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  HearingAidsPrimer
Up to "AboutHearingAids"   /archive/Articles/AboutHearingAids/index.html
Hearing Aids Primer Part 1   Hearing_Aids_Primer_Part__1.html
Hearing Aids Primer Part 2   Hearing_Aids_Primer_Part__2.html
Hearing Aids Primer Part 3   Hearing_Aids_Primer_Part__3.html
Hearing Aids Primer Part 4   Hearing_Aids_Primer_Part__4.html
Hearing Aids Primer Part 5   Hearing_Aids_Primer_Part__5.html
Hearing Aids Primer Part 6   
Hearing Aids Primer Part 7   Hearing_Aids_Primer_Part__7.html
Hearing Aids Primer Part 8   Hearing_Aids_Primer_Part__8.html
Hearing Aids Primer Part 9   Hearing_Aids_Primer_Part__9.html
Hearing Aids Primer Part 10   Hearing_Aids_Primer_Part___10.html
Hearing Aids Primer Part 11   Hearing_Aids_Primer_Part___11.html
Hearing Aids Primer Part 12   Hearing_Aids_Primer_Part___12.html
Hearing Aids Primer, Part 6: Batteries

The power supply to the hearing aid is derived from its battery. Hearing aid batteries used currently are of 2 main types, zinc-air and mercury, although most in use today are zinc-air cells.

The primary feature of the zinc-air cell is its longer shelf life compared to the mercury- or silver-based hearing aid batteries. Zinc-air cells are not activated until a tape seal is removed from the positive side of the battery. This side contains small holes through which air enters to initiate activation. In most situations, the zinc-air cells last longer than their mercury counterparts.

Hearing aid batteries have a relatively flat discharge rate, and the battery's capacity is rated in milliampere hours (mAh). If the current drain of a hearing aid is known, an estimate of the expected life of the battery can be calculated by dividing the battery's capacity by the current drain measured in milliamperes (mA).

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