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Holybro Pixhawk 6C Aluminium Body (NO GPS NO Power Module)
The Holybro Pixhawk 6C is a professional-grade autopilot flight controller featuring a robust aluminium enclosure designed for autonomous drone and unmanned aerial vehicle applications. This flight management unit is widely used by drone manufacturers, research institutions, and professional aerial survey operators who require reliable stabilization and autonomous navigation capabilities. The Pixhawk 6C solves critical challenges in UAV control by providing redundant IMU sensors, advanced filtering algorithms, and seamless integration with external payloads and sensor suites.
Product Overview
The Holybro Pixhawk 6C represents the sixth generation of the industry-standard Pixhawk autopilot platform, engineered with an aerospace-grade aluminium body that provides superior electromagnetic shielding and thermal management. At its core, the Pixhawk 6C integrates a high-performance STM32H7 processor running the PX4 open-source flight stack, enabling real-time sensor fusion from triple-redundant accelerometers, gyroscopes, and barometric pressure sensors. The flight controller processes inertial measurement data at 1kHz sampling rates while executing sophisticated control loops for attitude stabilization, altitude hold, and autonomous waypoint navigation. The aluminium chassis design dissipates heat efficiently during extended flight operations while protecting sensitive electronics from vibration and electromagnetic interference commonly found in multi-rotor and fixed-wing platforms.
This specific variant (NO GPS NO Power Module) provides maximum flexibility for integrators who require customized sensor configurations or plan to use alternative GPS modules, telemetry systems, and power distribution solutions. The modular design supports up to 14 PWM outputs for motor control and servo actuation, dual CAN bus interfaces for advanced sensor networks, and multiple serial ports for external device communication. The Pixhawk 6C operates across a wide voltage range when paired with appropriate power modules, making it suitable for everything from small quadcopters to large industrial survey drones. Its compatibility with the extensive PX4 middleware ecosystem and support for MAVLink protocol ensures seamless integration with ground control stations like QGroundControl and Mission Planner.
Key Specifications
| Specification | Details |
| Product Type | Flight Controller / Autopilot |
| Brand | Holybro |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
| Processor | STM32H7 32-bit ARM Cortex M7 |
| IMU Configuration | Triple-redundant 6-axis IMU sensors |
| Barometer | Integrated barometric pressure sensor |
| PWM Outputs | 14 PWM output channels for motors and servos |
| Communication Interfaces | 2x CAN Bus, 4x UART Serial, SPI, I2C |
| Operating Voltage Range | 4.75V to 5.5V (with appropriate power module) |
| Dimensions | 38mm x 38mm x 20mm |
| Weight | Approximately 33 grams |
| Firmware | PX4 Autopilot open-source stack |
Key Features
- Aerospace-grade Aluminium Enclosure: Provides superior electromagnetic shielding, thermal dissipation, and mechanical protection against vibration and impact during flight operations
- Triple-Redundant IMU Architecture: Three independent 6-axis inertial measurement units enable automatic sensor failover and cross-validation for maximum flight stability and safety
- High-Performance STM32H7 Processor: 480MHz ARM Cortex-M7 CPU executes complex control algorithms at 1kHz loop rates with minimal latency
- 14 PWM Output Channels: Supports configuration for octocopters, hexacopters, quadcopters, and fixed-wing aircraft with independent motor and servo control
- Dual CAN Bus Interface: Industrial-grade CAN 2.0B support enables connection of advanced sensors, telemetry modules, and external devices with real-time data synchronization
- PX4 Open-Source Firmware: Access to extensive community-developed flight modes, sensor drivers, and mission planning capabilities without vendor lock-in
- Modular Design: NO GPS and NO Power Module variant allows integration of custom sensor suites and power management solutions tailored to specific platform requirements
Applications and Use Cases
- Professional Aerial Survey and Mapping: Integrated with RTK GPS modules and survey-grade cameras for centimeter-level accuracy in agricultural monitoring, land surveying, and 3D mapping projects
- Industrial Inspection Platforms: Autonomous flight control for power line inspection, bridge assessment, and infrastructure monitoring where stable hovering and precise waypoint navigation are critical
- Research and Development: Preferred platform for academic institutions and robotics labs developing advanced autonomous flight algorithms, computer vision integration, and machine learning applications
- Custom Drone Manufacturing: OEM integrators use the Pixhawk 6C as the foundation for proprietary UAV designs with specialized payloads, extended flight times, and mission-specific configurations
- Fixed-Wing Autonomous Aircraft: Enables long-endurance surveillance missions and cargo delivery applications where stabilized level flight and autonomous navigation are essential
- Multi-Rotor Platform Upgrades: Retrofit existing drone platforms with advanced flight control capabilities, sensor fusion improvements, and compatibility with modern ground control software
How to Use
Begin by mounting the Pixhawk 6C flight controller to your airframe using vibration-damping standoffs, positioning it at the center of gravity with the arrow marking pointing toward the front of the aircraft. Connect your motor ESCs to the appropriate PWM output channels (typically channels 1-4 for quadcopter motors), ensuring correct motor rotation direction through the PX4 firmware configuration. Install your chosen GPS module via the available UART serial ports and configure the telemetry connection through another serial port to enable wireless communication with your ground control station.
