Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano Receiver
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SKU: TES-EVN1962
Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano Receiver
The Radiomaster TX16S MKII HALL V4.0 is a professional-grade 16-channel radio transmitter featuring Hall effect gimbals and integrated ExpressLRS 2.4GHz technology, delivering ultra-low latency control with the compact RP1 nano receiver. This advanced RC controller is engineered for FPV drone pilots, competitive racers, and precision aircraft operators who demand millisecond-level responsiveness and reliable long-range communication. The system solves critical control lag issues inherent in traditional 2.4GHz protocols by implementing ExpressLRS firmware with adaptive frequency hopping, enabling stable operation in RF-congested environments while maintaining sub-10ms control latency.
Product Overview
The TX16S MKII represents the pinnacle of open-source radio transmitter design, combining a 7-inch high-resolution touchscreen interface with the precision of Hall effect analog sticks that eliminate potentiometer drift over extended operational periods. The HALL V4.0 gimbals utilize contactless magnetic sensing technology, providing 4096-level resolution per axis with zero deadband and exceptional centering accuracy. The transmitter runs OpenTX firmware, allowing advanced users to customize control curves, dual-rate settings, telemetry displays, and logical switches for complex flight modes. Integration with ExpressLRS 2.4GHz protocol eliminates the need for separate receiver modules, as the RP1 nano receiver operates on the same frequency band with industry-leading packet rates of 500Hz and 250Hz modes, ensuring predictable control response across varying RF conditions.
The RP1 ExpressLRS nano receiver is engineered as a miniaturized 9-gram module featuring dual antenna diversity and integrated failsafe logic, making it ideal for weight-critical FPV racing quadcopters and lightweight fixed-wing aircraft. The receiver implements FHSS (Frequency Hopping Spread Spectrum) technology across 79 channels in the 2.4GHz ISM band, providing robust immunity to interference from WiFi networks, other RC systems, and industrial RF sources. Advanced telemetry uplink capabilities allow real-time feedback of receiver signal strength, link quality, battery voltage, and GPS data directly to the transmitter display, enabling informed decision-making during flight operations. The system supports binding via USB configuration or over-the-air methods, with encrypted communication protocols preventing unauthorized control of aircraft.
Key Specifications
| Specification | Details |
| Product Type | Professional RC Radio Transmitter with ExpressLRS Receiver |
| Brand | Radiomaster |
| 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 |
| Transmitter Channels | 16 independent control channels |
| Display | 7-inch high-resolution touchscreen LCD |
| Gimbal Type | Hall Effect HALL V4.0 contactless magnetic sensors |
| Protocol | ExpressLRS 2.4GHz FHSS with dual antenna diversity |
| Receiver Model | RP1 Nano 9-gram with integrated failsafe |
| Packet Rate | 500Hz and 250Hz selectable modes |
| Control Latency | Sub-10ms end-to-end response time |
| Frequency Range | 2.4GHz ISM band with 79-channel FHSS |
| Telemetry | Bidirectional with RSSI, LQ, voltage, and GPS uplink |
| Battery | Rechargeable lithium-ion with USB-C charging |
| Firmware | OpenTX open-source customizable software |
Key Features
- Hall Effect HALL V4.0 Gimbals: Contactless magnetic sensing technology eliminates mechanical potentiometer wear, providing consistent 4096-level resolution across the full control range with zero deadband drift over thousands of flight hours
- ExpressLRS 2.4GHz Protocol: Implements FHSS across 79 channels with adaptive frequency hopping, delivering sub-10ms latency and robust interference immunity in RF-congested environments near WiFi networks and other RC systems
- RP1 Nano Receiver: Ultra-compact 9-gram receiver with dual antenna diversity and integrated failsafe logic, perfectly suited for weight-critical FPV racing quadcopters and lightweight aircraft requiring minimal payload impact
- 7-inch Touchscreen Interface: High-resolution LCD display enables intuitive navigation of 16 independent channels, real-time telemetry visualization, and advanced logical switch programming without external computer connectivity
- Bidirectional Telemetry: Real-time feedback of receiver signal strength, link quality, battery voltage, and GPS coordinates displayed directly on transmitter screen for informed flight decisions
- OpenTX Firmware: Open-source customizable software allows advanced users to program complex control curves, dual-rate settings, mode switching logic, and specialized flight profiles tailored to specific aircraft types
- 500Hz Packet Rate Option: Ultra-high update frequency mode delivers 2ms control refresh cycles, enabling precise stabilization for aggressive FPV racing maneuvers and acrobatic flight sequences
- Encrypted Binding Protocol: Secure over-the-air and USB-based binding methods prevent unauthorized control access while supporting multiple receiver pairing for fleet operations
Applications and Use Cases
- FPV Racing Quadcopters: The sub-10ms latency and 500Hz packet rate mode provide the responsiveness required for competitive drone racing, enabling precise gate navigation and aggressive maneuver execution in high-speed environments
