The RadioMaster Nomad, the newest TX module in ExpressLRS RF design. It has double Semtech LR1121 transceivers, it operates on 2.4GHz and 868/900MHz using Gemini Xrossband protocol to reduce interference. With dual 1-watt transceivers, the Nomad offers long range possibilities. Radiomaster brings unmatched reliability with the Xrossband ELRS.
Click here for the DBR4 Dual Band Xross Gemini ExpressLRS Receiver!
INTRODUCTION OF K MODES K1000 Full SubGHz (Coming in ExpressLRS V3.5)
Yes, you read that right—1000Hz in the 868/900MHz domain! While this mode is designed for maximum data throughput when used with MAVLink, don't let the 1000Hz fool you; during development, it was tested for long-range performance.
DK500 (Coming in ExpressLRS V3.5)
Designed specifically from the ground up for speed enthusiasts and RC reliability. K modes are next-generation FSK modulation with built-in packet repair (Forward Error Correction). Similar to FLRC D500, DK500 sends repeat packets to minimize packet loss in challenging race environments. Paired with a Gemini-enabled Tx and Rx, nothing compares to its RC reliability.
NEW PACKET RATES Sub-GHz 200Hz Full (-111dBm)
Optimized for MAVLink: Double the packet rate of current 900MHz SX1276 hardware, tailored specifically for MAVLink users to provide a more robust link and reduced interference.
Dual Band X100Hz Full (-112dBm)
Enhanced Gemini Mode: Enjoy dual-frequency transmission with a 100Hz packet rate and full 16-channel resolution, ensuring strong and stable connectivity even in challenging environments.
Dual Band X150Hz (-112dBm)
Gemini Mode: Experience simultaneous sub-GHz and 2.4GHz transmissions, offering robust performance and reduced interference with a packet rate of 150Hz.
Sub-GHz 250Hz (-111dBm)
Speed Boost: Achieve faster packet rates with enhanced sub-GHz performance.
Specifications
Module Bay Adapters: Micro standard 5-pin socket & Nano standard 8-pin socket
Maximum Packet Rate: 500Hz (1000Hz coming soon in ExpressLRS V3.5)
Frequency Range: 2400MHz - 2479MHz / 903MHz - 927MHz