Damping in contact hearing systems

What is claimed is: 1. A tympanic lens, comprising: a chassis; a perimeter platform connected to the chassis; a microactuator connected to the chassis through two bias springs positioned at a proximal end of the microactuator; a damper separate from and attached to the at least one bias spring; an umbo platform attached to a distal end of the microactuator; and a source of electrical signals mounted on said chassis and electrically connected to the microactuator through at least one wire, wherein the damper comprises a viscoelastic material in contact with the at least one bias spring, and wherein the viscoelastic material is configured to become stiffer or more viscous as a vibration frequency of the tympanic lens increases. 2. A tympanic lens according to claim 1 , wherein the viscoelastic material comprises silicone. 3. A tympanic lens according to claim 1 , wherein the viscoelastic material comprises a silicone gel. 4. A tympanic lens according to claim 1 , wherein the bias springs comprises a series of coils and the viscoelastic material fills the center of the coils. 5. A tympanic lens according to claim 4 , wherein the at least one wire passes through the center of the series of coils at a right angle to the series of coils. 6. A tympanic lens according to claim 1 , wherein the damper stiffens the at least one bias spring. 7. A tympanic lens according to claim 1 , wherein the damper limits or prevents side to side motion of the microactuator with respect to the perimeter platform. 8. A tympanic lens, comprising: a perimeter platform; a microactuator connected to the perimeter platform through at least one biasing element positioned between the microactuator and the perimeter platform, wherein the at least one biasing element is a spring; a damper separate from and attached to the at least one biasing element, wherein the damper comprises a viscoelastic material in contact with the at least one biasing element, and wherein the at least one bias spring comprises a series of coils and the viscoelastic material fills the center of the coils; an umbo platform attached to a distal end of the microactuator; and a source of electrical signals mounted on said chassis and electrically connected to the microactuator through at least one wire. 9. A tympanic lens according to claim 8 , wherein the perimeter platform is connected to the microactuator at a proximal end of the microactuator. 10. A tympanic lens according to claim 8 , further including a chassis connected to the perimeter platform and the microactuator. 11. A tympanic lens according to claim 8 , wherein the viscoelastic material comprises silicone. 12. A tympanic lens according to claim 8 , wherein the at least one wire passes through the center of the series of coils at a right angle to the series of coils. 13. A tympanic lens according to claim 8 , wherein the damper is configured to limit or prevent unwanted harmonic vibrations by damping motion of the at least one biasing element. 14. A tympanic lens according to claim 8 , wherein the damper stiffens the at least one biasing element. 15. A tympanic lens according to claim 8 , wherein the damper limits or prevents side to side motion of the microactuator with respect to the perimeter platform. 16. A tympanic lens according to claim 8 , wherein the viscoelastic material is configured to become stiffer or more viscous as a vibration frequency of the tympanic lens increases. 17. A tympanic lens, comprising: a perimeter platform; a microactuator connected to the perimeter platform through at least one biasing element positioned between the microactuator and the perimeter platform, wherein the at least one biasing element is a spring; a damper separate from and attached to the at least one biasing element, wherein the damper comprises a viscoelastic material in contact with the at least one biasing element; an umbo platform attached to a distal end of the microactuator; and a source of electrical signals mounted on said chassis and electrically connected to the microactuator through at least one wire, wherein the viscoelastic material is configured to become stiffer or more viscous as a vibration frequency of the tympanic lens increases. 18. A tympanic lens according to claim 17 , wherein the perimeter platform is connected to the microactuator at a proximal end of the microactuator. 19. A tympanic lens according to claim 17 , further including a chassis connected to the perimeter platform and the microactuator. 20. A tympanic lens according to claim 17 , wherein the viscoelastic material comprises silicone. 21. A tympanic lens according to claim 17 , wherein the damper is configured to limit or prevent unwanted harmonic vibrations by damping motion of the at least one biasing element. 22. A tympanic lens according to claim 17 , wherein the damper stiffens the at least one biasing element. 23. A tympanic lens according to claim 17 , wherein the damper limits or prevents side to side motion of the microactuator with respect to the perimeter platform.