What is a Meshtastic Repeater?

A Meshtastic repeater is a dedicated node whose purpose is to receive and retransmit messages, extending the reach of the mesh network beyond what any single device can achieve on its own.

In a Meshtastic network, every node participates in relaying messages to some degree - this is the nature of a mesh. But dedicated repeater nodes are optimized specifically for relaying: they run continuously,continuously and are placed at elevation for maximum coverage,coverage. andDepending areon the role chosen, an infrastructure node can either rebroadcast with higher priority (without deferring to neighbors) or be configured to retransmitstay aggressivelysilent on the mesh. Note that "repeater" is used here as a general concept: in practice these nodes use either the ROUTER role (which still broadcasts its own NodeInfo and position) or the REPEATER role (which relays silently without the overhead of maintaining a user session or broadcasting theirits own data.data). These roles are covered in detail on the device-role pages.

Why repeaters matter

In real-world conditions, LoRa range is often limited by terrain, buildings, and vegetation. InRange figures are highly variable and depend on preset, antenna, height, TX power, and obstructions. With stock antennas at Long Fast, urban environments, direct device-to-devicenon-line-of-sight range mayis often well under 1 km up to a few km; rural line-of-sight can be justtens 1of -km, 5and km.elevated In rural areassites with clear line-of-sight,sight 5have -achieved 20100+ km is typical.km. A repeater at elevation with a clear view can bridge gaps that would otherwise isolate parts of the network.

The Meshtastic relay model

Meshtastic uses a managed flooding approach: when a message is sent, nearby nodes rebroadcast it, and those nodes rebroadcast to others. A hop counter (default 3, maximum 7) limits how many times a message can be relayed before it is discarded. Dedicated repeaters - placed at strategic high points - maximize the effective reach of each hop.