ESP32 board supports 2.4Ghz LoRa with SX1280 RF transceiver

LilyGO LoRa V1.8 SX1280 antenna headers

We’ve seen plenty of ESP32 LoRa boards with the traditional 433 MHz, 868 MHz, or 915MHz frequencies, but I think LilyGO LoRa V1.8 (aka T3 V1.8) is the first ESP32 board that integrates a Semtech SX1280 transceiver for the 2.4GHz LoRa standard used for global coverage, notably maritime applications, and ranging. The ESP32 & SX1280 board also offers 26 pins for expansion, a microSD card for data storage, a 2-pin connector for batteries, a 0.96-inch OLED for information display, and comes with a 3D antenna and u.FL connector for WiFi and Bluetooth, and an SMA antenna for LoRa connectivity. LilyGO LoRa/T3 V1.8 specifications: SoC – Espressif ESP32 dual-core Xtensa LX6 processor with 2.4 GHz WiFi 4 and Bluetooth 4.2 Storage – 4MB SPI flash, microSD card slot Display – 0.96-inch OLED display with 128×64 resolution (SSD1306 I2C driver) Connectivity 802.11 b/g/n WiFi 4 up to 150 Mbps +  Bluetooth 4.2 […]

Robustel industrial IoT gateways run Debian-based OS, offer 5G, 4G LTE, LoRaWAN connectivity

Robustel EG5120 industrial IoT gateway

Robustel has launched three Arm-based industrial IoT gateways namely the EG5100, EG5120, and LG5100 that offer 5G, 4G LTE, and/or LoRaWAN connectivity, and runs Debian 11-based RobustOS Pro Linux operating systems The edge gateways also feature two Ethernet ports, two RS232/RS485 ports for connection to industrial devices, digital inputs and outputs for simple monitoring and control, and support a wide 9 to 60V DC power input through a 2-pin terminal block. Robustel LG5100, EG5100, and EG5120 specifications: SoC/memory/storage LG5100 and EG5100 Unnamed quad-core Cortex-A7 processor @ 792 MHz (possibly NXP i.MX 7ULP) 512MB DDR3 8GB eMMC flash EG5120 Unnamed quad-core Cortex-A53 processor @ 1.6 GHz with 2.3 TOPS NPU (very likely NXP i.MX 8M Plus) 2GB DDR4 16GB eMMC flash, microSD card socket Connectivity LG5100 2x 10/100 Mbps Ethernet ports with support for 802.3af PD feature on eth0 LoRaWAN connectivity with 1x SMA antenna connector, support for EU868, AU915, CN470 […]

AI, computer vision meet LoRaWAN with SenseCAP K1100 sensor prototype kit

Wio Terminal Grove Vision AI LoRaWAN module

CNXSoft: This is another tutorial using SenseCAP K1100 sensor prototype kit translated from CNX Software Thai. This post shows how computer vision/AI vision can be combined with LoRaWAN using the Arduino-programmable Wio Terminal, a Grove camera module, and LoRa-E5 module connecting to a private LoRaWAN network using open-source tools such as Node-RED and InfluxDB. In the first part of SenseCAP K1100 review/tutorial we connected various sensors to the Wio Terminal board and transmitted the data wirelessly through the LoRa-E5 LoRaWAN module after setting the frequency band for Thailand (AS923). In the second part, we’ll connect the Grove Vision AI module part of the SenseCAP K1100 sensor prototype kit to the Wio Terminal in order to train models to capture faces and display the results from the camera on the computer. and evaluate the results of how accurate the Face detection Model is. Finally, we’ll send the data (e.g. confidence) using […]

Wireless M-Bus & LTE Cat 1 sensor board also supports Zigbee 3.0, Z-Wave, Bluetooth LE 5.0, LoRa…

Geniatech SBC32IM

Geniatech SCB32IM is a sensor board based on Silicon Labs EFR32FG14 Arm Cortex-M4 microcontroller with a sub-GHz radio enabling wireless M-Bus (Wireless Meter Bus) designed for remote reading of smart meters, and also equipped with a Quectel EC200S “IoT/M2M-optimized” LTE Cat 1 module. The sensor module does not actually come with any sensor on board, but provides a terminal block to connect any sensor you may need for your product. It’s also possible to extend wireless connectivity options with Zigbee 3.0, Z-Wave, Bluetooth LE 5.0, LoRa, and more through the GT-IoT interface with UART, SPI, and one GPIO. Geniatech SBC32IM specifications: Microcontroller – Silicon Labs EFR32FG14 Aem Cortex-M4 MCU @ 40MHz with up to 256 KB flash, 32 KB RAM, and proprietary 2.4GHz and sub-GHz radios Wireless connectivity Wireless M-Bus S Mode: 868 MHz band T Mode: 868 MHz band C Mode: 868 MHz band N Mode: 169 MHz band […]

