freertos

Posted on by Jean-Luc Aufranc (CNXSoft) - 8 Comments on $4 DshanMCU Pitaya Lite board comes with MM32 Arm Cortex-M3 microcontroller

$4 DshanMCU Pitaya Lite board comes with MM32 Arm Cortex-M3 microcontroller

MM32 board MM32F32373G8P MCU

DshanMCU Pitaya Lite is an MCU development board based on yet another STM32 alternative: MindMotion MM32 Arm Cortex-M3 microcontroller that is said to be compatible with STM32. The MCU can be clocked at up to 120 MHz, embeds 128KB SRAM, 512KB flash, and the board offers two USB Type-C ports for USB and DAP debugging, a MicroSD card slot, a few buttons, I/Os are routed via through holes as well as a mini PCIe connector that can be used to connect a display. Pitaya Lite specifications: MCU – MindMotion Microelectronics MM32F3273G8P Arm Cortex-M3 microcontroller @ 96MHz (standard) to 120MHz (max) with 128KB SRAM, 512kB Flash; LQFP100 package Storage – MicroSD card Display – Via mini PCIe port with FSMC (Flexible Static Memory Controller), supports Intel 8080 LCDs USB – 2x USB Type-C ports, including one for DAPLink and serial access Expansion – 2x 25-pin GPIO headers and Mini PCIe connector […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 3 Comments on Renesas RZ/A3UL Cortex-A55 CPU runs RTOS for HMI with quick startup times

Renesas RZ/A3UL Cortex-A55 CPU runs RTOS for HMI with quick startup times

Renesas RZ/A3UL

Renesas RZ/A3UL is a single-core Cortex-A55 processor clocked at up to 1 GHz designed to run FreeRTOS or Azure RTOS on high-definition (1280×800) HMI solutions requiring quick startup times such as industrial equipment, home appliances, office automation equipment, audio equipment, and POS terminals. The new RZ/A3UL processor family has the same peripheral functions and package pin assignments as the RZ/G2UL (Arm Cortex-A55/M33) and RZ/Five (RISC-V) families targeting Linux-based HMI applications. Renesas also designed a SMARC 2.1 compliant System-on-Module (SoM) based on the Renesas RZ/A3UL microprocessor to speed up time to market. Renesas RS/A3UL specifications: CPU – Single-core Arm Cortex-A55 processor @ up to 1.0 GHz with 32KB I-cache with parity, 32KB D-cache with ECC, 256KB L3 cache with ECC Internal Memory – 128KB SRAM with ECC Memory & Storage I/F 16-bit DDR4-1600 or DDR3L-1333 memory interfaces with in-line ECC; up to 4GB RAM Octal Peripheral Interface (OPI) for flash or […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 4 Comments on Qualcomm Snapdragon W5+ and W5 wearables platforms promise higher efficiency and performance

Qualcomm Snapdragon W5+ and W5 wearables platforms promise higher efficiency and performance

Snapdragon W5+ Block Diagram

It’s been a while since Qualcomm released a new platform for wearables. More exactly, the Snapdragon 4100 platform was announced a little over two years ago, and now Qualcomm has just introduced the Snapdragon W5+ and W5 Gen 1 platforms with up to 50% longer battery, twice the performance, and 30 percent smaller size. Just like the Snapdragon 4100, the Snapdragon W5 comes with four Arm Cortex-A53 processor (SW5100), but is clocked at 1.7 GHz and manufactured with a 4nm process, while the always-on (AON) co-processor is upgraded from a Cortex-M0 chip to the QCC5100 Cortex-M55 chip manufactured with a 22nm process.     Snapdragon W5+/W5 specifications: W5100 SoC CPU – Quad-core Cortex-A53 processor @ up to 1.7 GHz GPU – Qualcomm Adreno A702 @ up to 1 GHz with OpenGL ES 3.1 API support DSP – Qualcomm Hexagon DSP V66K System Memory – 16-bit LPDDR4 up to 2,133 MHz […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 2 Comments on OSM Size-0 solder-on LGA module comes with ESP32 WiFi & BLE MCU

OSM Size-0 solder-on LGA module comes with ESP32 WiFi & BLE MCU

OSM Size-0 ESP32 module

German embedded systems company iesy’s ESP32 OSM-0F is an ESP32-based solder-on LGA system-on-module that complies with SGET OSM Size-0 (30x15mm) form factor, offers WiFi and Bluetooth connectivity, and more. The SGET Open Standard Module (OSM) standard defines four module sizes, namely Size-0 (30x15mm), Size-S (30x30mm), Size-M (45x30mm), and Size-L (45x45mm), and all the modules we’ve covered so far were powered by a Linux-capable processor. But it’s more challenging, albeit not impossible, to design a Linux-capable OSM Size-0 module, and that form factor is better suited to microcontroller-class chips like ESP32. (Technically, ESP32 can run Linux, but it’s more for show that any practical applications) ESP32 OSM-0F specifications: Microcontroller – Espressif ESP32 dual-core Xtensa LX6 MCU @ 240 MHz with 512KB RAM, Wi-Fi 802.11 b/g/n and Bluetooth/BLE Storage – 32 Mbit SPI flash Antenna – u.FL connector 188 LGA contact points with Storage – SDIO Networking – 1x 10/100M Ethernet (RMII), […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 5 Comments on The Eclipse Oniro Project aims to deliver consumer & IoT software that works across multiple platforms

