Multi-state interferometric modulator with large stable range of motion

What is claimed is: 1. An interferometric modulator comprising: a substrate; an optical stack supported by the substrate, wherein the optical stack is partially reflective and partially transmissive; a movable reflector over the optical stack, the movable reflector including a front side facing the optical stack and a back side opposite the front side, the optical stack and the movable reflector defining an optical cavity therebetween; a deformable element coupled to the back side of the movable reflector, wherein the deformable element is operable for providing a restoring force to bias the movable reflector to a first position; and a restoring force modifier between the movable reflector and the deformable element, the interferometric modulator configured such that the restoring force modifier increases the restoring force of the deformable element when the deformable element is in contact with the restoring force modifier, wherein the movable reflector is between the restoring force modifier and the optical stack. 2. The interferometric modulator of claim 1 , wherein the restoring force modifier is configured such that the deformable element does not contact the restoring force modifier when the movable reflector is in the first position, the deformable element contacts the restoring force modifier when the movable reflector is in a second position, and the deformable element contacts the restoring force modifier when the movable reflector is in a third position, the second position between the first position and the third position. 3. The interferometric modulator of claim 2 , wherein the deformable element has a first spring constant when the movable reflector is between the first position and the second position, and wherein the deformable element has a second spring constant that is higher than the first spring constant when the movable reflector is between the second position and the third position. 4. The interferometric modulator of claim 2 , wherein the interferometric modulator is operable for reflecting a first color of light when the movable reflector is at the first position, wherein the interferometric modulator is operable for reflecting a second color of light when the movable reflector is at the second position, and wherein the interferometric modulator is operable for reflecting a third color of light when the movable reflector is at the third position. 5. The interferometric modulator of claim 1 , wherein the restoring force is at least partially defined by a first length of the deformable element when the deformable element does not contact the restoring force modifier, wherein the restoring force is at least partially defined by a second length of the deformable element when the deformable element contacts the restoring force modifier, and wherein the second length is shorter than the first length. 6. The interferometric modulator of claim 1 , wherein the restoring force is at least partially defined by a first region of the deformable element when the restoring force modifier is in contact with the deformable element, and wherein the restoring force is at least partially defined by the first region and a second region of the deformable element when the restoring force modifier is not in contact with the deformable element. 7. The interferometric modulator of claim 1 , further comprising a post that supports the movable reflector above the optical cavity, wherein the restoring force modifier includes a protrusion extending generally horizontally from the post. 8. The interferometric modulator of claim 1 , wherein a line normal to the front side of the movable reflector intersects the restoring force modifier. 9. The interferometric modulator of claim 1 , wherein the interferometric modulator is operable for selectively actuating the movable reflector towards the optical stack and away from the optical stack. 10. The interferometric modulator of claim 9 , further comprising a flexible element between the restoring force modifier and the movable reflector, wherein the flexible element is operable for increasing the restoring force when the movable reflector is actuated away from the optical stack. 11. The interferometric modulator of claim 9 , wherein the movable reflector is operable for flexing to increase the restoring force when the movable reflector is actuated away from the optical stack. 12. The interferometric modulator of claim 9 , further comprising an additional restoring force modifier, wherein the deformable element is between the movable reflector and the additional restoring force modifier, and wherein the additional restoring force modifier is operable for increasing the restoring force when the movable reflector is actuated away from the optical stack. 13. The interferometric modulator of claim 1 , further comprising a second restoring force modifier, wherein the deformable element is operable for contacting the restoring force modifier when the movable reflector is at a first contacting position, wherein the deformable element is operable for contacting the second restoring force modifier when the movable reflector is deflected past the first contacting position, and wherein the second restoring force modifier further increases the restoring force when the deformable element contacts the second restoring force modifier. 14. The interferometric modulator of claim 1 , wherein the movable reflector includes an electrode, and wherein the deformable element includes an electrically conductive portion that is electrically coupled to the electrode of the movable reflector. 15. The interferometric modulator of claim 14 , wherein the front side of the movable reflector includes the electrode, wherein the movable reflector includes an electrically conductive layer that extends from the back of the movable reflector to the front of the movable reflector. 16. An apparatus comprising: a plurality of display elements that each includes the interferometric modulator of claim 1 ; a processor that is operable for communicating with the plurality of display elements, the processor being operable for processing image data; and a memory device that is operable for communicating with the processor. 17. The apparatus of claim 16 , further comprising: a driver circuit operable for sending at least one signal to the plurality of display elements; and a controller operable for sending at least a portion of the image data to the driver circuit. 18. The apparatus of claim 16 , further comprising: an image source module operable for sending the image data to the processor, wherein the image source module includes at least one of a receiver, transceiver, and transmitter. 19. The apparatus of claim 16 , further comprising: an input device operable for receiving input data and communicating the input data to the processor. 20. An interferometric modulator comprising: a substrate; an optical stack supported by the substrate, wherein the optical stack is partially reflective and partially transmissive; movable means for reflecting light, the movable light reflecting means positioned over the optical stack, the movable light reflecting means including a front side facing the optical stack and a back side opposite the front side, the optical stack and the movable light reflecting means defining an optical cavity therebetween; means for biasing the movable light reflecting means to a first position, wherein the biasing means is coupled to the back side of the movable light reflecting means; and means for