Infineon AIROC CYW5557x WiFI 6/6E targets IoT and streaming devices

Infineon CYW55573 WiFi 6E Block Diagram

WiFi 6E is a new wireless standard that operates in the 6 GHz frequency band. We’ve already seen it used in consumer products such as premium smartphones and routers, as well as some embedded SBCs that take Qualcomm WiFI 6E cards. But now Infineon, who purchased Cypress Semiconductors last year, has unveiled the AIROC CYW5557x family of WiFI 6/6E chipsets designed for the IoT, enterprise and industrial applications for the 1×1 models, and for multimedia, consumer and automotive applications with 2×2 MIMO. Infineon AIROC CYW5557x has three SKUs that share most of the same specifications: Devices CYW55573 with Wi-Fi 6E, 2×2 MIMO CYW55572: with Wi-Fi 6, 2×2 MIMO CYW55571 with Wi-Fi 6E, 1×1 (80MHz) Wireless features WiFI Arm Cortex-R4 core Wi-Fi 6/6E, Tri-band (2.4/5/6 GHz) OFDMA, MU-MIMO, TWT, DCM 2×2 MIMO or 1×1 SISO 20/40/80 MHz channels, 1024-QAM, up to 1.2 Gbps PHY data rate STA and Soft AP mode […]

Infineon Claims to Have Implemented Post-Quantum Cryptography on a Contactless Security Chip

Today we protect systems, data, and communication using encryption keys of various lengths together with secure algorithms, and after a quick check, I found out banking websites are using 128-bit to 256-bit keys for secure (TLS v1.2) communication, and my Linux system is using a 4096-bit RSA key for secure communication over SSH. According to an Infineon press release, such key length are suitable for secure communication today, and current computer do not have sufficient processing power to break encryption, but with the advance of Quantum computer, even RSA-2048 keys won’t be secure, which means in 15 to 20 years all data encrypted (and stored) today with such keys would theoretically be accessible in the clear. That’s why the company has been working on next-generation post-quantum cryptography (PQC), and recently demonstrated the first PQC implementation on a commercially available contactless security chip, as used for electronic ID documents. The company […]

Infineon Showcases the Radar Board used in Google’s Project Soli, and Sense2Go Development Kit (Video)

Google’s Project Soli sensing technology uses a miniature radar to detect touchless gesture interactions, so that you can control devices such as wearables using gestures without having to physical touch the product. The 60 GHz radar technology used in the project has been developed by Infineon, and the company was recently interviewed by Arrow Electronics where they showcased Soli board, as well as another 24 GHz radar development kit called Sense2Go. The Soli board called BGT60TR24 features Infineon XMC4500 ARM Cortex M4 MCU, and a 60 GHz “CRIS20” radar chip designed specially for Project Soli by Infineon, and allowing 20mm resolution, falling to less than one millimeter with Google’s algorithms. The micro USB port will be used for power and programming. This board should be the one included in Project Soli development kit to be shipped to developers this fall. Infineon also have a Sense2Go 24GHz sensor development kit that […]

Rockchip RK6321 Dual Core Cortex A5 SoC Targets Wearables with WiFi, Bluetooth, 3G and GPS

Rockchip and Intel started to work on a platform called XMM6321 last year. It featured a dual Core Cortex A5 processor, 3G connectivity, WiFi, and GPS, which was aimed at entry level 3G smartphones and tablets. Fast forward to 2015, Rockchip showcased their RK6321 processor at the Hong Kong Electronics Fair, with very similar specifications compared to XMM6321, but instead it targets wearables such as smartwatches, or children and elderly tracker. So I’ m not quite sure whether Intel XMM6321 and Rockchip RK6321 are the same processor with a different name, or Rochchip tweaked RK6321 specifically for wearables. Key features of Rockchip RK6321 processor: CPU – Two Cortex A5 cores up to 1GHz with 32KB L1 D-cache, 32KB L1 I-cache, and 512KB L2 cache GPU – Supports OpenGL ES 2.0 Memory and Storage I/F – 16-bit LP-DDR2 SDRAM, 8-bit  eMMC, 16-bit NAND Display I/F – MIPI DSI up to FWVGA […]

