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Graperain G3562 – A Rockchip RK3562 system-on-module and development board

Rockchip RK3562 development board

Graperain G3562 is a Rockchip RK3562 quad-core Cortex-A53 system-on-module (SoM) with up to 8GB LPDDR4, up to 128GB eMMC flash suitable for Edge AI, IoT, automation, and consumer electronic applications. The company also provides the G3562 development board for the SoM with an M.2 socket for NVMe SSD, dual Ethernet, WiFi 5 and Bluetooth 5.0, and optional 4G LTE/3G cellular connectivity, plus a MIPI DSI/LVDS display connector, two MIPI CSI camera connectors, three USB 2.0 ports, audio interfaces, and expansion through a 30-pin GPIO header and UART connector. Graperain G3562 SoM GrapeRain G3562 specifications: SoC –  Rockchip RK3562 CPU – Quad-core Arm Cortex-A53 quad-core @ 2.0 GHz GPU – Mali-G52-2EE with support for OpenGL ES 1.1/2.0/3.2, OpenCL 2.0, Vulkan 1.0/1.1 AI accelerator – 1 TOPS (INT8) NPU VPU Encoder – H.264 1920×1080 @ 60fps Decoder – H.265/VP9 4096×2304 @ 30fps; H.264 1920×1080 @ 60fps RAM – 2GB LPDDR4 by default [...]

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Compex Systems Unveils Wi-Fi 7 Modules with Smart Connectors, Enabling Seamless Multi-Link Operation (MLO) Integration on Conventional CPU Platforms (Sponsored)

WiFi 7 MLO multi link operation

Compex Systems (Compex), a global leader in wireless communication technology, is taking Wi-Fi 7 to new heights with an innovative connector design for Multi-Link Operation (MLO). This breakthrough enables seamless deployment of MLO across off-the-shelf platforms, including those with Intel x86 and ARM processors (e.g. NXP and Marvell), eliminating the need for custom-made host boards and unlocking the full potential of Wi-Fi 7 features for a wider range of users and applications. Multi-Link Operation (MLO) is a key performance advantage of Wi-Fi 7 (802.11be), setting it apart by allowing the routing and aggregation of throughput across multiple radio links in different frequency bands. It enables data to be routed through the least congested links, improving overall latency and reliability. MLO can also aggregate bandwidths from more than one wireless link, enhancing throughput and network performance. It is ideal for bandwidth-intensive and real-time applications such as 4K/8K video streaming, cloud gaming, [...]

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M5Stack releases AX630C-powered offline “Module LLM” for local smart home and AI applications

M5Stack Module LLM

The M5Stack Module LLM is yet another box-shaped device from the company that provides artificially intelligent control without internet access. It is described as an “integrated offline Large Language Model (LLM) inference module” which can be used to implement local LLM-based solutions in smart homes, voice assistants, and industrial control. Module LLM is powered by the AX630C SoC, equipped with 4GB LPDDR4 memory, 32GB storage, and a 3.2 TOPS (INT8) or 12.8 TOPS (INT4) NPU. M5Stack says the main chip has an average runtime power consumption of 1.5W, making it suitable for long-term operation. It has a built-in microphone, speaker, microSD card slot, and USB OTG. The USB port can connect peripherals such as cameras and debuggers, and the microSD card slot supports cold and hot firmware updates. The M5Stack Module LLM joins the list of other offline, on-device LLM-based solutions, such as the SenseCAP Watcher, Useful Sensors’ AI in [...]

