We design high-performance, application-specific printed circuit boards tailored for drone avionics, including flight control, power management, sensor integration, and peripheral connectivity. Every layout is optimized for size, weight, and efficiency to meet the demands of modern UAV systems.
Our team crafts accurate and reliable electronic schematics that form the foundation of your drone hardware. We ensure component compatibility, signal integrity, and efficient power distribution to support stable and robust system performance.
We modify and extend ArduPilot open-source firmware to work seamlessly with your custom hardware. Whether it’s sensor integration, feature tuning, or communication protocol adaptation, we ensure the firmware is fully aligned with your mission profile.
From conceptual models to detailed mechanical designs, we create 3D CAD files for drone enclosures, mounts, and structural components. Our designs are ready for prototyping or manufacturing, ensuring a professional and aerodynamic finish to your final product.
Deep expertise in ArduPilot firmware customization
Full-stack embedded hardware + firmware design
Designed for rugged, real-world deployment
Indian-made with global quality standards
We specialize in designing STM32F7/H7-based flight controllers optimized for your drone’s payload, mission profile, and communication protocols. Our designs include redundant IMU layouts, isolated power rails, flexible I/O, and form factors compatible with Pixhawk standards.
Robust, multi-port UAVCAN hubs designed for modern drone architectures using distributed sensors and actuators. Our CAN hubs support redundant CAN interfaces, ESD protection, heartbeat monitoring, and plug-and-play integration with ArduPilot’s CAN ecosystem.
We engineer high-performance, telemetry-enabled electronic speed controllers (ESCs) optimized for UAV propulsion systems. ESCs are compatible with DShot, UAVCAN ESC, and include active braking, RPM feedback, and thermal protection. Designed for both multirotor and fixed-wing platforms under the ArduPilot framework.
Design and development of GNSS+magnetometer modules with support for dual-band GPS (L1/L2), RTK corrections (RTCM), and seamless integration via CAN or UART. Modules are tailored for high-altitude or fast-moving drones, with orientation-aware designs and conformal coatings for field reliability.
We develop reliable, high-precision PMUs with integrated current and voltage sensing, redundant power input, and active battery management features. Our PMUs include safety-focused power path monitoring, support for multiple power domains, and full telemetry output over I2C, UART, or CAN to ArduPilot.
+91-7558334818
info@aveersh.com
Talegaon MIDC, Katavi, Pune, 410507, Maharashtra, India