FCC Regulations and EIRP Reference
Operating LoRa mesh equipment in the United States requires compliance with FCC Part 15 rules. This page summarizes the relevant regulations and explains how to calculate whether your installation is within limits.
Disclaimer: This page is a general reference for community operators. It is not legal advice. For installations with high-gain antennas or unusual configurations, consult the FCC rules directly (47 CFR § 15.247, eCFR) or a licensed RF engineer.
Rules summarized as of June 2026.
The 915 MHz ISM band
LoRa mesh in North America operates in the 902–928 MHz band, designated as an ISM (Industrial, Scientific, and Medical) band. This band is available for unlicensed operation under FCC Part 15, Subpart C (Intentional Radiators).
Key rule: FCC § 15.247 governs spread-spectrum and digitally modulated operation in the 902–928 MHz band.
Power limits
| Limit type | Value | Notes |
|---|---|---|
| Conducted output power | 1 W (30 dBm) | Maximum power at the antenna port (conditions below) |
| EIRP (Effective Isotropic Radiated Power) | 4 W (36 dBm) | Conducted power + antenna gain |
| Antenna gain above 6 dBi | Reduce conducted power dB-for-dB above 6 dBi | EIRP stays capped at 36 dBm — § 15.247(b)(4) |
There is no extra EIRP allowance at 902–928 MHz — not even for fixed point-to-point links. If your antenna gain exceeds 6 dBi (common with directional antennas), FCC rules require you to reduce conducted transmit power by the full amount the gain exceeds 6 dBi (47 CFR § 15.247(b)(4)), which keeps maximum EIRP at 36 dBm (4 W) in every configuration. Example: a 9 dBi Yagi limits you to 27 dBm conducted; a 12 dBi antenna to 24 dBm.
You may have read about point-to-point gain allowances in § 15.247 — those provisions (§ 15.247(c)(1)) apply only to the 2.4 GHz and 5.8 GHz bands, not to 902–928 MHz. Canada's RSS-247 works the same way: its point-to-point exception also excludes 902–928 MHz.
Conditions behind the 1 W figure
The 1 W ceiling applies to qualifying system types: digitally modulated systems with at least 500 kHz of 6 dB bandwidth (§ 15.247(a)(2)), or frequency-hopping systems with at least 50 hopping channels (§ 15.247(b)(2); systems with 25–49 channels — permitted only when the hopping channel's 20 dB bandwidth is 250 kHz or greater, § 15.247(a)(1)(i) — are limited to 0.25 W). Digitally modulated systems are additionally limited to 8 dBm of power spectral density in any 3 kHz band (§ 15.247(e)). Common LoRa mesh presets use 125–250 kHz bandwidth, so your device's FCC certification grant — not the rule's 1 W ceiling — defines what it is authorized to transmit. Operating a certified device in its stock configuration is the safe harbor.
EIRP calculation
EIRP (dBm) = TX Power (dBm) + Antenna Gain (dBi) − Cable Loss (dB)
Example 1: Stock node with a small upgrade antenna (within limits)
| Parameter | Value |
|---|---|
| TX power | 22 dBm (stock SX1262-class board) |
| Cable loss (3 m LMR-200) | 1.0 dB |
| Antenna gain | +5 dBi |
| EIRP | 22 + 5 − 1.0 = 26.0 dBm (below 36 dBm limit ✓) |
Example 2: PA-equipped rooftop repeater (within limits)
| Parameter | Value |
|---|---|
| TX power | 27 dBm (500 mW — PA-equipped/base-station class) |
| Cable loss (3 m LMR-200) | 1.0 dB |
| Antenna gain | +5 dBi |
| EIRP | 27 + 5 − 1.0 = 31.0 dBm (below 36 dBm limit ✓) |
Note: 3 m of LMR-200 loses about 1.0 dB at 900 MHz (Times Microwave datasheet: ~32.6 dB/100 m). Thinner cables lose more; budget for your actual cable type and length.
Example 3: High-gain antenna requiring power reduction
| Parameter | Value |
|---|---|
| TX power (attempted) | 30 dBm (1 W) |
| Antenna gain | +9 dBi |
| Required reduction | Antenna gain exceeds 6 dBi by 3 dB → reduce conducted power by 3 dB |
| Maximum legal TX power | 27 dBm (47 CFR § 15.247(b)(4)) |
| Resulting EIRP | 27 + 9 − 0.5 (cable) = 35.5 dBm (within 36 dBm ✓) |
The reduction is computed from antenna gain alone — cable loss does not offset it. In Meshtastic, set LoRa config → Transmit Power to 27 (integer dBm; always round down).
Standard device compliance
Many mainstream LoRa boards (LILYGO T-Beam — FCC ID 2ASYE-T-BEAM, RAK4631 — see RAK's certification page, Heltec, etc.) carry FCC certification covering their shipped configuration. Check that your specific board has an FCC ID — uncertified clones are common. If you use a certified device as shipped with the included antenna, or with a replacement antenna of the same type and equal or lower gain (47 CFR § 15.204(c)(4)), you are within the certification. A different antenna type or higher gain — even a "comparable" one — is not covered, and compliance responsibility shifts to you.
Custom installations — especially with high-gain external antennas or increased TX power settings — require you to verify EIRP compliance independently.
What happens if you exceed the limits?
Exceeding the limits is a violation of federal rules regardless of how likely enforcement is. The FCC can issue warnings and monetary forfeitures, and any Part 15 operator must stop transmitting if notified that they are causing harmful interference (47 CFR § 15.5). The rules also exist for good reason: excessive EIRP interferes with other users of the band, including industrial IoT systems, 900 MHz ISM devices, and licensed services.
More practically: running higher power than necessary increases interference with nearby mesh nodes and doesn't improve range as much as better antenna placement would. For most installations, stock TX power with a 3–6 dBi antenna at a better location is the right operating point.
Fixed installations are also subject to FCC RF-exposure rules (§ 15.247(i)); keep antennas away from areas people occupy.
Canada (ISED) rules
Innovation, Science and Economic Development Canada (ISED, formerly Industry Canada) rules for 902–928 MHz operation are similar to FCC § 15.247. The relevant standard is RSS-247 (with RSS-Gen general requirements). Conducted power limit is also 1 W; EIRP and antenna-gain reduction rules align with the FCC's, and RSS-247's point-to-point exception likewise does not cover 902–928 MHz. Certified devices sold in both markets carry both FCC and IC certification numbers.
Frequency coordination
The 902–928 MHz band is shared with many other services and devices, including:
- Federal radiolocation systems (primary users) — high-EIRP government radars; you must accept their interference
- Part 18 ISM equipment — Part 15 devices are secondary to it
- Amateur radio (33 cm band) — licensed hams may also run mesh hardware at higher power under Part 97 (47 CFR § 97.313(j))
- Other LoRa/LoRaWAN deployments
- 900 MHz Wi-Fi (802.11ah/HaLow)
- Legacy 900 MHz consumer devices (older pre-DECT cordless phones, some baby monitors)
Part 15 operation is unprotected: you must accept interference from these services and must not cause harmful interference to them (47 CFR § 15.5).
Meshtastic and MeshCore each transmit on a single configurable channel frequency — they do not automatically frequency-hop. If you experience interference, manually select a different frequency slot (Meshtastic: LoRa config → Frequency Slot; MeshCore: set freq via the serial CLI on repeaters/room servers, or the app's radio settings on client nodes). Coordinate with other operators in your area to avoid overlapping on the same exact frequency.