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Seeed Studio’s XIAO MG24 and XIAO MG24 Sense boards target battery-powered Matter and BLE applications

Seeed Studio XIAO MG24

Seeed Studio has added two members to its XIAO family of tiny MCU boards with the XIAO MG24 and XIAO MG24 Sense boards based on Silicon Labs EFR32MG24 multi-protocol wireless SoC and designed for battery-powered Matter over Thread and Bluetooth LE 5.3 applications. Both 21×17.8 mm USB-C boards feature a 78MHz Silabs MG24 Cortex-M33 microcontroller with 256kB SRAM and 1536KB flash, an additional 4MB SPI flash on-board, and 22 pins and pads for GPIO pins, analog inputs, and power signals, plus a reset button and two LEDs. The “Sense” model adds an analog microphone and a 6-axis IMU sensor. XIAO MG24/MG24 Sense specifications: SoC – Silicon Labs EFR32MG24 (EFR32MG24B220F1536IM48-B) MCU cores Arm Cortex-M33 @ 78.0 MHz with DSP instruction and floating-point unit for user application Arm Cortex-M0+ core for wireless Memory – 256 KB RAM Storage – 1536 KB flash Wireless protocols – Matter, OpenThread, Zigbee, Bluetooth Low Energy 5.3, [...]

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Raspberry Pi product series explained

As our product line expands, it can get confusing trying to keep track of all the different Raspberry Pi boards out there. Here is a high-level breakdown of Raspberry Pi models, including our flagship series, Zero series, Compute Module series, and Pico microcontrollers.

Raspberry Pi makes computers in several different series:

  • The flagship series, often referred to by the shorthand ‘Raspberry Pi’, offers high-performance hardware, a full Linux operating system, and a variety of common ports in a form factor roughly the size of a credit card.
  • The Zero series offers a full Linux operating system and essential ports at an affordable price point in a minimal form factor with low power consumption.
  • The Compute Module series, often referred to by the shorthand ‘CM’, offers high-performance hardware and a full Linux operating system in a minimal form factor suitable for industrial and embedded applications. Compute Module models feature hardware equivalent to the corresponding flagship models but with fewer ports and no on-board GPIO pins. Instead, users should connect Compute Modules to a separate baseboard that provides the ports and pins required for a given application.

Additionally, Raspberry Pi makes the Pico series of tiny, versatile microcontroller boards. Pico models do not run Linux or allow for removable storage, but instead allow programming by flashing a binary onto on-board flash storage.

Flagship series

Model B indicates the presence of an Ethernet port. Model A indicates a lower-cost model in a smaller form factor with no Ethernet port, reduced RAM, and fewer USB ports to limit board height.

