Revolutionizing Sound: Creative Unveils Groundbreaking MEMS-Powered Aurvana Ace Series
Revolutionizing Sound: Creative Unveils Groundbreaking MEMS-Powered Aurvana Ace Series
In a groundbreaking move towards a transformative auditory experience, Creative has introduced the Aurvana Ace series, marking the debut of true wireless earbuds featuring Micro-electromechanical systems (MEMS) drivers. Developed in collaboration with xMEMS, the Aurvana Ace and Aurvana Ace 2 stand out as the first-ever MEMS-based TWS earbuds designed for the broader consumer market, following the initial announcement in August.
While MEMS technology has been a staple in cellphones, its integration into earbuds was a recent breakthrough. Departing from the conventional coils and magnets used in regular speakers, MEMS employs piezos and silicon, promising enhanced sound fidelity, durability, and reduced power consumption. The Creative Aurvana Ace series boasts an impressive frequency range of 5Hz to 40KHz, showcasing the potential for an unparalleled listening experience.
Creative details that MEMS-based drivers feature small flaps on silicon chips, emphasizing their ability to replicate sound by swiftly responding to short electrical signals. This mechanism enables the generation of sound waves that closely mimic natural auditory experiences in the surrounding environment.
Priced at $130 for the Creative Aurvana Ace and $150 for the Creative Aurvana Ace 2, these earbuds come equipped with more than just cutting-edge MEMS technology. They also feature hybrid Active Noise Cancellation (ANC), six built-in microphones, and an impressive playtime of up to 24 hours. Furthermore, both sets carry an IPX5 certification, ensuring resistance to sweat, making them suitable for vigorous activities.
While pre-orders commence on November 10, an official release date for these innovative earbuds is yet to be announced. Creative's Aurvana Ace series signals a significant leap forward in audio technology, offering consumers a chance to embrace a new era of immersive and high-fidelity sound experiences.