The Eclipse Oniro Project aims to deliver consumer & IoT software that works across multiple platforms

Eclipse Oniro Project

Several of the embedded talks at FOSDEM 2022 mention the “Eclipse Oniro Project”. I had never heard about that project from the Eclipse Foundation, so let’s see how they describe it: Oniro is an Eclipse Foundation project focused on the development of a distributed open source operating system for consumer devices, regardless of the brand, model, make. Oniro is a compatible implementation for the global market of OpenHarmony, an open source operating system specified and hosted by the OpenAtom Foundation. Designed with modularity in mind, Oniro offers greater levels of flexibility and application portability across the broad spectrum of consumer and IoT devices — from tiny embedded sensors and actuators, to feature rich smart appliances and mobile companions. As a distributed and reusable collection of open source building blocks, Oniro enables compatibility with other open source technologies and ecosystems. Through close collaboration with projects and foundations such as OpenHarmony from […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 14 Comments on Imagination introduces Catapult RISC-V CPU cores

Imagination introduces Catapult RISC-V CPU cores

Catapult RISC-V CPU

As expected, Imagination Technologies is giving another try to the CPU IP market with the Catapult RISC-V CPU cores following their previous unsuccessful attempt with the MIPS architecture, notably the Aptiv family. Catapult RISC-V CPUs are/will be available in four distinct families for dynamic microcontrollers, real-time embedded CPUs, high-performance application CPUs, and functionally safe automotive CPUs. The new 32-/64-bit RISC-V cores will be scalable to up to eight asymmetric coherent cores-per cluster, offer a “plethora of customer configurable options”, and support optional custom accelerators. What you won’t see today are block diagrams and detailed technical information about the cores because apparently, all that information is confidential even though some Catapult RISC-V cores are already shipping “in high-performance Imagination automotive GPUs”. The only way to get more details today is to sign an NDA. Having said that we have some more information about the target markets and development tools.  Imagination Capapult […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on TQ Embedded launches NXP i.MX RT1170 SoC module and SBC

TQ Embedded launches NXP i.MX RT1170 SoC module and SBC

NXP i.MX RT1170 SBC

TQ Embedded (aka TQ) has just announced the availability of the TQMa117xL system-on-chip module based on NXP i.MX RT1170 crossover processor family, and as well as MBa117xL single board computer (SBC) based on the 31×31 mm module. TQMa117xL’s small size has been achieved thanks to a 277-pad LGA design, with the module still integrating LP-SDRAM, Quad-SPI NOR flash and EPROM, a PMIC, as well as an optional security chip. TQMa117xL i.MX RT1170 SoM Specifications: Crossover processor (one or the other) NXP i.MX RT1171 with Cortex-M7 @ up to 1 GHz (Consumer) or 800 MHz (industrial), 1 GbE (AVB) NXP i.MX RT1172 with Cortex-M7 @ 800 MHz/ 1 GHz, graphics accelerators and camera/display interfaces, 1GbE (AVB) NXP i.MX RT1173 with Cortex-M7 @ 800 MHz (industrial only), Cortex-M4 @ 400 MHz, 1GbE (AVB), graphics accelerators and camera/display interfaces, tamper inteface NXP i.MX RT1175 with Cortex-M7 @ 800 MHz / 1 GHz, Cortex-M4 […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 3 Comments on NXP i.MX RT500 Cortex-M33 Crossover MCU integrates DSP, 2D GPU for wearables and IoT devices

NXP i.MX RT500 Cortex-M33 Crossover MCU integrates DSP, 2D GPU for wearables and IoT devices

MIMXRT595-EVK

NXP i.MX RT500 is the second Cortex-M33 Crossover MCU following the NXP i.MX RT600 Series announced in 2018, and optimized for low-power HMI applications such as wearables and Smart Home & IoT devices. NXP Crossover MCUs are typically clocked at 600 MHz or more, but NXP i.MX RT500 Cortex-M33 is limited to 200 MHz, and combined with 200 MHz Tensilica Fusion F1 DSP as well as a 2D GPU, and power optimizations that enable long battery life of up to 40 days on a charge for wearables like smartwatches. NXP i.MX RT500 key features and specifications: MCU Core – Cortex-M33 @ up to 200 MHz with Arm TrustZone, M33 built-in Memory Protection Unit (MPU), PowerQuad hardware accelerator for DSP functions, CASPER crypto coprocessor for asymmetric cryptographic algorithms DSP Core – Cadence Tensilica Fusion F1 DSP @ up to 200 MHz On-Chip Memory Up to 5 MB of system SRAM accessible […]

EmbeddedTS embedded systems design