बिक्री
JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe
द्वारा
My Store
SKU: TES-EVN1834
28 % छूट
JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe
The JHEMCU F4 NOXE V3 is a professional-grade flight controller designed for high-performance FPV racing drones and advanced aerial platforms, featuring an STM32F411 processor with integrated OSD, barometer, and blackbox recording capabilities. This flight controller is used by competitive FPV pilots, drone engineers, and UAV developers who demand reliable stabilization, real-time telemetry, and precise flight data logging for performance analysis and troubleshooting. It solves critical challenges in autonomous flight control by providing dual BEC outputs (5V and 10V), comprehensive sensor fusion, and blackbox functionality that enables pilots to review flight characteristics, diagnose issues, and optimize drone performance across 2-6S LiPo battery configurations.
Product Overview
The JHEMCU F4 NOXE V3 flight controller represents a significant advancement in FPV drone technology, combining a powerful STM32F411 32-bit ARM Cortex-M4 processor running at 100MHz with integrated inertial measurement units (IMU), barometric pressure sensor, and high-speed blackbox data logging. The dual BEC architecture delivers independent 5V and 10V regulated power outputs, enabling simultaneous operation of digital servo systems, VTX modules, and camera payloads without voltage conflicts or power supply interference. The onboard OSD (On-Screen Display) processor generates real-time flight telemetry overlay directly onto FPV video feeds, displaying critical parameters including battery voltage, current draw, flight timer, GPS coordinates, altitude, and speed without requiring external video processors.
The barometric pressure sensor integrated into this flight controller provides altitude hold functionality and accurate vertical velocity estimation, essential for smooth cinematic flights and autonomous mission planning. The blackbox recorder continuously logs IMU data, motor commands, and sensor readings at high frequency (typically 4-8kHz), creating comprehensive flight records that can be analyzed post-flight using specialized software like Blackbox Explorer. This enables pilots to identify control tuning issues, detect hardware failures, and optimize PID parameters based on actual flight dynamics. The F411 variant offers excellent performance-to-cost ratio with sufficient processing power for advanced flight modes while maintaining compatibility with popular flight control software ecosystems including Betaflight, INAV, and Ardupilot.
Key Specifications
| Specification | Details |
| Product Type | Flight Controller for FPV Drones and UAVs |
| Brand | JHEMCU |
| 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 | STM32F411 32-bit ARM Cortex-M4 at 100MHz |
| Battery Compatibility | 2-6S LiPo (7.4V to 22.2V input) |
| BEC Outputs | Dual independent: 5V/2A and 10V/1A |
| Integrated Sensors | 6-axis IMU (accelerometer + gyroscope), barometric pressure sensor |
| OSD Capability | Integrated OSD processor with real-time telemetry overlay |
| Blackbox Recording | High-speed data logging at 4-8kHz frequency |
| Motor Outputs | 4 PWM motor outputs with 32kHz refresh rate |
| Communication Ports | UART for telemetry, SPI for sensors, I2C for peripherals |
Key Features
- Dual Independent BEC Outputs: 5V/2A for digital servos and receivers, 10V/1A for VTX and FPV camera systems, eliminating power supply conflicts and enabling simultaneous operation of multiple voltage-dependent peripherals
- Integrated OSD with Real-Time Telemetry: On-screen display processor generates live flight data overlay including battery voltage, current consumption, flight timer, altitude, speed, and GPS coordinates directly onto FPV video feed without external processors
- High-Speed Blackbox Data Logging: Records IMU data, motor commands, and sensor telemetry at 4-8kHz frequency for comprehensive post-flight analysis, PID tuning optimization, and hardware diagnostics using Blackbox Explorer software
- Barometric Pressure Sensor: Integrated altitude measurement enables altitude hold mode, accurate vertical velocity estimation, and autonomous mission planning capabilities for cinematic and autonomous flight operations
- STM32F411 Processor: 100MHz 32-bit ARM Cortex-M4 processor provides sufficient computational power for advanced flight algorithms, sensor fusion, and real-time control loop execution without thermal throttling
- Wide Battery Voltage Range: Supports 2-6S LiPo configuration (7.4V to 22.2V) with integrated voltage regulation, accommodating both lightweight micro-drones and heavy-lift camera platforms
Applications and Use Cases
- FPV Racing Drones: Professional and amateur FPV racing platforms benefit from high-speed motor control, responsive gyroscope feedback, and integrated OSD displaying real-time speed and altitude data during competitive racing events
- Cinematic Aerial Photography: The barometric altitude hold and blackbox logging enable smooth camera movements and flight path optimization, while dual BEC outputs power both camera stabilization systems and high-power VTX modules simultaneously
- Autonomous Mission Planning: Integration with INAV and Ardupilot firmware enables GPS-guided autonomous missions, waypoint navigation, return-to-home functionality, and comprehensive flight logging for agricultural surveys and infrastructure inspection
- Drone Development and Testing: Engineers and hobbyists use blackbox data analysis to validate control algorithms, optimize PID parameters, diagnose sensor failures, and develop new flight control features in custom drone platforms
- Long-Range FPV Systems: Support for extended battery configurations (up to 6S LiPo) and integrated telemetry enables long-range FPV operations with real-time flight data transmission to ground control stations
How to Use
Installation of the JHEMCU F4 NOXE V3 begins with secure mounting on the drone frame using vibration-damping standoffs to minimize IMU noise and improve gyroscope accuracy. Connect the flight controller to your ESCs (Electronic Speed Controllers) using the four PWM motor output pins, ensuring correct motor rotation direction through software configuration in Betaflight or your chosen firmware. The dual BEC outputs should be connected to separate power distribution boards: the 5V output powers your receiver and digital servos, while the 10V output supplies your VTX and FPV camera system. Connect your telemetry module to the designated UART port and configure sensor connections (barometer on I2C, blackbox on SPI) according to your specific hardware setup.
