The present invention relates to an electrical-acoustic transformation device.
Ordinary moving coil receivers and speakers are referred to as moving coil electrical-acoustic transformation devices. No matter if it is applied to a mobile phone or an earphone, rapid drop will occur in the high frequency response curve of the receiver at 6 k-9 kHz, and in the high frequency response curve of the speaker after 10 KHz, which is the so-called high frequency cutoff frequency. Due to the limitations of the material and process of the moving coil electrical-acoustic transformation device, it is hard to increase the high frequency cutoff frequency.
With the application of 4G communications, super wideband electrical-acoustic transformation devices are required. The high frequency cutoff frequency is required to be up to 16 kHz and higher. Thus, the existing moving coil electrical-acoustic transformation device meet realize these requirements.
An object of the present invention is to provide a new technical solution of an electrical-acoustic transformation device with super wideband.
The present invention provides an electrical-acoustic transformation device, including: a vibration system and a magnetic circuit system with a magnetic gap; wherein the vibration system includes: a vibrating diaphragm, a voice coil provided below the vibrating diaphragm and suspending in the magnetic gap, a piezoelectric plate provided on one side of the vibrating diaphragm, a first frequency division circuit connected to the voice coil, and a second frequency division circuit connected to the piezoelectric plate; and the first frequency division circuit performs frequency division on an externally input first audio signal and outputs same to the voice coil; and the second frequency division circuit performs frequency division on an externally input second audio signal to obtain a high frequency signal to drive the piezoelectric plate.
Preferably, the first frequency division circuit is a low pass filter and the second frequency division circuit is a high pass filter.
Preferably, the vibrating diaphragm includes a planar portion located in the center and a surround portion located at an edge of the planar portion and the piezoelectric plate is provided at the location of the planar portion of the vibrating diaphragm.
Preferably, the vibration system further includes a spider fixed to the voice coil, the spider includes a first conductive line and a second conductive line formed on an surface thereof, the externally first audio signal is input to the first frequency division circuit via the first conductive line, and the externally input second audio signal is input to the second frequency division circuit via the second conductive line.
Preferably, the first frequency division circuit and the second frequency division circuit are provided on the surface of the spider.
Preferably, the first frequency division circuit is provided on the surface of the spider and the second frequency division circuit is provided on the surface of the piezoelectric plate.
Preferably, the arrangement of the vibration system is any one of the following: the piezoelectric plate, the spider, the vibrating diaphragm, and the voice coil successively from top to bottom; or the vibrating diaphragm, the piezoelectric plate, the spider, and the voice coil successively from top to bottom; or the piezoelectric plate, the vibrating diaphragm, the spider, and the voice coil successively from top to bottom.
Preferably, the spider is provided with two second pads electrically connected to the piezoelectric plate on an upper surface of the spider, and is provided with two first pads electrically connected to the voice coil on a lower surface thereof.
Preferably, the center of the vibrating diaphragm is provided with an opening, the spider includes a center portion, an outer ring, and a connection portion connected to the center portion and outer ring, and the first pads and the second pads are provided at the center portion of the spider.
The inventors of the present invention have found that there is no electrical-acoustic transformation device with super wideband combined with a moving coil sound generating structure in the prior art. Thus, the technical task to be realized by the present invention or the technical problem to be solved is not contemplated or predicted by those skilled in the art, so the present invention is a new technical solution.
The electrical-acoustic transformation device in the present invention has a moving coil sound generating structure and a piezoelectric sound generating structure and is provided with two frequency division circuits. The piezoelectric plate drives the diaphragm to vibrate and sound when a high frequency signal is input to the piezoelectric plate. The voice coil drives the diaphragm to vibrate and sound under the action of a magnetic field when a low frequency signal is input to the voice coil, thus realizing an electrical-acoustic transformation device with good performance and super wideband.
The other features and advantages of the present invention will become clear according to the detailed description of exemplary embodiments of the present invention with reference to the accompanying drawings.
The figures incorporated in the description and forming a part of the description illustrate the embodiments of the present invention and used to explain the principle of the present invention along therewith.
Various exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that unless stated specifically otherwise, the relative arrangement of the components and steps illustrated in these embodiments, the numeral expressions and the values do not limit the scope of the present invention.
The description of at least one exemplary embodiment of the present invention is actually merely illustrative rather than limiting the present invention and the application or use thereof.
Technologies, methods and devices known to those skilled in the art may not be described in detail, but when appropriate, the technologies, methods and devices shall be regarded as a part of the description.
Any particular value in all examples illustrated and described here shall be construed as merely illustrative rather than limiting. Thus, other examples of the exemplary embodiments may have different values.
