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FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver
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SKU: TES-EVN1943
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FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver
The FrSky Taranis Q X7 Access is a professional-grade 2.4GHz radio control transmitter system designed for long-range drone, FPV aircraft, and RC vehicle operations with integrated ACCESS protocol technology providing superior range and interference immunity. RC hobbyists, professional drone pilots, FPV racing enthusiasts, and industrial UAV operators rely on this system to achieve stable communication links exceeding 40+ kilometers with the R9M 2019 long-range module. This complete bundle solves critical connectivity challenges in extended-range applications by combining the intuitive X7 transmitter interface with advanced R9M 2019 frequency-hopping technology and the compact R9MINI OTA receiver for seamless over-the-air firmware updates.
Product Overview
The FrSky Taranis Q X7 Access Transmitter represents the pinnacle of open-source radio control technology, featuring a robust ergonomic design with dual-gimbal precision analog sticks, dedicated mode switches, and a high-contrast LCD display for real-time telemetry monitoring. The transmitter operates on the 2.4GHz ISM band with ACCESS protocol, which implements advanced frequency-hopping spread spectrum (FHSS) technology to deliver exceptional range, latency reduction below 10ms, and automatic failsafe protocols. The integrated OpenTX firmware platform allows unlimited customization of control mappings, telemetry screens, and logical switches, making it adaptable to virtually any RC platform from fixed-wing aircraft to multirotor drones and ground vehicles.
The R9M 2019 module is a high-power long-range transmitter module that extends communication range to 40+ kilometers in open terrain through 500mW RF output power and advanced antenna diversity algorithms. The R9MINI OTA receiver is a compact, lightweight receiver module featuring over-the-air firmware update capability, allowing pilots to upgrade receiver firmware wirelessly without physical access to the aircraft. Together, this system provides redundancy, reliability, and future-proof technology with bidirectional telemetry feedback including RSSI, LQ (link quality), battery voltage, and GPS coordinates streamed back to the transmitter display in real-time.
Key Specifications
| Specification | Details |
| Product Type | 2.4GHz Radio Control Transmitter System with Long-Range Module and Receiver |
| Brand | FrSky |
| 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 Band with ACCESS Protocol |
| Transmitter Output Power | 25mW (Transmitter), 500mW (R9M 2019 Module) |
| Maximum Range | 40+ kilometers in open terrain with R9M 2019 module |
| Latency | Less than 10ms with frequency-hopping spread spectrum |
| Control Channels | 16 channels (expandable via additional modules) |
| Display | High-contrast LCD screen with telemetry display |
| Firmware | OpenTX (open-source, fully customizable) |
| Receiver Type | R9MINI OTA with over-the-air firmware update capability |
| Telemetry | Bidirectional with RSSI, LQ, voltage, GPS, and custom sensors |
| Power Source | 6 AA batteries or external 7.2V-12V power supply |
Key Features
- ACCESS Protocol Technology: Implements frequency-hopping spread spectrum (FHSS) with 80+ channels for superior interference rejection and automatic failsafe engagement within 1 second of signal loss
- Extended Range Capability: R9M 2019 module delivers 500mW RF output power enabling 40+ kilometer communication range with low latency under 10ms for responsive control
- Over-the-Air Updates: R9MINI OTA receiver supports wireless firmware updates without physical aircraft access, ensuring compatibility with future FrSky protocol enhancements
- OpenTX Firmware Platform: Fully open-source and customizable software allowing unlimited control mapping, telemetry screen design, and logical switch programming for specialized applications
- Bidirectional Telemetry: Real-time feedback including RSSI signal strength, link quality percentage, battery voltage, GPS coordinates, altitude, and speed displayed on transmitter LCD
- Dual-Gimbal Analog Sticks: Precision multi-position gimbals with adjustable spring tension and self-centering mechanism for smooth, responsive aircraft control
- Ergonomic Design: Lightweight white housing with dedicated mode switches, trim buttons, and tactile feedback for extended flight sessions without fatigue
- Multi-Platform Compatibility: Works with fixed-wing aircraft, multirotor drones, helicopters, RC cars, boats, and custom RC platforms through flexible channel assignment
Applications and Use Cases
- Long-Range FPV Drone Racing: Pilots use the R9M 2019 module to achieve stable 40+ kilometer video transmission with sub-10ms latency, critical for competitive FPV racing where signal dropouts cause crashes
- Professional Aerial Surveying and Mapping: Industrial UAV operators deploy this system for extended-range agricultural monitoring, infrastructure inspection, and geological surveys where GPS waypoint navigation requires reliable telemetry feedback
