IoT

Arrow Electronics launches intelligent vision ecosystem

Thu, Mar 28, 2024

Arrow Electronics is utilising the onsemi Imager Access System (IAS) module standard for developing intelligent vision solutions for use in robotics, machine vision, commercial cameras and other uses.

The solution reduces the design complexities that are common with designing a product that utilises image sensors. Part of that complexity is there is no standardisation of the hardware interfaces of the different technology blocks. This is where the onsemi IAS module standard comes in and is adopted throughout the ecosystem.

Working with Appletec, Arrow developed the newest IAS module, AP-VISION-AR0830-83 that utilises the latest generation of onsemi image sensors.

“The onsemi Hyperlux LP family of sensors set a new industry benchmark for ultra-low power sensor design. Combined with a small form factor, purpose-oriented features and best-in-class imaging, Hyperlux LP will be a fixture for smart home, office, and robotics for years to come,” said Stephen Harris, senior director of marketing for onsemi’s Industrial and Commercial Sensing Division. “onsemi is now able to bring the newest high-performance, feature-rich 4k sensor in the Hyperlux family, AR0830, to market with Arrow’s IAS module, allowing our customers to reduce camera development efforts significantly with best-in-class module design.”

This new module joins the existing portfolio of IAS modules offered by Arrow and Appletec.

Arrow worked with its company, eInfochips, and onsemi to develop drivers that enable the Appletec IAS modules to work with leading embedded processors.
“eInfochips has extensive experience in developing end-to-end vision solutions. This includes hardware design, image sensor integration and tuning, image processing, image driver development, low latency streaming and AI Inferencing on edge/cloud,” said Gaurav Patel, vice president and general manager of product engineering services for eInfochips. “Companies rely on eInfochips to deliver innovative vision solutions and accelerate and de-risk design cycles.”

Learn more about the Arrow and onsemi intelligent vision eco-system, click here https://www.arrow.com/en/family/onsemi-image-sensors

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Renesas introduces industry’s first general-purpose 32-bit RISC-V MCUs with internally developed CPU core

Wed, Mar 27, 2024

Renesas Electronics Corporation has announced the industry’s first general-purpose 32-bit RISC-V-based microcontrollers (MCUs) built with an internally developed CPU core. While many MCU providers have recently joined investment alliances to advance the development of RISC-V products, Renesas has already designed and tested a new RISC-V core independently, which is now implemented in a commercial product and available globally. The new, R9A02G021 group of MCUs provides embedded systems designers a clear path to developing a wide range of power-conscious, cost-sensitive applications based on the open-source instruction set architecture (ISA).

While most of today’s RISC-V solutions target specific applications, the R9A02G021 group MCUs are designed to serve multiple end markets, such as IoT sensors, consumer electronics, medical devices, small appliances and industrial systems. Similar to existing general-purpose MCUs, designers will have access to a full-scale development environment for the R9A02G021, provided by Renesas and its extensive network of toolchain partners. This will allow them to significantly reduce costs, engineering resources and development time.
The R9A02G021 RISC-V group offers ample performance with clock speeds up to 48MHz, while consuming extremely low power in standby at 0.3µA. It provides 128KB of fast flash memory, 16KB of SRAM memory and 4KB of flash memory for data storage. Designed to withstand harsh conditions, the MCUs can operate reliably at ambient temperatures ranging from -40 °C to 125 °C. The MCUs come with standard serial communications interfaces, as well as digital-to-analog converter (DAC) and analog-to-digital converter (ADC) functions to facilitate high-speed and secure connections with sensors, displays and other external modules. The wide 1.6V to 5.5V input voltage range enables low-voltage, low-current operation and allows noise immunity, making the R9A02G021 ideal for battery-powered devices.

The R9A02G021 RISC-V MCUs are fully supported by Renesas’ e² studio Integrated Development Environment (IDE), offered to customers at no cost. The comprehensive toolchain includes a code configurator, the LLVM compiler and a fast prototyping board (FPB). Complete development environments are also available from Renesas’ partners: IAR with its Embedded Workbench IDE and I-jet debug probe, and SEGGER with the Embedded Studio IDE, J-Link debug probes and Flasher production programmers. Supporting documentation includes the FPB user manual, a Getting Started guide, schematics, Bill of Materials (BOM), and Gerber files.

