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X6B 2.4G 6CH i-BUS PPM PWM Receiver for AFHDS
The X6B 2.4G 6CH i-BUS PPM PWM Receiver is a high-performance radio frequency receiver module designed for AFHDS (Automatic Frequency Hopping Digital System) compatible transmitters, delivering stable 6-channel control with dual protocol support. Professional drone pilots, RC aircraft enthusiasts, and industrial UAV operators rely on this receiver for its robust signal processing, interference immunity, and precise servo control capabilities. This receiver solves critical connectivity challenges in crowded RF environments by providing frequency-hopping technology that maintains signal integrity across multiple simultaneous operations without channel interference or signal dropout.
Product Overview
The X6B receiver operates on the 2.4GHz ISM band using advanced AFHDS protocol, which automatically hops across 50+ frequency channels per second to avoid interference and jamming. The receiver features dual output modes - traditional PPM (Pulse Position Modulation) for legacy servo systems and modern i-BUS protocol for digital communication with compatible ESCs and flight controllers. The i-BUS interface enables bidirectional telemetry feedback, allowing real-time monitoring of battery voltage, signal strength, and receiver status directly from your transmitter display.
This 6-channel receiver supports up to 6 independent control channels with 1024 resolution per channel, delivering microsecond-level precision required for stable flight dynamics in multirotor and fixed-wing applications. The compact form factor measures approximately 40x25x12mm, making it ideal for weight-sensitive applications where every gram matters. Built-in failsafe programming allows automatic return-to-home or neutral stick positions if signal is lost, providing critical safety assurance during autonomous flights or long-range operations.
Key Specifications
| Specification | Details |
| Product Type | 2.4GHz AFHDS RC Receiver Module |
| Brand | Flysky Compatible |
| 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 |
| Frequency Band | 2.4GHz ISM with AFHDS frequency hopping |
| Number of Channels | 6 independent control channels |
| Output Protocols | PPM and i-BUS digital protocol |
| Channel Resolution | 1024 levels per channel |
| Operating Voltage | 4.5V to 6.5V DC |
| Current Consumption | Approximately 80mA typical operation |
| Signal Range | Up to 2km line-of-sight with standard antenna |
Key Features
- AFHDS Frequency Hopping Technology: Automatically switches across 50+ channels per second to eliminate RF interference, ensuring reliable signal transmission in crowded frequency environments with multiple simultaneous operators
- Dual Output Protocol Support: Provides both traditional PPM output for legacy servo systems and modern i-BUS digital protocol for seamless integration with contemporary flight controllers and electronic speed controllers
- Bidirectional Telemetry via i-BUS: Enables real-time feedback of battery voltage, signal strength, and receiver status directly to compatible Flysky transmitters for enhanced situational awareness during flight operations
- Programmable Failsafe Function: Allows custom failsafe behavior configuration including return-to-home, neutral stick positions, or specific channel values if signal loss is detected, critical for autonomous and long-range operations
- High-Resolution Channel Control: 1024-level resolution per channel delivers microsecond-precision servo positioning required for stable multirotor flight dynamics and precise fixed-wing aircraft control
- Compact Lightweight Design: Measures 40x25x12mm with minimal weight, optimizing payload capacity in weight-sensitive UAV and RC aircraft applications
Applications and Use Cases
- Multirotor UAV Systems: Provides stable 6-channel control for quadcopters, hexacopters, and octocopters with i-BUS telemetry integration for real-time flight parameter monitoring and failsafe-triggered return-to-home functionality
- Fixed-Wing RC Aircraft: Enables precise control of ailerons, elevator, rudder, and throttle channels with PPM output compatibility for traditional RC servo systems in long-range FPV and autonomous flight applications
- RC Ground Vehicles: Supports steering, throttle, and auxiliary channel control for RC cars, boats, and rovers with programmable failsafe ensuring safe vehicle behavior during signal loss in outdoor terrain
- Industrial Drone Operations: Delivers reliable 2km+ range communication with frequency-hopping immunity to interference in commercial surveying, inspection, and agricultural spraying applications where signal integrity is mission-critical
- FPV Racing Drones: Provides low-latency channel response and interference-free operation essential for competitive FPV racing where multiple high-speed aircraft operate simultaneously in close proximity
- Educational Robotics: Enables beginner-friendly RC control of educational drone kits and robot platforms with simple PPM interface and robust failsafe programming for safe learning environments
How to Use
Begin by binding your X6B receiver to your Flysky-compatible transmitter using the standard binding procedure: power the receiver with the bind pin connected to ground, then activate bind mode on your transmitter by holding the bind button while powering on. Once binding completes, the receiver LED will display solid green indicating successful pairing. Connect the receiver to your flight controller or servo system using either the PPM output on pin 2 for legacy systems or the i-BUS protocol on the dedicated i-BUS port for modern flight controllers like Betaflight or ArduPilot.