- Long-Range FPV Aircraft: ExpressLRS 2.4GHz FHSS technology with dual antenna diversity maintains stable control link at extended distances, supporting fixed-wing FPV platforms requiring kilometers-range telemetry and video transmission
- Precision Agricultural Drones: Bidirectional telemetry feedback and 16-channel capability support complex payload control including gimbal stabilization, spray system activation, and autonomous mission sequencing for crop monitoring applications
- Competitive RC Airplane and Helicopter Flying: Hall effect gimbals eliminate control inconsistencies during precision aerobatic maneuvers, while OpenTX programming enables specialized flight mode switching for different aircraft configurations and competition requirements
- Autonomous Robotics and Ground Vehicles: 16-channel control capacity and customizable logical switches support complex robotic platforms requiring simultaneous control of drive motors, servo actuators, and sensor payloads with real-time telemetry feedback
- Multi-Rotor Photography Platforms: Integrated gimbal control channels and touchscreen interface simplify operation of stabilized camera systems, enabling professional aerial cinematography with intuitive control of tilt, pan, and recording functions
How to Use
Begin by charging the TX16S MKII battery via the integrated USB-C port until the LED indicator shows full charge status. Power on the transmitter and navigate to the binding menu through the touchscreen interface. Place the RP1 nano receiver in binding mode by briefly disconnecting and reconnecting power while holding the bind button, causing the receiver LED to flash rapidly. Within the transmitter menu, select bind mode and confirm pairing when the receiver LED transitions to solid state, indicating successful encrypted link establishment. Verify all 16 channels respond correctly by moving the control sticks, switches, and knobs while observing the channel bar graphs on the touchscreen display.
Configure your specific aircraft by accessing the model setup menu and assigning control channels to corresponding aircraft functions such as throttle, pitch, roll, yaw, and auxiliary functions. Utilize OpenTX's logical switch and special function capabilities to program dual-rate modes, exponential curves, and conditional control logic tailored to your flying style. Enable telemetry reception by selecting the appropriate sensors in the transmitter configuration menu, then test bidirectional communication by observing real-time RSSI and link quality values displayed on the home screen. Before flight operations, conduct a range check by walking away from the aircraft while monitoring signal strength to confirm reliable control link at your intended operating distance, typically 500 meters minimum with ExpressLRS 2.4GHz protocol.
Frequently Asked Questions
What is the difference between 500Hz and 250Hz packet rate modes in ExpressLRS?
The 500Hz mode transmits control packets every 2 milliseconds, providing ultra-responsive control ideal for FPV racing and aggressive acrobatic flying where millisecond-level precision is critical. The 250Hz mode transmits every 4 milliseconds and offers superior range performance with reduced power consumption, making it better suited for long-range FPV aircraft and endurance flights. You can switch between modes via the transmitter menu without rebinding the receiver.
How does Hall effect gimbal technology differ from traditional potentiometer-based sticks?
Hall effect sensors use contactless magnetic detection rather than mechanical sliding contacts, eliminating potentiometer wear and drift that occurs over thousands of flight hours. The HALL V4.0 gimbals maintain consistent 4096-level resolution and zero deadband throughout their operational life, whereas traditional potentiometers gradually develop dead zones and require recalibration. This results in more predictable control response and significantly extended gimbal lifespan in professional racing and commercial applications.
Can the RP1 nano receiver work with other ExpressLRS-compatible transmitters?
Yes, the RP1 receiver implements the standard ExpressLRS protocol and can bind with any ExpressLRS-compatible transmitter including Jumper, FrSky, and other brands running ExpressLRS firmware. However, you must rebind the receiver to the new transmitter using the binding procedure. The TX16S MKII provides the most seamless integration due to native firmware support and optimized telemetry display formatting.
What is the maximum range of the TX16S MKII with RP1 receiver?
ExpressLRS 2.4GHz with dual antenna diversity typically achieves 500+ meters line-of-sight range with standard antennas. Extended range configurations using directional antennas and optimized transmitter placement can achieve 2+ kilometers. Actual range depends on RF interference, antenna orientation, and environmental obstacles. Always conduct range checks before flight operations to verify adequate signal strength for your specific location.
Does the transmitter require a computer for basic operation and configuration?
No, the 7-inch touchscreen interface allows complete configuration without external computers for standard flight operations. However, advanced users often connect via USB to access OpenTX Companion software for detailed programming, custom model profiles, and firmware updates. The touchscreen provides sufficient functionality for 95% of typical flying scenarios.
When will I receive my order?
Buy Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano Receiver Online in India
Purchase the Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano 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.
Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano Receiver
The Radiomaster TX16S MKII HALL V4.0 is a professional-grade 16-channel radio transmitter featuring Hall effect gimbals and integrated ExpressLRS 2.4GHz technology, delivering ultra-low latency control with the compact RP1 nano receiver. This advanced RC controller is engineered for FPV drone pilots, competitive racers, and precision aircraft operators who demand millisecond-level responsiveness and reliable long-range communication. The system solves critical control lag issues inherent in traditional 2.4GHz protocols by implementing ExpressLRS firmware with adaptive frequency hopping, enabling stable operation in RF-congested environments while maintaining sub-10ms control latency.
Product Overview
The TX16S MKII represents the pinnacle of open-source radio transmitter design, combining a 7-inch high-resolution touchscreen interface with the precision of Hall effect analog sticks that eliminate potentiometer drift over extended operational periods. The HALL V4.0 gimbals utilize contactless magnetic sensing technology, providing 4096-level resolution per axis with zero deadband and exceptional centering accuracy. The transmitter runs OpenTX firmware, allowing advanced users to customize control curves, dual-rate settings, telemetry displays, and logical switches for complex flight modes. Integration with ExpressLRS 2.4GHz protocol eliminates the need for separate receiver modules, as the RP1 nano receiver operates on the same frequency band with industry-leading packet rates of 500Hz and 250Hz modes, ensuring predictable control response across varying RF conditions.
The RP1 ExpressLRS nano receiver is engineered as a miniaturized 9-gram module featuring dual antenna diversity and integrated failsafe logic, making it ideal for weight-critical FPV racing quadcopters and lightweight fixed-wing aircraft. The receiver implements FHSS (Frequency Hopping Spread Spectrum) technology across 79 channels in the 2.4GHz ISM band, providing robust immunity to interference from WiFi networks, other RC systems, and industrial RF sources. Advanced telemetry uplink capabilities allow real-time feedback of receiver signal strength, link quality, battery voltage, and GPS data directly to the transmitter display, enabling informed decision-making during flight operations. The system supports binding via USB configuration or over-the-air methods, with encrypted communication protocols preventing unauthorized control of aircraft.
Key Specifications
| Specification | Details |
| Product Type | Professional RC Radio Transmitter with ExpressLRS Receiver |
| Brand | Radiomaster |
| 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 |
| Transmitter Channels | 16 independent control channels |
| Display | 7-inch high-resolution touchscreen LCD |
| Gimbal Type | Hall Effect HALL V4.0 contactless magnetic sensors |
| Protocol | ExpressLRS 2.4GHz FHSS with dual antenna diversity |
| Receiver Model | RP1 Nano 9-gram with integrated failsafe |
| Packet Rate | 500Hz and 250Hz selectable modes |
| Control Latency | Sub-10ms end-to-end response time |
| Frequency Range | 2.4GHz ISM band with 79-channel FHSS |
| Telemetry | Bidirectional with RSSI, LQ, voltage, and GPS uplink |
| Battery | Rechargeable lithium-ion with USB-C charging |
| Firmware | OpenTX open-source customizable software |
Key Features
- Hall Effect HALL V4.0 Gimbals: Contactless magnetic sensing technology eliminates mechanical potentiometer wear, providing consistent 4096-level resolution across the full control range with zero deadband drift over thousands of flight hours
- ExpressLRS 2.4GHz Protocol: Implements FHSS across 79 channels with adaptive frequency hopping, delivering sub-10ms latency and robust interference immunity in RF-congested environments near WiFi networks and other RC systems
- RP1 Nano Receiver: Ultra-compact 9-gram receiver with dual antenna diversity and integrated failsafe logic, perfectly suited for weight-critical FPV racing quadcopters and lightweight aircraft requiring minimal payload impact
- 7-inch Touchscreen Interface: High-resolution LCD display enables intuitive navigation of 16 independent channels, real-time telemetry visualization, and advanced logical switch programming without external computer connectivity
- Bidirectional Telemetry: Real-time feedback of receiver signal strength, link quality, battery voltage, and GPS coordinates displayed directly on transmitter screen for informed flight decisions
- OpenTX Firmware: Open-source customizable software allows advanced users to program complex control curves, dual-rate settings, mode switching logic, and specialized flight profiles tailored to specific aircraft types
- 500Hz Packet Rate Option: Ultra-high update frequency mode delivers 2ms control refresh cycles, enabling precise stabilization for aggressive FPV racing maneuvers and acrobatic flight sequences
- Encrypted Binding Protocol: Secure over-the-air and USB-based binding methods prevent unauthorized control access while supporting multiple receiver pairing for fleet operations
Applications and Use Cases
- FPV Racing Quadcopters: The sub-10ms latency and 500Hz packet rate mode provide the responsiveness required for competitive drone racing, enabling precise gate navigation and aggressive maneuver execution in high-speed environments
- Long-Range FPV Aircraft: ExpressLRS 2.4GHz FHSS technology with dual antenna diversity maintains stable control link at extended distances, supporting fixed-wing FPV platforms requiring kilometers-range telemetry and video transmission