Power the flight controller through a compatible power module connected to the designated power input pins, ensuring voltage regulation within the 4.75V to 5.5V operating range. Use the QGroundControl or Mission Planner ground station software to calibrate the accelerometers and gyroscopes, verify sensor functionality through real-time telemetry displays, and configure flight parameters specific to your aircraft type and weight. Perform a pre-flight systems check including compass calibration (if using external magnetometer), radio link verification, and failsafe mode testing before conducting any autonomous missions. The PX4 firmware supports multiple flight modes including Manual, Altitude Hold, Position Hold, and fully autonomous Offboard control, allowing you to select the appropriate control strategy for your specific application.
Frequently Asked Questions
Why does this Pixhawk 6C variant exclude GPS and Power Module?
The NO GPS NO Power Module variant provides maximum flexibility for integrators who have specific sensor requirements or existing GPS solutions. This configuration reduces cost for users who need custom sensor suites, alternative GPS technologies (RTK, multi-band GNSS), or specialized power management systems. You can source compatible components separately and integrate them according to your platform specifications, avoiding unnecessary bundled components that may not suit your application.
What GPS modules are compatible with the Pixhawk 6C?
The Pixhawk 6C supports any GPS module that communicates via UART serial protocol, including standard UBLOX NEO-M8N, NEO-M9N, and professional-grade RTK modules like Septentrio or Trimble solutions. The flight controller has multiple UART ports, allowing simultaneous connection of GPS, telemetry, and other serial devices. Ensure your chosen GPS module operates at 3.3V or 5V logic levels and verify baud rate compatibility through PX4 firmware configuration before field deployment.
Can I use the Pixhawk 6C with custom power distribution boards?
Yes, the Pixhawk 6C is designed for integration with various power modules and custom power distribution solutions. The flight controller requires stable 5V power input within the 4.75V to 5.5V range. You can use any compatible power module that accepts your battery voltage (LiPo, LiFe, or other battery chemistries) and outputs regulated 5V power. Ensure proper current capacity (typically 2-3A continuous) and include appropriate filtering capacitors to minimize voltage ripple and electrical noise that could affect sensor measurements.
What is the maximum number of motors and servos I can control?
The Pixhawk 6C provides 14 PWM output channels, allowing control of up to 14 independent motor or servo devices. For typical multirotor configurations, channels 1-4 control the main motors, while additional channels can drive gimbal servos, payload actuators, or auxiliary systems. The firmware supports various airframe types including quadcopters, hexacopters, octocopters, and fixed-wing aircraft, with automatic channel mapping based on your selected configuration.
Is the Pixhawk 6C waterproof or weather-resistant?
The aluminium body provides excellent protection against dust and minor moisture exposure, but the Pixhawk 6C is not fully waterproof. The connectors and internal electronics can be damaged by direct water immersion or heavy rain. For maritime or high-moisture applications, use protective enclosures, conformal coating on circuit boards, and sealed connectors. Always allow the flight controller to dry completely after exposure to moisture before powering on.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Engineer Store
- Genuine Products: Sourced directly from authorized distributors with authentication
- Expert Team: Our technical team validates every product before listing
- Fast Shipping: Dispatched within 1-5 days from our Bengaluru warehouse
- Pan-India Delivery: 7-8 days to Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata
- Payment Options: COD, UPI, credit/debit cards, net banking, EM
Buy Holybro Pixhawk 6C Aluminium Body (NO GPS NO Power Module) Online in India
Purchase the Holybro Pixhawk 6C Aluminium Body (NO GPS NO Power Module) online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat.
Our team in Bengaluru is available 24/7 to support your journey from product selection to project completion.
