Understanding Bluetooth codecs

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As companies continue killing off the headphone jack, Bluetooth’s presence is ever more ubiquitous. Now, you don’t have to be an audio geek for Bluetooth codecs to be of importance: these codecs can reduce latency, improve audio quality, and contribute to energy efficiency. If you’re going wireless, invest in headphones that support a high bitrate codec like aptX or AAC for iPhone users. In order to bring you up to speed in a matter of minutes, we’ve put together this guide for understanding Bluetooth codecs.

Editor’s note: this article was updated on January 22, 2020, to address Bluetooth LE Audio’s LC3 codec and the Samsung scalable codec.

What you should know

A picture of the Plantronics BackBeat Pro 5100 true wireless earbuds outside of the case and surrounded by water splashes.

Not all true wireless earbuds support aptX and AAC, the Plantronics BackBeat Pro 5100 only support the latter.

  • Basic terms, discussed by Robert Triggs, Android Authority.
    • Sample rate (Hz): the number of points of data per second in an audio file. You need two samples to accurately capture any frequency, so audio is sampled at least twice the limits of human hearing (approximately 20kHz). Higher-resolution file formats tend to be exported at 96kHz or greater. A greater sample rate means a greater file size.
    • Bit-depth (-bit): the number of bits saved for each audio sample. A higher bit depth records a signal more accurately. CD-quality is 16-bit, but high-resolution files extend this to 24-bit. A greater bit depth multiplies the filesize.
    • Bitrate (kbps): usually measured in kbps or Mbps. This is the amount of audio data transferred per second over Bluetooth. For uncompressed files, this is calculated by multiplying the sample rate by the bit-depth.
  • Data rates are unstable.
    • Bluetooth devices have an assigned range (typically 10 meters for headphones). This is because the further you get from the source, the more interference from physical barriers (e.g. walls, cars, people) and other frequencies (e.g. radios, televisions, Wi-Fi signals).
  • Psychoacoustics studies how humans perceive sound. A psychoacoustic model is applied to digital media, and determines what can be deleted to save space without a noticeable loss of sound quality.
    • This is how MP3 compression came into the world. Its influence on strategic compression extends to virtually every audio format.
  • There are three main types of audio compression formats, uncompressed, lossless, and lossy.
SBC aptX aptX HD AAC LDAC bluetooth codecs profile audio

Uncompressed, lossless compressed and lossy compressed formats each have their own place in the digital audio ring.

Bluetooth codecs

Now that you’ve passed Wireless Audio 101, let’s continue.

In terms of software, a codec determines how Bluetooth is transmitted from the source to your headphones. It encodes and decodes digital audio data into a specific format. Ideally, it transmits a high-fidelity signal at the minimum specified bit-rate. This results in the least amount of space and bandwidth required for storage and playback, respectively. A lower bitrate means better compression and worse sound quality, a high bitrate means better sound quality and worse compression. So how do codecs navigate this compromise?

Low-complexity sub-band codec (SBC)

SBC aptX aptX HD AAC LDAC bluetooth codecs profile audio

Represented is the max transfer rate (kbps) of each respective Bluetooth codec (greater is better). Each waveform depicts a transfer rate of 100kbps.

SBC divides the signal into multiple frequency bands and encodes each one independently. Think of SBC as the lowest common denominator among Bluetooth codecs. It’s not the best. It is, however, mandatory among all A2DP-enabled devices, making it virtually universal. Manageable transfer rates (192-320kbps) are delivered at the expense of significant data loss.

Qualcomm aptX, aptX LL, aptX HD, and aptX Adaptive

Graph of Bluetooth Codec Latency by Android Smartphone

Now, Qualcomm’s proprietary codecs, aptX, aptX LL, and aptX HD receive frequent recommendations here at SoundGuys, not to mention aptX Adaptive. Though only aptX LL supports a latency of less than 40 milliseconds. What’s more, Android’s wireless efficiency is inconsistent depending on what source device is used.

Bluetooth’s Achilles’ Heel is its limited bandwidth. High transfer rates may overload available bandwidth, causing a stutter—or complete crash—of the streaming service.

Why choose aptX over SBC? Greater transfer rates preserve more data. The simpler aptX codec supports 48kHz/16-bit LCPM audio data (352kbps), while aptX HD supports 48kHz/24-bit LCPM audio data (576kbps). Though both are lossy formats, they’re leagues ahead of SBC. Plus, they support a fine enough bit-rate to keep everything running smoothly and sounding phenomenal.

Advanced audio coding (AAC)

A chart showing the AAC Bluetooth codec's performance on the Huawei P20 Pro, Samsung Galaxy Note 8, LG V30, and Apple iPhone 7.

AAC performance differs depending on your source device.

