We’ve just written about the Notkia phone repurposing Nokia 168x phones with a new PCB featuring an Ingenic X1000E MIPS processor running mainline Linux, but it turns out the developer (Reimu NotMoe, CTO of SudoMaker) has also designed the X1501 Pico SoM, a tiny 16×16 system-on-module equipped with Ingenic X1501 MIPS system-in-package (SiP). The module can be that small because the single-core 1GHz Ingenic 1501 SiP embeds 8MB LPDDR, as well as apparently a 16Mbit NOR flash that stores stripped-down versions of U-boot and the Linux kernel, plus a minimal, busybox-based rootfs. X1501 Pico system-on-module specifications: SoC – Ingenic X1501 MIPS32r2 processor @ 1GHz, a MIPSr2 real-time core @ 300 MHz (not shown in datasheet), 8MB LPDDR and 16KB tightly coupled SRAM, 16Mbit NOR flash Castellated holes with USB 2.0 OTG, I2C, SPI, SDIO and DVP, analog mono audio output & digital microphone input EFUSE based Secure Boot Power Management […]
Rockchip RK3588 CPU module exposes more I/Os through four board-to-board connectors
We’ve already seen several Rockchip RK3588 modules with Firefly Core-3588J, Turing RK1, and Banana Pi RK3588_CV1, all with an edge connector to insertion into the carrier board. Rongpin RD-RK3588 system-on-module is a little different with four board-to-board connectors that enable a slightly more compact design, and should expose more I/Os than say a 314-pin MXM edge connector. The module ships with up to 16GB of RAM, 128 GB of storage, a Rockchip RK806-1 PMIC, and the company also offers a development kit with RD-RK3588-B baseboard fitted with the module for evaluation and early software development. RD-RK3588 board-to-board module RD-RK3588-C core module specifications: SoC – Rockchip RK3588 octa-core processor with 4x Arm Cortex-A76 cores @ up to 2.4 GHz, 4x Arm Cortex-A55 cores, Arm Mali-G610 MP4 GPU with support for OpenGL ES3.2, OpenCL 2.2, Vulkan1.1, 6 TOPS NPU, 48MP ISP, 8Kp60 video decoding, 8Kp30 video encoding System Memory – 4GB, 8GB, […]
Microchip SAMA7G54 is a single-core Arm Cortex-A7 microprocessor for low power AI camera & audio applications
Microchip has just announced the 1 GHz SAMA7G54 single-core Arm Cortex-A7 microprocessor (MPU) with MIPI CSI-2 and parallel camera interfaces, as well as up to four I2S, one SPDIF transmitter and receiver, and a 4-stereo channel audio sample rate converter. The company specifically launched a single-core processor to offer a lower power solution for AI camera and audio solutions, and the chip is coupled with the MCP16502 power management IC that has been optimized to provide the best power/performance ratio for the SAMA7G54. Microchip SAMA7G54 specifications: CPU – Arm Cortex-A7 based MPU @ up to 1GHz with 256KB L2 cache Memory – DDR2/DDR3/DDR3L/LPDDR2/LPDDR3 up to 533MHz Storage – Quad SPI, Octal SPI, 3x SD/eMMC Camera I/F – MIPI CSI-2 (2-lane up to 1.5 Gbps each) and 12-bit parallel camera Up to 8 Mpixel @ 30 fps Audio – Up to 4x I2S, PDM, SPDIF (Rx/Tx), 4 stereo channel ASRC Networking […]
DongShanPi One – A SigmaStar SSD202D system-on-module with a mini PCIe edge connector for GPIO, Ethernet…
DongShanPi One system-on-module features SigmaStar SSD202D Arm Cortex-A7 processor with 128MB on-chip RAM, a 128MB NAND SPI flash and a microSD card slot, an LCD interface, two USB Type-C ports, and a mini PCIe edge connector that exposes interfaces like Ethernet, USB, and GPIOs when connected to a baseboard. I noticed the module in Linux 5.18 changelog yesterday together with the Miyoo game console, with support being added by dgp (Daniel Palmer), a frequent commenter on CNX Software, who also happen to maintain the linux-chenxing community. The DongShanPi One is optionally offered with a baseboard equipped with an RJ45 port, four USB ports, an IR receiver, and plenty of GPIO headers for expansion. DongShanPi One specifications: SoC – SigmaStar SSD202D dual-core Cortex-A7 processor @ 1.2 GHz with 128MB on-chip DDR3, H264/H265 decoding, and MJPG encoding Storage – 128MB SPI NAND flash and microSD card Display I/F – 50-pin FPC RGB888 […]
