Audio codecs, short for compression/decompression algorithms, are technologies used to encode and decode digital audio data for transmission, storage, or playback. They essentially compress audio files for efficient transmission or storage and then decompress them for playback or use.
The Mi Bluetooth Neckband Earphones support audio codecs including AAC (Advanced Audio Coding) and Apt-X (Subband Coding). These codecs are commonly used for wireless audio transmission over Bluetooth.
The Apt-X audio codec provides a higher bitrate, resulting in better audio fidelity and reduced latency. Apt-X technology delivers CD-like audio quality over a wireless Bluetooth connection. This means that you can enjoy high-fidelity sound reproduction with minimal loss in audio quality. It also helps to reduce audio latency, which is the delay between the audio signal being transmitted and received.
AAC is known for its high audio quality, offering better sound fidelity compared to older codecs like MP3 at similar bitrate. It provides efficient compression, allowing for good audio quality at lower bitrate, which is beneficial for streaming audio over limited bandwidth connections.
The Mi Bluetooth Neckband Earphones support audio codecs including AAC (Advanced Audio Coding) and Apt-X (Subband Coding). These codecs are commonly used for wireless audio transmission over Bluetooth.
The Apt-X audio codec provides a higher bitrate, resulting in better audio fidelity and reduced latency. Apt-X technology delivers CD-like audio quality over a wireless Bluetooth connection. This means that you can enjoy high-fidelity sound reproduction with minimal loss in audio quality. It also helps to reduce audio latency, which is the delay between the audio signal being transmitted and received.
AAC is known for its high audio quality, offering better sound fidelity compared to older codecs like MP3 at similar bitrate. It provides efficient compression, allowing for good audio quality at lower bitrate, which is beneficial for streaming audio over limited bandwidth connections.