DETIKE New Variation Bluetooth 4.1 Headphone supports A2DP Â¡ cents AVRCP Â¡ cents HSP Â¡ cents HFP for Smart phone, with CCAW voice coil from Japan
As your personal music gadget, 1 gram of weight suffices to influence utilizing experience, so as a great headset, light-weight is a must. Compare to 15-20 grams weight of other headsets, tailor just 11.5 grams of Q2, has actually developed unmatched development. Lightweight as nothing on ear, but accompany with you in every moment.Q2 is cordless and humanized for you. Link to 2 phones all at once. Voice command state Â¡ Â° Yes Â¡ Â± or Â¡ Â° No Â¡ Â± decide whether to pick a call; Press MF button 2 seconds, then release, to turn on voice assistant of mobile phone, e.g. Siri(Phone function); last but not the end, press MF button and Vol(-) all at once to pick voice promts(Chinese/English).
Bluetooth variation: V4.1
Frequency variety: 2.4GHz-2.48 GHz
Operating distance: as much as 10m (free area)
Bluetooth profiles: A2DP Â¡ cents AVRCP Â¡ cents HSP Â¡ cents HFP
Standby time: as much as 180hrs
Talk/music playtime: about 5 hours
Charging time: about 2 hours
Frequency response: 20Hz-20kHz
Operational temperature level: -10 to 50 DegreeC
S2 BT sports headset 1pc
USB charging cable 1pc
User manual 1pc
GENUINE DETIKE PRODUCTS ,Don't buy fakes from unauthorized sellers.
Reproduced true sound: Crafted with 10mm dynamic drivers, and CCAW voice coil from Japan, it created surprising full-bodied timbre, clear and bright, restore true sound of your favorite singer.
Leading new era by Bluetooth 4.1: Incorporate high speed 80MIPS Kalimba CPU and 80MHz RISC MCU Bluetooth 4.1 chipset of CSR from the UK, Q2 is tough enough for stable high speed operation.
Ultra HD voice: Sample rate of Q2 has dramatically expanded from 8kHz to 16kHz, speech frequencies expanded from 280Hz-4kHz to 50Hz-6.1kHz, ultra HD wideband speech has come to your world.
6th generation CVC noise reduction: Significantly improves receive path voice signal by sophisticated algorithm technology and altering the spectral shape of the receive path signal.