Pages

A Quick Discussion Of Audiometers

By Lana Bray


Being able to hear may not be something that people think about at all, but ironically it becomes more important as it is lost. Advances in industry and adaptations in lifestyle have made hearing loss a more prominent matter than it used to be. Audiometers are used in arresting the modern trend of hearing loss.

As people go about their daily lives, they undergo exposure to very loud noise, sometimes in their place of work and at other times during recreational activities. For example, modern industry produces substantial noise, while modern music amplification has a similar effect. In order to combat hearing loss, it is necessary to measure hearing, and this is what audio measuring devices are used for.

Audiometers all operate according to the same principle. The device produces a carefully controlled sound which is routed into the ears of the person being tested. The volume and frequency of the this sound are deliberately determined by the device, and the sound then becomes the yardstick by which the sensitivity of the person's hearing is measured. The volume of the sound is measured in decibels (dB) and the frequency (pitch) in Hertz (Hz). The louder a sound, the higher its decibel count, while frequency is an indication of pitch (high or low sounds).

The purpose of the test is to determine the sensitivity of the person's hearing. This is why the typical setup of an audiometer is a pair of headphones attached by wires to a machine or a computer. Once the person's sensitivity has been established, the necessary steps can be taken to rectify the person's hearing or to prevent further damage.

However, the audiometer needs to be set up so that it produces the exact sounds required by the test. This setting up or modification is known as calibration, much as a car's odometer is calibrated to reflect distance accurately. An audiometer needs to be re-calibrated regularly to remain reliable.

Re-calibration is necessitated by various issues, such as changes in the operating temperature of the equipment, the equipment's age, inappropriate handling (the equipment is sensitive, since it produces barely audible sounds) and the frequency of use, amongst others. All of these issues can cause the equipment to operate with reduced accuracy, in the same way as a musical instrument loses tuning. An audiometer should ideally be re-calibrated annually.

There are essentially two types of audiometer. The first is known as the hardware type, and consists of a machine linked to headphones. The second is based on software, hence its name, and involves the use of a computer or other electronic device. Both types do the same thing. The main difference is that computer-based or software audiometers never need to be re-calibrated because they cannot lose accuracy. They can also be more refined in their degree of accuracy, since it is digital. However, they are harder to use due to variations in individual application (such as speaker volume and PC output).

In modern times, the level of noise in the everyday environment of the public is higher than it used to be. Audiometers have an important function in keeping this noise in check. They represent a key tool in the fight against hearing loss and aural damage.




About the Author:



No comments:

Post a Comment