The R9A02G021 RISC-V MCU is available today through global distributors, along with the FPB, software and development tools.

https://www.renesas.com/MCUs

Written by Annie Shinn

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Infineon announces the industry’s first wide input voltage hot-swap controller for telecom infrastructure

Tue, Mar 26, 2024

Infineon is expanding its XDP digital power protection controller product family with the XDP700-002, the industry’s first -48 V wide input voltage digital hot-swap controller with a programmable safe operating area (SOA) control designed for telecom infrastructure.

It boasts superior current reporting accuracy of less than ±0.7 percent, enhancing the system’s fault detection and reporting accuracy. Furthermore, the product features boost-mode control technology for safer turn-on of field-effect transistors (FETs) in systems with non-optimal SOA. This new member of the XDP product family is tailored for a spectrum of telecom applications, including remote radio head power, base station power distribution, active and passive antenna systems, 5G small cell power, and telecom UPS systems.

The XDP700-002 employs a three-block architecture that combines high-precision telemetry for monitoring and fault detection, digital SOA control optimised for power MOSFETs, and integrated gate drivers for n-channel power MOSFETs. The XDP700-002 operates within an expansive -6.5 to -80 V input voltage range and can withstand transients up to -100 V for 500 ms, delivering current and voltage telemetry with a remarkable 0.7 percent and 0.5 percent accuracy respectively. It features precise PMBus compliant active monitoring for enhanced system reliability. A programmable gate shutdown during severe overcurrent (SOC) ensures robust shutdown operation within just 1 µs. The advanced closed-loop SOA control ensures higher MOSFET reliability, and the fully digital operating mode minimises the need for external components offering a compact solution making it an optimal fit for space-constrained designs in a cost-effective way.

With options for external FETs selection and a one-time programmable (OTP) option, the XDP700-002 offers flexibility for programming faults and warnings detection as well as de-glitch levels for various usage models. Its analog-assisted digital mode offers backward compatibility with legacy analog hotswap controllers. By offering robust functionality and adaptability, the XDP700-002 exemplifies Infineon’s continuous commitment to innovation and system reliability in telecom infrastructure.

https://www.infineon.com/xdp700-002.

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New Renesas MCUs with high-resolution analog and Over-the-Air update support

Fri, Mar 22, 2024

Renesas has introduced the RA2A2 microcontroller (MCU) Group based on the Arm Cortex-M23 processor. The new, low-power devices offer a 24-bit Sigma-Delta analog-to-digital converter (SDADC), and an innovative dual-bank code flash and bank swap function that make it easy to implement firmware over-the-air (FOTA) updates for smart energy management, building automation, medical devices, consumer electronics and other IoT applications that can benefit from firmware updates.

The RA2A2 devices offer multiple power structures and voltage detection hardware to realize energy-efficient, ultra-low power operation as low as 100 µA/MHz in active mode and 0.40µA in software standby mode. An independent power supply real-time clock extends battery life for applications requiring long lifetime management in extreme conditions. The new MCUs also offer AES hardware acceleration, a high-precision (±1.0%), high-speed on-chip oscillator, a temperature sensor, and a wide operating voltage range from 1.6V to 5.5V.

RA2A2 MCUs contribute to the digitalization of conventional systems with key features including high-level analog sensing, FOTA support, 8KHz/4KHz hybrid sampling, and AES hardware accelerator functions. When the end-systems are digitalized, it is possible to analyse individual systems status seamlessly for further energy-efficient, streamlining system operation. For example, next generation smart electricity meters with Non-Intrusive Load Management (NILM) technology enable energy consumption monitoring based on detailed analysis of the current and voltage of the total load. The adoption of smart meters with NILM is the most cost-effective and scalable solution for increasing energy efficiency and lowering energy consumption.

The new RA2A2 Group MCUs are supported by Renesas’ Flexible Software Package (FSP). The FSP enables faster application development by providing all the infrastructure software needed, including multiple RTOS, BSP, peripheral drivers, middleware, connectivity, networking, and security stacks as well as reference software to build complex AI, motor control and cloud solutions. It allows customers to integrate their own legacy code and choice of RTOS with FSP, thus providing full flexibility in application development. Using the FSP will ease migration of RA2A2 designs to larger RA devices if customers wish to do so.

https://www.renesas.com/RA2A2

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