Electromechanical transducer with mechanical advantage

What is claimed is: 1. A vibratory apparatus, comprising: a lever arm apparatus including a living hinge; an actuator; and a frame, wherein the vibratory apparatus is configured such that at least a portion of the lever arm moves about the living hinge when the vibratory apparatus is generating vibrations, and the vibratory apparatus is a hearing prosthesis, wherein the actuator vibrates the lever arm and the lever arm is connected to the frame. 2. The vibratory apparatus of claim 1 , wherein the vibratory apparatus is configured such that the movement of the lever arm apparatus about the living hinge generates the vibrations. 3. The vibratory apparatus of claim 1 , further comprising: a transducer in mechanical communication with the lever arm, wherein the vibratory apparatus is configured so as to impart a compressive force onto the transducer throughout all ranges of output and non-output of the compressive force by the transducer, thereby compressively pre-stressing the transducer. 4. The vibratory apparatus of claim 3 , wherein: the vibratory apparatus has a first fundamental frequency peak; the lever arm includes a second living hinge that influences the first fundamental frequency peak; and the vibratory apparatus is configured such that the first fundamental frequency peak would be higher in the absence of the second living hinge. 5. The vibratory apparatus of claim 1 , wherein: the vibratory apparatus has a first fundamental frequency peak; the lever arm includes a second living hinge that influences the first fundamental frequency peak; and the vibratory apparatus is configured such that the first fundamental frequency peak would be higher in the absence of the second living hinge. 6. The vibratory apparatus of claim 1 , wherein: the lever arm apparatus includes a second living hinge, wherein an aspect ratio thereof is such that a second fundamental frequency peak of the vibratory apparatus is located at a frequency that is about four times that of the frequency of a first fundamental frequency peak of the vibratory apparatus. 7. The vibratory apparatus of claim 1 , further comprising: a transducer in mechanical communication with the lever arm, the transducer configured to output compressive force, wherein the vibratory apparatus is configured so as to provide resistance to compressive force generated by the transducer throughout all ranges of output and non-output of the compressive force by the transducer. 8. The vibratory apparatus of claim 1 , wherein the living hinge is located completely away from the actuator and the frame. 9. The vibratory apparatus of claim 1 , further comprising: a transducer configured to repeatedly apply a force to a first location of the lever arm offset from the living hinge, thereby moving the at least a portion of the lever arm about the living hinge in an oscillating manner to generate the vibrations, wherein all force applied by the transducer resulting from an expansion thereof is a purely compressive force. 10. The vibratory apparatus of claim 1 , wherein the living hinge is located completely away from the actuator, and wherein the vibratory apparatus is configured such that the movement of the at least a portion of the lever arm about the living hinge generates the vibrations generated by the vibratory apparatus. 11. The vibratory apparatus of claim 1 , wherein the lever arm has a free end, wherein the actuator is located completely away from portions of the lever arm between the free end and the living hinge. 12. The vibratory apparatus of claim 1 , wherein the frame surrounds the actuator and the lever arm, and wherein the living hinge is a portion of the lever arm that has a geometry that is different than another portion of the lever arm. 13. The vibratory apparatus of claim 1 , wherein: the vibratory apparatus has a first fundamental frequency peak; and the lever arm includes a second living hinge that influences the first fundamental frequency peak. 14. A vibratory apparatus, comprising: a lever arm apparatus including a living hinge, wherein the vibratory apparatus is configured such that at least a portion of the lever arm moves about the living hinge when the vibratory apparatus is generating vibrations, the vibratory apparatus further comprising a transducer configured to repeatedly apply a compressive force to a first location of the lever arm offset from the living hinge, thereby moving the at least a portion of the lever arm about the living hinge in an oscillating manner to generate the vibrations. 15. The vibratory apparatus of claim 14 , wherein: the offset and the lever arm are configured such that movement of the first location by a first distance corresponds to movement of a center of gravity of the at least a portion of the lever arm by a second distance that is substantially greater than the first distance. 16. The vibratory apparatus of claim 14 , wherein the vibratory apparatus includes a frame, wherein an actuator vibrates the lever arm and the lever arm is connected to the frame, and wherein the transducer is located completely away from the living hinge. 17. A hearing prosthesis, comprising: a vibratory apparatus, including: a lever arm apparatus including a living hinge; an actuator; and a frame, wherein the lever arm is connected to the frame, wherein the vibratory apparatus is configured such that the actuator moves the lever arm in a vibratory manner, and the vibratory apparatus is configured such that at least a portion of the lever arm moves about the living hinge when the vibratory apparatus is generating vibrations, wherein the living hinge is a section of reduced cross-section relative to portions of the lever arm apparatus directly on either side of the living hinge. 18. The hearing prosthesis of claim 17 , wherein: the lever arm apparatus has a first end that is free and a second end that is connected to the frame, wherein there is a first distance between the living hinge and the frame, and wherein a distance from the free end to the living hinge is greater than the first distance.