AAC is the audio standard for lossy digital audio compression. It also happens to be the license-free standard for YouTube, Sony’s PlayStation 3, and is preferred by Apple. If you have an Android phone, you won’t really benefit from AAC as its performance is unreliable: it’s a power-hungry codec that Android remains unprepared to handle efficiently. iPhone users do benefit from its higher-resolution playback though. It has a transfer rate cap of 250kbps, creating a file similar to that of a mid-quality MP3.


A photo of the Sony WH-1000X M2 wireless Bluetooth headphones being used to activate the Google Assistant on a Google Pixel XL.

Some of Sony’s Bluetooth headphones use a codec called LDAC, which has higher bitrates than aptX, AAC, or SBC. You need a compatible phone, however.

Like Qualcomm, Sony has its own Bluetooth codec, LDAC. Its variable bit-rate is the defining feature. In theory, it should consistently transfer up to 3x the data compared to SBC. Our studies revealed that its highest bitrates (990 and 660kbps) lose fidelity above 20kHz. What’s more, both aptX and SBC outperform LDAC when it streams at 330kbps, which is the default chosen by many phones. In order to change this, you have to enter developer settings and force a higher bit-rate, but smartphones’ “best efforts” vary greatly.

Phone LG V30+ Samsung Galaxy Note 8 Huawei P20 Pro Huawei P20 Google Pixel 3 XL Google Pixel 3
LDAC ‘Best Effort’ Setting 990kbps 660kbps 660kbps 660kbps 330kbps 330kbps

LDAC was initially limited to Sony products but has since been brought into the broader Android OS fold with Android 8.0 “Oreo” and is now part of the Android Open Source Project (AOSP).

HWA Alliance’s LHDC and LLAC codecs

A picture of the Huawei P30 (rear) with an Android Authority Editor's Choice badge in the top-right corner.

Android Authority The Huawei P30 Pro also includes a headphone jack for listeners serious about audio quality.

LHDC stands for low-latency and high-definition audio codec and was developed by the Hi-Res Wireless Audio (HWA) Union and Savitech. This codec allows for three times the data transmission afforded by SBC and supports a maximum bitrate of 900kbps with a max sample rate of 96kHz. The Huawei Mate 10 was the first smartphone to support LHDC. It’s supported by Android 10 and up, and is part of the AOSP.

The low-latency audio codec (LLAC/LHDC LL) is an alternative to LHDC and boasts low-latency features that are ideal for gamers. End-to-end latency is as low as 30ms, and it supports bitrates of 400/600kbps and a max sample rate of 48kHz up to 24bits. The Huawei P30 was the first smartphone to support LLAC.

Bluetooth LE Audio LC3 codec

Bluetooth LC3 was announced at CES 2020, and specifics are expected later this year. We know the LC3 codec promises to deliver improved efficiency and aid the deaf and hard of hearing. According to Fraunhofer, the company that helped develop LC3, packet loss management is more advanced which results in a smoother degradation process. This means when you reach the outer edge of the wireless range afforded by your headset, rather than hearing distinct, distracting stutters and drops, the data loss will be audibly smoother.

LC3 is a transparent codec, meaning total harmonic distortion minimization is limited not by LC3 but by a phone’s hardware.

LE Audio benefits the hearing impaired by expanding the functionality of Bluetooth hearing aids due to multi-stream support. Multi-stream audio allows multiple audio streams to be transmitted between a smartphone and earbuds simultaneously. In practice, this means your hearing aids can stream audio while also keeping you aware of your surroundings.

Similarly, it can transmit different broadcasts to a single pair of true wireless earphones simultaneously: rather than a single 160kbps stream, it may send two streams of 80kbps each. If you and your friend are at a bar watching a game, one of you can tune into the home team’s announcer with the left earbud while the other can opt for information about the visitors via the right ‘bud.

Samsung Scalable Codec

A picture of the Samsung Galaxy Buds earbuds in the case on top of a Samsung Galaxy S10e in Flamingo Pink.

The Samsung Galaxy Buds are the perfect companion to the Samsung Galaxy S10 phones.

The Samsung Scalable Codec was announced with the Samsung Galaxy Buds developed in tandem with AKG. It prioritizes stability by making constant adjustments to streaming rates, so listeners are less likely to experience connection stutters and drops. It’s similar to how LC3 audio is said to manage packet loss, both result in less audio chopping by actively accommodating bitrate to signal strength.

Now what?

As you can see, it’s easy to get lost in Bluetooth jargon. Though this is a lot of information to keep straight, remember that higher transfer rates are good, but no matter how great the kbps: you need both your phone and headphones to speak the same language. Again, aptX and aptX HD are usually your best bet with consumer-grade headphones. Qualcomm’s codec is becoming increasingly prevalent and low latency is a feature that many of us greatly appreciate.

We’ve barely scratched the surface here. In fact, we’re just beginning to look upon the surface. If you want to learn more, head over to our all-encompassing Bluetooth codec guide.

Next: Why I’m sticking to wired headphones

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