supports multiple Global Navigation Satellite Systems (GNSS), including GPS, GLONASS, BeiDou, and Galileo. This ensures precise positioning capabilities worldwide.

Q: Can the flight control computer's software be updated? How is it updated?
A: Yes, we regularly provide software updates to improve performance and add new features. Users can easily perform online updates through our ground station software, with the entire process usually taking only a few minutes.

Q: Is this flight control computer suitable for commercial-grade drones?
A: Absolutely. Our flight control computer is designed for commercial-grade applications, featuring high reliability, powerful processing capabilities, and rich interfaces. It can meet the needs of various professional-grade drones in fields such as mapping, inspection, agriculture, and more.

Q: Does the flight control computer support custom waypoint mission planning?
A: Yes, our flight control computer supports complex waypoint mission planning. Users can easily set up flight paths with multiple waypoints through our ground station software and define specific actions or tasks for each waypoint.

Q: What is the power consumption of this flight control computer? Does it significantly affect flight time?
A: Our flight control computer adopts a high-performance, low-power design with an average power consumption of only about 5W. Compared to the energy consumption of the entire drone system, the impact of the flight controller is negligible and does not significantly affect flight time.


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