We first checked out the GEEKOM Mini IT12 with an unboxing and teardown of the Intel Core i7-12650H Alder Lake mini PC in the middle of December 2023, and we’ve now had plenty of time to test the mini PC with Windows 11 Pro since the device was out of stock for a while and we were asked to postpone the review… Now that the mini PC is for sale again, we will report our experience with the Windows 11 Pro operating system in the second part of the review of the Mini IT12. This will include an overview of the software, features testing, various benchmarks including storage and networking performance, 4K and 8K YouTube video streaming, cooling performance, fan noise, and finally, we will provide some power consumption numbers. Software overview and features testing The System->About menu wrongly shows we have a “Mini Air12” mini PC instead of a […]
Jetway launches the JF35-ADN1– A 3.5” Intel N97 SBC designed for industrial robotics applications
Jetway, an AAEON-affiliated manufacturer, has released a new single-board computer, the JF35-ADN1, targeted at industrial robotics applications. The JF35-ADN1 is a subcompact, 3.5” board that is powered by the Intel N97 (formerly Alder Lake) processor. It features several high-speed interfaces and peripherals for its target applications including two 2.5GbE ports, a total of eight USB 2.0 ports (physical ports and internal connectors), two USB 3.2 Gen 2 ports (Type-A and Type-C), and supports up to 32GB of DDR5 RAM via a SO-DIMM socket. It can power up to three displays via two HDMI 2.0b ports and a DisplayPort over USB-C port. The Jetway JF35-ADN1 SBC is aimed at Automated Guided Vehicles (AGV) applications, but it is stated to be versatile enough to accommodate other uses such as machine vision and payment systems solutions. The JF35-ADN1 features the same Intel N97 processor as AAEON’s Up Xtreme 7100 and is intended for […]
This new ESP32-C6-based IoT development board supports solar battery charging
DFRobot’s FireBeetle 2 ESP32-C6 is an IoT Development Board with 802.11ax (now called Wi-Fi 6), Bluetooth 5, Zigbee 3.0, Thread 1.3, and flexible power options including USB Type-C, 5V DC, and a CN3165 Lithium Ion battery charger for solar-powered systems. This isn’t the first solar-based board we’ve covered. We’ve also explored boards like Conexio Stratus, Wisblock Kit 2, and RAK8211-NB iTracker along with other solar-powered devices such as solar-powered laptops, solar-powered headphones, and even a solar-based power supply. FireBeetle 2 ESP32-C6 IoT Development Board Specifications: Processor – ESP32-C6 RISC-V single-core, 160 MHz Memory SRAM – 512KB ROM – 320KB Flash – 4MB RTC SRAM – 16KB USB – USB 2.0 CDC Wi-Fi Protocols – IEEE 802.11b/g/n, IEEE 802.11ax (20 MHz-only non-AP mode) Bandwidth – Supports 20 MHz and 40 MHz at 2.4 GHz Modes – Station, SoftAP, SoftAP+Station Frequency – 2.4GHz Frame Aggregation – TX/RX A-MPDU, TX/RX A-MSDU Bluetooth Protocol […]
$16 Grove Vision AI V2 module features WiseEye2 HX6538 Arm Cortex-M55 & Ethos-U55 AI microcontroller
Seeed Studio’s Grove Vision AI V2 module is based on the HiMax WiseEye2 HX6538 dual-core Cortex-M55 AI microcontroller with an Arm Ethos-U55 microNPU and features a MIPI CSI connector for an OV5647 camera. It is designed for AI computer vision applications using TensorFlow and PyTorch frameworks and connects to hosts such as Raspberry Pi SBCs, ESP32 IoT boards, Arduino, and other maker boards over I2C. We tested the previous generation Grove Vision AI module based on the 400 MHz HX6537-A DSP-based AI accelerator using the SenseCAP K1100 sensor prototype kit with LoRaWAN connectivity, and managed to have the kit perform face detection and send the data over LoRaWAN. The Grove Vision AI V2 builds on that but with a modern Arm MCU core and more powerful AI accelerator that can run models such as Mobilenet V1/V2, Efficientnet-lite, and Yolo v5 & v8 using the SenseCraft low-code/no-code platform. Grove Vision AI […]
8 Euros ESP32-H2-DevKit-LiPo is an open-source hardware Bluetooth 5 LE and 802.15.4 (Zigbee/Thread/Matter) board
