Qualcomm has just unveiled its latest wireless earbud processor, the Snapdragon S7 and S7 Pro Gen 1 Sound Platform. These new chips are the pinnacle of innovation, surpassing their predecessors, the Snapdragon S3 and S5, which were introduced several years ago.
One of the standout features of the Snapdragon S7 Sound is its increased processing power, six times more powerful than before. Additionally, the AI processing power has been enhanced by a staggering 100 times compared to the Snapdragon S5 Gen 2 Sound. What’s impressive is that these earbuds are capable of on-device AI processing, enabling advanced sound processing capabilities.
The Snapdragon S7 and S7 Pro Sound platforms boast other remarkable sound features as well. This includes the latest Active Noise Cancellation (ANC) Gen 4, which offers high performance with low power consumption. These platforms excel in delivering top-notch sound quality across a wide range of earbud designs.
The Snapdragon S7 Pro Sound platform takes it a step further with the inclusion of Qualcomm XPAN (Expanded Personal Area Network Technology). This technology allows seamless connectivity between the earbuds and various devices via Wi-Fi. This ensures uninterrupted usage, especially in scenarios where the Bluetooth range is limited. Furthermore, it supports lossless music streaming at a high-quality 24-bit 192 kHz through Wi-Fi, delivering an exceptional audio experience.
In conclusion, Qualcomm’s Snapdragon S7 and S7 Pro Gen 1 Sound Platform showcase the company’s commitment to pushing the boundaries of wireless earbud technology. With their superior processing power, advanced AI capabilities, and expanded connectivity options, these platforms redefine the standards of wireless audio.
TLDR: Qualcomm introduces the groundbreaking Snapdragon S7 and S7 Pro Gen 1 Sound Platform for wireless earbuds. These platforms offer enhanced processing power, on-device AI capabilities, advanced Active Noise Cancellation, and expanded connectivity options via Wi-Fi. A game-changer in wireless audio technology.