Radair mini gateway – A 3-in-1 LoRaWAN gateway, Helium miner, and environmental monitoring station

Radair mini gateway

Radair mini gateway is a multiple-purpose gateway with LoRaWAN, WiFi 6E, Bluetooth and Ethernet connectivity, a Quectel GNSS module, the ability to connect to the Helium network to mine HNT cryptocurrency, as well as a 4-in-1 Bosch environmental sensor to monitor temperature, humidity, pressure, and air quality. Radair mini gateway specifications: SoC – Quad-core Arm Cortex-A53 “crypto” CPU System Memory – 2GB DDR3 Storage – 16GB eMMC flash, MicroSD card socket Connectivity WM1302 LoRa concentrator for LoRaWAN support Gigabit Ethernet RJ45 port 802.11 b/g/n/ac/ax Wi-Fi 6E and Bluetooth 5.2 via Mediatek MT7921AU module Dual Antenna – Wi-Fi 6E, LoRa GPS – Quectel GNSS module 4-in-1 Bosch environmental sensor Temperature & Humidity Pressure (Altitude accuracy +/- 1M) Air Quality (Carbon Monoxide, Bacteria, Smoke, Sulfur, Hydrogen) USB – 1x USB 3.2 Gen 1 Type C port (in front) for external accessories HW security – Microchip Technologies ECC608 secure element Misc – Reset/Bluetooth […]

Sparrow is a sensor-to-cloud LoRaWAN solution based on STM32WLE5 microcontroller

Sparrow developer kit

Blues Wireless Sparrow is a LoRaWAN solution designed to connect a group of low-cost, low-power device sensors for shared data backhaul to the cloud. It is comprised of STMicro STM32WLE5 LoRa-based sensors whose data is then routed through the company’s Notecard-powered WiFi or cellular gateway and ultimately a cloud app hosted on AWS, Microsoft Azure, or other IoT cloud platforms. The company claims the Notecard and Sparrow solutions ease the development of IoT networks in a way that was previously only available “to sophisticated engineering firms”, and now Blues Wireless supports cellular, WiFi, and LPWAN technologies. Let’s have a look at the “Sparrow Essentials” board specifications first: Wireless SoC – STMicro STM32WLE5+ Arm Cortex-M4F microcontroller @ 48MHz with 256KB Flash, 64KB of SRAM, Semtech SX126x LoRa transceiver I/Os Breadboard compatible 2.54mm headers with digital and analog I/O, I2C, UART, and SPI Qwiic Connector Debugging – JTAG (SWD capable) debug jack […]

Getting Started with LoRaWAN on SenseCAP K1100 sensor prototype kit (Part 1)

SenseCAP K1100 review LoRaWAN sensors

CNXSoft: This getting started guide/review of the SenseCAP K1100 sensor prototype kit is a translation of the original post on CNX Software Thai. The first part of this tutorial describes the kit and shows how to program it with Arduino to get sensor data to a LoRAWAN gateway and display it on Wio Terminal, before processing the data in a private LoRaWAN network using open-source tools such as Grafana. The second part – to be published later – will demonstrate the AI capability of the kit. In the digital era where IoT and big data are more prevalent, a large amount of data is required to be collected through sensors. To enable the digital transformation, SeeedStudio’s SenseCAP K1100 comes with all necessary sensors and equipment including the Wio Terminal, AI Vision Sensor, and a LoRaWAN module. With this plug-and-play platform, makers can easily create DIY sensors for data collection and […]

DEBIX Model A – A Raspberry Pi-inspired NXP i.MX 8M Plus SBC for AI applications

NXP i.MX 8M Raspberry Pi SBC

DEBIX Model A is a single board computer powered by an NXP i.MX 8M Plus quad-core Cortex-A53 processor with a 2.3 TOPS AI accelerator in a form factor that combines Raspberry Pi 4 and 3 Model B designs. The SBC comes with up to 6GB RAM, a microSD card slot, an optional eMMC flash of up to 128GB capacity, HDMI 2.0a, LVDS, and MIPI DSI display interfaces, a MIPI CSI camera interface, Gigabit Ethernet and WiFi 5 connectivity, plus a 40-pin GPIO expansion header. DEBIX Model A specifications: SoC – NXP i.MX 8M Plus quad-core Cortex-A53 @ up to 1.6 GHz (industrial) or 1.8 GHz (commercial), with Arm Cortex-M7 @ up to 800 MHz, Vivante GC7000UL 3D GPU, Vivante GC520L 2D GPU, 2.3 TOPS NPU System  Memory – 2GB LPDDR4 (4GB/6GB optional) Storage – Default: Micro SD card; optional 8GB, 16GB, 32GB, 64GB, or 128GB eMMC flash Video Output HDMI […]

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