Avenger96 96Boards CE Extended Board Features an STMicro STM32MP1 SoM

Avenger96 STM32MP1 96Boards

STMicro unveiled the first STM32 microprocessor – as opposed to microcontroller – earlier this week with STM32MP1 adding one or two Cortex-A7 cores running Linux to the Cortex-M4F core usually found in STM32 microcontrollers. The company also announced their own evaluation kits and discovery kits but promised a 96boards compliant board and system-on-module would be showcased at Embedded World 2019. But Arrow Electronics has already released some limited information about a 96boards CE extended compliant STM32MP1 powered SBC called Avenger96 and that happens to be designed with a baseboard and an STM32MP157 system-on-module. Avenger96 preliminary specifications: SoC – STMicro STM32MP157 dual Arm Cortex-A7 processor @ 650MHz, Arm Cortex-M4 @ 209MHz, 3D GPU Vivante @ 533MHz with OpenGL ES 2.0 support System Memory – 1GB DRAM DDR3L @ 533MHz Storage – 8GB eMMC flash, 2MB flash, micro SD socket Video Output – HDMI 1.4 (Analog ADV7513 transceiver) Networking – Gigabit Ethernet, […]

UltraZed-EV Starter Kit Support Simultaneous 4K Encoding and Decoding with Xilinx Zynq UltraScale+ EV MPSoC

UltraZed EV Starter Kit

Xilinx unveiled Zynq UltraScale+ MPSoC‘s combining Arm Cortex A53/R5 cores with FPGA fabric back in 2015. and we started to see development boards and products based on the solution starting in 2017 with offerings such as AXIOM Board, TRENZ TE0808 SoM, or more recently 96Boards compliant Ultra96 development board. All last three boards have one thing in common: they all use an Zynq UltraScale+ GC MPSoC that adds a Mali-400MP2 GPU to CG MPSoC family. But there’s also a third EV family which standards for “Embedded Vision”, and adds support for 4K H.264 / H.265 hardware video codec capable of simultaneous encode and decode. The platform targets multimedia, automotive ADAS, surveillance, and other embedded vision applications. So far, I don’t think I had seen any boards based on Ultrascale+ EV MPSoC, but AVNet  – following up on their UltraZed-EG starter kit – has now launched an UltraZed-EV starter kit powered […]

Avnet Silica NB-IoT Sensor Shield Works with mbed OS 5, STM32 Nucleo Board

If for some reasons, none of the many NB-IoT boards launched recently suit your needs, there’s yet another option with Avnet Silica NB-IoT sensor shield, that supports – despite the name – also supports LTE Cat M1 (eMTC) beside NB-IoT (LTE Cat NB1), and comes with Arduino headers, as well as a Pmod connector. The board relies on Quectel BG96 module, and can be controlled with Arm mbed OS 5 when connected to STM32 Nucleo board. NB-IoT Sensor Shield specifications: Cellular Module – Quectel BG96 LPWA Module Multi Modes: Cat.M1, Cat.NB1, EGPRS Global bands Cat M1/NB1: B1 B2 B3 B4 B5 B8 B12 B13 B18 B19 B20 B26 B28 B39 (B39 for Cat M1 only) EGPRS: 850/900/1800/1900 MHz Voice Over LTE support (M1 only) – PCM digital audio interface SIM card holder (also optional embedded SIM) Optional GNSS – GPS, GLONASS, BeiDou/Compass, Galileo, QZSS Expansion – Arduino headers, Pmod connector […]

UltraZed-EG SoM and Starter Kit Feature Xilinx Zynq UltraScale+ ZU3EG MPSoC

Xilinx Zynq UltraScale+ Arm Cortex A53 + FPGA MPSoCs were announced in 2015, with actual products launched in early 2017 such as AXIOM development board or Trenz Electronic TE0808 UltraSOM+ system-on-module which are based on the ZU9EG model, and cost several thousand dollars. Recently, I wrote about Mycroft Mark II smart speaker based on a “quad core Xilinx processor”, and initially I assumed it was an Zynq UltraScale+ MPSoCs since those are the only Xilinx “quad core processors” I know of, but now I think it must be an unannounced part, since the company can’t provide the exact part number, and the price would be too low. Nevertheless, this lead me to check out if there was any lower cost boards based Xilinx Zynq UltraScale+ MPSoC with four Arm Cortex A53 cores, and ZU2EG is the entry-level part that matches this description. I could not find a ZU2EG development board, […]

