Hearing aids can connect to TV/Audio devices using a dongle, usually worn around the neck. The devices do connect to each other for volume and program changes. The dongle can connect to a mobile phone making it possible to hear on the phone very easily.
The hearing aids can connect directly to a device connected to the TV/Audio device so no need to wear a dongle device. There is usually an App that can change settings via a mobile phone or tablet. The hearing aid can connect directly to a mobile phone.
The hearing aids can connect directly to a device connected to the TV/Audio device so no need to wear a dongle device. There is usually an App that can change settings via a mobile phone or tablet. The app can help you make adjustments that improve clarity. The hearing aid can connect directly to a mobile phone.
The hearing aids can connect directly to a device connected to the TV/Audio device so no need to wear a dongle device. There is usually an App that can change settings via a mobile phone or tablet. The app can help you make adjustments that allow for improved hearing especially in background noise. The hearing aid can connect directly to a mobile phone and some SMART TV’s via Bluetooth.
The hearing aids can connect directly to a device connected to the TV/Audio device so no need to wear a dongle device. There is usually an App that can change settings via a mobile phone or tablet. The app can help you make adjustments that allow for improved hearing especially in background noise. The hearing aid can connect directly to a mobile phone and some SMART TV’s via Bluetooth. They also allow for built in FM connectivity for super rich sound performance and connection to some of the very best assisted listening devices such as Phonak Roger Select iN.
Uses basic ‘notch filter’ or ‘reduced gain’ technology to halt whistling. This requires a measurement at fitting that will then lower the gain level where feedback may occur. Not always ideal as can cut out some clarity and volumes can be breached and feedback still occur.
Uses slightly more advanced anti-feedback system by measuring where feedback may happen and sets limits that stop the gain ever reaching that level to stop feedback via sending a negative soundwave back. Not active so limits can be exceeded and occasional feedback occurs.
Uses intelligent AI to adapt gain levels to pre-measured feedback limits and uses the effective negative sound wave technology to avoid reduction of gain. This is adaptive but only in a few channels so gain levels could be breached an feedback may occur if you hug someone for example.
Uses full Artificial Intelligence technology combined with negative sound wave technology to reduce feedback as it happens. This technology all but eliminates feedback for the wearer.
Uses full Artificial Intelligence technology combined with negative sound wave technology to reduce feedback as it happens. Due to the high number of handles and channels the effectiveness of this feedback system has little effect on sound quality. This technology all but eliminates feedback for the wearer. This technology also allows for extremely high levels of gain for more severe to profound losses or those who need lots of clarity.
The hearing devices use basic compression technology to try to reduce loud low frequency sounds when softer high frequency sounds are present. Helps with comfort but not that effective helping bring speech to the front.
The use of basic compression technology combined with the use of directional microphones reduces loud low frequency sounds whilst enhancing softer high frequency sounds and focusing on what sound is in front of you – cutting out sounds from behind. Effective for comfort in noise.
The use of Artificial Intelligence to allow the hearing aids to talk to each other in real time. Thus giving each ear the best microphone and tonal balance for hearing speech. Not using speech detection but still using the presence of soft high frequency sounds to trigger the system in to action.
One of the most advance listening-in-noise systems ever invented. This system combines the use of speech detection, directional awareness, inter aid communication and real time sound analysis to enhance speech above any ambient noise. Highly effective but decision making slightly out as no ear to ear sound transmission.
The ultimate in hearing speech in noise. A super-fast computer chip controlling multi-channel microphones, the very best in speech detection, real time spatial sound analysis and the amazing real time ear-to-ear sound transmission. This ensures speech is delivered to both ears at the correct volume to counter any masking effect of ambient noise. Extremely effective and the decision making will be correct around 90% of the time. Wow!
Detection of speech is essential for the effective performance of hearing aids. This level of speech detection relies on the devices detecting soft high frequency sounds. These are usually always there when someone speaks but not exclusively so mistakes can be made.
Detection of speech is essential for the effective performance of hearing aids. This level of speech detection relies on the devices detecting soft high frequency sounds. These are usually always there when someone speaks but not exclusively so mistakes can be made. The more channels in the instrument the more accurate it is. Here there will be more than 4 channels.
Detection of speech is essential for the effective performance of hearing aids. Using not just high frequency detection but artificial intelligence to use sound sampling to detect live speech makes this the most effective way of identifying speech is present.
Detection of speech is essential for the effective performance of hearing aids. Using not just high frequency detection but artificial intelligence (AI) to use sound sampling to detect live speech makes this the most effective way of identifying when speech is present. The use of the AI in the microphones makes this one of the very best ways for a device to lock on to speech.
Detection of speech is essential for the effective performance of hearing aids. Using not just high frequency detection but artificial intelligence (AI) to use sound sampling to detect live speech makes this the most effective way of identifying when speech is present. The use of the AI in the microphones makes this one of the very best ways for a device to lock on to speech. Having more channels cleans the sound much better than most to allow a natural speech sound.
Basic microphones today are very good. They have a wide frequency range and can have basic automatic directionality. This allows you to be focussed on what’s in front of you and reduce the sound from behind.
Microphones that split the sound into different frequency channels make a real difference to hearing speech, even in noise as they can automatically turn the louder low frequency sounds down. Thus, allowing speech to cut through.
Microphones that not only have a high number of different frequency channels but can automatically reduce the sound of background noise and enhance speech give a huge help to keeping you in the loop…in all situations.
Microphones that not only have a high number of different frequency channels but can automatically reduce the sound of background noise and enhance speech give a huge help to keeping you in the loop…in all situations. This level of microphone communicates ear to ear to make sure the direction, noise reduction and speech enhancement are all pointing in the right direction.
Microphones that not only have a high number of different frequency channels but can automatically reduce the sound of background noise and enhance speech give a huge help to keeping you in the loop…in all situations. This level of microphone communicates ear to ear to make sure the direction, noise reduction and speech enhancement are all pointing in the right direction. Added to that these microphones use the same technology as iPhones to detect the correct plane e.g. If you’re looking up or down.