Configure failsafe settings through your transmitter menu by setting desired channel positions when signal is lost, then activate failsafe mode on the receiver. For PPM output, connect pin 2 to your flight controller's PPM input; for i-BUS systems, connect the i-BUS port directly to your flight controller's i-BUS port. Power the receiver with 5V regulated supply from a BEC (Battery Elimination Circuit) or dedicated 5V regulator, ensuring clean power delivery without voltage ripple. Test all 6 channels through your transmitter's range check feature before flying, verifying smooth response and correct channel mapping in your flight controller configuration software.
Frequently Asked Questions
What is the difference between PPM and i-BUS output on the X6B receiver?
PPM (Pulse Position Modulation) is an analog protocol that encodes all 6 channels into a single signal stream, compatible with legacy flight controllers and RC receivers from older generations. i-BUS is a modern digital protocol that provides bidirectional communication, allowing the receiver to send telemetry data (battery voltage, signal strength) back to the transmitter display while receiving control signals. Choose PPM for compatibility with older systems; choose i-BUS for modern flight controllers that support digital protocols and require real-time telemetry feedback.
How does AFHDS frequency hopping improve signal reliability compared to fixed-frequency receivers?
AFHDS (Automatic Frequency Hopping Digital System) switches the receiver across 50+ different 2.4GHz channels up to 50 times per second, making it virtually impossible for interference or jamming to disrupt communication. Fixed-frequency receivers operate on a single channel, meaning any interference on that specific frequency will cause signal loss or control degradation. The hopping algorithm is synchronized between transmitter and receiver, so only paired devices can communicate. This technology is especially valuable in urban environments with WiFi networks, Bluetooth devices, and multiple RC operators all sharing the 2.4GHz spectrum.
Can I use the X6B receiver with non-Flysky transmitters?
The X6B receiver is specifically designed for Flysky-compatible transmitters that support AFHDS protocol. It will not work with Futaba, JR, Spektrum, or other proprietary RC transmission systems. Verify your transmitter is Flysky-compatible before purchasing. Common compatible transmitters include Flysky FS-i6, FS-i10, FS-T6, and various third-party models that explicitly support AFHDS protocol. Always confirm compatibility with your specific transmitter model before purchase.
What is the maximum control range of the X6B receiver?
Under optimal line-of-sight conditions with standard antenna configuration, the X6B provides reliable control range up to 2 kilometers. Actual range depends on antenna orientation, environmental obstacles, and RF interference levels. In urban environments with buildings and RF noise, expect 500-1000 meter reliable range. For extended range operations beyond 1km, ensure clear line-of-sight and consider upgrading to directional antennas. Always perform range checks before flying to verify adequate signal strength at your intended operating distance.
How do I program the failsafe function on the X6B receiver?
Access failsafe programming through your Flysky transmitter menu by navigating to Receiver Settings or Failsafe Configuration. Set each channel to your desired failsafe position (typically neutral stick for flight control channels), then activate failsafe mode on the receiver. If signal is lost for more than 1 second, the receiver will automatically move all channels to the programmed failsafe positions. Common failsafe configurations include neutral sticks for graceful descent in multirotor aircraft or specific positions for return-to-home functions in autonomous systems. Test failsafe by turning off your transmitter and verifying the aircraft responds correctly before flying.
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
Buy X6B 2.4G 6CH i-BUS PPM PWM Receiver for AFHDS Online in India
Purchase the X6B 2.4G 6CH i-BUS PPM PWM Receiver for AFHDS 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.
