Revolutionary ZeroDelay™ signal path helps eliminate distortion, opening the door to more widespread acceptance of hearing aids by those who need them most.
HAUPPAUGE, NEW YORK, January 28, 2021 — According to the United States National Institutes of Health (NIH), 28.8 million Americans — not to mention countless millions around the world — could benefit from using hearing aids. But many don’t adopt them right away, in part because hearing aids don’t usually sound natural.
Engineers at Danish hearing aid pioneer Widex have long known why and now created a new signal processing technology that promises to overcome some users’ objections that hearing aids can sound “tinny” and unnatural. The company’s ground-breaking Widex PureSound™ technology, available for the first time in its new flagship WIDEX MOMENT™ hearing aids, features two distinct signal processing pathways — a “classic” version and a new ZeroDelay™ Accelerator pathway that dramatically changes how hearing aids sound.
“Sound quality and the ‘naturalness’ of sound remain among the most-cited reasons people don’t pursue hearing assistance, despite the great strides in hearing aid innovation made over the last decades,” said Widex Head of Audiology Lise Henningsen. “When hearing aids went digital, drastic improvements in noise reduction and advanced signal processing came at a price, but Widex has figured out how to overcome it.”
Taking an analog sound wave, converting it to a digital signal, processing it, then re-converting into a sound wave takes anywhere from 4 to 8 milliseconds. Studies have shown that a processing delay of that length can adversely affect sound quality, especially if processed sound and unprocessed sound mix in the ear canal of a hearing aid user, creating what is called a comb filter effect.
“When that happens, the perceived quality of the user’s own voice becomes tinny and artificial,” Henningsen said. “Environmental sounds come out distorted and unusual and, overall, the resulting sound becomes strenuous to listen to over time.”
The new Widex ZeroDelay Accelerator reduces the processing delay in WIDEX MOMENT hearing aids to below 0.5 milliseconds — a remarkable technological feat considering Widex already leads the industry with the lowest system delay through its “classic” processing pathway. The company’s unique, legacy time domain filter bank, 32kHz sampling rate, and 16kHz digital bandwidth create very high-fidelity sound across its family of hearing aids, with a processing delay under 3 milliseconds.
For the second, accelerated pathway in Widex PureSound-based hearing aids, signal processing is adapted to the ZeroDelay design to deliver the purest sound quality. Core functions, such as acoustics stability, adaptive gain control, and enhanced signal-to-noise ratio, continue to take priority, while others are modified for the faster ZeroDelay pathway. The two pathways — ZeroDelay and “classic” — exist side-by-side on the Widex PureSound platform. Depending on the needs of the wearer, a hearing care professional can program one or the other as the default mode. From there, the PureSound platform is adaptable to each user’s situation and preferred hearing experience.
“The wearer of hearing aids with the two distinct pathways can switch between them based on where they are and what they want to hear, thereby enjoying far greater sound quality and a more natural experience in most situations,” said Henningsen.
Widex PureSound with ZeroDelay accelerator is currently available in the new WIDEX MOMENT hearing aid. For more information on WIDEX, click here.
About Widex
At Widex we believe in a world where there are no barriers to communication; a world where people interact freely, effortlessly and confidently. With sixty years’ experience developing state-of-the-art technology, we provide hearing solutions that are easy to use, seamlessly integrated in daily life and enable people to hear naturally. As one of the world’s leading hearing aid producers, our products are sold in more than one hundred countries, and we employ 4,000 people worldwide.