Avnet Introduces Zynq Based MicroZed Industry 4.0 / IIoT Ethernet Kit

There’s a lot of buzz around IoT, and the industrial sector is also trying to build smarter factories using protocols or standards part of Industry 4.0 or Industrial IoT (IIoT) depending on the country or group you belong too. Avnet has just launched MicroZed Industry 4.0 Ethernet Kit (I4EK) based on Xilinx Zynq-7000 ARM & FPGA SoC to address this market with support for the most common industrial protocols such as EtherCAT, Powerlink, PROFINET RT/IRT, EtherNet/IP, and Modbus-TCP. The “brain” of the development board is MicroZed module powered by Zilinx Zynq-7020 dual core Cortex A9 processor with FPGA fabric, and coupled with 1GB RAM, 128 MB SQPI flash, a Gigabit Ethernet port, and various I/Os. The module is connected to MicroZed FMC Carrier board with the following features: 2x 100-pin board-to-board MicroHeaders Xilinx PC4 header for download/debug – Accesses PL JTAG 5x Digilent Pmod compatible interfaces 39 user I/O 1x […]

Wind River Introduces Free Cloud-based Operating Systems for IoT Applications

After Google Brillo operating system was officially launched last week, another company has announced free operating systems for IoT. What’s peculiar is that the company is Wind River a vendor of commercial operating systems whose typical business model is to sell licenses for their operating systems and fees for their development services. Nevertheless, the company has now introduced Wind River Rocket real-time operating system, and Wind River Pulsar Linux operating system.  Both OSes will interface with the company’s Helix Cloud software-as-a-service (SaaS) products, which is probably how the company intends to monetize their work, on top of customization services. Wind River Helix App Cloud is currently made of three products: Helix App Cloud cloud-based development environment for building IoT applications Helix Lab Cloud cloud-based virtual hardware lab for simulating and testing IoT devices and complex systems. Helix Device Cloud cloud-based platform for managing deployed IoT devices and their data. Some […]

PicoZed SDR (Software Defined Radio) System-on-Module Supports 70 MHz to 6.0 GHz Frequency Bands

PicoZed SoM based on Xilinx Zynq-7000 series SoCs was introduced in 2014  by Avnet. The company has now introduced a new version specifically designed for software designed radios which combines Zynq-7035 SoC with Analog Devices AD9361 RF transceiver supporting 70 MHz to 6.0 GHz frequency bands. Target applications include portable agile wireless communications, P25 public safety Radio, point-to-point communication, femtocell & picocell base stations and portable instrumentation. PicoZed SDR SoM specifications: SoC – Xilinx Zynq XC7Z035-2L FBG676I AP SoC with a dual core Cortex A9 processor @ 800 MHz and Kintex-7 FPGA with 275K logic cells System Memory – 1GB DDR3L SDRAM Storage – 256Mb QSPI Flash, microSD Card Interface Network Connectivity – 10/100/1000 Ethernet PHY USB – USB 2.0 OTG ULPI PHY I/Os – 205+ User I/O + 4 GTX channels Radio Transceiver – Analog Devices AD9361-BBCZ integrated RF Agile Transceiver with: 2 × 2 RF transceiver with integrated […]

PicoZed System-on-Modules are Powered by Xilinx Zynq-7000 ARM + FPGA SoC

After the Zedboard, and the Microzed, here comes PicoZed, a family of system-on-modules (SoM) based on Xilinx Zynq-7000 SoCs featuring a dual core Cortex A9 processor and FPGA fabric. The module also comes with 1GB RAM, 4GB eMMC, Gigabit Ethernet PHY, various user I/O, and more. Target applications include embedded vision, test & measurement, motor control, software-defined radio, and industrial automation. Four modules are available with support for commercial or industrial temperature ranges, all sharing the following specifications: SoC (depending on module) Xilinx Zynq-7010 with two Cortex-A9 cores @  866MHz, FPGA with 28K Logic Cells Xilinx Zynq-7015 with two Cortex-A9 cores @  866MHz, FPGA with 74K Logic Cells, 4 transceivers @ 6.25 Gb/s Xilinx Zynq-7020 with two Cortex-A9 cores @  866MHz, FPGA with 85K Logic Cells Xilinx Zynq-7030 with two Cortex-A9 cores @  1GHz, FPGA with 125K Logic Cells, up to 4 transceivers @ 12.5 Gb/s System Memory – 1GB […]

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