Once hardware connections are complete, flash the appropriate firmware version (Betaflight, INAV, or Ardupilot) using a USB-to-UART adapter connected to the programming port. Configure your radio receiver protocol, calibrate the accelerometer and gyroscope using the firmware's built-in calibration tools, and set PID parameters appropriate for your drone's weight and motor configuration. Enable blackbox recording in the firmware settings and verify data logging by performing a test flight, then download and analyze the blackbox logs using Blackbox Explorer to validate sensor readings and motor response characteristics. Configure the OSD display to show your preferred telemetry parameters, test all motor outputs at low throttle, and perform a comprehensive pre-flight check before conducting actual flights.
Frequently Asked Questions
What is the difference between the 5V and 10V BEC outputs on this flight controller?
The 5V BEC output (2A capacity) is designed for low-voltage digital devices including RC receivers, digital servos, and telemetry modules. The 10V BEC output (1A capacity) supplies higher voltage required by video transmitters (VTX) and some FPV camera systems that operate at 9-12V. Having independent outputs prevents voltage conflicts when different peripherals require different supply voltages, and allows simultaneous operation without overloading a single BEC regulator.
How does the integrated OSD work and what telemetry parameters can it display?
The integrated OSD processor generates a video overlay signal that combines your FPV camera feed with flight telemetry data, creating a composite video output to your FPV goggles. It can display real-time parameters including instantaneous battery voltage and current draw, flight timer, throttle percentage, altitude above ground level, vertical speed, horizontal speed, GPS coordinates, number of satellites locked, flight mode indicator, and warning messages for low battery or sensor failures. The OSD is configured through the flight controller firmware to select which parameters appear on screen and their display positions.
What is blackbox recording and how do I analyze the flight data?
Blackbox is a high-frequency data logging system that continuously records IMU readings (accelerometer and gyroscope data), motor commands sent to each ESC, and sensor values at 4-8kHz during flight. After landing, you download this binary log file from the flight controller's onboard flash memory using a USB connection. Specialized software called Blackbox Explorer allows you to replay the flight visually, inspect sensor noise characteristics, verify motor response timing, and identify control tuning issues. This data is invaluable for optimizing PID parameters, diagnosing hardware problems, and validating flight control algorithm changes.
Can I use this flight controller with different firmware options like Betaflight, INAV, and Ardupilot?
Yes, the STM32F411 processor is supported by multiple open-source flight control firmware projects. Betaflight is optimized for FPV racing with responsive control and minimal latency. INAV adds autonomous navigation capabilities including GPS waypoint missions, return-to-home, and altitude hold for cinematic and autonomous applications. Ardupilot provides comprehensive autonomous features for professional UAV operations. You can flash different firmware versions depending on your application, though switching between them requires re-calibration and PID tuning for optimal performance.
What battery configurations does this flight controller support?
The JHEMCU F4 NOXE V3 supports 2S through 6S LiPo batteries, corresponding to voltage ranges from 7.4V (2S) to 22.2V (6S). The onboard voltage regulators are designed to handle this full range safely. For 2-3S configurations, the flight controller is suitable for micro-drones and racing quads. For 4-6S configurations, it can power medium to heavy-lift platforms including camera drones and cargo-carrying UAVs. Always verify your specific ESC and motor specifications to ensure compatibility with your chosen battery configuration.
When will I receive my order?
Orders are dispatched within
Buy JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe Online in India
Purchase the JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe 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.
JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe
The JHEMCU F4 NOXE V3 is a professional-grade flight controller designed for high-performance FPV racing drones and advanced aerial platforms, featuring an STM32F411 processor with integrated OSD, barometer, and blackbox recording capabilities. This flight controller is used by competitive FPV pilots, drone engineers, and UAV developers who demand reliable stabilization, real-time telemetry, and precise flight data logging for performance analysis and troubleshooting. It solves critical challenges in autonomous flight control by providing dual BEC outputs (5V and 10V), comprehensive sensor fusion, and blackbox functionality that enables pilots to review flight characteristics, diagnose issues, and optimize drone performance across 2-6S LiPo battery configurations.
Product Overview
The JHEMCU F4 NOXE V3 flight controller represents a significant advancement in FPV drone technology, combining a powerful STM32F411 32-bit ARM Cortex-M4 processor running at 100MHz with integrated inertial measurement units (IMU), barometric pressure sensor, and high-speed blackbox data logging. The dual BEC architecture delivers independent 5V and 10V regulated power outputs, enabling simultaneous operation of digital servo systems, VTX modules, and camera payloads without voltage conflicts or power supply interference. The onboard OSD (On-Screen Display) processor generates real-time flight telemetry overlay directly onto FPV video feeds, displaying critical parameters including battery voltage, current draw, flight timer, GPS coordinates, altitude, and speed without requiring external video processors.
The barometric pressure sensor integrated into this flight controller provides altitude hold functionality and accurate vertical velocity estimation, essential for smooth cinematic flights and autonomous mission planning. The blackbox recorder continuously logs IMU data, motor commands, and sensor readings at high frequency (typically 4-8kHz), creating comprehensive flight records that can be analyzed post-flight using specialized software like Blackbox Explorer. This enables pilots to identify control tuning issues, detect hardware failures, and optimize PID parameters based on actual flight dynamics. The F411 variant offers excellent performance-to-cost ratio with sufficient processing power for advanced flight modes while maintaining compatibility with popular flight control software ecosystems including Betaflight, INAV, and Ardupilot.
Key Specifications
| Specification | Details |
| Product Type | Flight Controller for FPV Drones and UAVs |
| Brand | JHEMCU |
| 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 | STM32F411 32-bit ARM Cortex-M4 at 100MHz |
| Battery Compatibility | 2-6S LiPo (7.4V to 22.2V input) |
| BEC Outputs | Dual independent: 5V/2A and 10V/1A |
| Integrated Sensors | 6-axis IMU (accelerometer + gyroscope), barometric pressure sensor |
| OSD Capability | Integrated OSD processor with real-time telemetry overlay |
| Blackbox Recording | High-speed data logging at 4-8kHz frequency |
| Motor Outputs | 4 PWM motor outputs with 32kHz refresh rate |
| Communication Ports | UART for telemetry, SPI for sensors, I2C for peripherals |
Key Features
- Dual Independent BEC Outputs: 5V/2A for digital servos and receivers, 10V/1A for VTX and FPV camera systems, eliminating power supply conflicts and enabling simultaneous operation of multiple voltage-dependent peripherals
- Integrated OSD with Real-Time Telemetry: On-screen display processor generates live flight data overlay including battery voltage, current consumption, flight timer, altitude, speed, and GPS coordinates directly onto FPV video feed without external processors
- High-Speed Blackbox Data Logging: Records IMU data, motor commands, and sensor telemetry at 4-8kHz frequency for comprehensive post-flight analysis, PID tuning optimization, and hardware diagnostics using Blackbox Explorer software
- Barometric Pressure Sensor: Integrated altitude measurement enables altitude hold mode, accurate vertical velocity estimation, and autonomous mission planning capabilities for cinematic and autonomous flight operations
- STM32F411 Processor: 100MHz 32-bit ARM Cortex-M4 processor provides sufficient computational power for advanced flight algorithms, sensor fusion, and real-time control loop execution without thermal throttling
- Wide Battery Voltage Range: Supports 2-6S LiPo configuration (7.4V to 22.2V) with integrated voltage regulation, accommodating both lightweight micro-drones and heavy-lift camera platforms
Applications and Use Cases
- FPV Racing Drones: Professional and amateur FPV racing platforms benefit from high-speed motor control, responsive gyroscope feedback, and integrated OSD displaying real-time speed and altitude data during competitive racing events
- Cinematic Aerial Photography: The barometric altitude hold and blackbox logging enable smooth camera movements and flight path optimization, while dual BEC outputs power both camera stabilization systems and high-power VTX modules simultaneously
- Autonomous Mission Planning: Integration with INAV and Ardupilot firmware enables GPS-guided autonomous missions, waypoint navigation, return-to-home functionality, and comprehensive flight logging for agricultural surveys and infrastructure inspection
- Drone Development and Testing: Engineers and hobbyists use blackbox data analysis to validate control algorithms, optimize PID parameters, diagnose sensor failures, and develop new flight control features in custom drone platforms
- Long-Range FPV Systems: Support for extended battery configurations (up to 6S LiPo) and integrated telemetry enables long-range FPV operations with real-time flight data transmission to ground control stations
How to Use
Installation of the JHEMCU F4 NOXE V3 begins with secure mounting on the drone frame using vibration-damping standoffs to minimize IMU noise and improve gyroscope accuracy. Connect the flight controller to your ESCs (Electronic Speed Controllers) using the four PWM motor output pins, ensuring correct motor rotation direction through software configuration in Betaflight or your chosen firmware. The dual BEC outputs should be connected to separate power distribution boards: the 5V output powers your receiver and digital servos, while the 10V output supplies your VTX and FPV camera system. Connect your telemetry module to the designated UART port and configure sensor connections (barometer on I2C, blackbox on SPI) according to your specific hardware setup.
