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Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit
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SKU: TES-EVN1728
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Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit
The Pixhawk 2.4.8 is a professional-grade autopilot flight controller designed for autonomous unmanned aerial vehicles, multirotor drones, and fixed-wing aircraft requiring advanced stabilization and navigation capabilities. This combo kit includes the core flight controller board integrated with a high-precision GPS module, enabling real-time position tracking, waypoint navigation, and autonomous mission planning. It solves critical challenges in drone stability, altitude hold, GPS-denied environment recovery, and autonomous flight operations by providing redundant sensor fusion and robust IMU processing at 400Hz update rates.
Product Overview
The Pixhawk 2.4.8 flight controller utilizes a dual-processor architecture with a 32-bit ARM Cortex-M4 main processor running at 168MHz and a secondary failsafe processor, delivering deterministic real-time performance for critical flight control loops. The onboard sensor suite includes a 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer, and barometric pressure sensor, all processed through advanced Kalman filtering algorithms to generate accurate attitude and altitude estimates. The integrated GPS module provides 10Hz update rates with sub-meter horizontal accuracy, enabling precision positioning for autonomous missions, return-to-home functionality, and geofencing operations essential in professional UAV applications.
This flight controller runs the ArduPilot firmware stack, an open-source autopilot system trusted by commercial operators, researchers, and hobbyists worldwide. The 2.4.8 revision incorporates improved power distribution architecture with dedicated 5V and 3.3V regulators supporting up to 8 PWM outputs for motor control and servo management. The combo kit configuration eliminates integration complexity by pre-pairing the GPS module with proper connector compatibility, reducing setup time and potential hardware conflicts. Support for multiple communication protocols including MAVLink enables seamless integration with ground control stations like Mission Planner and QGroundControl for real-time telemetry monitoring and mission uploads.
Key Specifications
| Specification | Details |
| Product Type | Autopilot Flight Controller with GPS Module Combo Kit |
| Brand | Pixhawk / 3DR |
| 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 |
| Main Processor | 32-bit ARM Cortex-M4 at 168MHz with secondary failsafe processor |
| IMU Sensors | 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer, barometric pressure sensor |
| Sensor Update Rate | 400Hz for gyroscope and accelerometer |
| GPS Module Type | u-blox M8N with 10Hz update rate, sub-meter accuracy |
| PWM Outputs | 8 channels for motor and servo control |
| Power Supply | 5V and 3.3V regulated outputs with protection circuits |
| Operating Voltage | 4.75V to 5.25V input |
| Communication Protocols | MAVLink, UART, SPI, I2C interfaces |
| Firmware | ArduPilot open-source autopilot system |
Key Features
- Dual-processor architecture with redundant failsafe processor ensures flight safety through automatic mode switching and emergency landing protocols during sensor failures or signal loss
- Integrated u-blox M8N GPS module with 10Hz update rate delivers centimeter-level position accuracy for autonomous waypoint navigation and precision landing operations
- 400Hz sensor fusion processing combines accelerometer, gyroscope, and magnetometer data through advanced Kalman filtering for stable attitude estimation and responsive flight control
- 8 independent PWM outputs support complex multi-rotor configurations, fixed-wing aircraft, and VTOL platforms with simultaneous motor and servo control
- Open-source ArduPilot firmware enables full customization, community support, and compatibility with industry-standard ground control stations for mission planning and telemetry
- Dedicated 5V and 3.3V power regulators with protection circuits prevent voltage spikes from damaging connected peripherals and sensors
Applications and Use Cases
- Autonomous multirotor drone platforms for aerial photography, surveying, and mapping missions requiring GPS-guided waypoint navigation and real-time telemetry feedback
- Fixed-wing UAV systems for long-endurance surveillance, agricultural monitoring, and environmental research with altitude hold and return-to-home failsafe capabilities
- Research and development projects in robotics, control systems, and autonomous vehicle testing where open-source firmware customization and sensor integration flexibility are critical
- Commercial drone operations including infrastructure inspection, precision agriculture, and emergency response where professional-grade stability, redundancy, and autonomous mission execution are required
- Educational platforms for aerospace engineering students and drone enthusiasts learning flight dynamics, control theory, and autonomous systems through hands-on experimentation
- VTOL and hybrid aircraft development requiring coordinated control of multiple motor types and servo systems with advanced flight mode management
How to Use
Begin by mounting the Pixhawk 2.4.8 flight controller on your airframe using vibration-dampening foam to isolate the IMU sensors from mechanical vibrations that degrade attitude estimation accuracy. Connect the GPS module to the designated GPS port using the provided connector, ensuring proper orientation and secure seating. Wire your motor ESCs to the PWM output channels 1-4 for quadcopter configurations or according to your specific airframe type documented in ArduPilot's frame selection guide. Supply regulated 5V power through the power module connector, ensuring current capacity exceeds your system's maximum draw including all servos and peripheral devices.