Holybro Pixhawk 6C Aluminium Body (NO GPS NO Power Module)
The Holybro Pixhawk 6C is a professional-grade autopilot flight controller featuring a robust aluminium enclosure designed for autonomous drone and unmanned aerial vehicle applications. This flight management unit is widely used by drone manufacturers, research institutions, and professional aerial survey operators who require reliable stabilization and autonomous navigation capabilities. The Pixhawk 6C solves critical challenges in UAV control by providing redundant IMU sensors, advanced filtering algorithms, and seamless integration with external payloads and sensor suites.
Product Overview
The Holybro Pixhawk 6C represents the sixth generation of the industry-standard Pixhawk autopilot platform, engineered with an aerospace-grade aluminium body that provides superior electromagnetic shielding and thermal management. At its core, the Pixhawk 6C integrates a high-performance STM32H7 processor running the PX4 open-source flight stack, enabling real-time sensor fusion from triple-redundant accelerometers, gyroscopes, and barometric pressure sensors. The flight controller processes inertial measurement data at 1kHz sampling rates while executing sophisticated control loops for attitude stabilization, altitude hold, and autonomous waypoint navigation. The aluminium chassis design dissipates heat efficiently during extended flight operations while protecting sensitive electronics from vibration and electromagnetic interference commonly found in multi-rotor and fixed-wing platforms.
This specific variant (NO GPS NO Power Module) provides maximum flexibility for integrators who require customized sensor configurations or plan to use alternative GPS modules, telemetry systems, and power distribution solutions. The modular design supports up to 14 PWM outputs for motor control and servo actuation, dual CAN bus interfaces for advanced sensor networks, and multiple serial ports for external device communication. The Pixhawk 6C operates across a wide voltage range when paired with appropriate power modules, making it suitable for everything from small quadcopters to large industrial survey drones. Its compatibility with the extensive PX4 middleware ecosystem and support for MAVLink protocol ensures seamless integration with ground control stations like QGroundControl and Mission Planner.
Key Specifications
| Specification | Details |
| Product Type | Flight Controller / Autopilot |
| Brand | Holybro |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
| Processor | STM32H7 32-bit ARM Cortex M7 |
| IMU Configuration | Triple-redundant 6-axis IMU sensors |
| Barometer | Integrated barometric pressure sensor |
| PWM Outputs | 14 PWM output channels for motors and servos |
| Communication Interfaces | 2x CAN Bus, 4x UART Serial, SPI, I2C |
| Operating Voltage Range | 4.75V to 5.5V (with appropriate power module) |
| Dimensions | 38mm x 38mm x 20mm |
| Weight | Approximately 33 grams |
| Firmware | PX4 Autopilot open-source stack |
Key Features
- Aerospace-grade Aluminium Enclosure: Provides superior electromagnetic shielding, thermal dissipation, and mechanical protection against vibration and impact during flight operations
- Triple-Redundant IMU Architecture: Three independent 6-axis inertial measurement units enable automatic sensor failover and cross-validation for maximum flight stability and safety
- High-Performance STM32H7 Processor: 480MHz ARM Cortex-M7 CPU executes complex control algorithms at 1kHz loop rates with minimal latency
- 14 PWM Output Channels: Supports configuration for octocopters, hexacopters, quadcopters, and fixed-wing aircraft with independent motor and servo control
- Dual CAN Bus Interface: Industrial-grade CAN 2.0B support enables connection of advanced sensors, telemetry modules, and external devices with real-time data synchronization
- PX4 Open-Source Firmware: Access to extensive community-developed flight modes, sensor drivers, and mission planning capabilities without vendor lock-in
- Modular Design: NO GPS and NO Power Module variant allows integration of custom sensor suites and power management solutions tailored to specific platform requirements
Applications and Use Cases
- Professional Aerial Survey and Mapping: Integrated with RTK GPS modules and survey-grade cameras for centimeter-level accuracy in agricultural monitoring, land surveying, and 3D mapping projects
- Industrial Inspection Platforms: Autonomous flight control for power line inspection, bridge assessment, and infrastructure monitoring where stable hovering and precise waypoint navigation are critical
- Research and Development: Preferred platform for academic institutions and robotics labs developing advanced autonomous flight algorithms, computer vision integration, and machine learning applications
- Custom Drone Manufacturing: OEM integrators use the Pixhawk 6C as the foundation for proprietary UAV designs with specialized payloads, extended flight times, and mission-specific configurations
- Fixed-Wing Autonomous Aircraft: Enables long-endurance surveillance missions and cargo delivery applications where stabilized level flight and autonomous navigation are essential
- Multi-Rotor Platform Upgrades: Retrofit existing drone platforms with advanced flight control capabilities, sensor fusion improvements, and compatibility with modern ground control software
How to Use
Begin by mounting the Pixhawk 6C flight controller to your airframe using vibration-damping standoffs, positioning it at the center of gravity with the arrow marking pointing toward the front of the aircraft. Connect your motor ESCs to the appropriate PWM output channels (typically channels 1-4 for quadcopter motors), ensuring correct motor rotation direction through the PX4 firmware configuration. Install your chosen GPS module via the available UART serial ports and configure the telemetry connection through another serial port to enable wireless communication with your ground control station.
