The Qualcomm QCC3084 is a high-performance Bluetooth audio chip with several key features, including but not limited to the following:
Bluetooth Version: Supports the latest Bluetooth 5.4 standard, offering more stable wireless connections, lower power consumption, and higher data transfer rates.
LE Audio Support: Integrates support for LE Audio, a major upgrade in Bluetooth technology designed to deliver enhanced audio quality, lower latency, and reduced power consumption.
AptX Lossless Audio: Backs AptX Lossless technology, enabling it to transmit lossless audio for CD-quality or better audio experiences.
Auracast™ Broadcast Audio: Allows one audio source to simultaneously broadcast to multiple Bluetooth audio receiving devices, suitable for public audio sharing or assistive listening device applications.
True Wireless Stereo (TWS): Optimizes the true wireless stereo experience with more stable synchronization between left and right earbuds and lower latency.
Active Noise Cancellation (ANC): Incorporates DSP and algorithms that support high-quality active noise cancellation, providing a purer listening experience in noisy environments.
Kalimba Audio DSP: Equipped with a powerful 240 MHz Qualcomm Kalimba audio DSP for handling complex audio algorithms, including AptxAdaptive, AptxVoice, and others, enabling dynamic adjustment to network conditions and audio content encoding for clear voice calls.
Programming & Firmware Updates: Supports flexible QSPI flash programmability, facilitating firmware updates and customization of features, ensuring the product remains technologically competitive over time.
High-Performance Audio Interfaces: Features a 24-bit stereo audio interface to ensure high-quality audio signal transmission and processing.
Power Management: Despite its high performance and numerous advanced features, the QCC3084 is also designed with an efficient power management system to extend battery life.
These features make the QCC3084 an ideal choice for premium Bluetooth headphones and audio devices, meeting consumer demands for high-quality wireless audio experiences.