development board

Posted on by Jean-Luc Aufranc (CNXSoft) - 1 Comment on ESP32-C5 dual-band WiFi 6 SoC enters mass production, ESP32-C5-DevKitC-1 board launched for $15

ESP32-C5 dual-band WiFi 6 SoC enters mass production, ESP32-C5-DevKitC-1 board launched for $15

ESP32-C5 development board

Espressif Systems has just started mass production of the ESP32-C5 RISC-V wireless microcontroller with dual-band (2.4/5 GHz) WiFi 6, Bluetooth LE, and 802.15.4 (Zigbee, Thread) connectivity. The ESP32-C5-DevKitC-1 development is now available for about $15 on AliExpress, and should soon show up on the company’s Amazon store. So far, WiFi-capable Espressif microcontrollers have only supported 2.4 GHz WiFi since it’s cheaper and offers better range for IoT applications, but some applications may benefit from 5 GHz WiFi, so the company unveiled the ESP32-C5 dual-band WiFi 6 and BLE RISC-V MCU in June 2022. Design probably took longer than expected, but we noted documentation for an ESP32-C5 beta board in March 2024, and finally, the company has just announced that mass production has started. We’ll have a closer look at the ESP32-C5-DevKitC-1 board in this article, since it is different from the beta board. ESP32-C5-DevKitC-1 specifications: Wireless module –  ESP32-C5-WROOM-1 SoC […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Small (45x43mm) system-on-module packs Rockchip RK3562 AIoT SoC, 16GB eMMC, 2GB RAM, and PMIC

Small (45x43mm) system-on-module packs Rockchip RK3562 AIoT SoC, 16GB eMMC, 2GB RAM, and PMIC

Rockchip RK3562 development board

MIYR Tech MYC-YR3562 is a small 45x43mm system-on-module that packs a Rockchip RK3562 or RK3562J quad-core Cortex-A53 AIoT SoC with a 1 TOPS AI accelerator, up to 2GB LPDDR4, 16GB eMMC flash, 32 Kbit EEPROM, and a PMIC. To keep the module small while making no compromise on the number of I/Os offered, the company designed the module with 164 castellated holes (LCC – ) and 58 pads (LGA). That means the MYC-YR3562 system-on-module gets all interfaces from the RK3562(J) SoC, including Gigabit Ethernet, USB 3.0, PCIe 2.1, RGB, LVDS, and MIPI-DSI interfaces, camera inputs (MIPI-CSI), and a range of low-speed I/Os. MYC-YR3562 SoM specifications SoC –  Rockchip RK3562 or RK3562J CPU RK3562 – Quad-core Arm Cortex-A53 quad-core @ 2.0 GHz RK3562J – Quad-core Arm Cortex-A53 quad-core @ 1.2 GHz (stock, overclock up to 1.8 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 […]

Posted on by Debashis Das - 1 Comment on Zalmotek RA6M1, RA8M1, and RZ/A3U SoMs follow Adafruit Feather form factor, support carrier board for robotics and industrial control

Zalmotek RA6M1, RA8M1, and RZ/A3U SoMs follow Adafruit Feather form factor, support carrier board for robotics and industrial control

Zalmotek RZ A3UL, RA8M1, and RA6M1 SoM

Romanian company Zalmotek has recently introduced three new SoMs, the RA6M1, RA8M1, and RZ/A3UL, and a modular carrier board designed for embedded applications such as robotics, industrial control, and edge computing. There are a few things that I find interesting about this setup. The SoM comes in Adafruit Feather form factor and, as a result, supports various Adafruit FeatherWings. The modular carrier board supports the Dynamixel motor driver module, the Particle M-SoM breakout module, Ethernet, and CAN modules. The RA6M1 Feather SoM is powered by a Renesas RA6M1 Arm Cortex-M4 CPU at up to 120 MHz, with 512 KB flash and 96 KB SRAM while the RA8M1 Feather SoM features a Renesas RA8M1 64-bit Arm Cortex-M85 running at up to 360 MHz with 128 Mbit SPI flash, the RZ/A3UL Feather SoM is based on a Renesas RZ/A3UL 64-bit Arm Cortex-A55 CPU at up to 1 GHz, with 512 Mbit OctaFlash […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 3 Comments on Espressif Systems ESP32-P4-EYE development kit looks like a camera

Espressif Systems ESP32-P4-EYE development kit looks like a camera

ESP32-P4-EYE

Espressif Systems’ ESP32-P4-EYE is a development kit designed for AI vision applications that looks like a standard camera. It combines an ESP32-P4 RISC-V microcontroller with an ESP32-C6 WiFi 6, BLE, and 802.15.4 SoC, and is equipped with a MIPI-CSI camera, a 2MP display, a microphone, and a MicroSD card to store photos or videos. There’s also a rotatory encoder to control the menu on the LCD or adjust the zoom, a fill/flash light, a few buttons, an LED, and support for either USB or battery power. The company says the ESP32-P4 camera devkit targets smart surveillance, vision-based edge AI, real-time image detection, and audio-visual IoT interfaces. ESP32-P4-EYE specifications: Microcontroller – ESP32-P4 MCU Dual-core RISC-V microcontroller @ 400 MHz with AI instructions extension and single-precision FPU Single-RISC-V LP (Low-power) MCU core @ up to 40 MHz GPU – 2D Pixel Processing Accelerator (PPA) VPU – H.264 and JPEG codecs support Memory […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 10 Comments on Microchip launches low-cost, low-power PIC16F17576 8-bit microcontrollers for analog sensors