ModelSoCMemoryGPIOConnectivity
Raspberry Pi Model BRaspberry Pi Model BBCM2835256MB, 512MB26-pin GPIO headerHDMI, 2 × USB 2.0, CSI camera port, DSI display port, 3.5mm audio jack, RCA composite video, Ethernet (100Mb/s), SD card slot, micro USB power
Raspberry Pi Model ARaspberry Pi Model ABCM2835256MB26-pin GPIO headerHDMI, USB 2.0, CSI camera port, DSI display port, 3.5mm audio jack, RCA composite video, SD card slot, micro USB power
Raspberry Pi Model B+Raspberry Pi Model B+BCM2835512MB40-pin GPIO headerHDMI, 4 × USB 2.0, CSI camera port, DSI display port, 3.5mm AV jack, Ethernet (100Mb/s), microSD card slot, micro USB power
Raspberry Pi Model A+Raspberry Pi Model A+BCM2835256MB, 512MB40-pin GPIO headerHDMI, USB 2.0, CSI camera port, DSI display port, 3.5mm AV jack, microSD card slot, micro USB power
Raspberry Pi 2 Model BRaspberry Pi 2 Model BBCM2836 (in version 1.2, switched to BCM2837)1 GB40-pin GPIO headerHDMI, 4 × USB 2.0, CSI camera port, DSI display port, 3.5mm AV jack, Ethernet (100Mb/s), microSD card slot, micro USB power
Raspberry Pi 3 Model BRaspberry Pi 3 Model BBCM28371 GB40-pin GPIO headerHDMI, 4 × USB 2.0, CSI camera port, DSI display port, 3.5mm AV jack, Ethernet (100Mb/s), 2.4GHz single-band 802.11n Wi-Fi (35Mb/s), Bluetooth 4.1, Bluetooth Low Energy (BLE), microSD card slot, micro USB power
Raspberry Pi 3 Model B+Raspberry Pi 3 Model B+BCM2837b01GB40-pin GPIO headerHDMI, 4 × USB 2.0, CSI camera port, DSI display port, 3.5mm AV jack, PoE-capable Ethernet (300Mb/s), 2.4/5GHz dual-band 802.11ac Wi-Fi (100Mb/s), Bluetooth 4.2, Bluetooth Low Energy (BLE), microSD card slot, micro USB power
Raspberry Pi 3 Model A+Raspberry Pi 3 Model A+BCM2837b0512 MB40-pin GPIO headerHDMI, USB 2.0, CSI camera port, DSI display port, 3.5mm AV jack, 2.4/5GHz dual-band 802.11ac Wi-Fi (100Mb/s), Bluetooth 4.2, Bluetooth Low Energy (BLE), microSD card slot, micro USB power
Raspberry Pi 4 Model BRaspberry Pi 4 Model BBCM27111GB, 2GB, 4GB, 8GB40-pin GPIO header2 × micro HDMI, 2 × USB 2.0, 2 × USB 3.0, CSI camera port, DSI display port, 3.5 mm AV jack, PoE-capable Gigabit Ethernet (1Gb/s), 2.4/5GHz dual-band 802.11ac Wi-Fi (120Mb/s), Bluetooth 5, Bluetooth Low Energy (BLE), microSD card slot, USB-C power (5V, 3A (15W))
Raspberry Pi 400Raspberry Pi 400BCM27114GB40-pin GPIO header2 × micro HDMI, 2 × USB 2.0, 2 × USB 3.0, Gigabit Ethernet (1Gb/s), 2.4/5GHz dual-band 802.11ac Wi-Fi (120Mb/s), Bluetooth 5, Bluetooth Low Energy (BLE), microSD card slot, USB-C power (5V, 3A (15W))
Raspberry Pi 5Raspberry Pi 5BCM2712 (2GB version uses BCM2712D0)2GB, 4GB, 8GB40-pin GPIO header2 × micro HDMI, 2 × USB 2.0, 2 × USB 3.0, 2 ×  CSI camera/DSI display ports, single-lane PCIe FFC connector, UART connector, RTC battery connector, four-pin JST-SH PWM fan connector, PoE+-capable Gigabit Ethernet (1Gb/s), 2.4/5GHz dual-band 802.11ac Wi-Fi 5 (300Mb/s), Bluetooth 5, Bluetooth Low Energy (BLE), microSD card slot, USB-C power (5V, 5A (25W) or 5V, 3A (15W) with a 600mA peripheral limit)

For more information about the ports on the Raspberry Pi flagship series, see the Schematics and mechanical drawings.

Zero series

Models with the H suffix have header pins pre-soldered to the GPIO header. Models that lack the H suffix do not come with header pins attached to the GPIO header; the user must solder pins manually or attach a third-party pin kit.

All Zero models have the following connectivity:

  • a microSD card slot
  • a CSI camera port (version 1.3 of the original Zero introduced this port)
  • a mini HDMI port
  • 2 × micro USB ports (one for input power, one for external devices)
ModelSoCMemoryGPIOWireless Connectivity
Raspberry Pi ZeroRaspberry Pi ZeroBCM2835512MB40-pin GPIO header (unpopulated)none
Raspberry Pi Zero WRaspberry Pi Zero WBCM2835512MB40-pin GPIO header (unpopulated)2.4GHz single-band 802.11n Wi-Fi (35Mb/s), Bluetooth 4.0, Bluetooth Low Energy (BLE)
Raspberry Pi Zero WHRaspberry Pi Zero WHBCM2835512MB40-pin GPIO header2.4GHz single-band 802.11n Wi-Fi (35Mb/s), Bluetooth 4.0, Bluetooth Low Energy (BLE)
Raspberry Pi Zero 2 WRaspberry Pi Zero 2 WRP3A0512MB40-pin GPIO header (unpopulated)2.4GHz single-band 802.11n Wi-Fi (35Mb/s), Bluetooth 4.2, Bluetooth Low Energy (BLE)

