Longsys introduces a game-changing 7.2 mm × 7.2 mm subsize eMMC, revolutionizing the design of AI wearables with its ultra-compact size, high performance, and advanced packaging capabilities.
- Ultra-compact design allows for more features without sacrificing size or weight
- In-house packaging and testing ensures high quality and expertise
- Advanced packaging technologies and customization capabilities set Longsys apart in the industry
Every Millimeter Counts in Wearable Tech
When it comes to designing wearable devices, every single millimeter is crucial. As AI technology continues to weave itself into the fabric of our daily lives, these gadgets are not just looking for better performance; they’re also craving more features—all while fitting into the tightest of spaces. Enter Longsys, who just launched a game-changer: a 7.2 mm × 7.2 mm subsize eMMC. This tiny memory solution is here to shake up how we think about the physical space in our AI wearables.
Ultra-Compact: A New Era for Wearable Design
At just 7.2 mm × 7.2 mm, this subsize eMMC is one of the smallest on the market, achieving some serious space efficiency. With 153 solder balls that nearly cover the entire panel, it pushes design boundaries to their very limits. To put it into perspective, this little marvel has a surface area that’s about 65% smaller than the standard 11.5 mm × 13 mm eMMC. And it doesn’t stop there—it’s a mere 0.8 mm thick and weighs in at just 0.1 g, making it roughly 67% lighter than the typical 0.3 g eMMC. This ultra-compact design opens up a world of possibilities, allowing device makers to pack in more features without sacrificing that sleek, lightweight feel we all crave in our wearables.
Compact Yet Capable: Performance Meets Capacity
But don’t let the size fool you; this 7.2 mm × 7.2 mm subsize eMMC doesn’t skimp on performance or capacity. Thanks to in-house firmware, it ensures that devices boot up quickly, run AI applications smoothly, and handle data processing efficiently. Plus, it incorporates low-power technologies like intelligent sleep and dynamic frequency scaling, which means you can enjoy longer battery life without losing any performance. With options for 64 GB and 128 GB of storage—some of the highest capacities in this compact category—this eMMC is set to revolutionize AI wearables like smart glasses, watches, and earphones.
In-House Packaging and Testing: Setting the Standard
One standout feature of this subsize eMMC is that it’s packaged and tested at Longsys’ very own Suzhou Packaging & Testing Base. They’ve adopted innovative grinding and cutting processes to achieve that impressive size. This facility isn’t just about eMMC; it specializes in NAND Flash and DRAM packaging and testing, extending its expertise to UFS, eMCP, and ePOP series. This means they offer comprehensive services that span wafer-level, chip-level, and system-level packaging—pretty impressive, right?
PTM Full-Stack Customization: More Than Just Size
Longsys is not just resting on its laurels with this ultra-compact design. Their advanced packaging technologies give them a competitive edge in areas like product size, thermal management, compatibility, reliability, and storage capacity. As we move into 2024, they’re gearing up to launch proprietary eMMC controllers and QLC eMMC, showcasing their commitment to innovation. Their full-stack customization capabilities mean they can adapt to a wide range of client needs, from product development to manufacturing.
Looking Ahead: The Future of Wearable Devices
The introduction of the 7.2 mm × 7.2 mm ultra-compact eMMC is more than just a new product; it’s a significant breakthrough for the industry. It offers robust support and opens up exciting options for the development of AI wearables. As Longsys continues to innovate in memory technology, we can expect even more thrilling advancements that will reshape the landscape of wearable devices. So, what’s next? Only time will tell, but one thing’s for sure: the future of wearables is looking incredibly bright!
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Technology Explained
NAND: NAND technology is a type of non-volatile memory that is used in many computer applications. It is a type of flash memory that is used to store data in a non-volatile manner, meaning that the data is not lost when the power is turned off. NAND technology is used in many computer applications, such as solid-state drives, USB flash drives, digital cameras, and memory cards. It is also used in many embedded systems, such as cell phones, tablets, and other consumer electronics. NAND technology is a reliable and cost-effective way to store data, making it a popular choice for many computer applications.
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