Comparison OnePlus Bullets Wireless 2 vs Huawei FreeLace

The type of cable provided in the design or package of the headphones. Note that this parameter is relevant both for wired or combined models (see "Type of connection"), and for some wireless models - in particular, earbuds and in-ear headphones without attachment, where the wire connects one earphone to another.

- Round. Classic round wire - straight, without braid and other additional devices. It is inexpensive and in most cases quite practical, which is why it is found in most modern headphones. The disadvantage is that with a small thickness, the round wire tends to tangle; therefore, this option is considered not very convenient for compact headphones, such as in-ear or in-ear headphones (see "Design"), which often have to be carried in a pocket or bag.

- Flat. The main advantage of a flat cable is that it is not as tangled as a round one, and in which case it is much easier to unravel. This is especially important for earbuds and in-ear headphones, which are often rolled up for storage or portability. However, larger overhead models can also be equipped with a flat wire.

- Drawstring around the neck. A wire adapted in one way or another to be worn around the neck - for example, having the form of a loop from which two separate headphones depart. The main advantage of this design is the convenience for constant wear: if necessary, you...can remove the headphones and leave them hanging on a cord, and then quickly put them back on. It is worth noting here that this option is found mainly among liners and in-ear models, for which the mentioned advantage is especially relevant.

- Round, braided. Round wire, supplemented with an outer braid - usually fabric. See above for more details on round wire. And the presence of a braid gives such a cable a number of advantages over the classic, in "bare" insulation. So, the wire turns out to be more durable, reliable and resistant to kinks and pressures, less confused, has a solid appearance, and in some models the braid also provides shielding from external interference. The reverse side of these advantages is the increased price.

- Spiral. Round cable, coiled in the form of a spring. The main advantages of spiral wire are that it practically does not tangle and can be noticeably stretched relative to its original length. The latter is very convenient if in the course of using the "ears" you have to change the distance to the signal source. The disadvantages of a spiral cable are bulkiness and relatively high cost. Therefore, it is often used in headphones of medium and top levels (including professional models).

- Round, braided. Cable in the form of two wires twisted into a spiral. Do not confuse this option with a spiral wire - in this case we are not talking about a spring. Such a cable is notable primarily for its unusual appearance; for greater originality, the wiring can be made multi-colored. It is also slightly more tangle-resistant than the classic round, although much depends on the thickness here. At the same time, individual wires can be noticeably thinner than a solid round wire, which somewhat reduces reliability.

- Zipper. Reversible wire (see "Cable entry"), in which the individual wires are hidden inside the halves of the zipper. The fastener does not cover the entire length of the cable, but usually takes up half, or even more. The headphones themselves with a similar wire most often belong to miniature varieties - in-ear or in-ear. Such models are very convenient in “packing” and “unpacking” for storage and carrying: by zipping up, you can connect two wires into one, and when you need the headphones again, you can unzip them by separating them. At the same time, the fastened zipper is very resistant to tangling. Yes, and this accessory looks quite unusual.

- In the form of a lace. A wire that looks like a lace - like tech used in shoes or clothing. Do not confuse such a cable with a cord around your neck (see above) - in this case, we mean not the way the wire is worn, but a specific type of braid. Such a wire is comparable in width to a flat wire, due to which it resists tangling well. However, the main advantage of this option is still the original appearance: “laces” are often made in bright colors, can be painted in several colors, complemented by a pattern, etc.

The diameter of the speaker installed in the headphones; models with multiple drivers (see "Number of drivers"), usually, the size of the largest speaker is taken into account, other dimensions can be specified in the notes.

In general, this parameter is relevant primarily for over-ear headphones (see "Design"). In them, emitters can have different sizes; the larger it is, the more saturated the sound is and the better the speaker reproduces the bass, however, large emitters have a corresponding effect on the dimensions, weight and price of the headphones. But in-ear "ears" and earbuds, by definition, have very small speakers, and rich bass in them is achieved due to other design features.

The number of emitters installed in each individual earphone. Specified only for models with more than one emitter.

The meaning of this feature depends on the type of emitters (see above). So, in hybrid models, by definition, there are several — the frequency range is distributed between them, which has a positive effect on the frequency response. For the same purpose, several reinforcing radiators can be used. And with the traditional dynamic principle of operation, due to several emitters, the effect of surround sound can also be provided (see "Sound").

Anyway, "ears" with numerous emitters, other things being equal, will be more advanced, but also more expensive.

The presence of a noise reduction system in its own headphone microphone.

In accordance with the name, such a system is designed to eliminate extraneous noise - primarily during conversations. It is usually based on an electronic filter that passes the sound of a human voice and cuts off background sounds such as city noise, the rumble of wind in the microphone grille, etc. As a result, even in noisy environments, thanks to the noise reduction of the microphone, speech is clear and intelligible; True, the system inevitably introduces distortions into the final sound, but they are not critical in this case.

— ENC. ENC (Environment Noise Cancellation) technology significantly reduces ambient noise with directional microphones. It is used both in gaming devices so that gamers can easily communicate in voice chat, and in TWS earphone models so that you can comfortably talk on the phone in a noisy environment.

— cVc. Microphone noise reduction cVc (Clear Voice Capture) is an advanced technology that is found mainly in expensive headphone models. cVc algorithms effectively suppress echo and noise from the environment. Sound processing using this technology is carried out at several levels at once - the algorithm determines the reference signal-to-noise level, automatically adjusts speech to the desired volume level, applies adaptive equalizers to process the entire voice, as well as specialized filters to remove...low-frequency bubbling, sibilants and hissing.