Compute Module series

ModelSoCMemoryStorageForm factorWireless Connectivity
Raspberry Pi Compute Module 1Raspberry Pi Compute Module 1BCM2835512MB4GBDDR2 SO-DIMMnone
Raspberry Pi Compute Module 3Raspberry Pi Compute Module 3BCM28371GB0GB (Lite), 4GBDDR2 SO-DIMMnone
Raspberry Pi Compute Module 3+Raspberry Pi Compute Module 3+BCM2837b01GB0GB (Lite), 8GB, 16GB, 32GBDDR2 SO-DIMMnone
Raspberry Pi Compute Module 4SRaspberry Pi Compute Module 4SBCM27111GB, 2GB, 4GB, 8GB0GB (Lite), 8GB, 16GB, 32GBDDR2 SO-DIMMnone
Raspberry Pi Compute Module 4Raspberry Pi Compute Module 4BCM27111GB, 2GB, 4GB, 8GB0GB (Lite), 8GB, 16GB, 32GBdual 100-pin high density connectorsoptional: 2.4/5GHz dual-band 802.11ac Wi-Fi 5 (300Mb/s), Bluetooth 5, Bluetooth Low Energy (BLE)

For more information about Raspberry Pi Compute Modules, see the Compute Module documentation.

Pico microcontrollers

Models with the H suffix have header pins pre-soldered to the GPIO header. Models that lack the H suffix do not come with header pins attached to the GPIO header; the user must solder pins manually or attach a third-party pin kit.

ModelSoCMemoryStorageGPIOWireless Connectivity
Raspberry Pi PicoRaspberry Pi PicoRP2040264KB2MBtwo 20-pin GPIO headers (unpopulated)none
Raspberry Pi Pico HRaspberry Pi Pico HRP2040264KB2MBtwo 20-pin GPIO headersnone
Raspberry Pi Pico WRaspberry Pi Pico WRP2040264KB2MBtwo 20-pin GPIO headers (unpopulated)2.4GHz single-band 802.11n Wi-Fi (10Mb/s), Bluetooth 5.2, Bluetooth Low Energy (BLE)
Raspberry Pi Pico WHRaspberry Pi Pico WHRP2040264KB2MBtwo 20-pin GPIO headers2.4GHz single-band 802.11n Wi-Fi (10Mb/s), Bluetooth 5.2, Bluetooth Low Energy (BLE)
Raspberry Pi Pico 2Raspberry Pi Pico 2RP2350520KB4MBtwo 20-pin GPIO headers (unpopulated)none

For more information about Raspberry Pi Pico models, see the Pico documentation.

If you’re interested in schematics, mechanical drawings, and information on thermal control, visit our documentation page.

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Realtek Ameba RTL8730E Cortex-A32 audio streaming module offers a cost-effective solution for wireless audio applications

Stream210 module

StreamUnlimited and Realtek Semiconductor Corp have collaborated on the Stream210 audio streaming module based on the Ameba Smart RTL8730E Arm Cortex-A32 chip from the Ameba E series, with support for Wi-Fi 6, Bluetooth 5.3, and Matter for edge computing and IoT solutions. We have looked at previous Ameba IoT products, such as the Ameba RTL8722DM development board, Ameba Arduino, Ameba RTL8195AM module, and the Ameba RTL8710BN. The Ameba Smart chip is the first entry in the series to feature a Cortex-A32 processor. The Stream210 module is aimed at various audio and IoT applications, including digital radios, streaming audio receivers, wireless speakers, smart speakers, home automation products, and Wi-Fi headphones. Other wireless audio modules we’ve covered in the past include the Up2Stream Pro HiFi board, TTGO T9, and 8devices’ Tobufi module. Stream210 specifications: SoC – Ameba Smart RTL8730E dual-core Arm Cortex-A32 processor @ 1.3GHz Memory – 2Gbit RAM Storage – 2Gbit [...]