Infineon XMC 2Go Cortex M0 Development Kit Sells for 5 Euros

Infineon brought another tiny, portable, and cheap ARM Cortex M0 board to market with XMC 2Go development kit featuring XMC1100 ARM Cortex M0 micro-controller with 16KB RAM, 64KB Flash, and tow breadboard friendly headers to access various serial interfaces and ADC pins.   Key features listed on Infineon website: MCU – Infineon XMC1100 ARM Cortex-M0 MCU @ 32 MHz with 64KB flash, 16KB RAM. Debugger – On-board J-Link Lite Debugger using an XMC4200 Microcontroller. Headers – 2×8 pin headers suitable for Breadbord with access to 2x USIC (Universal Serial Interface Channel: UART, SPI, I2C, I2S, LIN), 6x 12-bit ADC, external interrupts (via ERU), 4x 16-bit timers Misc – 2 x user LED, RTC Power – 5V Micro via USB, or 3.3V external power. ESD and reverse current protection Dimensions – 14.0 x 38.5 mm The board is programmed via USB using the same Dave IDE I tried with XMC4500 Relax […]

Infineon Hexagon Application Kit (XMC4500 Enterprise Edition) Overview and Quick Start Guide

A few months ago, Infineon sent me XMC4500 Relax Lite Kit for review, and I wrote a short Getting Started Guide about this 10 Euros Cortex M4 devkit. This month, I’ve received another XMC4500 kit with more features and expansion abilities: XMC4500 Enterprise Edition which is one of their Hexagon Application Kit. I received two packages: CPU Board XMC4500 General Purpose (CPU_45A-V2) with accessories (55 Euros) – This is what you get when you order to Basic Kit. J-Link Lite Cortex-M Debugger (40 Euros) Let’s open the packages and see what’s inside. In the first package, we’ve got XMC4500 CPU board, a pin extension board that can be used on any of the 3 extension connectors of the CPU board to access the signals easily, and a microUSB to USB cable for power. The JLink debugger comes with a 10-pin ribbon cable, and a microUSB to USB cable to connect to the […]

Getting Started with Infineon XMC4500 Relax Lite Kit and DAVE 3 IDE

Infineon Relax Lite Kit is a 10 Euros development kit based on Infineon XMC4500 Cortex M4 MCU with 160 KB SRAM and 1 MB flash, and featuring 2 USB OTG ports for debugging and powering up the board, 3 buttons (including reset), 2 LEDs, and 2 headers (through holes) giving access to the signals from the MCU such SPI, I2C, I2S, UART, CAN, ADC, DAC and PMW. The kit if available online via Hitec, but unless you live in Germany, this is not an interesting option, as international shipping costs over 100 Euros. So you’d better check local distributors in your country. The package only comes with the board, and you’ll need a USB to microUSB to power the board. To get started, simply connect the board via the USB cable to one of the USB OTG connectors, and to a Windows PC. The power LED (green) should lit up, […]

Infineon Unveils Low Cost XMC4500 Relax & Relax Lite Kits For Cortex M4 XMC4500 MCUs

Infineon XMC4500 micro-controller family is based on ARM Cortex-M4 core @ 120 MHz, comes with 128 to 160 KB SRAM, 512 KB to 1 MB “Program Memory” as well as interfaces & peripherals, such as DMA, Ethernet, USB, ADC, DAC, SPI, I2C, I2S, UART and more. They are specifically designed for industrial applications supporting temperatures up to 125°C. The family was announced at Embedded World 2012 in February, and mass production started in May. This week at Electronica 2012, the company announced two low cost development kits for XMC4500 MCU: XMC4500 Relax Lite Kit (10 Euros): XMC4500 Microcontroller (ARM® Cortex™-M4F based) Detachable on-board debugger Power over USB ESD and reverse current protection 2 x user button and 2 x user LED 4 x SPI-Master, 3x I2C, 3 x I2S, 3 x UART, 2 x CAN, 17 x ADC (12 bit), 2 x DAC, 31x PMW mapped on 2 Pin Headers […]

UP 7000 x86 SBC