LoRa Radio Chips Explained: SX1262 vs SX1276 vs LR1110

When buying LoRa hardware, listings frequently mention specific radio chip models. Understanding what these chips are and how they differ prevents costly purchasing mistakes.

Why the chip matters

The LoRa transceiver chip is the core radio hardware. It determines the radio's maximum transmit power, receiver sensitivity, supported frequency bands, and power consumption. The board that surrounds it (the MCU, display, GPS, etc.) matters too - ~~but~~and two boards using the same LoRa chip will have ~~nearly~~a ~~identical~~similar baseline radio ~~performance.~~performance, unless one board adds a power amplifier, LNA, or different RF front-end (antenna matching, filtering), which can change output power and sensitivity significantly.

The three chip families you'll encounter

SX1262 (current standard)

The most common LoRa chip in new hardware as of 2024 - ~~2026.~~2026, and the dominant chip across current Meshtastic and MeshCore supported-hardware lists. An evolution of the SX1276 with significant improvements.

Spec	Value
Max TX power	+22 dBm (158 mW) ~~typical;~~max; some boards ~~use~~add an external PA to reach ~~+30~~higher ~~dBm~~power
Frequency range	150 MHz - 960 MHz (covers both 868 MHz EU and 915 MHz US)
Receiver sensitivity	~−137 dBm at SF12 / 125 kHz BW (the headline −148 dBm ~~(SF12,~~figure ~~125~~is ~~kHz~~at ~~BW)~~the -narrowest ~~class-leading~~bandwidth, not BW125)
RX current	~4.6 mA
Sleep current	0.6 µA
Interface	SPI

Used in: Heltec V3, V4, T096 (with PA), RAK4630/4631, T-Echo, T-Deck, T-Deck Plus, Station G2, most recent LilyGo boards, Nano G2 Ultra.

Buy this if: You're buying any new hardware. The SX1262 is the current generation chip and has no meaningful disadvantages compared to older alternatives. Its real advantages over the SX1276 are lower RX current, TCXO stability, and a slightly better link budget.

SX1276 (older generation, still common)

The predecessor to the SX1262. Widely used in older boards (T-Beam v0.7 - v1.1, early Heltec boards) and still found in some current products. Fully compatible with SX1262-based nodes - they use the same LoRa protocol.

Spec	Value
Max TX power	~~+17 dBm (50 mW) typical; some boards~~ up to +20 dBm (100 mW) via PA_BOOST on 868/915 MHz boards (+17 dBm is the RFO-path limit)
Frequency range	137 MHz - 1020 MHz
Receiver sensitivity	~−137 dBm at SF12 / 125 kHz BW (headline −148 dBm ~~(SF12,~~is ~~125~~at ~~kHz~~the ~~BW)~~narrowest bandwidth) - within ~1-3 dB of the SX1262 at the same SF/BW
RX current	~9.9 mA - significantly higher than SX1262
Sleep current	0.2 µA
Interface	SPI

Used in: Original T-Beam (before Supreme), some budget LoRa modules, SX1278/SX1279 are frequency variants of the same family.

Key limitation: Lower max TX power (17+20 dBm via PA_BOOST vs +22 dBm ~~stock)~~on the SX1262) and higher RX current. At the same SF/BW the two chips' sensitivity is within ~1-3 dB - so the SX1262's edge is mainly its lower RX current and TCXO stability, not a dramatic range difference. For battery-powered use, the SX1262 is ~~clearly~~ preferable.

Buy this if: You have existing SX1276 hardware that still works. Don't specifically seek it out for new purchases.

LR1110 / LR1120 (multi-band, advanced)

Semtech's newest transceiver family, adding GNSS/Wi-Fi geolocation scanning and (on the LR1120) multi-band capability ~~and additional features~~ beyond standard sub-GHz LoRa. Note the two chips differ: the LR1110 does LoRa on sub-GHz only (150-960 MHz), while the LR1120 adds 2.4 GHz LoRa and an S-band.

