Product Overview

The airborne broadband wireless MESH product is our newly launched miniaturized, high‑throughput wireless broadband MESH device. Built on COFDM and multi‑hop MESH self‑organizing networking technologies, it enables flexible interworking across different product forms and delivers fast, adaptable solutions for diverse services in complex environments, such as HD video, push‑to‑talk voice, and IP data transport. With an advanced MESH architecture, no central gateway is required—any unit can form a self‑organizing network. If any node goes offline, other nodes within antenna coverage automatically maintain communications to ensure link continuity. In practical deployments, ring topologies can be used without congestion concerns. As a wireless extension of fixed or vehicle‑mounted radios in multi‑hop MESH networks, it can easily penetrate incident sites, dense crowds, and buildings, significantly enhancing deep‑coverage communication capability. It provides broadband digital communications for emergency response, counter‑terrorism, covert reconnaissance, special operations, disaster relief, and routine patrols. Typical ranges: >5 km in open ground line‑of‑sight, >10 km for air‑ground links, and 300–1000 m in obstructed environments (depending on conditions).

Key Features

Multi‑carrier COFDM Technology

1. Peak point‑to‑point throughput up to 60 Mbps

2. Point‑to‑point link distance > 5 km (line‑of‑sight)

Ground link exceeds 10 km

Multi‑hop Self‑Organizing Network (MESH) Technology

Automatic networking and dynamic route computation; no manual intervention; saves manpower and resources

Supports 64‑node self‑organizing network, automatic multi‑hop forwarding, seamless area coverage

Portability and Ease of Use

Power on and go, zero configuration

Supports mobile app, web configuration, and remote management

Customizable Features

Channel bandwidth adjustable: 5/10/20 MHz

Transmit power adjustable: 0.1–1 W

Operating band customizable: 225 MHz–1.5 GHz

Technical Specifications

RF Parameters	Networking Frequency	1400MHz-1480MHz MIMO 2*2
	Modulation	DSSS/CCK BPSK/QPSK COFDM BPSK/QPSK//16-QAM/64-QAM
	Transmit Power	2 to 4 W (adjustable)
	Receiver Sensitivity	Down to -97 dBm
	Channel Bandwidth	2M/5M/10M/20M/40M (adjustable)
	Effective Range	Line-of-sight > 10 km (altitude)
	Throughput	Peak 70 Mbps@20MHz
Networking/Management	Configuration Modes	Web, MESHCOM management platform
	Ad hoc Node Count	Supports 64 nodes
	System	MESHCOM self-organizing network
	Network Topologies	Centerless, star, chain, mesh, etc.
Physical/Environmental	Operating Temperature	-30°C to +65°C
	Operating Humidity	5%–95% (non-condensing)
	Storage Temperature	-45°C to +85°C
	Weight	1.1 kg (battery included), antenna excluded
	Dimensions	150 x 100 x 45 mm
	Ingress Protection	IP65
Electrical	Charging/Runtime	Charge 2.5 hours, operate 4–6 hours
	Main Power	16.8 V
Interfaces	Ports	1.4G antenna ports*2, status LED*1, power switch*1, charging port*1, Ethernet port*1, TTL*1

Application Scenarios

Powered by MESH self‑organizing networking, the product is applicable to dedicated networks for military communications, public security, emergency communications, industry information, regional broadband, wireless video surveillance, collaborative management, and intelligent transport. It delivers stable, reliable, and efficient HD video, multi‑channel data, clear voice, and visualized command and dispatch for use cases including military communications, counter‑terrorism emergency response, law enforcement, security operations, emergency rescue, fire command, forest fire prevention and monitoring, civil defense/earthquake response, power grid inspection, digital oilfields, UAV swarms, vehicle‑to‑vehicle interconnection, naval formations, maritime communications, airport ground support, subway emergencies, highway construction, hydrological monitoring, mobile broadcasting, and healthcare.

The DJI UAV broadband MESH relay system is designed for long‑range airborne relay networking. Via the aerial relay platform, it extends and secures high‑speed, accurate, and reliable bidirectional communications between UAVs, vehicles, and dismounted nodes—enabling ultra‑long‑distance data links between vehicles and personnel. It effectively mitigates signal interruptions caused by obstructions in complex environments, providing a coverage extension radius of approximately 3–20×.