lpwan

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Silicon Labs SG23 and SG28 SoCs are optimized for Amazon Sidewalk

Silicon Labs SG23 and SG28 SoCs are optimized for Amazon Sidewalk

SG23 SG28 SoC Amazon SideWalk

Silicon Labs has launched two new Cortex-M33 SoCs optimized for Amazon Sidewalk with the EFR32SG23 (SG23) Sub-GHz wireless SoC and the EFR32SG28 (SG28) dual-band wireless SoC with Sub-GHz and Bluetooth LE. Both low-power SoCs are designed for “Internet of Things” applications in smart homes, security, lighting, building automation, and metering and come with a Matrix Vector Processor to enable AI/ML implementation for Smart End Nodes. Silicon Labs SG28 (EFR32SG28) specifications: MCU core – Arm Cortex-M33 @ 78 MHz with DSP instructions and FPU On-chip memory – Up to 256 kB RAM data memory On-chip storage – Up to 1024 kB flash program memory AI accelerator – Matrix Vector Processor for AI/ML acceleration Wireless Sub-GHz radio TX power up to +20 dBm Rx sensitivity – -98.6 dBm sensitivity @ 50 kbps 915 MHz 2GFSK 2.4 GHz BLE radio – TX power up to +10 dBm Protocol – Amazon Sidewalk Energy consumption […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Setting up a private LoRaWAN network with WisGate Connect gateway

Setting up a private LoRaWAN network with WisGate Connect gateway

RAKwireless Wisgate Connect Gateway Review with Link.ONE devit

In this guide, we’ll explain how to set up a private LoRaWAN network using the Raspberry Pi CM4-based RAKwireless’ WisGate Connect gateway and Docker or Portainer to install NodeRED, InfluxDB, Grafana, and other packages required to configure our gateway. The WisGate Connect is quite a versatile gateway with Gigabit and 2.5Gbps Ethernet plus several optional wireless connectivity options such as LoRaWAN, 4G LTE, 5G, WiFi 6, Zigbee, WiFi HaLoW, and more that can be added through Mini PCIe or M.2 sockets, expansion through WisBlock IO connectors and a 40-pin Raspberry Pi HAT connector. We’ll start by looking at the gateway features in detail, but if you already know all that, you can jump to the private LoRaWAN network configuration section. WisGate Connect unboxing, specifications, and teardown RAKwireless sent us a model with a Raspberry Pi CM4 equipped with 4 GB of RAM and 32 GB of eMMC memory, GPS and […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Lo-Fi ESP32-S3 board features LoRa module for low-power long-range connectivity (Crowdfunding)

Lo-Fi ESP32-S3 board features LoRa module for low-power long-range connectivity (Crowdfunding)

Lo-Fi ESP32-S3 LoRa board

SB Components’ Lo-Fi is an ESP32-S3 board equipped with a LoRa module for low-power long-range connectivity, and the company has also introduced two LoRa USB dongles with either Type-A or Type-C connectors. Lo-Fi specifications: Wireless module ESP32-S3-WROOM-1: SoC – ESP32-S3 dual-core LX7 microprocessor @ up to 240 MHz with Vector extension for machine learning, WiFi 4 & Bluetooth 5 LE/Mesh Memory – 8MB OSPI PSRAM Storage – 8MB QSPI flash PCB antenna Dimensions – 25.5 x 18.0 x 3.1 mm Unnamed LoRa module Tx power of up to 22dBm (160mW) adjustable by software Rx sensitivity of up to -138 dBm ISM bands – 433MHz, 868MHz, and 915MHz Range – Up to 5km range Data rates – 300 bps to 62.5 kbps RoHS compliance External LoRa antenna Display – 1.14-inch TFT display with 240×135 resolution USB – 1x USB Type-C port for programming and power Expansion – 2x 20-pin GPIO headers […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Using Link.ONE all-in-one LPWAN development kit with ChipStark, Node-Red, InfluxDB, and Grafana

Using Link.ONE all-in-one LPWAN development kit with ChipStark, Node-Red, InfluxDB, and Grafana

Link.ONE review

RAKwireless has sent us a review sample of the WisTrio Link.ONE all-in-one LPWAN IoT development kit with support for LTE-M, NB-IoT, and LoRaWAN connectivity and programmable with the Arduino IDE. We’ve tested the kit with its weatherproof WisBlock Unify enclosure using LoRaWAN connectivity and open-source software packages and frameworks such as ChipStark, Node-Red, InfluxDB, and Grafana. Key features of the Link.ONE kit The Link.ONE kit we’ve received comes with a WisBlock Unify Enclosure (100 x 75 x 38 mm) and a 3,200 mAh/3.7V rechargeable lithium battery which is sufficient when the system is mostly in sleep mode and used to receive data, while not sending information too often. “Link.ONE with BOX” unboxing The following items were very tightly packed inside the box: WisTrio LTE-M, NB-IoT, and LoRaWAN development board Rechargeable lithium battery External Antenna for cellular USB Type-C cable Circular M8 female cable The enclosure is strong with the lid […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Laird RM126x LoRaWAN modules and development kits feature Silicon Labs EFR32 MCU, support P2P communication

