PART NUMBER PRODUCT STATUS FREQUENCY RANGE (MHz) TX/RX TX POWER (dBm) DIGITAL BASEBAND COMPATIBILITY FEATURE
SX1250 Active 150 - 960 Tx/Rx 22 SX1302SX1303 Half-duplex
SX1255 Active 400 - 510 Tx/Rx -20 to +8 SX1301, SX1302, SX1303SX1308 Full-duplex
SX1257 Active 860 - 1000 Tx/Rx -20 to +8 SX1301, SX1302, SX1303SX1308 Full-duplex
SX1258 Active 779-787 n/a n/a SX1301, SX1308 n/a
PART NUMBER PRODUCT STATUS Generation # OF MULTI-DR MODEMS Spreading Factors FSK Modems Operational Current (mA) Sensitivity (dBm) Fine-Timing Data Rates Temp Range (C)
SX1302 New 2 16 SF5-12 1 100mA -141dBm No 800-300Kbps -40 - +85
SX1303 New 2 16 SF5-12 1 100mA -141dBm Yes 800-300Kbps -40 - +85
SX1301 NRND 1 8 SF7-12 1 100mA -139dBm No 800-300Kbps -40 - +85
SX1308 NRND 1 8 SF7-12 1 100mA -139dBm No 800-300Kbps 0 - +70
Part Number Product Applicability Region Type Description
One Channel Hub SX1261, SX1262, SX1268, LR1121 and LLCC68 EU, NA, CN LRWHUB1EVK1A One-Channel Hub and ESP32 for 868MHz, 915MHz and 470MHz
Corecell Gateway SX1302 EU, NA, CN SX1302CSSXXXGW1SX1303CTSXXXGW1, SX1302CFDXXXGW1, SX1302CFD915GW1-H LoRa Core Development Kit, 868MHz, 915MHz, and 470MHz Bands
Picocell Gateway SX1308 EU, NA SX1308P490GWSX1308P868GWSX1308P915GW LoRa Core Development Kit, 868MHz and 915MHz Band with USB
2.4GHz Gateway SX1280 Worldwide SX1280ZXXXXGW1 LoRa Core Development Kit, 2.4GHz ISM Band
Solution Status Product Applicability Type Description
Sx1302_hal New SX1302,SX1303,  SX1250 Packet Forwarder Corecell UDP packet forwarder and hardware abstraction layer
One Channel Hub New SX1261, SX1262, SX1268LR1110LR1120, LR1121LLCC68 Packet Forwarder One Channel Hub UDP packet forwarder​
LoRa Basics Station Active SX1301SX1302, SX1250, SX1255SX1257 Packet Forwarder LoRa Basics Secure, Remotely Configurable packet forwarder
LoRa_Gateway NRND SX1301, SX1257 Packet Forwarder SX1301 UDP packet forwarder and hardware abstraction layer for v1.0 and v1.5 reference designs

Frequently Asked Questions

Each SX1257/50/55 chip can digitize almost 1 MHz of spectrum, therefore two are required typically to achieve 8 channels with a channel separation of 200 kHz or so. The limitation of using a single SX1257/50/55 chip and one SX1301/08/02 chip is that you can only digitize 1 MHz of spectrum (and not 2 MHz) and can only build a 4 channel modem since the channels are spaced 200 kHz apart.
Additional FAQs
A PicoCell Gateway is typically a small, localized device or system used to manage cellular network connections, specifically for the purpose of improving cellular coverage within a specific, limited area, such as a building or a campus. It can be considered part of a femtocell or small cell network, which is a low-power, short-range cellular base station that connects to the internet or a private network to provide improved service in areas where traditional cell towers might not provide adequate coverage. Key features of a PicoCell Gateway include:
  • Local Cellular Coverage: It enhances signal strength in areas with poor network coverage, such as indoor locations or remote areas.
  • Internet Backhaul: It connects to the internet via broadband or other backhaul methods to route calls, data, and texts through the larger cellular network.
  • Improved Data and Voice Quality: With a PicoCell Gateway, users experience better data speeds, voice clarity, and fewer dropped calls.
  • Private Network Support: In some cases, the PicoCell Gateway can provide a private network for a company or home, ensuring more secure communication.
Additional FAQs
The CoreCell Gateway is a term often associated with advanced telecommunications infrastructure, specifically in the context of 5G and small cell networks. While the exact definition can vary depending on the vendor or context, a CoreCell Gateway generally refers to a key component in the deployment of small cells, providing integration and management between the Radio Access Network (RAN) and the core network. Key Functions of a CoreCell Gateway:
  • Aggregation and Processing: It aggregates data traffic from multiple small cells (like picocells, microcells, or femtocells) and processes it for routing to the core network.
  • Network Optimization: Enhances the performance of small cells by optimizing communication, managing interference, and ensuring efficient use of resources.
  • Seamless Connectivity: Bridges the small cell environment with the larger cellular network, ensuring uninterrupted service for users.
  • Edge Computing Integration: Many CoreCell Gateways integrate edge computing capabilities to process data closer to the user, reducing latency and improving performance for applications like IoT and real-time analytics.
  • Backhaul Support: Provides backhaul connectivity (wired or wireless) to the core network, facilitating the transfer of large volumes of data.
Additional FAQs

Additional FAQs