Electrical audio signal processing systems and devices – Having non-electrical feature – And loudspeaker
Reexamination Certificate
2003-06-02
2004-08-31
Le, Huyen (Department: 2643)
Electrical audio signal processing systems and devices
Having non-electrical feature
And loudspeaker
C381S386000, C381S339000, C381S345000, C381S374000, C381S395000, C379S432000, C455S090300
Reexamination Certificate
active
06785395
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to the field of speakers for portable electronic devices.
BACKGROUND OF THE INVENTION
A handheld portable electronic device, such as a portable radiotelephone, employs a speaker to convert electrical signals into sound waves in the human-audible frequency range of 20 Hertz (Hz) to 20 kilohertz (kHz). The speaker enables a user of the radiotelephone to hear a representation of a caller's voice, as well as other sounds such as dial tones. The quality of the sound reproduction is an important factor in a customer's decision to buy a portable radiotelephone. Audio quality of a speaker is determined by its frequency response over the audible frequency range. Manufacturers of speakers normally provide a specified frequency response of a speaker when it is used in a “free-field” environment. Speakers employed in radiotelephones, however, are rarely used in a free-field environment. Instead, the user places the radiotelephone against his ear to hear the sound, and the speaker is positioned very close to the human ear.
The goal of an acoustic engineer in the radiotelephone field is to choose the combination of speaker, enclosure, and preconditioning electrical circuitry that provides an acceptable audio quality. An acceptable audio quality is usually a measure of how flat, or variable, the frequency response of the speaker is in its environment over the frequency range of 300 Hz to 4 kHz. The flatter, or less variation, of the frequency response, the better the audio quality. A frequency response that is higher, or boosted, in the low frequencies than in the high frequencies will sound bassy and muffled; whereas a frequency response that is higher in the high frequencies than in the low frequencies will sound shrill and tinny.
Two types of speaker technology are in predominate use for handheld radiotelephones, piezoelectric speakers and dynamic speakers, both of which have a high free-air resonant frequency. Both speaker technologies are specified to work with an airtight seal between the speaker and the human ear. Achieving the airtight seal requires that the speaker have an airtight mount to the handheld radiotelephone housing and the radiotelephone housing have an airtight coupling where the housing meets the ear. The ear-housing coupling is achieved by forming a depression in the housing that conforms to the shape of the human ear. As long as the airtight seal is maintained, these types of speakers have been able to provide an acceptable frequency response.
As handheld radiotelephones become smaller in size, an airtight ear-housing coupling is difficult to achieve for all users because the housing is not large enough to form a depression in the housing surface that accommodates the size of all human ears. Consequently, for most users, air leakage occurs between the housing and the human ear, resulting in a loss of low frequency response resulting in a tinny sound.
A low acoustic impedance dynamic speaker (having a lower free air resonant frequency than a piezoelectric speaker) is designed to boost the frequency response at the low end of the frequency range, and can be used to remedy the bass loss caused by air leakage between the housing and the human ear. However, such a speaker, when mounted with an airtight seal between the speaker and the housing, exhibits excessive low frequency gain when an airtight seal is formed between the housing and the human ear. Consequently, the sound is bassy and muffled. Furthermore, there is a large variation between the highest and lowest point in the frequency response, thus the audio quality is poor.
In addition, the size of smaller handheld radiotelephones not only eliminates the seal between the housing and the human ear but also the size of the enclosure housing the speaker. Smaller handheld radiotelephones have less space to house the enclosure, and the size of the enclosure further degrades the frequency response of the speaker. Moreover, the frequency response can change significantly as the placement of the ear is moved away from a centered position over the speaker itself.
A need therefore exists for a speaker configuration for small handheld radiotelephones, which has limited sensitivity to placement of a user's ear in relation to the speaker diaphragm. It would also be of benefit if the speaker configuration is relatively insensitive to the degree of sealing between the user's ear and the housing of the radiotelephone, thereby providing acceptable audio quality.
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Arneson Theodore R.
Barabolak Mark A.
Davis Giles T.
Harvey Dionne
Le Huyen
Mancini Brian M.
Motorola Inc.
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