Laird RM126x LoRaWAN modules and development kits feature Silicon Labs EFR32 MCU, support P2P communication

Laird RM126x RM1261 RM1262

Laird Connectivity has launched the RM126x series of ultra-low power LoRaWAN modules with the RM1261 based on SX1261 RF transceiver compliant with regulations in Europe, UK, Taiwan, Japan, India, and other countries, and the RM1262 based on Semtech SX1262 for USA, Canada, Australia, New Zealand, etc… The RM126x modules partially achieve their low power consumption through the use of a Silicon Labs EFR32 series microcontroller, and should be integrated into products for industrial, agriculture and forestry, smart cities, utilities monitoring, transportation, logistics, supply chain, healthcare monitoring, and retail. Laird RM126x specifications: MCU – Silicon Labs EFR32 Arm Cortex-M33 microcontroller with 512KB flash, 32KB SRAM LoRa connectivity RF transceiver – Semtech SX1261 or SX1262 Data rates LoRa 125kHz LoRa 250kHz LoRa 500kHz FSK 50kbps (as per RP002-1.0.3 ) Frequency Range (1) – 863 MHz – 870 MHz Frequency Range 2 – 902 MHz – 928 MHz LoRa Version Class – Version […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on XCVR LoRa-based IoT development board & reference design features SX1261, SX1262, or LLCC68 chip

XCVR LoRa-based IoT development board & reference design features SX1261, SX1262, or LLCC68 chip

XCVR LoRa based IoT development board

Semtech Corporation and “Connected Development” engineering firm have launched the XCVR development board and reference design based on Sentech SX1261, SX1262, or LLCC68 transceivers with the last one targeting Smart Home applications. The XCVR development board is actually an Arduino shield that’s been tested with Nordic nRF52840-DK board, but should work with most boards equipped with Arduino Uno headers. It can be used for the design of LPWAN IoT applications using SX1262x transceivers such as smart meters, industrial controllers, asset tracking, building automation, smart agriculture, etc… while the LLCC68 model is more useful for Smart Home applications and consumer devices. XCVR shield specifications and features: LoRa and FSK Modem Programmable bit rate up to 62.5 kbps LoRa and 300 kbps FSK External antenna Link budget 163 dB maximum for SX1261 170 dB maximum for SX1262 configurations. Tx Power +15 dBm high-efficiency PA for SX1261 +22 dBm or +15 dBm high-efficiency […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on HARDWARIO CHESTER – A configurable Zephyr OS LPWAN IoT gateway with LoRaWAN, LTE IoT, GNSS connectivity

HARDWARIO CHESTER – A configurable Zephyr OS LPWAN IoT gateway with LoRaWAN, LTE IoT, GNSS connectivity

CHESTER configurable IoT gateway

HARDWARIO CHESTER platform is a configurable LPWAN IoT gateway whose main function is to connect as many devices and environments as possible to the Internet using connectivity such as LoRaWAN, LTE Cat M1, or NB-IoT, as well as GNSS for geolocation. Contrary to most IoT gateways, it does not run Linux on an application processor, and instead, the “brain” of the CHESTER IoT gateway is a Raytac Bluetooth 5.0 module based on a Nordic Semi nRF52840 Arm Cortex-M4 microcontroller running Zephyr real-time operating system, which connects to LTE IoT modem and a LoRaWAN module through UART, and expansion modules through I2C, 1-wire, and GPIO interfaces. HARDWARIO CHESTER specifications: Wireless modules/chips Raytac MDBT50Q-P1MV2 Bluetooth 5.0 module based on Nordic Semi nRF52840 Arm Cortex-M4F MCU with 1MB Flash memory, 256kB RAM Nordic Semi nRF9160-SICA-B1A-R7 LTE-M/NB-IoT system-in-package (SiP) with Arm Cortex-M33 MCU, 1024 KB flash, 256 KB SRAM Murata CMWX1ZZABZ-078 LoRa module as […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on ST87M01 NB-IoT & GNSS module targets global cellular IoT deployments, asset tracking applications

ST87M01 NB-IoT & GNSS module targets global cellular IoT deployments, asset tracking applications

STMicro ST87M01 NB-IoT module

STMicro ST87M01 is a compact, low-power, programmable LTE Cat NB2 (NB-IoT) industrial cellular module with GNSS geo-location capability for “massive IoT” deployments and asset tracking applications. STMicro already had several LPWAN solutions such as the STM32WL LoRa SoC, a Wi-SUN transceiver, a few SigFox chips, and a bunch of proprietary sub-GHz chips, but no cellular IoT solutions of their own although the STM32 microcontroller can be found in many third-party solutions. The ST87M01 NB-IoT and GNSS module changes that, so let’s have a closer look. ST87M01 NB-IoT module specifications: Cellular LTE, Category NB2, Release 15 Worldwide regional bands coverage Single-tone / Multi-tone / Extended TBS and 2 HARQ Up to DL: 127 kbps, UL: 159 kbps eDRX and PSM support Up to +23 dBm power output Optional ST4SIM embedded SIM (eSIM) GSMA compliant with an additional Secure Element GNSS capability Expansion – Multiple I/F and GPIO Host communication – standardized […]

EmbeddedTS embedded systems design