- Fixed-Wing Sailplane Operations: RC glider enthusiasts utilize the extended range to launch aircraft from ground stations and maintain control during thermal soaring flights at altitudes exceeding 1000 meters
- Autonomous Robotics and Ground Vehicles: Researchers and hobbyists program custom OpenTX logic for autonomous waypoint navigation, obstacle avoidance, and sensor integration in ground-based RC platforms
- Emergency Response and Search-Rescue Operations: Equipped with telemetry-enabled receivers, this system enables operators to maintain communication with surveillance drones during disaster assessment missions in remote areas
- Educational STEM Programs: Universities and robotics clubs utilize the open-source OpenTX platform to teach students RF communication principles, protocol design, and real-time control systems through hands-on drone projects
How to Use
Begin by binding the R9MINI OTA receiver to your Taranis Q X7 transmitter through the OpenTX menu: navigate to Model Setup, select Bind, and press the bind button on the receiver while powered on. The transmitter will display a confirmation message once successful binding completes. Install the R9M 2019 module into the transmitter's module bay by sliding it horizontally until it clicks into place, ensuring proper antenna orientation for optimal RF propagation. Configure your control channels by accessing the Mixer menu in OpenTX firmware, assigning transmitter sticks and switches to desired aircraft control surfaces such as ailerons, elevators, rudder, and throttle. Test all control inputs on the ground with the aircraft disarmed before any flight operations.
For extended-range operations, position the transmitter antenna vertically and maintain line-of-sight with your aircraft whenever possible, as the 2.4GHz frequency is sensitive to physical obstructions. Monitor the LCD display's link quality (LQ) percentage and RSSI signal strength in real-time during flight; values above 80 LQ indicate excellent signal quality. If LQ drops below 50 percent, reduce distance or reposition the antenna to maintain safe control margins. Update receiver firmware periodically using the OTA update feature by connecting to the FrSky firmware server through the transmitter menu, ensuring your system remains compatible with latest protocol enhancements and security patches. Store the transmitter in a protective case when not in use and replace batteries when voltage drops below 7.2V to maintain consistent RF output power and prevent unexpected failsafes during critical flights.
Frequently Asked Questions
What is the maximum range of the FrSky Taranis Q X7 with R9M 2019 module?
The R9M 2019 module combined with the Taranis Q X7 transmitter achieves 40+ kilometers range in open terrain with clear line-of-sight conditions. Actual range depends on antenna orientation, RF environment, and receiver antenna type. In urban areas with buildings and RF interference, practical range typically reduces to 15-25 kilometers. Always maintain visual line-of-sight during flights and configure failsafe actions to return aircraft safely if signal loss occurs.
Can I use the R9MINI OTA receiver with other FrSky transmitters?
Yes, the R9MINI OTA receiver is compatible with all FrSky transmitters supporting ACCESS protocol, including Taranis X9D Plus, Taranis X-Lite, and Horus models. However, you must rebind the receiver to each transmitter separately through the bind menu. The OTA firmware update feature works exclusively with transmitters equipped with the R9M 2019 module or higher-specification long-range modules that support bidirectional communication.
How do I update the R9MINI receiver firmware over-the-air?
Connect your Taranis Q X7 transmitter to a computer via USB cable and download the latest R9MINI firmware from the official FrSky website. In the transmitter menu, navigate to Tools, select OTA Update, and follow the on-screen prompts to select the firmware file. Power on the R9MINI receiver within 10 meters of the transmitter and initiate the update. The process typically completes within 2-3 minutes. Do not power off the transmitter or receiver during the update process, as incomplete firmware flashing may render the receiver non-functional.
What is the difference between ACCESS and ACCST protocol?
ACCESS is FrSky's next-generation protocol offering improved range, lower latency (under 10ms), and enhanced interference immunity compared to the older ACCST protocol. ACCESS implements 80+ frequency-hopping channels versus ACCST's 16 channels, providing superior performance in RF-congested environments. The Taranis Q X7 with R9M 2019 module uses ACCESS protocol exclusively and is not backward compatible with ACCST-only receivers.
Does the transmitter include a battery?
The Taranis Q X7 transmitter does not include batteries in the standard package. You will need to purchase six AA batteries (alkaline or rechargeable NiMH) separately to power the transmitter. Alternatively, you can use an external 7.2V-12V power supply connected to the dedicated charging port. For extended flight sessions, rechargeable NiMH batteries are recommended for cost savings and environmental benefits.
Can I expand the number
Buy FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver Online in India
Purchase the FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver 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.
FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver
The FrSky Taranis Q X7 Access is a professional-grade 2.4GHz radio control transmitter system designed for long-range drone, FPV aircraft, and RC vehicle operations with integrated ACCESS protocol technology providing superior range and interference immunity. RC hobbyists, professional drone pilots, FPV racing enthusiasts, and industrial UAV operators rely on this system to achieve stable communication links exceeding 40+ kilometers with the R9M 2019 long-range module. This complete bundle solves critical connectivity challenges in extended-range applications by combining the intuitive X7 transmitter interface with advanced R9M 2019 frequency-hopping technology and the compact R9MINI OTA receiver for seamless over-the-air firmware updates.
Product Overview
The FrSky Taranis Q X7 Access Transmitter represents the pinnacle of open-source radio control technology, featuring a robust ergonomic design with dual-gimbal precision analog sticks, dedicated mode switches, and a high-contrast LCD display for real-time telemetry monitoring. The transmitter operates on the 2.4GHz ISM band with ACCESS protocol, which implements advanced frequency-hopping spread spectrum (FHSS) technology to deliver exceptional range, latency reduction below 10ms, and automatic failsafe protocols. The integrated OpenTX firmware platform allows unlimited customization of control mappings, telemetry screens, and logical switches, making it adaptable to virtually any RC platform from fixed-wing aircraft to multirotor drones and ground vehicles.
The R9M 2019 module is a high-power long-range transmitter module that extends communication range to 40+ kilometers in open terrain through 500mW RF output power and advanced antenna diversity algorithms. The R9MINI OTA receiver is a compact, lightweight receiver module featuring over-the-air firmware update capability, allowing pilots to upgrade receiver firmware wirelessly without physical access to the aircraft. Together, this system provides redundancy, reliability, and future-proof technology with bidirectional telemetry feedback including RSSI, LQ (link quality), battery voltage, and GPS coordinates streamed back to the transmitter display in real-time.
Key Specifications
| Specification | Details |
| Product Type | 2.4GHz Radio Control Transmitter System with Long-Range Module and Receiver |
| Brand | FrSky |
| 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 Band with ACCESS Protocol |
| Transmitter Output Power | 25mW (Transmitter), 500mW (R9M 2019 Module) |
| Maximum Range | 40+ kilometers in open terrain with R9M 2019 module |
| Latency | Less than 10ms with frequency-hopping spread spectrum |
| Control Channels | 16 channels (expandable via additional modules) |
| Display | High-contrast LCD screen with telemetry display |
| Firmware | OpenTX (open-source, fully customizable) |
| Receiver Type | R9MINI OTA with over-the-air firmware update capability |
| Telemetry | Bidirectional with RSSI, LQ, voltage, GPS, and custom sensors |
| Power Source | 6 AA batteries or external 7.2V-12V power supply |
Key Features
- ACCESS Protocol Technology: Implements frequency-hopping spread spectrum (FHSS) with 80+ channels for superior interference rejection and automatic failsafe engagement within 1 second of signal loss
- Extended Range Capability: R9M 2019 module delivers 500mW RF output power enabling 40+ kilometer communication range with low latency under 10ms for responsive control
- Over-the-Air Updates: R9MINI OTA receiver supports wireless firmware updates without physical aircraft access, ensuring compatibility with future FrSky protocol enhancements
- OpenTX Firmware Platform: Fully open-source and customizable software allowing unlimited control mapping, telemetry screen design, and logical switch programming for specialized applications
- Bidirectional Telemetry: Real-time feedback including RSSI signal strength, link quality percentage, battery voltage, GPS coordinates, altitude, and speed displayed on transmitter LCD
- Dual-Gimbal Analog Sticks: Precision multi-position gimbals with adjustable spring tension and self-centering mechanism for smooth, responsive aircraft control
- Ergonomic Design: Lightweight white housing with dedicated mode switches, trim buttons, and tactile feedback for extended flight sessions without fatigue
- Multi-Platform Compatibility: Works with fixed-wing aircraft, multirotor drones, helicopters, RC cars, boats, and custom RC platforms through flexible channel assignment
Applications and Use Cases
- Long-Range FPV Drone Racing: Pilots use the R9M 2019 module to achieve stable 40+ kilometer video transmission with sub-10ms latency, critical for competitive FPV racing where signal dropouts cause crashes
- Professional Aerial Surveying and Mapping: Industrial UAV operators deploy this system for extended-range agricultural monitoring, infrastructure inspection, and geological surveys where GPS waypoint navigation requires reliable telemetry feedback
- Fixed-Wing Sailplane Operations: RC glider enthusiasts utilize the extended range to launch aircraft from ground stations and maintain control during thermal soaring flights at altitudes exceeding 1000 meters
- Autonomous Robotics and Ground Vehicles: Researchers and hobbyists program custom OpenTX logic for autonomous waypoint navigation, obstacle avoidance, and sensor integration in ground-based RC platforms
- Emergency Response and Search-Rescue Operations: Equipped with telemetry-enabled receivers, this system enables operators to maintain communication with surveillance drones during disaster assessment missions in remote areas
- Educational STEM Programs: Universities and robotics clubs utilize the open-source OpenTX platform to teach students RF communication principles, protocol design, and real-time control systems through hands-on drone projects
How to Use
Begin by binding the R9MINI OTA receiver to your Taranis Q X7 transmitter through the OpenTX menu: navigate to Model Setup, select Bind, and press the bind button on the receiver while powered on. The transmitter will display a confirmation message once successful binding completes. Install the R9M 2019 module into the transmitter's module bay by sliding it horizontally until it clicks into place, ensuring proper antenna orientation for optimal RF propagation. Configure your control channels by accessing the Mixer menu in OpenTX firmware, assigning transmitter sticks and switches to desired aircraft control surfaces such as ailerons, elevators, rudder, and throttle. Test all control inputs on the ground with the aircraft disarmed before any flight operations.
