Antenna and Signal Range Factors

What determines your repeater's range

Several factors interact to determine how far your repeater can reach. Understanding them helps you make better placement and hardware decisions.

Antenna height and line-of-sight (most important)

This is the dominant factor by a wide margin. Higher placement gives more line-of-sight coverage. Even a few meters of additional height can meaningfully extend coverage. Use terrain analysis tools to identify locations with the best natural line-of-sight before committing to a deployment.

Antenna type and gain

Omnidirectional antennas

Standard for general-purpose repeaters. Higher gain concentrates the signal horizontally, increasing range but reducing coverage of areas directly below. For most repeater deployments, 3–6 dBi omnidirectional antennas provide a good balance.

Directional antennas (Yagi)

Best for linking two specific points across a long distance. Directional antennas can achieve dramatically longer range in one direction but provide no coverage off-axis. Useful for point-to-point relay links, not general area coverage.

Antenna and cable quality

Upgrading from a stock antenna to a quality external antenna is often one of the highest-return improvements available. Use short, low-loss coaxial cable (LMR-200 or LMR-400) between the radio and antenna. Long cable runs with cheap coax can negate antenna gain improvements.

LoRa modem settingspresets

Meshtastic provides nine preset modem ~~configurations~~configurations. Each preset is a named combination of Spreading Factor (SF), Bandwidth (BW), and Coding Rate (CR) that ~~trade~~determines ~~range~~the tradeoff between range, data rate, and airtime:

PresetSFBWCRData RateLink BudgetNotes Short Turbo7500 kHz4/521.9 kbps140 dBNot legal in all regions Short Fast7250 kHz4/510.9 kbps143 dB Short Slow8250 kHz4/56.25 kbps145.5 dB Medium Fast9250 kHz4/53.52 kbps148 dB Medium Slow10250 kHz4/51.95 kbps150.5 dBRecommended for ~~speed:~~dense networks Long Turbo11500 kHz4/81.34 kbps150 dB Long Fast11250 kHz4/51.07 kbps153 dBFirmware default Long Moderate11125 kHz4/80.34 kbps156 dB Long Slow12125 kHz4/80.18 kbps158.5 dBNot recommended for regular use

Higher link budget = more range. Higher data rate = more network capacity and less airtime per message.

Choosing a preset for your network

The most important rule: match whatever preset the rest of your local network uses. Nodes on different presets cannot hear each other, even on the same channel name.

~~LongFast~~Check with your local community first. Many regional networks have standardized on a specific preset. Check local Discord servers, forums, or network maps before deploying.

Long Fast (firmware default) — ~~good~~widely ~~balance~~used, ofworks ~~range~~well for sparse networks and ~~throughput~~rural ~~for~~deployments. ~~most~~Good ~~networks~~starting point if no local standard exists. ~~LongSlow~~Medium Slow / Medium Fast — increasingly common in larger networks (60+ nodes). Faster data rate reduces airtime collisions in dense areas while still covering similar distances. The Meshtastic Bay Area network (150+ nodes) uses Medium Slow. Long Slow / Very Long Slow — maximum ~~range~~range, ~~at the cost of~~but much lower throughput. ~~All~~Can ~~nodes~~cause onnetwork acongestion ~~given~~at ~~channel~~scale. ~~must~~Not ~~use~~recommended ~~the~~for ~~same~~regular ~~preset~~deployment. toShort ~~communicate.~~Turbo — highest throughput, but not legal in all regions. Verify compliance before use.

~~Do not change the modem preset unless all other nodes you want to communicate with are also changing to match.~~

Transmit power

More transmit power increases range up to the legal limit. In the US, FCC Part 15 rules allow up to 1W (30 dBm) conducted power and 4W (36 dBm) effective isotropic radiated power (EIRP). If you use a high-gain antenna, you may need to reduce conducted power to stay within the EIRP limit. Meshtastic's default settings are ~~compliant,~~compliant for standard antennas, but custom high-gain ~~antenna~~ setups require calculation.

Interference

Other devices operating in the 902–928 MHz ISM band can reduce effective range. If you suspect interference, try changing the channel frequency slot within the band and comparing performance.