HIB-210DM | In-ear type Dual Mode Bone Conduction Earbuds

In-ear Type Dual Mode Bone Conduction Earbuds

HIB-210DM
(In-ear type Dual Mode Bone Conduction Earbuds)

Hanics Assistive Listening Device, Dual Mode Bone Conduction Earbuds is designed based on bone conduction technology and its combination with air conduction. It is primarily suited for people who have conductive hearing loss, unilateral hearing loss and people with mixed hearing loss. Also, this Assistive Listening Device is good for people who are hard of hearing or who are considering the use of hearing aid devices for the first time. The Hanics's Assistive Listening Device (Dual Mode Bone Conduction Earbuds) is designed to provide hearing ability for people in a variety of situations with clarity and comfort, even in noisy environments.

Uses a dual-mode system that allows you to hear sound through both the bone conduction
   and air conduction pathways simultaneously.
Innovative hearing assistive device which delivers the sound throgh bone and air conduction.
Applies Auto Level Control Circuit
Applies a circuit which properly controls any sudden loud sounds, and is the best solution to protect your ears.(20db)
3 Steps (Noise is reduced automatically to protect your ear)
Applies a circuit which properly controls any sudden loud sound, it is the best solution to protect your ears.(20db)
High Efficient Mic, applies specific MICOM circuit

Applies a high efficient mic and a specific MICOM circuit that is enabled to provide superior sound quality.

Modern Design
Designed with a modern concept in mind, it may be easy to match with any type of outfit.
It looks like the user has adopted a trendy new style of MP3.
Improves low level sound, so it can be used to talk on the phone, play video games, watch movies in your home, or listen to music.
Li-polymer Battery
The word 'Lithium Polymer' has become synonymous with advanced battery technology.
Very low profile - batteries that resemble the profile of a credit card are feasible.
Improved safety - more resistant to overcharge ; less chance for electrolyte leakage.