Olimex ESP32-H2-DevKit-LiPo is an open-source hardware board based on ESP32-H2-MINI-1-N4 wireless module with Bluetooth 5 Low Energy (LE) and an 802.15.4 radio for Zigbee, Thread, and Matter connectivity, and that can be powered by a LiPo battery. The ESP32-H2 RISC-V microcontroller is coupled with 4MB flash in the wireless module, and the board comes with two rows of 15 pins for up to 19 GPIOs with alternate functions such as ADC, SPI, UART, I2C, etc… plus pUEXT and Qwiic/Stemma connectors for expansion modules. The board also features two USB-C ports, one for connected directly to the ESP32-H2 and the other for USB to UART programming/debugging. ESP32-H2-DevKit-LiPo specifications: Wireless module – ESP32-H2-MINI-1-N4 MCU – Espressif Systems ESP32-H2 32-bit RISC-V microcontroller at up to 96 MHz with 320 KB SRAM, 128 KB ROM, 4 KB LP memory, Bluetooth 5.2 LE/Mesh and 802.15.4 (Zigbee/Thread/Matter) radios. Storage – 4MB flash storage PCB antenna Dimensions […]
Firefly CT36L AI Smart Camera Features Rockchip RV1106G2 with 0.5 TOPS NPU, 100Mbps Ethernet with PoE support
Firefly CT36L AI Smart Camera (PoE) features a Rockchip RV1106G2 CPU with 0.5 TOPS NPU, a 5-megapixel ISP, and a 3-megapixel HD lens. It supports 100Mbps Ethernet with PoE and includes advanced image enhancements like HDR, WDR, and noise reduction, all while maintaining low power consumption and high image integration. We’ve previously explored various AI cameras such as Tokay Lite, EDATEC ED-AIC2020, ThinkCore TC-RV1126, Orbbec Persee+, M5Stack UnitV2 among others. Feel free to check them out for more information. Firefly CT36L AI Smart Camera (PoE) specifications: CPU – Rockchip RV1106G2 Arm Cortex-A7 @ 1.2GHz, with Neon and FPU NPU – 0.5 TOPS, supports INT4/INT8/INT16, TensorFlow/MXNet/PyTorch/Caffe/Onnx NN ISP – 5MP high-performance, HDR, WDR, 3DNR, 2DNR, sharpening, defogging, fisheye and gamma correction, feature detection VPU – 3072×1728 (5M) @ 30fps H.265/H.264 encoding, 16M@60FPS JPEG snapshot RAM – 128MB DDR3 built-in Storage – 16MB SPI Flash built-in Camera specifications: Type – Color Camera Image Sensor – SC3336 CMOS Size […]
Renesas RZ/G3S is a 64-bit Arm Cortex-A55/M33 microprocessor with low power consumption and enhanced peripherals
Renesas RZ/G3S 64-bit Arm Cortex-A55 microprocessor (MPU) designed for IoT edge and gateway devices consumes as little as 10µW in standby mode thanks to its Cortex-M33 core(s) and features a PCIe interface for high-speed data transfers with 5G wireless modules. A single-core ARM Cortex-A55 CPU powers the RZ/G3s and can distribute workloads to two sub-CPUs, boosting efficiency in task handling and resulting in fewer components and a smaller system size. The Cortex-A55 core operates at 1.1GHz and is designed to improve power efficiency and performance over its predecessor, the Cortex-A53. The RZ/G3S isn’t Renasas’ first Cortex-A55 product as they have previously released the RZ/A3UL and the RZ/G2L, both powered by the same Cortex-A55 CPU. Additionally, Renesas launched the 64-bit RISC-V RZ/Five processor late last year. The RZ/G3S boasts high-speed interfaces such as PCIe and GbE, a better standby mode, and improved security features which make it suitable for IoT applications […]
Raspberry Pi 5 gets a PoE HAT+ kit that doubles as a cooling solution
Waveshare PoE HAT(F) is an 802.3af/at-compliant 24W Power-over-Ethernet (PoE) HAT+ board designed for the Raspberry Pi 5 that also cools the SBC with its embedded fan, a heatsink, and two thermal pads. The Chinese company has beaten Raspberry Pi to it as the UK company is working on releasing the L-shaped 25W “PoE+ HAT(+) for Raspberry Pi 5” a little later. The existing official Raspberry Pi PoE+ HAT delivers up to 25.5 Watts which would be enough to power the Pi 5, but since the PoE header has been moved to another location, it’s not compatible anymore, so new solutions are needed such as the Waveshare PoE HAT(F). Waveshare PoE HAT(F) specifications: Supported SBC – Raspberry Pi 5 only Connected via 40-pin Raspberry Pi GPIO header and 4-pin PoE header PoE (Power Over Ethernet) IEEE 802.3af/at-compliant Input voltage – 37V-57V DC input Output 2-pin header – 12V/2A max GPIO header […]