The ability to turn off your own headphone microphone using a special button or switch.

This feature is relevant mainly for phone calls, Skype, etc. It is useful in situations where you need to distract from the main conversation and say something that the interlocutor does not need to hear. Disconnecting the microphone is easier and more reliable than covering it with your hand or disconnecting the headphones entirely.

Note that the ability to turn off the microphone may be provided in the communication programme itself (the same Skype, for example). However, again, using the switch on the headphones is more convenient.

Codecs and additional audio processing technologies supported by Bluetooth headphones (see “Connection”). Initially, sound transmission via Bluetooth involves fairly strong signal compression; This is not critical when transmitting speech, but can greatly spoil the impression when listening to music. To eliminate this shortcoming, various technologies are used, in particular aptX, aptX HD, aptX Low Latency, aptX Adaptive, AAC, LDAC and LHDC. Of course, to use any of the technologies, it must be supported not only by the “ears”, but also by the Bluetooth device with which they are used. Here are the main features of each option:

- aptX. A Bluetooth codec designed to significantly improve the quality of audio transmitted over Bluetooth. According to the creators, it allows you to achieve quality comparable to Audio CD (16-bits/44.1kHz). The benefits of aptX are most noticeable when listening to high-quality content (such as lossless formats), but even on regular MP3 it can provide a noticeable sound improvement.

- aptX HD. Development and improvement of the original aptX, allowing for sound purity comparable to Hi-Res audio (24-bits/48kHz). As in the original, the benefits of aptX HD are noticeable mainly on high-quality...audio, although this codec will not be out of place for MP3.

- aptX Low Latency. A specific version of aptX described above, designed not so much to improve sound quality, but to reduce delays in signal transmission. Such delays inevitably occur when working via Bluetooth; They are not critical for listening to music, but when watching videos or playing games, there may be a noticeable desynchronization between the image and sound. The aptX LL codec eliminates this phenomenon, reducing latency to 32 ms - such a difference is imperceptible to human perception (although for serious tasks like studio audio work it is still too high). aptX LL support is found mainly in gaming headphones.

- aptX Adaptive. Further development of aptX; actually combines the capabilities of aptX HD and aptX Low Latency, but is not limited to this. One of the main features of this standard is the so-called adaptive bitrate: the codec automatically adjusts the actual data transfer rate based on the characteristics of the broadcast content (music, game audio, voice communications, etc.) and the congestion of the frequencies used. This, in particular, helps reduce energy consumption and increase communication reliability; and special algorithms allow you to broadcast sound quality comparable to aptX HD (24 bits/48 kHz), using much less transmitted data. And the minimum data transfer latency (at the aptX LL level) makes this codec excellent for games and movies.

- A.A.C. A Bluetooth codec used primarily in portable Apple gadgets. In terms of capabilities, it is noticeably inferior to more advanced standards like aptX or LDAC: the sound quality when using AAC is comparable to an average MP3 file. However, for listening to the same MP3s, this is quite enough; the difference becomes noticeable only on more advanced formats. AAC hardware requirements are low, and its support in headphones is inexpensive.

— LDAC. Sony's proprietary Bluetooth codec. It surpasses even aptX HD in terms of bandwidth and potential sound quality, providing performance at the Hi-Res level of 24-bits/96kHz audio; there is even an opinion that this is the maximum quality that it makes sense to provide in wireless headphones - further improvement will simply be imperceptible to the human ear. On the other hand, supporting this standard is not cheap, and there are still quite a few gadgets with such support - these are, in particular, Sony smartphones, as well as mid- and high-end devices running Android 8.0 Oreo and later versions.

- LHDC. LHDC (Low latency High-Definition audio Codec) is a high-definition, low-latency codec developed by the Hi-Res Wireless Audio Alliance and Savitech. In the vast majority of cases, its support is implemented at the hardware level in Huawei and Xiaomi smartphones. The codec is also known as HWA (Hi-Res Wireless Audio). When using LHDC, signal transmission from the phone to the headphones is carried out with a bits rate of up to 900 kbps, a bits depth of up to 24 bits and a sampling frequency of up to 96 kHz. This ensures a stable and reliable communication with reduced latency. The codec is optimally suited for high-end wireless headphones and advanced digital audio formats.

The capacity of the battery installed in the headphones of the corresponding design (see "Power").

Theoretically, a higher capacity allows to achieve greater battery life, but in fact, the operating time also depends on the power consumption of the headphones — and it can be very different, depending on the characteristics and design features. So this parameter is secondary, and when choosing it is worth paying attention not so much to the battery capacity, but to the directly claimed operating time (see below).

The declared operating time of headphones with autonomous power supply (see above) when listening to music on a single battery charge or a set of batteries.

As a rule, the characteristics indicate a certain average operating time in music listening mode, for standard conditions; in practice, it will depend on the intensity of use, volume level and other operating parameters, and in models with replaceable batteries - also on the quality of specific batteries. However, based on the stated time, you can fairly reliably assess the autonomy of the selected headphones and compare them with other models. As for specific values, relatively “short-lived” devices have a battery life of up to 8 hours, a figure of 8 – 12 hours can be called quite good, 12 – 20 hours – very good, and in the most “long-lasting” headphones the operating time can exceed 20 hours.

Magnets in the earbuds allow you to connect them together for easy storage and prevent tangling of wires. Another noteworthy implementation of the magnetic mount is pausing music playback when the headphones are pulled out of the ears and magnetized to each other. True, such an opportunity is found only in some copies of the headphones.