medical

Posted on by Jean-Luc Aufranc (CNXSoft) - 9 Comments on UP Squared i12 is a compact Alder Lake-P single board computer

UP Squared i12 is a compact Alder Lake-P single board computer

UP Squared i12

AAEON’s UP Squared i12 is a single board computer with the same dimensions as the UP Squared (Apollo Lake) and UP Squared V2 (Elkhart Lake) boards, and mostly the same ports layout, but powered by a more powerful 12th generation Intel Alder Lake-P processor from a Celeron 7305E up to an Intel Core i7-1270PE. The board comes with up to 8 or 16GB LPDDR5 memory, SATA and NVMe storage support, triple 4K display support through HDMI, DisplayPort and USB-C interfaces, dual Gigabit Ethernet, a few USB boards, and some wafers and headers such as a Raspberry Pi-compatible GPIO header. UP Squared i12 specifications: 12th generation Alder Lake-P SoC: Intel Core i7-1270PE 12-core/16-thread processor @ 3.30GHz / 4.50GHz (Turbo) with 96EU Intel Xe graphics – PBP: 28W, up to 64W MTP Intel Core i5-1250PE 12-core/16-thread processor @ 3.20GHz / 4.40GHz (Turbo) with 80EU Intel Xe graphics – PBP: 28W, up to […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 7 Comments on NXP i.MX 91 single-core Cortex-A55 SoC to power Linux-based cost-optimized edge devices

NXP i.MX 91 single-core Cortex-A55 SoC to power Linux-based cost-optimized edge devices

NXP i.MX 91 CPU

NXP has just unveiled the NXP i.MX 91 single-core Cortex-A55 processor following the introduction of the i.MX 93 in 2021, and designed for cost-optimized edge devices running Linux. The NXP i.MX 93 processor comes with up to two Cortex-A55 cores, a Cortex-M33 real-time core, and an Ethos U65 microNPU, but targeting entry-level Linux systems, the NXP i.MX 91 processor does without the real-time core and the AI acceleration, while still integrating NXP EdgeLock Secure Enclave, and the company highlights support for multiple wireless connectivity options through companion chips such as the IW612 that supports Wi-Fi 6, Bluetooth 5.2, 802.15.4, and the new Matter protocol. NXP i.MX 91 specifications: CPU – Arm Cortex-A55 running at up to 1.4GHz with 256KB L2 cache System Memory – Up to 2.4GT/s x16 LPDDR4 with Inline ECC Storage 3x SD 3.0, SDIO 3.0, eMMC 5.1 1x Octal SPI including support for SPI NOR and SPI […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on AMD Versal AI Edge SoC FPGA system-on-module targets ADAS, robotics, medical imaging, and other AI applications

AMD Versal AI Edge SoC FPGA system-on-module targets ADAS, robotics, medical imaging, and other AI applications

AMD Xilinx Versal AI Edge System-on-Module

iWave Systems iW-Rainbow-G57M is a system-on-module (SoM) based on the AMD (Xilinx) Versal AI Edge series of Cortex-A72/R5 SoC FPGAs designed to deliver AI acceleration at relatively low power for demanding applications such as ADAS, robotics, and medical imaging. The module comes with up to 8GB 64-bit LPDDR4, 16GB eMMC Flash, 256MB QSPI Flash, delivers up to 45 TOPS of AI performance, and features eight transceivers that can be used for high-speed Ethernet, PCIe, MIPI DSI/CSI interfaces, and/or others as required by the customer’s specific project. iW-Rainbow-G57M specifications: FPGA SoC – AMD Xilinx Versal AI Edge/Prime SFVA784 package (VE2302, VE2202, VE2102,  or VE2002) with Dual Arm Cortex-A72 core processor @ up to 1.6 GHz Dual-core Arm Cortex-R5F Up to 328K Logic cells & 150K LUTs Programmable Network on Chip (NoC) Up to 45 TOPS (INT4) AI compute 8x GTYP Transceivers @ 28.21 Gbps (VE2302 & VE2202 only) Memory – Up […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 6 Comments on The world’s smallest Bluetooth SoC: InPlay NanoBeacon SoC IN100 in 2.0×1.1mm WLCSP package

The world’s smallest Bluetooth SoC: InPlay NanoBeacon SoC IN100 in 2.0×1.1mm WLCSP package

world smallest bluetooth soc IN100 WLCSP

InPlay has just announced a Wafer Level Chip Scale Package (WLCSP) for its NanoBeacon SoC IN100, making it the world’s smallest Bluetooth System-on-a-Chip (SoC) at just 2.0 x 1.1 x 0.35mm. The NanoBeacon IN100 is not new per se, and we covered the still tiny Bluetooth SoC when writing about Sparkfun NanoBeacon Bluetooth 5.3 module based on the DFN8 package measuring 2.5×2.5mm. The highlights include its low-code/no-code interface and an ultra-low power consumption of below 1 uW. InPlay NanoBeacon SoC IN100 specifications: Memory – 4 KB SRAM +  4 Kbit OTP memory Bluetooth 5.3 compliant Beacon Modes: Proprietary, BT, Google Eddystone, and Apple iBeacon compliant 2.4GHz RF frequency band, MedRadio band (2.36GHz) Programming-free and firmware-less design Long-range transmission: up to several hundred meters Security Authentication of beacon ID Privacy of advertising payload Supply voltage range – 1.1V ~ 3.6V (Single 1.5V coin battery support) Power consumption Sub-uW power consumption for […]

