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AM antenna technology for next-gen electronics developed by UC Berkeley researchers – Metal Additive Manufacturing magazine


Researchers at the University of California, Berkeley have developed a new antenna technology using additive manufacturing (AM) techniques that could revolutionize the way antennas are integrated into next-generation electronics. The research team, led by Professor Xiang Zhang, has created a new type of AM antenna that is smaller, more efficient, and more versatile than traditional antennas.

The new antenna technology is made using a process called laser powder bed fusion, which allows for the precise layer-by-layer deposition of metal to create complex geometries. This technique allows for the antennas to be customized to fit specific design requirements, making them ideal for a wide range of applications including smartphones, wearable devices, and Internet of Things (IoT) devices.

One of the key advantages of the new AM antennas is their size. Traditional antennas are limited by the size of the materials used to construct them, which can limit their performance and integration into small devices. The AM antennas developed by the UC Berkeley team are significantly smaller and lighter than traditional antennas, making them ideal for use in compact electronics.

In addition to their size, the new AM antennas are also more efficient than traditional antennas. By optimizing the design and materials used in the manufacturing process, the researchers were able to achieve higher performance levels with the new antennas. This increased efficiency could lead to improved signal strength and connectivity in electronic devices.

Overall, the development of this new AM antenna technology represents a major breakthrough in the field of electronics and telecommunications. The UC Berkeley researchers are now looking to commercialize their technology and bring it to market in the near future. With the potential to revolutionize the way antennas are integrated into next-generation electronics, this new technology could have a significant impact on the performance and functionality of a wide range of devices.

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Photo credit www.metal-am.com

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