Why Can I Hear Male Voices Clearly but not Women’s Voices?

For anyone who is finding it tougher to hear ladies voices or children’s voices than to hear male voices, it may be a sign that you have suffered some degree of high-frequency hearing loss. Children’s and women’s voices have a higher frequency than men’s voices – 165 to 255 Hertz, as opposed to 85 to 180 Hertz for men. On top of that, the volume of women’s and children’s voice are often less audible because they speak more quietly that men. Although you may suspect that you have suffered a high-frequency hearing loss because you are having trouble hearing these voices, the only way to know for certain is to make an appointment for an exam.

If it turns out to be high-frequency hearing loss, you’re not alone; this is the most common form of hearing loss. High-frequency hearing loss can have many causes: genetics, aging, noise-induced hearing loss (exposure to loud sounds), certain diseases, and certain drugs. The good news is that high-frequency hearing loss can generally be counteracted with technology.

One effective option involves the fitting of digital hearing aids, whose sophisticated electronics can be programmed to respond differently to sounds at different frequencies. For a person suffering from high-frequency hearing loss, for example, a technician could program the digital hearing aid to raise the volume of high-pitched sounds, while not raising the volume of low-pitched sounds as much. Another treatment option is the use of open-fit hearing aids, which leave your ear canal open or partially open, so that low-frequency and mid-frequency sounds enter the ear normally, and only the high-frequency sounds are amplified. A third option for very severe cases of high-frequency hearing loss is a cochlear implant. Because they require minor surgery, cochlear implants are a more serious and more expensive option, but they can provide a solution in extreme cases involving industrial deafness or nerve deafness.

But the first step to finding a solution to your hearing problem is to have an examination, and allow our specialists to determine what the nature of it actually is. In some cases, for example, high-frequency hearing loss has been caused by nothing more than a buildup of ear wax, which can be cleared up without the need for any type of hearing aid. So the best “first step” in dealing with your hearing problem is to make an appointment and allow us to determine the real nature of the problem.

Quick Analog vs Digital Hearing Aids Comparison

When trying to understand the difference between analog and digital hearing aids, it is important to first appreciate the history of analog versus digital, and the alternative ways that they amplify and process sounds. Analog hearing aids came out first, and were the norm in the majority of hearing aids for many years. Then with the introduction of digital signal processing (DSP) technology, digital hearing aids also started to appear. At this point, most (90%) of the hearing aids sold in the US are digital, although analog hearing aids are still sold because they’re often lower priced, and because some people prefer them.

The way that analog hearing aids operate is that they take sound waves from the microphone in the form of electricity and then amplify them, delivering louder versions of the sound waves to the speakers in your ears “as is.” Digital hearing aids take the sound waves from the microphone and convert them to digital binary code, the “bits and bytes” and “zeros and ones” that all digital devices understand. Once the sound is digitized, the micro-chip inside the hearing aid can manipulate the information in complex ways before transforming it back to analog sound and passing it on to your ears.

Remember that analog and digital hearing aids serve the same purpose – they take sounds and boost them so that you can hear them better. Both analog and digital hearing aids can be programmable, which means that they contain microchips which can be customized to alter sound quality to match the user, and to create different configurations for different environments. For example, there might be distinct settings for low-noise locations like libraries, for noisy restaurants, and for outdoor spaces like stadiums.

Digital hearing aids, because of their capacity to manipulate the sounds in digital form, often have more features and flexibility, and are often user-configurable. For example, digital hearing aids may offer multiple channels and memories, permitting them to store more environment-specific profiles. Other capabilities of digital hearing aids include being able to automatically reduce background noise and remove feedback or whistling, or the ability to prefer the sound of human voices over other sounds.

Cost-wise, most analog hearing aids are still less expensive than digital hearing aids, but some reduced-feature digital hearing aids are now in a similar general price range. There is commonly a noticable difference in sound quality, but the question of whether analog or digital is “better” is up to the individual, and the ways that they are used.

Tracing the History of Hearing Aid Technology

The earliest hearing aid is probably instinctual, cupping one hand behind the ear and using it to capture faint noises and thus hear them more clearly. The first real hearing aids, however, were the long trumpets used by sailors to hear the voices of other sailors calling to them over long distances at sea. Later in the seventeenth century, smaller versions of these ear trumpets had been adapted to help those with hearing loss; they took the same form, that of a cone-shaped device pointed at the source of the sound and inserted into the ear. Around the same time, the Metal Ear was created and sold to individuals with difficulty hearing. The Metal Ear was molded out of metal in the shape of an oversized ear and worn directly over the actual ear. During the nineteenth century the acoustic horn had been invented and was marketed under names like Auricles and Cornets. Although smaller, these devices were still so bulky that they had to be placed on a table or carried in a lady’s purse, using a flexible tube to convey the sound to the ears.

Electric hearing aids came out in 1898 on the heels of the invention of the telephone. They were not too dissimilar from the ear trumpets that preceded them. However they did noticeably expand the range of frequencies that could be amplified. In 1921 the first hearing aid using vacuum tubes was patented, but it wasn’t effectively used until 1934 because of its bulk. To operate, the hearing aid required the vacuum tube, a microphone, an amplifier, a receiver and 2 batteries. When first introduced the batteries only provided for 1 day of use. Innovation in hearing aids stalled at this point for some time. The next round of development was made possible by the invention of the transistor in 1947. Even then it wasn’t until 1952 that a transistor-based hearing aid became practical, because it turns out that transistors were sensitive to dampness. The next round of innovation was fueled by the integrated circuit – first developed in 1958. This technological advancement lasted in the 1970s.

The digital circuit and the microprocessors allowed hearing aids to take a big leap forward. Many new features became possible such as noise and feedback management and directional microphones. Microprocessors also enabled greater audio clarity and miniaturization. Unfortunately, these devices were expensive and had to be hand-crafted, requiring a wait of several weeks before you could obtain one. Digital technology first appeared in commercial hearing aids in 1987. The processor for these hearing aids was quite large and had to be worn on the body while a wire connected the to a receiver in the ear. 1996 saw the release of the first all-digital hearing aids, and that technology has been used ever since, constantly improving to provide features that 17th-century users could never have even dreamed of.

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