- Precision Agricultural Drones: Bidirectional telemetry feedback and 16-channel capability support complex payload control including gimbal stabilization, spray system activation, and autonomous mission sequencing for crop monitoring applications
- Competitive RC Airplane and Helicopter Flying: Hall effect gimbals eliminate control inconsistencies during precision aerobatic maneuvers, while OpenTX programming enables specialized flight mode switching for different aircraft configurations and competition requirements
- Autonomous Robotics and Ground Vehicles: 16-channel control capacity and customizable logical switches support complex robotic platforms requiring simultaneous control of drive motors, servo actuators, and sensor payloads with real-time telemetry feedback
- Multi-Rotor Photography Platforms: Integrated gimbal control channels and touchscreen interface simplify operation of stabilized camera systems, enabling professional aerial cinematography with intuitive control of tilt, pan, and recording functions
How to Use
Begin by charging the TX16S MKII battery via the integrated USB-C port until the LED indicator shows full charge status. Power on the transmitter and navigate to the binding menu through the touchscreen interface. Place the RP1 nano receiver in binding mode by briefly disconnecting and reconnecting power while holding the bind button, causing the receiver LED to flash rapidly. Within the transmitter menu, select bind mode and confirm pairing when the receiver LED transitions to solid state, indicating successful encrypted link establishment. Verify all 16 channels respond correctly by moving the control sticks, switches, and knobs while observing the channel bar graphs on the touchscreen display.
Configure your specific aircraft by accessing the model setup menu and assigning control channels to corresponding aircraft functions such as throttle, pitch, roll, yaw, and auxiliary functions. Utilize OpenTX's logical switch and special function capabilities to program dual-rate modes, exponential curves, and conditional control logic tailored to your flying style. Enable telemetry reception by selecting the appropriate sensors in the transmitter configuration menu, then test bidirectional communication by observing real-time RSSI and link quality values displayed on the home screen. Before flight operations, conduct a range check by walking away from the aircraft while monitoring signal strength to confirm reliable control link at your intended operating distance, typically 500 meters minimum with ExpressLRS 2.4GHz protocol.
Frequently Asked Questions
What is the difference between 500Hz and 250Hz packet rate modes in ExpressLRS?
The 500Hz mode transmits control packets every 2 milliseconds, providing ultra-responsive control ideal for FPV racing and aggressive acrobatic flying where millisecond-level precision is critical. The 250Hz mode transmits every 4 milliseconds and offers superior range performance with reduced power consumption, making it better suited for long-range FPV aircraft and endurance flights. You can switch between modes via the transmitter menu without rebinding the receiver.
How does Hall effect gimbal technology differ from traditional potentiometer-based sticks?
Hall effect sensors use contactless magnetic detection rather than mechanical sliding contacts, eliminating potentiometer wear and drift that occurs over thousands of flight hours. The HALL V4.0 gimbals maintain consistent 4096-level resolution and zero deadband throughout their operational life, whereas traditional potentiometers gradually develop dead zones and require recalibration. This results in more predictable control response and significantly extended gimbal lifespan in professional racing and commercial applications.
Can the RP1 nano receiver work with other ExpressLRS-compatible transmitters?
Yes, the RP1 receiver implements the standard ExpressLRS protocol and can bind with any ExpressLRS-compatible transmitter including Jumper, FrSky, and other brands running ExpressLRS firmware. However, you must rebind the receiver to the new transmitter using the binding procedure. The TX16S MKII provides the most seamless integration due to native firmware support and optimized telemetry display formatting.
What is the maximum range of the TX16S MKII with RP1 receiver?
ExpressLRS 2.4GHz with dual antenna diversity typically achieves 500+ meters line-of-sight range with standard antennas. Extended range configurations using directional antennas and optimized transmitter placement can achieve 2+ kilometers. Actual range depends on RF interference, antenna orientation, and environmental obstacles. Always conduct range checks before flight operations to verify adequate signal strength for your specific location.
Does the transmitter require a computer for basic operation and configuration?
No, the 7-inch touchscreen interface allows complete configuration without external computers for standard flight operations. However, advanced users often connect via USB to access OpenTX Companion software for detailed programming, custom model profiles, and firmware updates. The touchscreen provides sufficient functionality for 95% of typical flying scenarios.
When will I receive my order?
Buy Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano Receiver Online in India
Purchase the Radiomaster TX16S MKII HALL V4.0 ELRS Radio with RP1 ExpressLRS 2.4ghz Nano 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.