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An acoustic diaphragm is disclosed having a plurality of acoustic elements supported by the diaphragm. In a preferred form, each element is coupled to a driver and extends radially at a uniform acute angle to a normal of the driver. In the preferred embodiment, a plural layer of the elements is arra

An acoustic diaphragm is disclosed having a plurality of acoustic elements supported by the diaphragm. In a preferred form, each element is coupled to a driver and extends radially at a uniform acute angle to a normal of the driver. In the preferred embodiment, a plural layer of the elements is arranged so that the direction of each element is out-of-phase relative to each other, preferably in the range of approximately ninety degree. An element is also supplemental to the conventional acoustic diaphragm. The improved acoustic diaphragm is used in electric acoustic and acoustic electric transducer systems having improved performance at wide frequency range.

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What is claimed: 1. An acoustic diaphragm for communication of acoustic energy comprising: an acoustic diaphragm coupled to a driver; and a plurality of continuous and solid acoustic elements supported by said acoustic diaphragm, each of said acoustic elements having a proximate end coupled to said

What is claimed: 1. An acoustic diaphragm for communication of acoustic energy comprising: an acoustic diaphragm coupled to a driver; and a plurality of continuous and solid acoustic elements supported by said acoustic diaphragm, each of said acoustic elements having a proximate end coupled to said driver, and extending radially therefrom at an acute angle between zero and ninety degrees to a normal with respect to said driver and on a surface with respect to said acoustic diaphragm; wherein said plurality of acoustic elements are oriented in a selected stiffness pattern surrounding said driver without knitting or weaving said acoustic elements, wherein at least one of said plurality of acoustic elements has a portion which is not straight. 2. The acoustic diaphragm of claim 1, wherein said angle between each of said plurality of acoustic elements is equal at the same radius. 3. The acoustic diaphragm of claim 1, wherein said angle between each of said plurality of acoustic elements is constant at every radius. 4. The acoustic diaphragm of claim 1, wherein said plurality of acoustic elements have the portion which is not straight. 5. The acoustic diaphragm of claim 1, wherein said angle between said plurality of acoustic elements is about forty-five degrees. 6. The acoustic diaphragm of claim 1, wherein each said acoustic element is longer in length than in radius. 7. The acoustic diaphragm of claim 1, wherein said acoustic diaphragm has a working frequency comprising a wavelength, and wherein a distance between said plurality of acoustic elements is shorter than said wavelength. 8. The acoustic diaphragm of claim 1, wherein a ratio of elastic modulus to density of said acoustic element is at least that of a matrix of the acoustic diaphragm. 9. The acoustic diaphragm of claim 1, wherein said plurality of acoustic elements occupy more than twenty percent of said driver. 10. The acoustic diaphragm of claim 1, wherein said plurality of acoustic elements comprises at least three acoustic elements. 11. The acoustic diaphragm of claim 1, wherein said plurality of acoustic elements is distributed uniformly on the surface of said acoustic diaphragm. 12. The acoustic diaphragm of claim 1, wherein each of said plurality of acoustic elements has a plurality of layers. 13. The acoustic diaphragm of claim 12, wherein a first layer of said plurality of layers of said acoustic element is arranged at an angle out-of-phase to a second layer of said acoustic element. 14. The acoustic diaphragm of claim 13, wherein said angle is out-of-phase about ninety degrees. 15. The acoustic diaphragm of claim 12, wherein a first layer of said plurality of layers of said acoustic element is interlaced with a second layer of said acoustic element at a periphery of said diaphragm. 16. The acoustic diaphragm of claim 1, wherein a ratio of weight to area of said acoustic diaphragm is less than three times 0.25 mg/mm.sup.2. 17. The acoustic diaphragm of claim 1, wherein said acoustic element is directly coupled to said driver. 18. The acoustic diaphragm of claim 17, wherein an acoustic transmissivity between said acoustic element and said driver is more than fifty-five percent. 19. The acoustic diaphragm of claim 17, wherein said acoustic element contacts at least one surface of said driver. 20. The acoustic diaphragm of claim 1, wherein said acoustic diaphragm is comprised of at least a thin cutaneous-like layer, a fibrous layer and a damping material. 21. The acoustic diaphragm of claim 1, wherein said distal end of said acoustic elements extends outwardly toward a boundary of said acoustic diaphragm. 22. The acoustic diaphragm of claim 21, wherein said acoustic diaphragm is cone-shaped. 23. The acoustic diaphragm of claim 21, wherein said acoustic element has a constant volume at each radius. 24. The acoustic diaphragm of claim 1, wherein said distal end of said acoustic elements extends inwardly from a boundary of said acoustic diaphragm. 25. The acoustic diaphragm of claim 24, wherein said acoustic diaphragm is dome-shaped. 26. The acoustic diaphragm of claim 24, wherein a linear density of said acoustic elements is constant at every radius. 27. The acoustic diaphragm of claim 1, wherein said acoustic diaphragm is a combination cone and dome shape. 28. The acoustic diaphragm of claim 1, wherein said acoustic diaphragm is a dome with a concentric annular section. 29. An audio speaker comprising: an acoustic diaphragm coupled to a driver; and a plurality of continuous and solid acoustic elements supported by said acoustic diaphragm, each of said acoustic elements having a proximate end coupled to said driver, and extending radially therefrom at an acute angle between zero and ninety degrees to a normal with respect to said driver and on a surface with respect to said acoustic diaphragm; and wherein said plurality of acoustic elements are oriented in a selected stiffness pattern surrounding said driver without knitting or weaving said acoustic element, wherein at least one of said plurality of acoustic elements has a portion which is not straight. 30. A method of making sound comprising the step of causing the diaphragm of the audio speaker of claim 29 to vibrate. 31. An audio microphone comprising: an acoustic diaphragm coupled to a driver; and a plurality of continuous and solid acoustic elements supported by said acoustic diaphragm, each of said acoustic elements having a proximate end coupled to said driver, and extending radially therefrom at an acute angle between zero and ninety degrees to a normal with respect to said driver and on a surface with respect to said acoustic diaphragm; and wherein said plurality of acoustic elements are oriented in a selected stiffness pattern surrounding said driver without knitting or weaving said acoustic element, wherein at least one of said plurality of acoustic elements has a portion which is not straight. 32. A method of generating an electric signal comprising the step of causing the diaphragm of the audio microphone of claim 31 to vibrate. 33. An acoustic diaphragm comprising, a vibratory member comprising a plurality of elements formed from a plane drive system; an electric exciting means adapted to an acoustic diaphragm to cause each said element to vibrate when said electric exciting means is energized; wherein said each element has a proximate end coupled to a central portion of said acoustic diaphragm and extending radially at a uniform acute angle between zero and ninety degrees to a normal of said central portion of said acoustic diaphragm. 34. The acoustic diaphragm of claim 33, wherein said electric exciting means comprises an electromagnetic means. 35. The acoustic diaphragm of claim 33, wherein said vibratory member is made of ferromagnetic material. 36. The acoustic diaphragm of claim 33, wherein said vibratory member is made of piezoelectric material.