Imec’s new direct-digitization readout design enables small, low
2022-06-20Low power and small area become crucial IC design challenges for the development of high-channel-count neural interfaces. Recently, several innovative readouts architectures have been investigated to meet these demands, while still trying to maintain good performance in other metrics such as noise, electrode DC offset cancellation and input range. However, a trade-off between all these metrics is not easy to achieve. Direct-digitization front-ends that convert the signals from the analog to the digital domain close to the signal source, have shown great potential to dramatically reduce the area, but they can still consume high power or exhibit limited bandwidth and/or electrode DC offset cancellation.
Imec now presents a digitally-intensive neural recording IC that achieves noise, power and area performances comparable to or better than the current state-of-the-art Neuropixels designs, while at the same time increasing the dynamic range and electrode DC offset tolerance via an AC-coupled Δ-ΔΣ modulator. “Our design succeeded in combining AC coupling and direct digitization to achieve rail-to-rail DC offset cancellation and a higher input range (43 mVpp) than other AC-coupled designs. This is essential to prevent saturation of the recording channels and tolerate possible movement/stimulation artifacts. The AC-coupled input stage further reduces the power consumption (total per channel of 8.34 μW) since only AC signals are digitized,” explains Carolina Mora Lopez, team leader of the Circuits for Neural Interfaces Team, imec.
This specific Δ-ΔΣ architecture enables the implementation of a large part of the functionality¬ – e.g. the anti-aliasing filter – in the digital domain. Therefore, it is possible to significantly shrink the total channel area (0.005 mm2) and improve the signal quality by leveraging the advantages of a highly-scaled technology node (22nm FD-SOI). “This scalable digitally-intensive design ensures a small footprint and low-power IC with good performance for the concurrent acquisition of neural signals. It’s opening the way towards even smaller probes with higher electrode densities that would drive neuroscientific research forward,” concludes Carolina Mora Lopez.
Die photo of the 128-channel fabricated readout IC
About imec
Imec is a world-leading research and innovation center in nanoelectronics and digital technologies. Imec leverages its state-of-the-art R&D infrastructure and its team of more than 5,000 employees and top researchers, for R&D in advanced semiconductor and system scaling, silicon photonics, artificial intelligence, beyond 5G communications and sensing technologies, and in application domains such as health and life sciences, mobility, industry 4.0, agrofood, smart cities, sustainable energy, education, … Imec unites world-industry leaders across the semiconductor value chain, Flanders-based and international tech, pharma, medical and ICT companies, start-ups, and academia and knowledge centers. Imec is headquartered in Leuven (Belgium), and has research sites across Belgium, in the Netherlands and the USA, and offices in China, India, Taiwan and Japan. n 2021, imec's revenue (P&L) totaled 732 million euro.
Imec is a registered trademark for the activities of imec International (IMEC International, a legal entity set up under Belgian law as a “stichting van openbaar nut”), imec Belgium (IMEC vzw supported by the Flemish Government), imec the Netherlands (Stichting IMEC Nederland), imec Taiwan (IMEC Taiwan Co.), imec China (IMEC Microelectronics (Shanghai) Co. Ltd.), imec India (IMEC India Private Limited), imec San Francisco (IMEC Inc.) and imec Florida (IMEC USA Nanoelectronics Design Center Inc.).
Contact 聯繫窗口
Mavis Ho 何玫玲
General Manager, Strategic Partnerships, Greater China & SEA
大中華暨東南亞區 總經理
Mobile: +886 989 837678
Email: Mavis.Ho@imec.be