Install the ArduPilot firmware using the Mission Planner ground control station on your Windows PC, or QGroundControl for cross-platform compatibility. Connect the Pixhawk via USB to your computer and follow the firmware upload wizard, selecting your specific airframe type during initial configuration. Perform mandatory compass calibration using the onboard magnetometer calibration routine to eliminate magnetic interference from motors and metal structures. Conduct accelerometer and gyroscope calibration on a level surface with the aircraft stationary. Test GPS acquisition by waiting 2-3 minutes outdoors for satellite lock confirmation, then verify telemetry connectivity through your ground control station before any autonomous flight operations. Configure failsafe parameters including return-to-home altitude, geofence boundaries, and battery voltage thresholds to ensure safe autonomous behavior during signal loss or emergency conditions.
Frequently Asked Questions
What is the difference between Pixhawk 2.4.8 and earlier versions like 2.4.6?
The Pixhawk 2.4.8 incorporates improved power distribution architecture with enhanced voltage regulation for more stable operation under high current loads. The 2.4.8 revision features better EMI shielding around the IMU sensors, reducing noise in accelerometer and gyroscope readings. Additionally, the 2.4.8 has refined connector layouts for improved cable routing and reduced electromagnetic interference from motor power cables. The firmware support is more current with better compatibility for modern sensor modules and ground control stations.
Can I use the Pixhawk 2.4.8 for fixed-wing aircraft or only multirotor drones?
The Pixhawk 2.4.8 is fully compatible with fixed-wing aircraft, VTOL platforms, and traditional multirotor configurations. ArduPilot firmware supports multiple airframe types including conventional airplanes, flying wings, quadcopters, hexacopters, and hybrid VTOL designs. The 8 PWM output channels can be configured for aileron, elevator, rudder, and throttle control on fixed-wing aircraft, or for coordinated motor control on multirotor platforms. Simply select your airframe type during firmware configuration in Mission Planner, and the autopilot automatically applies appropriate control algorithms for your specific aircraft type.
How accurate is the GPS module included in this combo kit?
The u-blox M8N GPS module provides horizontal accuracy of 2.5 meters under open sky conditions with clear satellite visibility. Vertical accuracy is typically 4-5 meters. The 10Hz update rate means position fixes are calculated 10 times per second, enabling smooth waypoint following and precise autonomous navigation. In urban canyons or areas with obstructed sky view, accuracy may degrade to 5-10 meters. For applications requiring centimeter-level accuracy, you can upgrade to RTK-enabled GPS modules compatible with the Pixhawk 2.4.8 through the GPS port, though this requires additional ground station infrastructure.
What ground control station software is compatible with Pixhawk 2.4.8?
The Pixhawk 2.4.8 communicates via MAVLink protocol, making it compatible with multiple ground control stations including Mission Planner for Windows, QGroundControl for Windows/Mac/Linux, APM Planner 2.0, and mobile applications like Tower for Android. Mission Planner is the most feature-rich option for initial setup, calibration, and mission planning. QGroundControl offers superior cross-platform compatibility and a modern user interface. All these applications enable real-time telemetry monitoring, autonomous mission uploads, parameter tuning, and flight log analysis essential for professional operations.
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, EMI available
- Technical Support: 24/7 expert guidance via email and WhatsApp
- Returns: 7-day return policy on manufacturing defects only
Buy Pixhawk
Buy Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit Online in India
Purchase the Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit 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.
Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit
The Pixhawk 2.4.8 is a professional-grade autopilot flight controller designed for autonomous unmanned aerial vehicles, multirotor drones, and fixed-wing aircraft requiring advanced stabilization and navigation capabilities. This combo kit includes the core flight controller board integrated with a high-precision GPS module, enabling real-time position tracking, waypoint navigation, and autonomous mission planning. It solves critical challenges in drone stability, altitude hold, GPS-denied environment recovery, and autonomous flight operations by providing redundant sensor fusion and robust IMU processing at 400Hz update rates.
Product Overview
The Pixhawk 2.4.8 flight controller utilizes a dual-processor architecture with a 32-bit ARM Cortex-M4 main processor running at 168MHz and a secondary failsafe processor, delivering deterministic real-time performance for critical flight control loops. The onboard sensor suite includes a 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer, and barometric pressure sensor, all processed through advanced Kalman filtering algorithms to generate accurate attitude and altitude estimates. The integrated GPS module provides 10Hz update rates with sub-meter horizontal accuracy, enabling precision positioning for autonomous missions, return-to-home functionality, and geofencing operations essential in professional UAV applications.
This flight controller runs the ArduPilot firmware stack, an open-source autopilot system trusted by commercial operators, researchers, and hobbyists worldwide. The 2.4.8 revision incorporates improved power distribution architecture with dedicated 5V and 3.3V regulators supporting up to 8 PWM outputs for motor control and servo management. The combo kit configuration eliminates integration complexity by pre-pairing the GPS module with proper connector compatibility, reducing setup time and potential hardware conflicts. Support for multiple communication protocols including MAVLink enables seamless integration with ground control stations like Mission Planner and QGroundControl for real-time telemetry monitoring and mission uploads.
Key Specifications
| Specification | Details |
| Product Type | Autopilot Flight Controller with GPS Module Combo Kit |
| Brand | Pixhawk / 3DR |
| 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 |
| Main Processor | 32-bit ARM Cortex-M4 at 168MHz with secondary failsafe processor |
| IMU Sensors | 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer, barometric pressure sensor |
| Sensor Update Rate | 400Hz for gyroscope and accelerometer |
| GPS Module Type | u-blox M8N with 10Hz update rate, sub-meter accuracy |
| PWM Outputs | 8 channels for motor and servo control |
| Power Supply | 5V and 3.3V regulated outputs with protection circuits |
| Operating Voltage | 4.75V to 5.25V input |
| Communication Protocols | MAVLink, UART, SPI, I2C interfaces |
| Firmware | ArduPilot open-source autopilot system |
Key Features
- Dual-processor architecture with redundant failsafe processor ensures flight safety through automatic mode switching and emergency landing protocols during sensor failures or signal loss
- Integrated u-blox M8N GPS module with 10Hz update rate delivers centimeter-level position accuracy for autonomous waypoint navigation and precision landing operations
- 400Hz sensor fusion processing combines accelerometer, gyroscope, and magnetometer data through advanced Kalman filtering for stable attitude estimation and responsive flight control
- 8 independent PWM outputs support complex multi-rotor configurations, fixed-wing aircraft, and VTOL platforms with simultaneous motor and servo control
- Open-source ArduPilot firmware enables full customization, community support, and compatibility with industry-standard ground control stations for mission planning and telemetry
- Dedicated 5V and 3.3V power regulators with protection circuits prevent voltage spikes from damaging connected peripherals and sensors
Applications and Use Cases
- Autonomous multirotor drone platforms for aerial photography, surveying, and mapping missions requiring GPS-guided waypoint navigation and real-time telemetry feedback
- Fixed-wing UAV systems for long-endurance surveillance, agricultural monitoring, and environmental research with altitude hold and return-to-home failsafe capabilities
- Research and development projects in robotics, control systems, and autonomous vehicle testing where open-source firmware customization and sensor integration flexibility are critical
- Commercial drone operations including infrastructure inspection, precision agriculture, and emergency response where professional-grade stability, redundancy, and autonomous mission execution are required
- Educational platforms for aerospace engineering students and drone enthusiasts learning flight dynamics, control theory, and autonomous systems through hands-on experimentation
- VTOL and hybrid aircraft development requiring coordinated control of multiple motor types and servo systems with advanced flight mode management
How to Use
Begin by mounting the Pixhawk 2.4.8 flight controller on your airframe using vibration-dampening foam to isolate the IMU sensors from mechanical vibrations that degrade attitude estimation accuracy. Connect the GPS module to the designated GPS port using the provided connector, ensuring proper orientation and secure seating. Wire your motor ESCs to the PWM output channels 1-4 for quadcopter configurations or according to your specific airframe type documented in ArduPilot's frame selection guide. Supply regulated 5V power through the power module connector, ensuring current capacity exceeds your system's maximum draw including all servos and peripheral devices.
