Text, photo/ Yangcheng Evening News all-media reporter Guo Qi
Low carbon charger, multi-porous and use
According to the information released by the Shenzhen Environment Department, Shenzhen has achieved a significant reduction in carbon emission intensity while economic and social development, becoming a megacity with the lowest carbon emission level in China, and initially realizing the decoupling of carbon emissions from economic growth.
The keyword "low carbon" comes from the interlocking persistence of society, enterprises and individuals, and can be started from a charger. On December 11, Shenzhen consumer electronics brand Bess and Recycling Treasure jointly held a free exchange for fast charging activity officially opened. In order to actively respond to the theme of "Jointly Building an Open Innovation Platform and Responding to the Development Challenges of the Times" carried out by Shenzhen, this activity was launched through the method of "replacing old chargers with new GaN (Gallium Nitride) chargers". During this month, users in Shenzhen made an appointment by scanning the code online, and after the reservation was successful, the user could bring the old charger to the designated store for verification information and receive the new charger. The event offers two new products: super fast charger 40W and "30W gallium nitride charger", both of which will be randomly given to participating users, which will bring a new high-speed charging experience for new users.
According to reports, in the global low-carbon energy-saving and environmental protection environment, wide bandgap semiconductor materials represented by GaN (gallium nitride) play an increasingly important role with their advantages of high efficiency, high density and high reliability. GaN (Gallium Nitride) due to its higher breakdown strength, faster switching, higher thermal conductivity and lower on-resistance, GaN-based power devices are superior to silicon-based devices, compared with silicon-based devices, Gallium Nitride devices can conduct electrons more efficiently than 1000 times higher, and the advantages it brings can be simply summarized as: higher efficiency, smaller size, and lower cost of power conversion systems.
Source | Yangcheng Evening News Yangcheng Pie
Editor-in-charge | Wu Tong
![Apple's new 140W fast charge has a built-in nano-micro gallium nitride power device[fig]](data:image/gif;base64,R0lGODlhAQABAIAAAP///wAAACwAAAAAAQABAAACAkQBADs=)