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Quectel BG770A-SN industrial IoT module offers 5G, NB-IoT, and NTN satellite connectivity

Quectel BG770A SN 5G IoT NTN module

Quectel has recently released the BG770A-SN industrial IoT module which comes in an ultra-compact form factor and supports both NTN and TN and features GNSS for positioning functionality. This 5G-ready module also supports iSIM and utilizes the GEO satellite constellation for worldwide coverage. Additionally, the module offers integrated security elements (ISE) and can operate in between the industrial temperature range of -40°C to +85°C. Previously we have written about the Quectel BG95-S5 5G NTN + LTE IoT module which supports NTN satellite (L-band and S-band) plus LTE Cat M1, Cat NB2, and eGPRS as fallback options, designed for applications where continuous connectivity is critical. We have also written about the Quectel CC660D-LS IoT-NTN module, which is an IoT NTN module designed specifically for Skylo’s satellite network. The new BG770A-SN module is a little different from the previous two because it supports LTE Cat M1, LTE Cat NB1/NB2, and NTN over [...]

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KAGA FEI ES4L15BA1 is an ultra-small Bluetooth LE 6.0 and 802.15.4 module based on Nordic nRF54L15 SoC

ultra small Bluetooth 6.0 module

Japanese company KAGA FEI has recently unveiled the incredibly small ES5L15BA1 Bluetooth LE 6.0 and 802.15.4 module based on Nordic Semi nRF54L15 ultra-low-power Cortex-M33 wireless MCU. We had previously covered the u-Blox NORA-B2 which I already found pretty small at 14.3 x 10.4 x 1.9mm, but the ES5L15BA1 module goes a step further measuring just 8.55 x 3.25 x 1.00 mm with an integrated antenna which could make it the world’s smallest Bluetooth LE module. KAGA FEI ES4L15BA1 specifications: SoC – Nordic Semiconductor nRF54L15 MCU cores Arm Cortex-M33 with Arm TrustZone @ 128MHz RISC-V coprocessor for software-defined peripheral Memory – 256KB SRAM Storage – 1.5MB non-volatile memory Wireless Bluetooth 6.0 Data rates – 2Mbps, 1Mbps, 500kbps, 125kbps Features AoA / AoD Channel Sounding 802.15.4 radio for Thread / Zigbee / Matter Nordic Proprietary 2.4 GHz protocol up to 4 Mbps Frequency – 2402 to 2480 MHz +8dBm output power Antenna [...]

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XIAO ESP32S3 for Meshtastic & LoRa devkit features Wio-SX1262 LoRa module

XIAO ESP32 S3 LoRa dev kit

The “XIAO ESP32S3 for Meshtastic & LoRa” is an ESP32-S3 LoRa dev kit that combines an XIAO ESP32S3 board with the tiny Wio-SX1262 LoRa module connected through a board-to-board connector. This compact devkit supports LoRa (862-930MHz), Wi-Fi (2.4GHz), and Bluetooth 5.0 (BLE), with a 5km range for LoRa and a 100m+ range for Wi-Fi/BLE. The kit also has a USB Type-C interface, a built-in power management chip, and multiple I/O options such as IIC, UART, and GPIO. It supports external LoRa antennas and can be extended with XIAO expansion boards for more complex setups. These features make this device suitable for projects such as LoRaWAN gateways, IoT sensors, Meshtastic nodes or routers, and applications where space is limited. XIAO ESP32S3 for Meshtastic & LoRa specifications: SoC – Espressif Systems ESP32 with dual-core Xtensa LX7 microcontroller up to 240MHz Wireless Connectivity LoRaWAN via  Semtech LX1262 Output Power – Up to +22 [...]

