Due to their numerous applications and game-changing features, SiC MOSFETs have become extremely popular in the electronics market. WeEn Semiconductors has emerged as a leading developer and manufacturer of cutting-edge Silicon Carbide (SiC) Metal-Oxide-Semiconductor Field-Effect Transistors (MOSFETs), which represent a substantial improvement in power semiconductor technology.
Silicon carbide (SiC) power devices have been widely used in server power supplies, energy storage systems and photovoltaic inverters. In recent years, the shift to electric drive in the automotive industry has driven the growth of silicon carbide (SiC) applications, and has led design engineers to focus more on the benefits of the technology and broaden its application areas.
Voltage monitors improve the reliability of microcontroller-based systems by monitoring the power supply and putting the microcontroller into reset mode in the event of a power failure, preventing system errors and failures. However, power supply defects such as noise, voltage burrs, and transients can all cause false reset problems that can affect system behavior. This article describes how the voltage monitor can improve system performance and reliability by addressing factors that can trigger false reset.
Ultrasound refers to sound waves with frequencies higher than 20,000 Hertz, which have specific applications in industrial and medical fields. With the progress of medical technology and the continuous update of equipment, ultrasound has become an indispensable application technology in the medical field.
Ethernet has been widely used in industrial and computing networks for decades, but today it is increasingly being deployed in automotive applications, replacing traditional networks such as controller Local Area Networks (CAN). Automotive Ethernet provides topological flexibility, high bandwidth, and stable communication to meet the in-vehicle data communication needs of original equipment manufacturers (Oems) during the transition from domain to area network architecture.
Many systems require battery power. Batteries can be used to provide backup power in the event of a power outage, but are mostly used in mobile devices - as large as electric cars and as small as hearing AIDS. In all battery-powered systems, power efficiency is key. In the case of the same running time, the lower the power efficiency, the larger the battery will be, and the higher its cost.
A lot of different types of electronics use semiconductor devices, such as those that change power, communicate and process signals. Because stress (such as heat, high voltage, high current or change frequency) can hurt a device’s performance, dependability and efficiency, it is best to make semiconductor gadgets that are stress-resistant.
A major aspect of improving vehicle electrification and autonomous driving is the spread of advanced driver assistance systems (ADAS). Today, these systems are rapidly becoming available in almost every vehicle on the market, and this trend will only continue as the technology matures. However, as the technology evolves, the hardware challenges facing ADAS designers become more complex.
STMicroelectronics (ST) has unified its tinyML development toolchains into a single stack, ST Edge AI Suite, which will cater for all ST hardware going forward, including ST’s microcontrollers, microprocessors and ML-enabled MEMS sensors.
With the proliferation of battery-powered applications, the demand for high-quality and inexpensive batteries and battery packs continues to soar. Battery manufacturers continue to adopt new chemicals and introduce smaller sizes, and new and complex limitations and requirements have been created, but the basic function of the battery has not changed: extended operating time and shelf life without compromising system performance.
The significance of developing a renewable-energy power system is directly associated with addressing climate change issues around the globe. The consequences of climate change have economic implications, which impact diverse sectors and regions. As global temperatures continue to rise and extreme weather events become more prevalent, crucial elements like agricultural productivity, water resources and supply chains are directly affected.
Usually, e-mobility is associated with vehicles with a large battery charged by electricity. However, other exciting drive technologies have emerged recently. Among the most promising solutions are electric vehicles with hydrogen infrastructure, which use fuel cells to generate electricity, an alternative without emissions and without long charging times
Transmitting data over cables in industrial applications comes with the challenges of a high-transient–voltage environment and high EMC interference. Compact digital isolators can be a solution. For a better understanding of the situation, the application of an industrial intralogistics system with various functional units is used.
In September of this year, Intel announced that it was the first to launch a glass substrate for the next generation of advanced packaging, and plans to bring a complete solution to market in the next few years, so that the number of transistors in a single package continues to increase, continuing to push Moore's Law to meet the computing needs of data-centric applications.
Vehicle electrification is a sector that still has many technical challenges that automakers are focusing on. Electronic designers and engineers of powertrain systems and high-voltage technology systems for a sustainable future are interested in achieving greater range for EVs, reducing design complexity and costs of external components.
Consumers expect a variety of electronic devices to be equipped with portable, fast and efficient chargers. With most electronics moving to USB Type-C® chargers, more and more users want to be able to charge all their devices with a compact power adapter.
Arm's platforms such as Arm Total Compute Solutions, Arm Neoverse, Arm Corstone and SOAFEE, which have been launched in recent years, help eco-partners provide complete, integrated solutions that enable customers to quickly adopt and launch their own solutions to support the needs of the era of generative AI.
Global carbon dioxide (CO2) reduction is unquestionably the most significant global challenge of this century. The goal of achieving carbon neutrality by 2050 and limiting the long-term increase in global average temperature to 1.5°C has remained unchanged since the signing of the historic Paris Agreement in 2015.