TECHNOLOGY
A first-of-its-kind chip architecture that uses both electronic and light-based components could pave the way for 6G technology. Recent research offers a blueprint for communications chips needed for advanced radar, satellite systems, advanced wireless networks and even future generations of 6G and 7G mobile technology. By integrating light-based, or photonic, components into a conventional electronic-based circuit board, researchers dramatically increased radio frequency bandwidth while demonstrating improved signal accuracy at high frequencies. They built a working prototype of the networking semiconductor chip, measuring five by five millimetres, by sourcing a silicon wafer and attaching the electronic and photonic components, in the form of ‘chiplets’, like LEGO bricks. Crucially, they also improved how the chips filtered information.
Wireless transceivers send out data, and microwave filters built into conventional chips block out signals in the wrong frequency range. Microwave photonic filters perform the same function for light-based signals. But it’s been extremely challenging to combine photonic and electronic components and effective microwave photonic filters on one chip. But by fine-tuning precisely into specific frequencies at higher bands, which tend to be crowded, more information can flow through the chip more accurately. This is important for future wireless technologies, which will come to rely on higher frequencies. These have shorter wavelengths, and can therefore carry more energy, which equates with a higher bandwidth for data. “Microwave photonic filters play a crucial role in modern communication and radar applications, offering the flexibility to precisely filter different frequencies, reducing electromagnetic interference and enhancing si
