Tuesday, August 20th 2024
xMEMS Introduces 1mm-Thin Active Micro-Cooling Fan on a Chip
xMEMS Labs, developers of the foremost platform for piezoMEMS innovation and creators of the world's leading all-silicon micro speakers, today announced its latest industry-changing innovation: the xMEMS XMC-2400 µCooling chip, the first-ever all-silicon, active micro-cooling fan for ultramobile devices and next-generation artificial intelligence (AI) solutions.
For the first time, with active, fan-based micro-cooling (µCooling) at the chip level, manufacturers can integrate active cooling into smartphones, tablets, and other advanced mobile devices with the silent, vibration-free, solid-state xMEMS XMC-2400 µCooling chip, which measures just 1-millimeter thin.
xMEMS µCooling is based on the same fabrication process as the award-winning, sound-from-ultrasound, xMEMS Cypress full-range micro speaker for ANC in-ear wireless earbuds, which will be in production in Q2, 2025 with several customers already committed to the device. xMEMS plans to sample XMC-2400 to customers in Q1, 2025.
Source:
xMEMS
For the first time, with active, fan-based micro-cooling (µCooling) at the chip level, manufacturers can integrate active cooling into smartphones, tablets, and other advanced mobile devices with the silent, vibration-free, solid-state xMEMS XMC-2400 µCooling chip, which measures just 1-millimeter thin.
"Our revolutionary µCooling 'fan-on-a-chip' design comes at a critical time in mobile computing," said Joseph Jiang, xMEMS CEO and Co-Founder. "Thermal management in ultramobile devices, which are beginning to run even more processor-intensive AI applications, is a massive challenge for manufacturers and consumers. Until XMC-2400, there's been no active-cooling solution because the devices are so small and thin."The XMC-2400 measures just 9.26 x 7.6 x 1.08 millimeters and weighs less than 150 milligrams, making it 96 percent smaller and lighter than non-silicon-based, active-cooling alternatives. A single XMC-2400 chip can move up to 39 cubic centimeters of air per second with 1,000Pa of back pressure. The all-silicon solution offers semiconductor reliability, part-to-part uniformity, high robustness, and is IP58 rated.
xMEMS µCooling is based on the same fabrication process as the award-winning, sound-from-ultrasound, xMEMS Cypress full-range micro speaker for ANC in-ear wireless earbuds, which will be in production in Q2, 2025 with several customers already committed to the device. xMEMS plans to sample XMC-2400 to customers in Q1, 2025.
"We brought MEMS micro speakers to the consumer electronics market and have shipped more than half a million speakers in the first 6 months of 2024," Jiang continued. "With µCooling, we are changing people's perception of thermal management. The XMC-2400 is designed to actively cool even the smallest handheld form factors, enabling the thinnest, most high-performance, AI-ready mobile devices. It's hard to imagine tomorrow's smartphones and other thin, performance-oriented devices without xMEMS µCooling technology."xMEMS will begin demonstrating XMC-2400 to lead customers and partners in September at its xMEMS Live events in Shenzhen and Taipei.
5 Comments on xMEMS Introduces 1mm-Thin Active Micro-Cooling Fan on a Chip
Also, no mention of the TDP limit before it cannot stop thermal-runaway, without the IC cutting power itself. But I would guess 8W max, considering its size.
Great for handhelds, media gear where micro-vibrations are not an issue, automotive, and would probably be useful in SOHO networking gear, but other than that, I mean you usually have way better ways to transfer heat out of silicon using a wee bit more of space.