Power the flight controller through a compatible power module connected to the designated power input pins, ensuring voltage regulation within the 4.75V to 5.5V operating range. Use the QGroundControl or Mission Planner ground station software to calibrate the accelerometers and gyroscopes, verify sensor functionality through real-time telemetry displays, and configure flight parameters specific to your aircraft type and weight. Perform a pre-flight systems check including compass calibration (if using external magnetometer), radio link verification, and failsafe mode testing before conducting any autonomous missions. The PX4 firmware supports multiple flight modes including Manual, Altitude Hold, Position Hold, and fully autonomous Offboard control, allowing you to select the appropriate control strategy for your specific application.
Frequently Asked Questions
Why does this Pixhawk 6C variant exclude GPS and Power Module?
The NO GPS NO Power Module variant provides maximum flexibility for integrators who have specific sensor requirements or existing GPS solutions. This configuration reduces cost for users who need custom sensor suites, alternative GPS technologies (RTK, multi-band GNSS), or specialized power management systems. You can source compatible components separately and integrate them according to your platform specifications, avoiding unnecessary bundled components that may not suit your application.
What GPS modules are compatible with the Pixhawk 6C?
The Pixhawk 6C supports any GPS module that communicates via UART serial protocol, including standard UBLOX NEO-M8N, NEO-M9N, and professional-grade RTK modules like Septentrio or Trimble solutions. The flight controller has multiple UART ports, allowing simultaneous connection of GPS, telemetry, and other serial devices. Ensure your chosen GPS module operates at 3.3V or 5V logic levels and verify baud rate compatibility through PX4 firmware configuration before field deployment.
Can I use the Pixhawk 6C with custom power distribution boards?
Yes, the Pixhawk 6C is designed for integration with various power modules and custom power distribution solutions. The flight controller requires stable 5V power input within the 4.75V to 5.5V range. You can use any compatible power module that accepts your battery voltage (LiPo, LiFe, or other battery chemistries) and outputs regulated 5V power. Ensure proper current capacity (typically 2-3A continuous) and include appropriate filtering capacitors to minimize voltage ripple and electrical noise that could affect sensor measurements.
What is the maximum number of motors and servos I can control?
The Pixhawk 6C provides 14 PWM output channels, allowing control of up to 14 independent motor or servo devices. For typical multirotor configurations, channels 1-4 control the main motors, while additional channels can drive gimbal servos, payload actuators, or auxiliary systems. The firmware supports various airframe types including quadcopters, hexacopters, octocopters, and fixed-wing aircraft, with automatic channel mapping based on your selected configuration.
Is the Pixhawk 6C waterproof or weather-resistant?
The aluminium body provides excellent protection against dust and minor moisture exposure, but the Pixhawk 6C is not fully waterproof. The connectors and internal electronics can be damaged by direct water immersion or heavy rain. For maritime or high-moisture applications, use protective enclosures, conformal coating on circuit boards, and sealed connectors. Always allow the flight controller to dry completely after exposure to moisture before powering on.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Engineer Store
- Genuine Products: Sourced directly from authorized distributors with authentication
- Expert Team: Our technical team validates every product before listing
- Fast Shipping: Dispatched within 1-5 days from our Bengaluru warehouse
- Pan-India Delivery: 7-8 days to Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata
- Payment Options: COD, UPI, credit/debit cards, net banking, EM
Buy Holybro Pixhawk 6C Aluminium Body (NO GPS NO Power Module) Online in India
Purchase the Holybro Pixhawk 6C Aluminium Body (NO GPS NO Power Module) online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat.
Our team in Bengaluru is available 24/7 to support your journey from product selection to project completion.