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LumenRadio’s nRF52840 based Wireless Modbus module aims to simplify Modbus RTU installations

LumenRadio's W Modbus and W Modbus PRO module's

LumenRadio has recently introduced a Wireless Modbus (W-Modbus) module built around Nordic Semiconductor’s nRF52840 SoC. The module can connect up to 100 nodes, integrates a power amplifier with 100mW transmission power, and supports Bluetooth LE for smartphone connectivity. These features simplify Modbus RTU installations by eliminating traditional control cables, making them ideal for building and industrial automation applications. The company mentions two variants available for this module the ‘W-Modbus OEM Module’ which supports one Modbus client, and the ‘W-Modbus PRO OEM Module’ supporting up to sixteen Modbus clients. Both modules support self-healing, self-organizing mesh protocols that address the issues of network reliability and scalability in industrial environments. The module can also be used for remote monitoring and troubleshooting via smartphones. LumenRadio’s Wireless Modbus module specification Module – LumenRadio W-Modbus module SoC –  Nordic Semiconductor nRF52840 CPU – 32-bit Cortex-M4 core with FPU @ 64 MHz Connectivity Bluetooth 5.4  (BLE, Bluetooth mesh, [...]

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Arduino Nicla Sense Env module features temperature, humidity, and gas sensors from Renesas

Arduino Nicla Sense Env

Arduino Nicla Sense Env is a new sensor module with temperature, humidity, and gas (TVOC, NO2, O3) sensing that follows the launch of the Arduino Nicla Sense ME (Motion & Environment) module over three years ago (2021). The implementation of the new module is quite different since the ME module relies on Nordic Semi nRF52832 Cortex-M4 microcontroller and Bosch SensorTech motion and environmental sensor, but the new Nicla Sense Env module is made of parts from Renesas namely the RA2E1 Cortex-M23 microcontroller, the HS4001 humidity and temperature sensor, the ZMOD4410 gas sensor for TVOC and indoor air quality, and the ZMOD4510 gas sensor for NO2, O3, and outdoor air quality. Arduino Nicla Sense Env (ABX00089) specifications: MCU – Renesas RA2E1 Arm Cortex-M23 entry-line microcontroller (not accessible or programmable by the user) CPU core – Arm Cortex-M23 core up to 48 MHz Memory – 16KB SRAM Storage – 128KB flash Sensors [...]

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u-blox X20 all-band GNSS module offers centimeter-level accuracy, u-blox F9 pin-to-pin compatibility

u blox X20 all band GNSS module

u-blox has recently launched the X20 all-band GNSS module with an integrated L-band receiver that supports all available GNSS satellite signals (L1/L2/L5/L6) and can provide centimeter-level accuracy globally. The module also includes PPP (Precise Point Positioning) correction on top of RTK (Real-time Kinematic) and features like end-to-end security functions, advanced jamming/spoofing detection, and other software features. These features make this device useful for industrial automation, automotive, UAVs, and ground robotics applications. Multi-band GNSS receivers using L1, L2, L5, and the new L6/E6 band frequencies enhance accuracy, reliability, security, and other benefits. That includes better PNT (Positioning, Navigation and Timing) and RTK performance, access to global precise point positioning (PPP) services like Galileo HAS, faster convergence times in PPP for industrial and automotive use, and access to regional PPP services like MADOCA-PPP. Additionally, it helps comply with regional regulations like AIS-140 for NavIC in India and improves jamming and spoofing immunity [...]

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Raytac AN7002Q – A smaller nRF7002 Wi-Fi 6 module for industrial IoT applications

AN7002Q-P module

IoT solutions company Raytac has introduced the AN7002Q Wi-Fi 6 module series, which integrates Nordic Semiconductor’s nRF7002 chipset and is designed for Industrial IoT, smart home, healthcare, consumer electronics, and automotive applications. They can be paired with Raytac’s MDBT53 Bluetooth LE modules based on the nRF5340 multiprotocol SoC, supporting Wi-Fi and Bluetooth LE solutions. The AN7002Q is a low-power Wi-Fi 6 module supporting dual-band 2.4 GHz and 5 GHz operation with a maximum PHY data rate of 86 Mbps (MCS7). It is compatible with IEEE 802.11ax, a/b/g/n/ac standards, and connects to a host SoC or MCU via SPI or QSPI interfaces. The module also supports coexistence with Bluetooth LE, Thread, and Zigbee systems, making it ideal for IoT applications. Previously, we covered the Abluetech PTR7002, a low-power wireless module based on the Nordic Semiconductor nRF7002. The PTR7002 has a slightly larger size and offers more GPIO options, while the AN7002Q [...]

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