Spec	Value
Max TX power	+22 dBm ~~LoRa;~~sub-GHz LoRa (LR1110 & LR1120); +15 dBm ~~LoRa~~ 2.4 GHz LoRa (LR1120 only)
Frequency range	~~150~~LR1110: 150-960 MHz -LoRa (sub-GHz only). LR1120: adds 2.4 GHz ~~(supports~~ LoRa onand ~~2.4~~S-band. ~~GHz)~~The LR1110's extended receive coverage applies to its passive Wi-Fi/GNSS geolocation scanner, not to LoRa.
Additional features	Wi-Fi passive scanning, GNSS scanning (geolocation without a GPS chip)~~, Bluetooth Low Energy~~
RX current	~5.3 mA (LoRa RX; verify against the Semtech LR1110 datasheet)

Used in: Seeed Wio Tracker 1110, some newer development boards.

Key advantage: GNSS scanning for geolocation without a dedicated GPS ~~module;~~module. (2.4 GHz LoRa for short-range high-throughput ~~applications.~~applications is an LR1120-only feature, not available on the LR1110.)

For mesh use: Meshtastic supports LR1110 on the Wio Tracker 1110 for standard 915 MHz operation. MeshCore LR1110 support status is ~~limited.~~unclear - check the MeshCore supported-hardware docs. The 2.4 GHz LoRa band is not used by standard mesh protocols.

What about SX1278 and SX1268?

You may see these variants in search results:

SX1278: ~~Frequency~~Lower-frequency variant of the SX1276 ~~optimized~~family, ~~for~~covering roughly 137-525 MHz (e.g. 433/470 ~~MHz.~~MHz). Not ~~suitable~~used for 915 MHz mesh. ~~If a product description mentions SX1278, it's a 433 MHz device.~~
SX1268: ~~High-power~~The ~~variant~~433/470 MHz (China) sibling of the SX1262 family, supporting up to +22 dBm in a ~~slightly different~~similar package. Functionally equivalent to the SX1262 for LoRa mesh ~~purposes.~~purposes, but on the lower bands.
LLCC68: Budget SX1262-compatible chip used in some low-cost boards. Supports SF5 - SF11 only (not SF12). Fine for community mesh presets but lacks the maximum sensitivity of SF12.

Power amplifiers: getting to 1W and beyond

The stock SX1262 outputs +22 dBm (158 mW). Some boards add an external RF power amplifier (PA) to reach higher power levels:

TX power	In mW	How achieved	Example hardware
22 dBm	158 mW	SX1262 native	Most standard boards
~~27 dBm~~	~~500 mW~~	~~SX1262 + small PA~~	~~Some Heltec V4 variants~~

28 dBm630 mWSX1262 + PA (~~T096)~~contested - verify against heltec.org)Heltec T096 (28 dBm-PA claim is contested/NEEDS-EXPERT) 30 dBm1000 mWSX1262 + 1W PA (~~Ikoka)~~e.g. E22-900M30S module)Ikoka Stick 1W variant 33 dBm2000 mWSX1262 + 2W PA ~~(Ikoka)~~Ikoka Stick 2W variant (existence of a turnkey 2W variant is unverified)

~~Important:~~Important - FCC ~~EIRP~~limits: ~~limits~~Under ~~apply~~47 ~~regardless~~CFR 15.247 the US 902-928 MHz limit is 1 W (30 dBm) conducted referenced to an antenna of TX≤6 ~~power.~~dBi; Atantennas above 6 dBi require a dB-for-dB conducted-power reduction. The 36 dBm (4 W) EIRP figure is the derived ceiling (30 dBm + 6 dBi), not a flat standalone limit. The 33 dBm conducted figure above exceeds the 30 dBm TXconducted ~~with~~limit aand 6is ~~dBi~~not ~~antenna,~~legal ~~EIRP~~for =unlicensed 36US ~~dBm~~(Part 15) use - ~~exactly at the legal limit. Going to 33 dBm with any external antenna~~it would ~~exceed~~only ~~FCC~~be ~~limits~~operable ~~and~~under ~~require~~an ~~power~~amateur ~~reduction.~~(Part 97) license (no encryption, station identification required). See the FCC Regulations page in the Antennas & RF section.

Summary: what to buy

Use case	Chip recommendation	Example board
Portable companion node (low power priority)	SX1262, nRF52840 board	T-Echo, T1000-E
Fixed repeater (solar/mains)	SX1262 on nRF52 or ESP32	RAK4631, Heltec V4
High-power infrastructure repeater	SX1262 + PA (Ikoka 1W)	Ikoka Stick 1W
GPS-tracking node (ultra-long battery)	SX1262, nRF52840, T096	Heltec T096
Budget/experimental	LLCC68 or SX1276	Various eBay modules