X6B 2.4G 6CH i-BUS PPM PWM Receiver for AFHDS
The X6B 2.4G 6CH i-BUS PPM PWM Receiver is a high-performance radio frequency receiver module designed for AFHDS (Automatic Frequency Hopping Digital System) compatible transmitters, delivering stable 6-channel control with dual protocol support. Professional drone pilots, RC aircraft enthusiasts, and industrial UAV operators rely on this receiver for its robust signal processing, interference immunity, and precise servo control capabilities. This receiver solves critical connectivity challenges in crowded RF environments by providing frequency-hopping technology that maintains signal integrity across multiple simultaneous operations without channel interference or signal dropout.
Product Overview
The X6B receiver operates on the 2.4GHz ISM band using advanced AFHDS protocol, which automatically hops across 50+ frequency channels per second to avoid interference and jamming. The receiver features dual output modes - traditional PPM (Pulse Position Modulation) for legacy servo systems and modern i-BUS protocol for digital communication with compatible ESCs and flight controllers. The i-BUS interface enables bidirectional telemetry feedback, allowing real-time monitoring of battery voltage, signal strength, and receiver status directly from your transmitter display.
This 6-channel receiver supports up to 6 independent control channels with 1024 resolution per channel, delivering microsecond-level precision required for stable flight dynamics in multirotor and fixed-wing applications. The compact form factor measures approximately 40x25x12mm, making it ideal for weight-sensitive applications where every gram matters. Built-in failsafe programming allows automatic return-to-home or neutral stick positions if signal is lost, providing critical safety assurance during autonomous flights or long-range operations.
Key Specifications
| Specification | Details |
| Product Type | 2.4GHz AFHDS RC Receiver Module |
| Brand | Flysky Compatible |
| 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 |
| Frequency Band | 2.4GHz ISM with AFHDS frequency hopping |
| Number of Channels | 6 independent control channels |
| Output Protocols | PPM and i-BUS digital protocol |
| Channel Resolution | 1024 levels per channel |
| Operating Voltage | 4.5V to 6.5V DC |
| Current Consumption | Approximately 80mA typical operation |
| Signal Range | Up to 2km line-of-sight with standard antenna |
Key Features
- AFHDS Frequency Hopping Technology: Automatically switches across 50+ channels per second to eliminate RF interference, ensuring reliable signal transmission in crowded frequency environments with multiple simultaneous operators
- Dual Output Protocol Support: Provides both traditional PPM output for legacy servo systems and modern i-BUS digital protocol for seamless integration with contemporary flight controllers and electronic speed controllers
- Bidirectional Telemetry via i-BUS: Enables real-time feedback of battery voltage, signal strength, and receiver status directly to compatible Flysky transmitters for enhanced situational awareness during flight operations
- Programmable Failsafe Function: Allows custom failsafe behavior configuration including return-to-home, neutral stick positions, or specific channel values if signal loss is detected, critical for autonomous and long-range operations
- High-Resolution Channel Control: 1024-level resolution per channel delivers microsecond-precision servo positioning required for stable multirotor flight dynamics and precise fixed-wing aircraft control
- Compact Lightweight Design: Measures 40x25x12mm with minimal weight, optimizing payload capacity in weight-sensitive UAV and RC aircraft applications
Applications and Use Cases
- Multirotor UAV Systems: Provides stable 6-channel control for quadcopters, hexacopters, and octocopters with i-BUS telemetry integration for real-time flight parameter monitoring and failsafe-triggered return-to-home functionality
- Fixed-Wing RC Aircraft: Enables precise control of ailerons, elevator, rudder, and throttle channels with PPM output compatibility for traditional RC servo systems in long-range FPV and autonomous flight applications
- RC Ground Vehicles: Supports steering, throttle, and auxiliary channel control for RC cars, boats, and rovers with programmable failsafe ensuring safe vehicle behavior during signal loss in outdoor terrain
- Industrial Drone Operations: Delivers reliable 2km+ range communication with frequency-hopping immunity to interference in commercial surveying, inspection, and agricultural spraying applications where signal integrity is mission-critical
- FPV Racing Drones: Provides low-latency channel response and interference-free operation essential for competitive FPV racing where multiple high-speed aircraft operate simultaneously in close proximity
- Educational Robotics: Enables beginner-friendly RC control of educational drone kits and robot platforms with simple PPM interface and robust failsafe programming for safe learning environments
How to Use
Begin by binding your X6B receiver to your Flysky-compatible transmitter using the standard binding procedure: power the receiver with the bind pin connected to ground, then activate bind mode on your transmitter by holding the bind button while powering on. Once binding completes, the receiver LED will display solid green indicating successful pairing. Connect the receiver to your flight controller or servo system using either the PPM output on pin 2 for legacy systems or the i-BUS protocol on the dedicated i-BUS port for modern flight controllers like Betaflight or ArduPilot.