Install the ArduPilot firmware using the Mission Planner ground control station on your Windows PC, or QGroundControl for cross-platform compatibility. Connect the Pixhawk via USB to your computer and follow the firmware upload wizard, selecting your specific airframe type during initial configuration. Perform mandatory compass calibration using the onboard magnetometer calibration routine to eliminate magnetic interference from motors and metal structures. Conduct accelerometer and gyroscope calibration on a level surface with the aircraft stationary. Test GPS acquisition by waiting 2-3 minutes outdoors for satellite lock confirmation, then verify telemetry connectivity through your ground control station before any autonomous flight operations. Configure failsafe parameters including return-to-home altitude, geofence boundaries, and battery voltage thresholds to ensure safe autonomous behavior during signal loss or emergency conditions.
Frequently Asked Questions
What is the difference between Pixhawk 2.4.8 and earlier versions like 2.4.6?
The Pixhawk 2.4.8 incorporates improved power distribution architecture with enhanced voltage regulation for more stable operation under high current loads. The 2.4.8 revision features better EMI shielding around the IMU sensors, reducing noise in accelerometer and gyroscope readings. Additionally, the 2.4.8 has refined connector layouts for improved cable routing and reduced electromagnetic interference from motor power cables. The firmware support is more current with better compatibility for modern sensor modules and ground control stations.
Can I use the Pixhawk 2.4.8 for fixed-wing aircraft or only multirotor drones?
The Pixhawk 2.4.8 is fully compatible with fixed-wing aircraft, VTOL platforms, and traditional multirotor configurations. ArduPilot firmware supports multiple airframe types including conventional airplanes, flying wings, quadcopters, hexacopters, and hybrid VTOL designs. The 8 PWM output channels can be configured for aileron, elevator, rudder, and throttle control on fixed-wing aircraft, or for coordinated motor control on multirotor platforms. Simply select your airframe type during firmware configuration in Mission Planner, and the autopilot automatically applies appropriate control algorithms for your specific aircraft type.
How accurate is the GPS module included in this combo kit?
The u-blox M8N GPS module provides horizontal accuracy of 2.5 meters under open sky conditions with clear satellite visibility. Vertical accuracy is typically 4-5 meters. The 10Hz update rate means position fixes are calculated 10 times per second, enabling smooth waypoint following and precise autonomous navigation. In urban canyons or areas with obstructed sky view, accuracy may degrade to 5-10 meters. For applications requiring centimeter-level accuracy, you can upgrade to RTK-enabled GPS modules compatible with the Pixhawk 2.4.8 through the GPS port, though this requires additional ground station infrastructure.
What ground control station software is compatible with Pixhawk 2.4.8?
The Pixhawk 2.4.8 communicates via MAVLink protocol, making it compatible with multiple ground control stations including Mission Planner for Windows, QGroundControl for Windows/Mac/Linux, APM Planner 2.0, and mobile applications like Tower for Android. Mission Planner is the most feature-rich option for initial setup, calibration, and mission planning. QGroundControl offers superior cross-platform compatibility and a modern user interface. All these applications enable real-time telemetry monitoring, autonomous mission uploads, parameter tuning, and flight log analysis essential for professional operations.
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, EMI available
- Technical Support: 24/7 expert guidance via email and WhatsApp
- Returns: 7-day return policy on manufacturing defects only
Buy Pixhawk
Buy Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit Online in India
Purchase the Pixhawk 2.4.8 Basic Flight Controller kit with GPS Module Combo Kit 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.