Wireless earbuds have become increasingly popular as consumers move past their wired predecessors. Such earbuds are portable speakers that fit inside people’s ears and connect to any audio-producing device (e.g., a phone or computer) using Bluetooth audio technology. Wired earbuds, by contrast, use a cable to attach to devices that have an input jack. Wireless earbuds present certain advantages over wired earbuds and are especially popular in fitness activities, during which wired earbuds may be inconvenient or hinder exercising.
Bluetooth technology has become nearly ubiquitous in the technology industry. The technology first appeared on desktop computers and cell phones in 2000 and spread to printers and laptops over the next year. In the case of wireless earbuds, the earbuds (called the “peripheral unit”) connect to the audio-producing device (the “main unit”) through a process known as “pairing.” They communicate wirelessly through ultra-high frequency (UHF) radio waves, which are electromagnetic waves with a frequency of about 2.4 gigahertz (GHz).
Typically, the wireless earbud set has a primary bud and a secondary bud. The primary bud creates a bridge network called a piconet between the main unit and the secondary bud. In order to prevent audio delays, the buds send information to each other via the piconet to calculate the time it takes to complete the full audio circuit. This allows the buds to compensate for delays and stay synced with the audio output. Earbuds are charged using a battery system and typically offer 5 to 6 hours of battery life on a single charge, though some premium brands offer up to 24 hours.
Bluetooth technology is not synonymous with Wi-Fi. The Bluetooth connection range is much shorter than that of a Wi-Fi connection, Bluetooth’s longest range for consumer devices extending about 10 meters (33 feet). Wi-Fi routers operating on a 2.4 GHz band can reach up to 45.7 meters (150 feet) indoors and 91.4 meters (300 feet) outdoors. 5G technology typically has a shorter range of coverage than Wi-Fi but a stronger signal.
Many wireless earbuds have active noise-cancellation (ANC) features built in. This system uses the earbuds’ microphones to detect external noise, then “cancels” such noise by sending audio with inverse-phase sound waves through the speakers. Many devices that offer noise-cancellation benefits also offer a “transparency” mode, in which the earbuds’ microphones capture environmental noise, process the audio, and transmit it through the speakers so that users are aware of their surroundings.
Bluetooth technology compresses audio to transmit it wirelessly, which can reduce audio quality. Many earbud companies compensate for this with sophisticated signal processing, amplifiers, and other such technology. Bluetooth codecs are programs that compress or decompress data (in this case, audio data) for transmission via Bluetooth and come in many forms. Low Complexity Subband (SBC) is the most basic codec, followed by Advanced Audio Coding (AAC) and aptX. AAC is the strongest codec supported by Apple devices. Generally, consumers can expect the highest quality sound from LDAC and Low Latency High Definition Audio (LHDC) codecs. Along with providing noise-cancellation features, many wireless earbuds also allow users to adjust volume, skip tracks, and play or pause audio without touching the audio-producing device.