Configure failsafe settings through your transmitter menu by setting desired channel positions when signal is lost, then activate failsafe mode on the receiver. For PPM output, connect pin 2 to your flight controller's PPM input; for i-BUS systems, connect the i-BUS port directly to your flight controller's i-BUS port. Power the receiver with 5V regulated supply from a BEC (Battery Elimination Circuit) or dedicated 5V regulator, ensuring clean power delivery without voltage ripple. Test all 6 channels through your transmitter's range check feature before flying, verifying smooth response and correct channel mapping in your flight controller configuration software.
Frequently Asked Questions
What is the difference between PPM and i-BUS output on the X6B receiver?
PPM (Pulse Position Modulation) is an analog protocol that encodes all 6 channels into a single signal stream, compatible with legacy flight controllers and RC receivers from older generations. i-BUS is a modern digital protocol that provides bidirectional communication, allowing the receiver to send telemetry data (battery voltage, signal strength) back to the transmitter display while receiving control signals. Choose PPM for compatibility with older systems; choose i-BUS for modern flight controllers that support digital protocols and require real-time telemetry feedback.
How does AFHDS frequency hopping improve signal reliability compared to fixed-frequency receivers?
AFHDS (Automatic Frequency Hopping Digital System) switches the receiver across 50+ different 2.4GHz channels up to 50 times per second, making it virtually impossible for interference or jamming to disrupt communication. Fixed-frequency receivers operate on a single channel, meaning any interference on that specific frequency will cause signal loss or control degradation. The hopping algorithm is synchronized between transmitter and receiver, so only paired devices can communicate. This technology is especially valuable in urban environments with WiFi networks, Bluetooth devices, and multiple RC operators all sharing the 2.4GHz spectrum.
Can I use the X6B receiver with non-Flysky transmitters?
The X6B receiver is specifically designed for Flysky-compatible transmitters that support AFHDS protocol. It will not work with Futaba, JR, Spektrum, or other proprietary RC transmission systems. Verify your transmitter is Flysky-compatible before purchasing. Common compatible transmitters include Flysky FS-i6, FS-i10, FS-T6, and various third-party models that explicitly support AFHDS protocol. Always confirm compatibility with your specific transmitter model before purchase.
What is the maximum control range of the X6B receiver?
Under optimal line-of-sight conditions with standard antenna configuration, the X6B provides reliable control range up to 2 kilometers. Actual range depends on antenna orientation, environmental obstacles, and RF interference levels. In urban environments with buildings and RF noise, expect 500-1000 meter reliable range. For extended range operations beyond 1km, ensure clear line-of-sight and consider upgrading to directional antennas. Always perform range checks before flying to verify adequate signal strength at your intended operating distance.
How do I program the failsafe function on the X6B receiver?
Access failsafe programming through your Flysky transmitter menu by navigating to Receiver Settings or Failsafe Configuration. Set each channel to your desired failsafe position (typically neutral stick for flight control channels), then activate failsafe mode on the receiver. If signal is lost for more than 1 second, the receiver will automatically move all channels to the programmed failsafe positions. Common failsafe configurations include neutral sticks for graceful descent in multirotor aircraft or specific positions for return-to-home functions in autonomous systems. Test failsafe by turning off your transmitter and verifying the aircraft responds correctly before flying.
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
Buy X6B 2.4G 6CH i-BUS PPM PWM Receiver for AFHDS Online in India
Purchase the X6B 2.4G 6CH i-BUS PPM PWM Receiver for AFHDS 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.