It should be noted that similar signs and letters represent similar items in the following figures, and thus, once a certain item is defined in a figure, there is no need to further describe the same in the following figures.
An embodiment of the present invention provides an electrical-acoustic transformation device, where the device includes: a vibration system, a magnetic circuit system and a housing for accommodating and fixing the vibration system and the magnetic circuit system. The magnetic circuit system includes a washer, a magnet, a frame and so on fixed successively from top to bottom. The magnet may include a center magnet and an edge magnet. Accordingly, the washer may include a center washer and an edge washer. The gap between the center magnet and the edge magnet is the magnetic gap. Of course, the structure of the magnetic circuit system and the provision of the magnetic gap may also be realized otherwise and those skilled in the art may design the same according to the prior art and the requirements of the application environment. The vibration system includes: a diaphragm, a voice coil provided below the diaphragm and suspending in the magnetic gap, and a piezoelectric plate provided on one side of the diaphragm.
The vibration system also includes a first frequency division circuit connected to the voice coil and a second frequency division circuit connected to the piezoelectric plate. The purpose of frequency division is to divide the high frequency component and the low frequency component of the signal. The first frequency division circuit performs frequency division on an externally input first audio signal and outputs the same to the voice coil. The second frequency division circuit performs frequency division on an externally input second audio signal to obtain a high frequency signal to drive the piezoelectric plate. The sources of two audio signals are the same, but the power of the second audio signal will be bigger after passing through a power amplification circuit. The first frequency division circuit may be for example a low pass filter and the second frequency division circuit may be for example a high pass filter.
By means of the above structure, the combination of a moving voice coil sound generating device and a piezoelectric sound generating device is realized. The high frequency cutoff frequency of the piezoelectric sound generating device may be up to 16 kHz and higher. By means of providing the above frequency division circuit, the piezoelectric plate drives the diaphragm to vibrate and sound when a high frequency signal is input to the piezoelectric plate. The voice coil drives the diaphragm to vibrate and sound under the action of a magnetic field when a low frequency signal is input to the voice coil, thus realizing an electrical-acoustic transformation device with good performance and super wideband.
In addition, the piezoelectric plate may be placed at the center location of the diaphragm such that the piezoelectric plate can function as a diaphragm reinforcement portion or DOME. For example, the diaphragm may include a planar portion located at the center and a surround portion located at the edge of the planar portion. The piezoelectric plate is placed at the location of the planar portion of the diaphragm.
An embodiment of the electrical-acoustic transformation device in the present invention is shown in
The magnetic circuit system has a magnetic gap. The front cover 1 and the frame form a housing for accommodating and fixing the vibration system and the magnetic circuit system. The magnetic circuit system and the frame are integrally shown in
The piezoelectric plate 2, the spider 3, the diaphragm 4, and the voice coil 5 form the vibration system. It can be seen from
In another embodiment, the second frequency division circuit may also be provided on the piezoelectric plate 2. As shown in
In the above embodiments, the arrangement method of the vibration system is the piezoelectric plate, the spider, the diaphragm, and the voice coil successively from top to bottom. Or, the arrangement method of the vibration system is the diaphragm, the piezoelectric plate, the spider, and the voice coil successively from top to bottom. Or, the arrangement method of the vibration system is the piezoelectric plate, the diaphragm, the spider, and the voice coil successively from top to bottom. In these arrangement methods, the spider is located between the piezoelectric plate and the voice coil. The spider can be used to place the conductive lines and the frequency division circuits. Since the center of the diaphragm is provided with an opening, the second pads connected to the piezoelectric plate may be provided on the upper surface of the center portion of the spider, and the lower surface of the center portion may be provided with the first pads connected to the voice coil. Such a connection method has no obstacles and the connection lines are short and easy to realize.
The electrical-acoustic transformation device in an embodiment of the present invention has a moving coil sound generating structure and a piezoelectric sound generating structure and is provided with two frequency division circuits. The piezoelectric plate drives the diaphragm to vibrate and sound when a high frequency signal is input to the piezoelectric plate. The voice coil drives the diaphragm to vibrate and sound under the action of a magnetic field when a low frequency signal is input to the voice coil, thus realizing an electrical-acoustic transformation device with good performance and super wideband. The electrical-acoustic transformation device in an embodiment of the present invention can arrange the conductive lines and frequency division circuits using the piezoelectric plate, thus the wiring is delicate and easy to realize.
Although some specific embodiments of the present invention have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are merely for the sake of description rather than limiting the scope of the present invention. It should be understood by those skilled that the above embodiments may be modified without departing from the scope and spirit of the present invention. The scope of the present invention is limited by the appended claims.
Number | Date | Country | Kind |
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201510263321.5 | May 2015 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2015/096865 | 12/9/2015 | WO | 00 |