For extended-range operations, position the transmitter antenna vertically and maintain line-of-sight with your aircraft whenever possible, as the 2.4GHz frequency is sensitive to physical obstructions. Monitor the LCD display's link quality (LQ) percentage and RSSI signal strength in real-time during flight; values above 80 LQ indicate excellent signal quality. If LQ drops below 50 percent, reduce distance or reposition the antenna to maintain safe control margins. Update receiver firmware periodically using the OTA update feature by connecting to the FrSky firmware server through the transmitter menu, ensuring your system remains compatible with latest protocol enhancements and security patches. Store the transmitter in a protective case when not in use and replace batteries when voltage drops below 7.2V to maintain consistent RF output power and prevent unexpected failsafes during critical flights.
Frequently Asked Questions
What is the maximum range of the FrSky Taranis Q X7 with R9M 2019 module?
The R9M 2019 module combined with the Taranis Q X7 transmitter achieves 40+ kilometers range in open terrain with clear line-of-sight conditions. Actual range depends on antenna orientation, RF environment, and receiver antenna type. In urban areas with buildings and RF interference, practical range typically reduces to 15-25 kilometers. Always maintain visual line-of-sight during flights and configure failsafe actions to return aircraft safely if signal loss occurs.
Can I use the R9MINI OTA receiver with other FrSky transmitters?
Yes, the R9MINI OTA receiver is compatible with all FrSky transmitters supporting ACCESS protocol, including Taranis X9D Plus, Taranis X-Lite, and Horus models. However, you must rebind the receiver to each transmitter separately through the bind menu. The OTA firmware update feature works exclusively with transmitters equipped with the R9M 2019 module or higher-specification long-range modules that support bidirectional communication.
How do I update the R9MINI receiver firmware over-the-air?
Connect your Taranis Q X7 transmitter to a computer via USB cable and download the latest R9MINI firmware from the official FrSky website. In the transmitter menu, navigate to Tools, select OTA Update, and follow the on-screen prompts to select the firmware file. Power on the R9MINI receiver within 10 meters of the transmitter and initiate the update. The process typically completes within 2-3 minutes. Do not power off the transmitter or receiver during the update process, as incomplete firmware flashing may render the receiver non-functional.
What is the difference between ACCESS and ACCST protocol?
ACCESS is FrSky's next-generation protocol offering improved range, lower latency (under 10ms), and enhanced interference immunity compared to the older ACCST protocol. ACCESS implements 80+ frequency-hopping channels versus ACCST's 16 channels, providing superior performance in RF-congested environments. The Taranis Q X7 with R9M 2019 module uses ACCESS protocol exclusively and is not backward compatible with ACCST-only receivers.
Does the transmitter include a battery?
The Taranis Q X7 transmitter does not include batteries in the standard package. You will need to purchase six AA batteries (alkaline or rechargeable NiMH) separately to power the transmitter. Alternatively, you can use an external 7.2V-12V power supply connected to the dedicated charging port. For extended flight sessions, rechargeable NiMH batteries are recommended for cost savings and environmental benefits.
Can I expand the number
Buy FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver Online in India
Purchase the FrSky 2.4GHz Taranis Q X7 Access Transmitter (White) with R9M 2019 Module and R9MINI OTA Receiver 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.