Posted on by Jean-Luc Aufranc (CNXSoft) - 1 Comment on EPIC-ADS7-PUC Alder Lake-S embedded system is made for robotics, automation, healthcare imaging

EPIC-ADS7-PUC Alder Lake-S embedded system is made for robotics, automation, healthcare imaging

AAEON EPIC-ADS7-PUC

AAEON EPIC-ADS7-PUC is an embedded system based on an up to 12th Gen Intel Core i7-12700E Alder Lake-S processor and designed for robotics, automation, and healthcare imaging applications. The embedded computer supports up to 32GB DDR5 and two SATA III storage devices, offers three 4K video outputs via HDMI and DisplayPort connectors, one 2.5GbE and three Gigabit Ethernet ports,  along with Intel TCC support, up to six USB 3.2 Gen 2 ports, two RS232/422/4485 COM ports, and some SKUs support Intel Time Coordinated Computing (TCC) for real-time control. Key Features: SoC – Intel Core Alder Lake-S processor, up to the 12-core (8P+4E) Core i7-12700E processor clocked at up to 4.8 GHz with Intel UHD Graphics 770; TDP: 65W Chipset – Intel 600 Series Desktop Chipset (R680E/Q670E/H610E) System Memory – Up to 32GB DDR5 4800 via 2x SODIMM socket (16GB max each) Storage – 2x SATA 3 with +5V onboard SATA […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on HealthyPi 5 WiFi & BLE biosignal-acquisition sensor platform captures body temperature, ECG, PPG, SpO₂, and other vitals (Crowdfunding)

HealthyPi 5 WiFi & BLE biosignal-acquisition sensor platform captures body temperature, ECG, PPG, SpO₂, and other vitals (Crowdfunding)

Standalone Vital Sign Monitor

HealthyPi 5 is an open-source sensor platform for biosignal acquisition based on Raspberry Pi RP2040 microcontroller and ESP32-C3 WiFi & BLE module used to capture vitals such as electrocardiogram (ECG), respiration, photoplethysmography (PPG), oxygen saturation (SpO₂), and body-temperature data. It is a complete redesign of the HealthyPi v4 Raspberry Pi HAT with many of the same features. While the HealthyPi 5 also follows the Raspberry Pi HAT form factor and can be connected to a Raspberry Pi SBC to analyze the data, it can also be used as a standalone device with the processing handled by the RP2040 dual-core Cortex-M0+ microcontroller and connectivity through an ESP32-C3 wireless module, and data visualized on a 3.5-inch SPI display or a smartphone over WiFi or Bluetooth. HealthyPi 5 specifications: MCU – Raspberry Pi RP2040 dual-core Arm Cortex-M0+ microcontroller @ 133 MHz with 264 KB SRAM Wireless Module – ESP32-C3 RISC-V module with 2.4 […]

Posted on by Jean-Luc Aufranc (CNXSoft) - No Comments on Renesas RZ/T2L Arm Cortex-R52 microprocessor embeds EtherCAT controller

Renesas RZ/T2L Arm Cortex-R52 microprocessor embeds EtherCAT controller

Renesas RZ/TL2 Cortex-R52 microprocessor

Renesas RZ/T2L is a cost-optimized single-core Arm Cortex-R52 microprocessor (MPU) with an EtherCAT controller based on the same architecture as the higher-end Renesas RZ/T2M dual-core Cortex-R52 processor introduced last year, but at about half the size. The new MPU enables high-speed and accurate real-time processing performance required for AC servo drives, inverters, industrial robots, collaborative robots, etc.. used in factory automation (FA), medical equipment, building automation (BA), and other sectors and applications where EtherCAT is being adopted. Renesas RZ/T2L key features and specifications: CPU – Arm Cortex-R52 clocked at up to 800MHz with 16KB L1 I/D cache, 512KB ATCM, 64KB BTCM Memory – 1MB RAM with ECC Trigonometric function accelerator Ethernet EtherCAT slave controller: 3x ports 1x Ethernet MAC Motor control 2-channel encoder interface with support for A-format, EnDat2.2, BiSS-C, HIPERFACE DSL, FA-CODER Functional safety (FuSa) software up to SIL3 Motor current loop < 1µs 3-phase complementary PWM output for […]

Posted on by Jean-Luc Aufranc (CNXSoft) - Comments Off on PiEEG shield for Raspberry Pi enables brain computer interfaces (Crowdfunding)

PiEEG shield for Raspberry Pi enables brain computer interfaces (Crowdfunding)

PiEEG Shield Raspberry Pi BCI

PiEEG is an open-source hardware Raspberry Pi shield that measures electroencephalography (EEG), electromyography (EMG), and electrocardiography (ECG) bio-signals and provides a brain-computer interface to applications or robots for gaming, entertainment, sports, health, etc… Ildar Rakhmatulin, a Research Associate at Heriot-Watt University in Edinburgh, is passionate about open-source brain-computer interfaces and first created the IronBCI project based on ADS1299 and STM32 and published a research paper entitled “Low-cost brain computer interface for everyday use” about his work. But cost increases related to the semiconductors shortage of recent years meant the price for his “low-cost” project shot up to over $1,000. So he went back to the drawing board and created the PiEEG shield for Raspberry Pi now available on Crowd Supply. PiEEG shield specifications: ADC – Texas Instruments ADS1299 Analog-to-Digital Converter for biopotential measurements Supported SBCs – Raspberry Pi 3 or 4, and boards with the same 40-pin GPIO header. Host […]

EmbeddedTS embedded systems design