Clicker 4 for TMPM4K board targets motor control with Toshiba M4K microcontroller
Toshiba and Mikroelektronika have launched the Clicker 4 for TMPM4K development board equipped with Toshiba M4K Arm Cortex-M4 microcontroller for motor control, as well as four mikroBUS sockets for MikroE Click expansion boards. The Clicker 4 for TMPM4K board is also fitted with an on-board CMSIS-DAP compliant Debug Unit based on Toshiba’s TMPM067 MCU, extension connectors, JTAG/SWD debug ports, LED indicators and push buttons, and works best with Clicker 4 Inverter Shield with six MOSFETs for motor driving, a 48V switching power supply, and a 5V regulated power source that can power the M4K board. Clicker 4 for TMPM4K specifications: MCU – Toshiba TMPM4KNFYAFG 32-bit Arm Cortex-M4 microcontroller @ up to 160 MHz with 256KB code flash, 32KB data flash, 24KB SRAM, as well as Vector Engine (A-VE+), Encoder and Programmable Motor Driver (PMD) for brushless DC motors Expansion 4x mikroBUS sockets for adding Click board 40x connection pads with […]
LilyGO T-HC32 board with the world’s smallest Arm MCU (HC32L110B6) is now available for $9
HC32L110 Arm Cortex-M0+ MCU is found in a minuscule 1.59 x 1.436 mm CSP16 package that should make it the world’s smallest Arm MCU. LilyGO T-HC32 is one of the first boards with the HC32L110B6 microcontroller, and it is now available for $8.98 on Aliexpress including shipping. The board offers really basic features with two buttons, a WS2812 RGB LED, and two-row of ten pins each for GPIOs and power signals, plus a 4-pin header for SWD programming. There’s nothing really special about the board or its price, except for the MCU’s size that’s barely discernable from a discrete component, and much smaller than the 7x7mm ESP32-PICO-D4 system-in-package shown in the photo below for comparison. LilyGO T-HC32 board specifications: MCU – HDSC HC32L110B6 Arm Cortex-M0+ @ up to 32 MHz with up to 4KB RAM, up to 32KB flash memory Expansion – 2x 10-pin header with GPIO, UART, I2C, […]
“ESP32-C3-0.42LCD” is a tiny WiFi & BLE IoT board with 0.42-inch display, Qwiic connector
01Space “ESP32-C3-0.42LCD” is a small (23.5 x 18 mm) board equipped with ESP32-C3 RISC-V WiFi and Bluetooth microcontroller, a 0.42-inch display, and a Qwicc I2C connector to easily add modules such as sensors. The first time I saw it, the form factor immediately reminded me of the nRF52840-based XIAO BLE Sense board I just used to test Edge Impulse machine learning framework. Both boards should have similar use cases, but XIAO BLE Sense includes a 6-axis IMU sensor, and I had to connect an OLED display, while the ESP32-C3 board already integrates a display, and I would have had to connect an external Qwicc module with an accelerometer. ESP32-C3-0.42LCD specifications: SoC – ESP32-C3FH4 SoC with RISC-V core @ 160 MHz, 4MB flash, 2.4GHz Wi-Fi, and Bluetooth 5 LE with Long-Range support Ceramic antenna Display – 0.42-inch LCD USB – 1x USB Type-C port for power and programming Expansion Qwiic I2C connector […]
iCESugar-nano is a $19 iCE40LP1k FPGA board with 3x PMOD connectors
Muse Lab’s iCESugar-nano is a tiny FPGA board based on Lattice Semi iCE40LP1K-CM36 programmable via its USB-C port through on-board iCELink debugger, and exposing I/Os for three standard PMOD connectors. The board is fully supported by Yosys open-source toolchain ( Yosys+ nextpnr + IceStorm), and the onboard debugger supports drag-and-drop programming so that you can just drag the FPGA bitstream into the virtual disk to program it through a USB Type-C cable. iCESugar-nano specifications: FPGA – Lattice Semi iCE40LP1k FPGA with 1280 LUT/8KB SRAM/PLL Storage – 2MB SPI flash (W25Q16) USB – 1x USB Type-C port for power and programming Expansion – 14x usable IOs with 1x 12-pin PMOD connectors and 2x 6-pin PMOD connectors Debugging – On-board iCELink debugger based on Arm Mbed DAPLink Misc – Adjustable clock (8/12/36/72MHz), LED Power Supply – 5V via USB-C port Dimensions – 3.9 x 1.8 cm Documentation, schematic PDF, links to tools, […]