Once hardware connections are complete, flash the appropriate firmware version (Betaflight, INAV, or Ardupilot) using a USB-to-UART adapter connected to the programming port. Configure your radio receiver protocol, calibrate the accelerometer and gyroscope using the firmware's built-in calibration tools, and set PID parameters appropriate for your drone's weight and motor configuration. Enable blackbox recording in the firmware settings and verify data logging by performing a test flight, then download and analyze the blackbox logs using Blackbox Explorer to validate sensor readings and motor response characteristics. Configure the OSD display to show your preferred telemetry parameters, test all motor outputs at low throttle, and perform a comprehensive pre-flight check before conducting actual flights.
Frequently Asked Questions
What is the difference between the 5V and 10V BEC outputs on this flight controller?
The 5V BEC output (2A capacity) is designed for low-voltage digital devices including RC receivers, digital servos, and telemetry modules. The 10V BEC output (1A capacity) supplies higher voltage required by video transmitters (VTX) and some FPV camera systems that operate at 9-12V. Having independent outputs prevents voltage conflicts when different peripherals require different supply voltages, and allows simultaneous operation without overloading a single BEC regulator.
How does the integrated OSD work and what telemetry parameters can it display?
The integrated OSD processor generates a video overlay signal that combines your FPV camera feed with flight telemetry data, creating a composite video output to your FPV goggles. It can display real-time parameters including instantaneous battery voltage and current draw, flight timer, throttle percentage, altitude above ground level, vertical speed, horizontal speed, GPS coordinates, number of satellites locked, flight mode indicator, and warning messages for low battery or sensor failures. The OSD is configured through the flight controller firmware to select which parameters appear on screen and their display positions.
What is blackbox recording and how do I analyze the flight data?
Blackbox is a high-frequency data logging system that continuously records IMU readings (accelerometer and gyroscope data), motor commands sent to each ESC, and sensor values at 4-8kHz during flight. After landing, you download this binary log file from the flight controller's onboard flash memory using a USB connection. Specialized software called Blackbox Explorer allows you to replay the flight visually, inspect sensor noise characteristics, verify motor response timing, and identify control tuning issues. This data is invaluable for optimizing PID parameters, diagnosing hardware problems, and validating flight control algorithm changes.
Can I use this flight controller with different firmware options like Betaflight, INAV, and Ardupilot?
Yes, the STM32F411 processor is supported by multiple open-source flight control firmware projects. Betaflight is optimized for FPV racing with responsive control and minimal latency. INAV adds autonomous navigation capabilities including GPS waypoint missions, return-to-home, and altitude hold for cinematic and autonomous applications. Ardupilot provides comprehensive autonomous features for professional UAV operations. You can flash different firmware versions depending on your application, though switching between them requires re-calibration and PID tuning for optimal performance.
What battery configurations does this flight controller support?
The JHEMCU F4 NOXE V3 supports 2S through 6S LiPo batteries, corresponding to voltage ranges from 7.4V (2S) to 22.2V (6S). The onboard voltage regulators are designed to handle this full range safely. For 2-3S configurations, the flight controller is suitable for micro-drones and racing quads. For 4-6S configurations, it can power medium to heavy-lift platforms including camera drones and cargo-carrying UAVs. Always verify your specific ESC and motor specifications to ensure compatibility with your chosen battery configuration.
When will I receive my order?
Orders are dispatched within
Buy JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe Online in India
Purchase the JHEMCU F4 NOXE V3 5V 10V BEC OSD Baro BlackBox 2-6S LIPO F411 Flight Controller Deluxe 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.