48V-Serie

Mild hybrids make conventional combustion engines significantly more efficient with little effort. This involves recovering kinetic energy while the vehicle is braking ("recuperation") – just like KERS in Formula 1.This energy, otherwise lost, is stored in a 48V battery and then used to support the engine and power a high-performance 48V on-board electrical system.

What is a 48V system?

The 48V system represents a major leap forward, offering four times the power of its predecessor. Designed specifically for electric components, a 48V system isn’t merely a technical specification – it’s a key enabler of numerous improvements: 1.

What is a 48V Bev?

BEVs with 48V architecture require components and charging systems compatible with both 48V and higher-voltage battery packs. This means careful coordination between low- and high-voltage systems is necessary, as well as advanced power management strategies to ensure smooth operation.

What is a 48V EV?

The emergence of 48V architecture in EVs is a turning point for meeting environmental regulations and consumer demands. By enhancing fuel efficiency, performance, and versatility, 48V systems pave the way for a future filled with cleaner, more exciting driving experiences.

How strong is a 48V system?

The 48V revolution isn’t just about raw power. While a significant boost in voltage might suggest brute force, the true strength of 48V systems lies in its capability to respond to the increasing complexity of BEVs. As these vehicles grow more sophisticated, they need a more robust network to manage their increasingly complex high-tech components.

What is a 48V power distribution architecture?

Our innovative power electronics technologies allow users to save energy and run applications at a market-leading efficiency and power density. 48V power distribution architecture focused on mass production for hyperscale data centers and AI servers - high efficiency and high power density applications.

What is the difference between a 12V and a 48V system?

In a 48V system, the lower current required to deliver a given amount of power compared to a 12V system results in significantly reduced heat and resistance losses. For example, a 48V system delivering 3 kW of power carries only a quarter of the current needed by a 12V system. This leads to substantial energy savings and reduced heat generation.