Innovative Solutions from ARK Electronics for Drones and Robotics
ARK Electronics stands at the forefront of advanced technology, specializing in flight controllers, sensors, and essential electronic components tailored for drones and robotic systems.
Showcasing Unique Offerings
As a valued partner, we are excited to present ARK Electronics’ distinctive solutions and capabilities through our channels. This includes the UST supplier profile developed collaboratively with ARK Electronics. this Silver profile highlights their NDAA-compliant product range, meticulously designed and manufactured in the USA, making it suitable for diverse commercial and defense applications.
Advanced Flight Controllers for Diverse Applications
ARK’s state-of-the-art NDAA-compliant drone flight controllers cater to both government and commercial unmanned aerial systems (UAS). These lightweight and compact board-level systems utilize PX4 and/or Ardupilot autopilot firmware, with options available based on the Pixhawk autopilot Bus (PAB) and Raspberry Pi 4.
The flight controller carrier boards adhere to PAB open-source standards,ensuring seamless integration with ARK’s high-performance flight controllers and other Pixhawk-compatible solutions.These scalable and compact systems offer enhanced connectivity and functionality for critical drone and unmanned system operations.
Streamlined Flight Controller Bundles
ARK’s flight controller bundles combine a high-performance flight controller, carrier board, and onboard computing capabilities into a single, production-ready solution. This eliminates the need for sourcing and assembling individual components. All bundles are NDAA-compliant, making them ideal for intricate UAV and robotics applications.
Precision Navigation with ARK Flow Optical Sensor
The ARK Flow optical flow sensor provides unparalleled navigation and positioning accuracy for unmanned aerial vehicles. By analyzing surface patterns and motion, it delivers precise movement detection and includes a time-of-flight distance sensor, ensuring stable flight even in GNSS-denied environments.
Reliable GPS and GNSS Modules
ARK’s GPS and GNSS receiver modules leverage embedded positioning technology from industry leaders like u-blox, Septentrio, and STMicroelectronics. These multi-band and multi-constellation receivers ensure UAVs and unmanned systems achieve precise and dependable positioning, even in challenging conditions.
High-Performance Inertial Measurement Units
In collaboration with Analog Devices and Murata, ARK has developed MEMS-based inertial measurement units that deliver reliable orientation, velocity, and acceleration data with remarkable precision. These compact, NDAA-compliant sensors are compatible with PX4 and Ardupilot, ensuring optimal performance in demanding operational scenarios.
Seamless Connectivity with CANnode
The CANnode is a compact connectivity module that facilitates the integration of various sensors into a vehicle’s CAN bus, ensuring efficient data transfer and control across complex systems. Equipped with PX4 firmware and supporting UAVCAN updates, this small form factor board also features a six-DoF IMU module.
Efficient Motor Control with 4-in-1 ESC
ARK’s 4-in-1 electronic speed controller (ESC) offers precise motor control for a wide range of commercial and military UAV applications. With excellent efficiency and performance in a low size, weight, and power (SWaP) footprint, this NDAA-compliant controller guarantees optimal flight stability and power management.
Reliable Power Management Solutions
Designed for compatibility with Pixhawk Autopilot Bus carrier boards,ARK’s Power Modules ensure stable power management and distribution for drones and robotics.These lightweight and compact modules are NDAA-compliant, providing consistent performance and maximizing system longevity in complex applications.
Explore More About ARK Electronics
To learn more about ARK electronics and their innovative flight controllers and electronic products for drones and robotics, please visit their profile page:
ARK Electronics Profile
