Electrical audio signal processing systems and devices – Electro-acoustic audio transducer – Microphone capsule only
Reexamination Certificate
1999-11-30
2002-05-14
Le, Huyen (Department: 2743)
Electrical audio signal processing systems and devices
Electro-acoustic audio transducer
Microphone capsule only
C381S151000, C381S326000, C381S368000
Reexamination Certificate
active
06389140
ABSTRACT:
BACKGROUND OF THE INVENTION
(a) Field of the Invention:
The present invention relates to a ceramic piezoelectric type microphone, more particularly to a microphone structure that provides precision transmission of sounds of the throat.
(b) Description of the Prior Art:
There is known in the prior art a type of skin contact piezoelectric type microphone. The structure thereof is shown in
FIG. 4
, As shown the known microphone includes a front cover
61
and a rear cover
62
. The front cover
61
has a front edge that is relatively thin, and an inner side provided with bosses
63
. After assembly of the front and rear covers
61
,
62
, an enclosed space
64
is confined therebetween. The rear cover
62
has an end edge forming a stop end
65
for receiving a metallic electrically conductive plate
66
. An upper portion of the conductive plate
66
is a PC board
67
. The PC board
67
may serve as electrode connecting solder points or include an amplification element circuit. A lower portion of the conductive plate
66
is closely adjacent to an upper piezoelectric ceramic plate
68
and a lower piezoelectric ceramic plate
69
. A signal metallic electrically conductive plate
71
is provided below the upper piezoelectric ceramic plate
68
. A spring
72
(a reed being shown in
FIG. 4
) has a larger end disposed in the boss
63
at the front edge of the front cover
21
, with the smaller end slightly abutting against the signal metallic electrically conductive plate
71
. The conductive plate
66
is provided with a negative signal electrode solder point
73
which is led to a negative signal electrode contact
75
on the PC board
67
. The signal metallic electrically conductive plate
71
is provided with a positive signal electrode solder point
74
lead to a positive signal electrode contact
76
on the PC board
67
. The positive and negative signal electrode solder points of the PC board
67
are connected by soldering to a signal feeding line
77
. The front edge of the front cover
61
is caused to generate a sound wave signal with the signal metallic electrically conductive plate
71
. the lower piezoelectric ceramic plate
69
. and a ceramic element of the upper piezoelectric ceramic plate
67
. The PC board
67
connects to the signal feeding line
77
to feed the signal to an amplification machine to be used. As a relatively large output of sound wave signals can be generated to block the background noise, feedback can be effectively avoided. The tow ceramic piezoelectric elements and the metallic electrically conductive plates can be decreased by one or increased by more than one. The decrease or increase in the number of units will slightly change the output unit voltage and sound quality, but it will not affect the basic characteristics.
However, there are drawbacks with the above-described prior art. In actual use, metallic noise will be generated. Besides, in terms of the wholeness of the high and lows sound ranges and the fidelity of the signals, the above-described prior art is unable to achieve the same level as ordinary microphones. Improvements are there fore necessary.
SUMMARY OF THE INVENTION
A primary object or the present invention is to provide a ceramic piezoelectric type microphone that utilizes a high-density foam material to collect and transmit sound. The vibration of air in the foam material can considerably improve the sound distortion resulting from incomplete high-frequency resonance with conventional piezoelectric type sound collectors. In this way, the output signal of the piezoelectric type microphone is much closer to the original sound. This is because the size of the air cells in the high-density foam material determines the corresponding resonance frequency. If the capacity of the air cells in the foam material is controlled to correspond to the calculation of the sound transmission distance, the fidelity of the transmission of sound can be controlled. For instance, the communication pipe on a military vessel utilizes air to transmit sound. Due to the configuration of the hollow cavity and size of the pipe, whispering words at one end can be transmitted to tells or even hundreds of meters away. In addition, the design of a silent studio necessary for testing stereos is also based on the same principle. However, the object of the silent studio is to absorb all the reflections of sounds. The improvement provided by the present invention is intended to collect and to re-compose and intensity the high and lows sounds, and the completeness of regional sound equality.
According to the present invention, a ceramic piezoelectric type microphone includes a lower cover and an upper cover, and a receiving space confined by the lower and upper covers when they are connected. A signal wire is led in the receiving space via an extension portion of the lower cover and passes through a substrate to connect to an electrical circuit board. The other side of the circuit board is connected to a piezoelectric ceramic plate. A high-density foam body is sandwiched between the piezoelectric ceramic plate and a securing portion on an inner side of the upper cover. When a ratio value of a diameter of the surface of the upper cover to a contact thickness formed by the upper cover is greater than 0.15, sound waves generated as a result of contact between cover surfaces and the user's throat skin pass through the foam body to the piezoelectric ceramic plate to be directly converted into a signal output, thereby eliminating most of the background noise except the sound of the user's voice.
REFERENCES:
patent: 3439128 (1969-04-01), Sobel et al.
patent: 4012604 (1977-03-01), Speidel
patent: 5778079 (1998-07-01), Wun
Bacon & Thomas PLLC
Le Huyen
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