What is Bond Conduction Technology? How does it work?
Bone conduction is a technology that was developed many years ago. Bone conduction devices are often used in hearing aids and other medical applications to help people who suffer from hearing loss. Bone conduction devices have also been studied for use with military personnel, as well as athletes.
Bone Conduction Technology has the potential to be used by everyone! In this article, we will discuss what bone conduction technology is, how it works, and some of the benefits associated with its use. If you are looking to read Best Bone Conduction Glasses. You can definitly checkout that.
What is Bone Conduction Technology:
Bone Conduction Technology is a method of transmitting sound to the user via vibrations that are transferred by means of skeletal bones. Bone conduction devices can be worn in many different ways, such as over the ear or inside the mouth
How Bone Conduction Works: Bone conduction technology works by sending an electrical signal to a transducer that converts it into an acoustic wave. The sound waves travel through tiny channels within your jawbone and transmit sounds directly to your inner ears without entering through your outer ear canal or eardrum.
Basically, Bone-conduction devices are often used by deaf or hard of hearing people. They send sound vibrations to the inner ear through bone conduction, bypassing the ear canal and middle ear and stimulating the inner ear via sound vibrations that are transmitted against it through a skull.
For patients with any number of hearing difficulties, bone-conduction devices are a one of several good alternatives.
Bone-conduction devices have three parts: an external audio processor (containing the battery, microphone, and digital signal processor), which can either be worn behind the ear or applied to a tooth like a retainer.
There are two types of bone-conducting hearing amplifiers, but the most common is one that is surgically implanted.
The other type can be worn as a headset and requires no surgical operation.
Using Bone Conduction Technology, sound is missed up skin by the titanium implant and converted to bone vibrations with transmission to the inner ear.
Other types of bone-conduction technology rely on an implanted magnet to serve a sound attachment. The magnet attaches to the head behind one ear, and provides a magnetic connection that connects sound processors to your scalp.
Bond Conduction Technology: How it Works?
How we Hear
Sound waves actually consist of tiny vibrations in the air. The vibrations propagate through the air to our ear drums. With enough vibration, the ear drums vibrate and decode these sound waves into a different type of vibration that are received by the Cochlea, also known as the cochlea, which is connected to our auditory nerve. When this occurs there is a transmission of signals that get sent along from nerve cells in our brain to neurons on-site at Grand Central Station – aka your ears!
Protecting the Ear Drum
Sound waves are converted to neural impulses that are sent through the auditory canal and into the eardrum. The fluid in the middle ear vibrates, which causes a pressure membrane in the cochlea of our inner ear to move back and forth. This movement triggers pulses of electrical current that travel from inside your head down long, slender nerve fibres known as axons.
How we Hear with Bone Conduction
Bone Conduction bypasses the eardrums in a way that sound can be decoded and received by the Cochlea directly, without involving your ear drums. It works with Audio Bone headphones which are equipped with new technology that helps to decode high fidelity stereo sound waves.
Safer Listening
The main benefit of bone conduction over conventional listening is that it doesn’t place as much stress on your ears.
Many scientists and universities have studied the benefits of bone conduction, and research shows that it’s safer than conventional ways of listening.
For People with Hearing Aids
Much of hearing loss is the result of damage to the eardrum, which Bone Conduction does not rely on. Thus those with hearing impairment may still experience music as if they had no problem listening – without a hearing aid. Many people report being able to hear high notes that disappeared after exposure through conventional methods.
Advantages of Bone Conduction Technology:
Bone phones offer an advantage of not plugging in to your ears. This can be beneficial because you can wear headphones, while still being able to gauge what’s going on outside. It also means that bone phones may work for people who have a hearing impairment such as a pre-lingual deafness or high frequency sound loss
Bonephones, also called bone conducting headphones are especially beneficial for deaf or hearing-impaired users as they bypass the ears and transmit sound waves through bones in your head. As a result, they can listen to audio with more clarity than standard earbuds allow.
Bonephones are a type of headphone that is less likely to do damage to your ears when they are heavily used. They work by directing sound waves into the middle ear through bone vibration, not through the folds in our eardrums as most other headphones do.
One company, AfterShokz, designed bonephones for use with military personnel because of their thin and secure design. Bone conduction headphones are appealing to physically active users, who enjoy the convenience of not having a cord that can get in the way during exercise or other strenuous activity. Some bone conduction headphones also have memory and allow you to upload songs directly onto them for listening on-the-go without needing WiFi or mobile data.
Disadvantages of Bone Conduction Technology:
Despite being considered novel and not overly useful, bonephones have only been met with mixed reviews.
A significant issue with the sound quality of bonephones is that they are generally quieter or have a weaker bass frequency.
While there are benefits to this design, there are also downsides. Some users have noted that playing music at higher volumes causes an unpleasant or strange vibrating sensation in their face.
This design can cause a certain amount of sound leakage, which may be troublesome for those who want to listen privately or in a quiet setting without disturbing anyone else. Other people complain about the fit of these headphones, which depending on your model can either be a comfortable or a true issues.
Earbuds and iPods are a mainstay for modern music entertainment. They, however, have one major disadvantage- you can’t hear anything when wearing them. Bone conduction technology offers solutions to this ubiquitous problem. These headphones provide several advantages over earbuds in both sound quality and comfort levels for the wearer.
The price is also dependent on which model is purchased; most models range from $130-$200 depending on features offered while some cheaper models are available at about half that cost if not more competitively priced than traditional earbuds without compromising sound quality or functionality of the headphone.
Final Words:
Bone conduction is a technology that allows sound to be transmitted through the bones in your skull. There are many advantages and disadvantages of this type of technology, but here we’ll just go over how it operates. The process starts with an acoustic wave being sent from one end (cavity) of the bone near your cochlea, which vibrates the tympanic membrane on the other side of your head until you hear it as normal sounds without any air pressure coming out.
It can also transmit vibrations all throughout your body when you’re wearing headphones or earbuds and listening to music! If you have any queries or suggestions please let us know in the comments below 🙂
