50KM Drone Long Range TCPIP/UDP MIMO IP MESH Link

Model: FD-615MT

FD-615MT build a no center, self-forming, self-adapting and self-healing dynamic routing/

automatic relay communication mesh network. It achieves dynamic routing, multi-hop relay HD video, multi-channel data and fidelity voice between different nodes of the same network in complex applications.

FD-615MT provide real-time HD video and broadband Ethernet connection with 30Mbps transmission rate and distance of 50km (Air to Ground) with smart antenna MIMO and self-forming packet wireless mesh network AD-HOC/MESH.

It has great advantages in applied for VTOL/fixed wing drone/helicopter wireless transmission with only 280g weight.

It comes in 10W and 20W version to create an encrypted communications link for UAV swarm beyond line of sight in complex RF environments.

Product Detail


Equipped with MESH technology.

It designed based on TD-LTE wireless communication standard, OFDM and MIMO technologies. It doesn't rely on any carrier's base station. Self-forming, self-healing mesh architecture

The network automatically switches routes based on factors such as the number of transceiving and channel environment.


Long Range HD Video Communication and low latency

Offers 50km air to ground full HD video downlink with bi-directional data transmission for VTOL/fixed wing drone/helicopter.

Featuring less than 60ms-80msof latency for 150km, so that you can see and control what's happening live.

drone transmitter for 50km

Frequency-Hopping Spread Spectrum (FHSS)

IWAVE IP MESH product will internally calculate and evaluate the current link based on factors such as received signal strength RSRP, signal-to-noise ratio SNR, and bit error rate SER. If its judgment condition is met, it will perform frequency hopping and select an optimal frequency point from the list.

Whether to perform frequency hopping depends on the wireless state. If the wireless state is good, frequency hopping will not be performed until the judgment condition is met.


Automatic Frequency Point Control

After booting, it will try to network with the pre-stored frequency points before the last shutdown. If the pre-stored frequency points are not suitable for network deployment, it will automatically try to use other available frequency points for network deployment.

Automatic Power Control

The transmit power of each node is automatically adjusted and controlled according to its signal quality.


•Bandwidth: 1.4Mhz/3Mhz/5Mhz/10Mhz/20Mhz

•Transmitting Power: 40dBm

Support 800Mhz/1.4Ghz frequency options

•Ethernet communication via PH2.0 interface

•TTL communication via PH2.0 interface

Dimension and Weight

W: 190g

D: 116*70*17mm

UAV video Transceiver interfaces new
COFDM Transmitter-new


 MESH long-distance communication

• Power and hydrological line patrol monitoring

• Emergency communications for firefighting, border defense, and military

• Maritime communications, Digital oilfield, Fleet formation



TECHNOLOGY MESH based on TD-LTE Technology Standard TEMPERATURE -20º to +55ºC
ENCRYPTION ZUC/SNOW3G/AES (128/256) OptionalLayer-2 Encryption
DATA RATE 30Mbps (Uplink downlink) DIMENSIONS 116*70*17mm
RANGE 50km (Air to ground)
NLSO 3km-10km(Ground to ground)(Depends on the actual environment)
MATERIAL Silver Anodized Aluminum
NODE 32 nodes MOUNTING Vehicle-mounted/Onboard
Anti-jamming Automatically frequency hopping
RF POWER 10watts VOLTAGE DC 24V±10%
LATENCY One Hop Transmission≤30ms POWER CONSUMPTION 30watts



1.4Ghz 1427.9-1447.9MHz RF 2 x SMA
800Mhz 806-826 MHz ETHERNET 1xJ30
Note: The frequency band supports customized PWER INPUT 1 x J30
TTL Data 1xJ30
Debug 1xJ30
Electrical Level 3.3V and compatible with 2.85V
Control Data TTL
Baud rate 115200bps
Transmission Mode Pass-through mode
Priority Level Higher priority than the network portWhen the signal transmission is crowed, the control data will be transmitted in priority
Note:1. The data transmitting and receiving is broadcast in the network. After successful networking, FD-615MT node can receive serial data.
2. If you want to distinguish between sending, receiving and control, you can define the format.
1.4GHZ 20MHZ -100dBm
10MHZ -103dBm
5MHZ -104dBm
3MHZ -106dBm
800MHZ 20MHZ -100dBm
10MHZ -103dBm
5MHZ -104dBm
3MHZ -106dBm


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