Wireless charging for EVs (Electric Vehicles) is an emerging technology, but one that has always been dreamed of by mankind, which allows us to completely change the way electric vehicles are charged. With it, it is possible to fully recharge your car automatically and without the need for any connection of electrical cables or sockets.
The vehicles of the future will be more ecological and efficient - a perfect combination of hydrogen technology and artificial intelligence. The goal of a future based on safety, freedom and equality is the cornerstone of Hyundai Motor. The goal of low environmental impact means abandoning coal technology in favor of renewable energy.
Conversational AI is a rapidly growing field of machine learning that aims to make human-computer interaction more natural and intuitive. It uses advanced algorithms and techniques to understand natural language input and enable machines to respond like humans.
Gallium nitride semiconductor technology is transforming many industrial fields due to its ability to work better and more efficiently than standard silicon-based parts. GaN has many benefits, such as a wide bandgap, high electron mobility and strong chemical bonds. These properties have led to widespread use in many applications requiring small size, high power density and heat resistance.
In the current age of electric mobility, there is a crucial need for power electronics that are both efficient and high-performing. Traction inverters are crucial components in electric vehicles (EVs) as they are responsible for transforming DC power from the battery into AC power to operate the electric motor.
Microchip Technology introduces the PIC16F13145 series of single chip computers (MCUS) to provide tailor-made hardware solutions. This family of MCUS is equipped with a new kernel-independent peripheral (CIP) that allows you to configure logic block modules to create custom hardware-based combined logic functions directly within the MCU.
To reduce the time required to charge, the industry is using DC fast chargers (DCFCs) and ultra-fast chargers. The DCFCs and ultra-fast chargers bypass the on-board chargers of electric vehicles and provide more power directly to the battery, which can be charged at a rated current of 200-500 A, depending on the capacity of the battery.
The idea of baking security into an application isn’t new in the software world, nor are security features in semiconductor technologies, such as memory. But the value of data, particularly in artificial-intelligence (AI) workloads, means hardware-enabled security is getting more attention.
A zone architecture and Ethernet represent the future of networking in vehicles. New features in vehicles, as well as the shift to aggregating sensors and actuators into zonal modules, require a high-bandwidth and low-latency in-vehicle communication network. A zone architecture implementing Ethernet enables the growing trend of the software-defined vehicle.
Since the Human Genome Project’s monumental feat of the first sequenced human genome in 2003, high-throughput sequencing has witnessed remarkable advancements. The pivotal role of DNA testing and sequencing came to the forefront during the COVID-19 pandemic, where it played a crucial role in diagnostic testing and understanding the SARS-CoV-2 virus.
HDI PCB technology has been a major enabler of advancement in the electronics industry, providing the dense interconnections and intricate circuitry needed to push the boundaries of miniaturization and functionality.
Matter, a smart-home tech standard maintained by the Connectivity Standards Alliance (CSA), was first approved in October 2022. Throughout 2023, new devices were introduced that supported the Matter standard, but few demonstrated the full value and versatility of the technology.
The chip industry’s big three—Intel, Samsung and Taiwan Semiconductor Manufacturing Co. (TSMC)—are “getting serious” about a new 3D device architecture that promises to solve scaling problems that persist with today’s state-of-the-art nanosheet technology, experts told EE Times.
LPDDR memory (or mobile DRAM, as it was once known), was developed in the late 2000s primarily with smartphones in mind, which is why it was tailored for low power consumption and point-to-point connectivity.
Consider a day with abundant sunshine, resulting in ample renewable energy production, such as through photovoltaic panels. This energy can be utilized while an EV is parked and connected to the charging system, effectively charging the battery.
While traditional signal-level HIL tests effectively verify BMS functional strategies, they fail to validate battery pack performance effectively.
Cascode GaN power devices use a d-mode HEMT device and offer many advantages in higher-power–conversion applications.The cascode architecture with power gallium nitride devices uses a depletion-mode (d-mode) HEMT device and offers many advantages in higher-power–conversion applications.
To reduce parasitic inductances and fully utilize SiC devices, it is crucial to improve the design and architecture of the power system loops.