Comparison Hoco E64 vs Hoco E54
Add to comparison |  |  |
|---|---|---|
| Hoco E64 | Hoco E54 | |
| Outdated Product | Outdated Product | |
| TOP sellers | ||
Compact size and light weight. | Compact size and light weight. | |
| Device | bluetooth headset | bluetooth headset |
| Design | in-ear | in-ear |
| Behind ear |  |  |
| Connection | Bluetooth v5.3 | Bluetooth v5.0 |
| Range | 10 m | 10 m |
Specs | ||
| Features | A2DP profile AVRCP profile | A2DP profile AVRCP profile |
General | ||
| Power source | battery | battery |
| Battery capacity | 50 mAh | 40 mAh |
| Battery life | 10 h | 4 h |
| USB charging port | microUSB | microUSB |
| Charging time | 50 min | 50 min |
| Dimensions (WxHxD) | 26x17x24 mm | 24x16x23 mm |
| Weight | 5 g | 3 g |
| Added to E-Catalog | february 2023 | february 2023 |
Compare Hoco E64 and E54
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Glossary
Behind ear
A device designed to fix the device on the auricle; most often represents a signature shackle. Such a shackle is very popular among Bluetooth headsets — this is the easiest way to hold a relatively large device on your ear. At the same time, ultra-compact models can be fixed directly in the ear and do not need a behind-the-ear hook. And for car kits and speakerphones (see "Device"), such a mount is not required.
Note that the shackle is most often made swivel, which allows you to reposition it from the left to the right ear and vice versa.
Note that the shackle is most often made swivel, which allows you to reposition it from the left to the right ear and vice versa.
Connection
— Mini-Jack (3.5 mm). The Mini-Jack is one of the most popular wired connectors. However, it is not used in Bluetooth headsets and is rarely found in other specialized accessories, primarily serving an auxiliary function. In speakerphones, the mini-Jack typically connects multiple devices, and in car kits, it outputs sound to the car's radio or standard audio system. Note that the headphone jack in this case is not considered a 3.5 mm connector, although it is most often made in this format.
— USB-A. The classic USB-A computer connector is gradually being replaced by the USB-C connector. The purpose and use of such a connection depend on the type of device. For example, USB in speakerphones is the standard connector for wired connections to both computers and specialized communication systems. In Bluetooth headsets, this means it is equipped with a USB adapter for connecting to PCs without a Bluetooth module.
— USB-C. A port similar in purpose to the one described above, but with a more modern symmetrical design that doesn't require correct orientation, and consequently allows for higher speeds.
— Bluetooth. Nowadays, Bluetooth is essentially the standard interface for wireless connectivity to gadgets like headsets and other audio accessories. This technology is well-suited for audio transmission but can also be used for additional functions su...ch as remote control. The capabilities depend on the version, with notable ones being Bluetooth v5.0, Bluetooth v5.1, Bluetooth v5.2, Bluetooth v5.3, Bluetooth v5.4, and Bluetooth v6.0. Generally, the newer the version, the more advanced the platform: for example, Bluetooth 5.0 offered a noticeable increase in range, speed, and support data transfer capabilities, while Bluetooth 5.2 has become particularly important for audio devices as a foundation for LE Audio.
For headsets, this means that new versions provide more efficient operation, more modern audio functions, and better compatibility with current gadgets.
— USB-A. The classic USB-A computer connector is gradually being replaced by the USB-C connector. The purpose and use of such a connection depend on the type of device. For example, USB in speakerphones is the standard connector for wired connections to both computers and specialized communication systems. In Bluetooth headsets, this means it is equipped with a USB adapter for connecting to PCs without a Bluetooth module.
— USB-C. A port similar in purpose to the one described above, but with a more modern symmetrical design that doesn't require correct orientation, and consequently allows for higher speeds.
— Bluetooth. Nowadays, Bluetooth is essentially the standard interface for wireless connectivity to gadgets like headsets and other audio accessories. This technology is well-suited for audio transmission but can also be used for additional functions su...ch as remote control. The capabilities depend on the version, with notable ones being Bluetooth v5.0, Bluetooth v5.1, Bluetooth v5.2, Bluetooth v5.3, Bluetooth v5.4, and Bluetooth v6.0. Generally, the newer the version, the more advanced the platform: for example, Bluetooth 5.0 offered a noticeable increase in range, speed, and support data transfer capabilities, while Bluetooth 5.2 has become particularly important for audio devices as a foundation for LE Audio.
For headsets, this means that new versions provide more efficient operation, more modern audio functions, and better compatibility with current gadgets.
Battery capacity
The capacity of the battery installed in the device (see "Power").
Theoretically, a higher battery capacity allows you to work longer on one charge. At the same time, the actual battery life will also depend on the power consumption of the device, and it is determined by a number of technical specs. Therefore, it is better to evaluate battery life not by battery capacity, but by directly claimed operating time (see below). It makes sense to use this parameter if the operating time is not specified; at the same time, it makes sense to make conclusions only if devices similar in specs differ in capacity — for example, 60 and 110 mAh.
Theoretically, a higher battery capacity allows you to work longer on one charge. At the same time, the actual battery life will also depend on the power consumption of the device, and it is determined by a number of technical specs. Therefore, it is better to evaluate battery life not by battery capacity, but by directly claimed operating time (see below). It makes sense to use this parameter if the operating time is not specified; at the same time, it makes sense to make conclusions only if devices similar in specs differ in capacity — for example, 60 and 110 mAh.
Battery life
Time of operation of the self-powered device (see "Power") on one battery charge.
Usually, the battery life in the talk mode is meant, when the device consumes the most energy. In headsets with high-capacity batteries, this battery life can be 9 hours or more. However, talking for several hours without pauses is almost impossible, so in fact the operating time is noticeably longer than in the specifications. So, a headset with an operating time of the same 9 hours is most likely quite enough for a 12-hour work shift, even if you have to constantly make calls through it; and if we are talking about only 5 – 6 calls per day, then the charge is guaranteed to last for several days, or even a week. At the same time, the difference in the claimed operating time is usually quite consistent with the difference in actual battery life, and it is quite possible to compare the real capabilities of different models by it.
Usually, the battery life in the talk mode is meant, when the device consumes the most energy. In headsets with high-capacity batteries, this battery life can be 9 hours or more. However, talking for several hours without pauses is almost impossible, so in fact the operating time is noticeably longer than in the specifications. So, a headset with an operating time of the same 9 hours is most likely quite enough for a 12-hour work shift, even if you have to constantly make calls through it; and if we are talking about only 5 – 6 calls per day, then the charge is guaranteed to last for several days, or even a week. At the same time, the difference in the claimed operating time is usually quite consistent with the difference in actual battery life, and it is quite possible to compare the real capabilities of different models by it.