Microchip launches low-cost, low-power PIC16F17576 8-bit microcontrollers for analog sensors

Microchip PIC16F17576

Microchip PIC16F17576 8-bit MCUs are designed for low-cost and low-power analog sensors. They integrate a low-power comparator and voltage reference combination that can operate while the MCU core is in sleep mode, consuming less than 3.0 µA of current during analog measurements. The PIC16F17576 microcontrollers are equipped with up to four operational amplifiers (op amps) with software-controlled gain ladders, and a 12-bit differential ADC with automated averaging. Key applications include vibration and strain measurement, flow metering, gas detection, cold asset tracking, and motion sensing. PIC16F17576 specifications: Core – C Compiler Optimized RISC Architecture @ 32 MHz Memory and Storage Up to 2 KB of data SRAM Up to 28 KB of program flash memory Up to 256 bytes of data EEPROM memory Programmable code protection and write protection Digital Peripherals 2x Capture/Compare/PWM (CCP) Modules (16-bit resolution for Capture/Compare modes; 10-bit resolution for PWM mode) 2x 16-bit PWM 4x Configurable Logic […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Renesas RA0E2 low-cost, low-power Arm Cortex-M23 MCU operates in extended temperature range (-40°C to +125°C)

Renesas RA0E2 low-cost, low-power Arm Cortex-M23 MCU operates in extended temperature range (-40°C to +125°C)

Renesas RA0E2 Arm Cortex-M23 MCU

Renesas RA0E2 is a low-power, low-cost Arm Cortex-M23 microcontroller (MCU) Group part of the RA0 family introduced in 2024 that can operate in an extended temperature range (-40°C to +125°C) and offers a wide variety of peripheral functions and safety features. It follows the RA0E1 devices – the first member of the RA0 family – designed for consumer electronics, household appliances, power tools, industrial monitoring, and other applications, including battery-powered devices. The new RA0E2 MCUs offer both software and pin-to-pin compatibility (for 32-pin SKUs) with RA0E1 devices, but the new family adds more memory and storage with up to 16KB SRAM, 128KB code flash, and 2KB data flash. The RA0E2 also features more I/Os with 32-pin to 64-bit packages, instead of 16-pin to 32-pin packages. Renesas RA0E2 specifications: MCU Core – Arm Cortex-M23 Armv8-M Core up to 32MHz Memory and Storage 16KB SRAM Code Flash – Up to 128KB Data […]

Posted on by Debashis Das - No Comments on JUMPtec SMARC-sAM67 – An industrial SMARC SoM based on TI AM67x Jacinto SoC for Edge AI and vision applications

JUMPtec SMARC-sAM67 – An industrial SMARC SoM based on TI AM67x Jacinto SoC for Edge AI and vision applications

Jumptec SMARC sAM67 SoM

JUMPtec, a subsidiary of Kontron, has recently introduced SMARC-sAM67, an industrial SMARC SoM built around Texas Instruments’ AM67x Jacinto dual- or quad-core processors (AM67, AM67A, or AM67D) designed for industrial, robotic, and vision applications. The SMARC-sAM67 module features up to 8GB LPDDR4 memory, up to 64GB eMMC 5.1 flash, dual Gigabit Ethernet, PCIe Gen3 x1 expansion, USB 3.2 and USB 2.0, and display interfaces including dual-channel LVDS and DSI (or optional DisplayPort). It also features four UARTs, CAN bus, SPI, I2S, I2C, MIPI CSI cameras, and various industrial features such as extended temperature support (-40°C to 85°C), failsafe update support, and an ultra-low power RTC. JUMPtec SMARC-sAM67 SoM Specifications: SoC – Texas Instruments dual- or quad-core AM67x Jacinto processor (Standard AM67, optional AM67A or AM67D) System Memory – Up to 8GB LPDDR4 RAM Storage – Up to 64GB eMMC 5.1 flash storage Networking – 2x 10/100/1000 Mbps Ethernet PHY with […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on Avaota F1 – A tiny camera board based on Allwinner V821 RISC-V SoC with built-in WiFi and 64MB DDR2

Avaota F1 – A tiny camera board based on Allwinner V821 RISC-V SoC with built-in WiFi and 64MB DDR2

Avaota F1 devkit

The Avaota F1 is an ultra-small, open-source hardware Linux SBC powered by an Allwinner V821 32-bit RISC-V camera SoC with 64MB on-chip DDR2 and built-in 2.4 GHz WiFi 4, and designed for camera applications with a MIPI CSI connector. The 35×22 mm board also features a 32MB NOR flash, an analog microphone, a USB-C port for power, data, and programming, two 15-pin GPIO headers, a FEL button, and a user LED. It looks like it will be offered as a development kit with a 1080p30 camera and a 3.5-inch or 1.54-inch SPI display. I also think it’s the first time I’ve seen a Linux-capable application processor with built-in WiFi. Avaota F1 specifications SoC – Allwinner V821L2-WXX CPU 32-bit RISC-V CPU @ 1.2GHz with 16KB L1 D/I  cache, 128KB L2 cache 32-bit RISC-V MCU @ 600 MHz with  16KB L1 I-cache, 8KB L1 D-cache Memory – 64MB DDR2 on-chip VPU – […]

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