Variable stiffness actuator with electrically modulated stiffness

What is claimed is: 1. A variable stiffness actuator (VSA) comprising: an input block and an output block; a plurality of stacked dielectric elastomer system (DES) diaphragm modules positioned between the input block and the output block, each DES diaphragm module including an outer frame, an inner frame, and a variable stiffness membrane spanning between the outer frame and the inner frame, the variable stiffness membrane configured to soften when energized and stiffen when not energized, wherein one of the input block or output block is coupled to the outer frames and another of the input block or output block is coupled to the inner frames; and an actuator mechanically coupled to the input block, the actuator configured to move the input block in a direction substantially parallel with a stacked direction of the DES diaphragm modules. 2. The VSA of claim 1 , further including a stiffness controller coupled to the plurality of stacked DES diaphragm modules, the stiffness controller configured to adjust the stiffness of the variable stiffness membranes by varying a control voltage applied thereto. 3. The VSA of claim 1 , wherein the stiffness of the variable stiffness membranes is at a maximum stiffness level when not energized. 4. The VSA of claim 1 , wherein the stiffness of the variable stiffness membranes is controlled without aid of a motor. 5. The VSA of claim 1 , wherein a force output of the actuator is measured without separate force sensors. 6. The VSA of claim 1 , wherein the actuator is an actuation motor, and further wherein the input block is coupled to the inner frames and the output block is coupled to the outer frames, and further including a ball screw coupled between the actuation motor and the input block, wherein the actuation motor is configured to drive the ball screw thereby applying a force to the inner frames. 7. The VSA of claim 6 , further including an output point connected to the output block, the output point configured to connect the VSA to a load. 8. The VSA of claim 1 , further including a linear-bearing guide-rod system connecting to a mount of the actuator and configured to constrain an output point of the VSA to linear motion. 9. The VSA of claim 1 , further including a stiffness controller coupled to the plurality of stacked DES diaphragm modules, the stiffness controller configured to adjust the stiffness of the variable stiffness membranes by varying a control voltage applied thereto, wherein the actuation motor, the plurality of stacked DES diaphragm modules, and the stiffness controller are configured such that the equilibrium position of the plurality of stacked DES diaphragm modules and the stiffness of the plurality of stacked DES diaphragm modules are independently controllable. 10. The VSA of claim 1 , wherein an applied stiffness of the plurality of stacked DES diaphragm modules is independent of an applied force to the plurality of stacked DES diaphragm modules. 11. The VSA of claim 1 , wherein the variable stiffness membranes each comprise an elastomer layer, a first compliant electrode layer covering a first surface of the elastomer layer, and a second compliant electrode layer covering a second surface of the elastomer layer, the first and second compliant electrode layers configured to provide a voltage difference across a plane of the elastomer layer, wherein an increasing voltage difference causes an increase in softening of the elastomer layer. 12. The VSA of claim 1 , wherein the plurality of stacked DES diaphragm modules are electrically coupled to a stiffness controller in parallel such that the plurality of stacked DES diaphragm modules charge and discharge together. 13. The VSA of claim 1 , wherein the variable stiffness membranes comprise one of an acrylic elastomer, silicone, a fluorosilicone, a polyurethane, and a natural rubber. 14. The VSA of claim 1 , wherein the variable stiffness membranes comprise Very High Bond (VHB) 4910. 15. The VSA of claim 1 , wherein the inner frames comprise a substantially circular disk. 16. The VSA of claim 1 , wherein the inner frames are situated substantially in a center of the outer frames. 17. The VSA of claim 1 , further including a polyimide film lining edges of the plurality of stacked DES diaphragm modules, thereby reinforcing the plurality of stacked DES diaphragm modules against an electrical field and mechanical stress concentrations that occur near the edges of the plurality of stacked DES diaphragm modules. 18. The VSA of claim 1 , wherein the actuator is an actuation motor. 19. The VSA of claim 1 , wherein the input block is coupled to the inner frames and the output block is coupled to the outer frames. 20. A variable stiffness actuator (VSA) comprising: a plurality of stacked dielectric elastomer system (DES) diaphragm modules, each DES diaphragm module including a variable stiffness membrane comprising a material that will soften when energized and stiffen when not energized; a stiffness controller connected to the plurality of stacked DES diaphragm modules and configured to control the stiffness of the DES diaphragm modules; an actuator mechanically coupled to the plurality of stacked DES diaphragm modules and configured to control an equilibrium position of the VSA, the actuator configured to move in a direction substantially parallel with a stacked direction of the DES diaphragm modules; and a connector connecting the plurality of stacked DES diaphragm modules to a load. 21. The VSA of claim 20 , wherein the actuator is an actuation motor. 22. A variable stiffness actuator (VSA) comprising: a plurality of stacked dielectric elastomer system (DES) diaphragm modules, each DES diaphragm module including a variable stiffness membrane, wherein a first side of each of the variable stiffness membranes is at least partially covered by a first compliant electrode, wherein a second side of each of the variable stiffness membranes is at least partially covered by a second compliant electrode, and wherein each of the variable stiffness membranes is configured to soften when energized with an electric field applied via the first and second compliant electrodes and to become stiffer when unenergized; a stiffness controller connected to the plurality of stacked DES diaphragm modules, the stiffness controller configured to control the stiffness of the variable stiffness membranes via application of a control voltage thereto; a ball screw; an actuator coupled to the ball screw, the actuator configured to adjust an equilibrium position of the VSA by moving in a direction substantially parallel with a stacked direction of the DES diaphragm modules; an input block configured to mechanically couple the ball screw to one of inner frames or outer frames of the plurality of stacked DES diaphragm modules; an output block configured to mechanically couple the other of the outer frames or the inner frames of the plurality of stacked DES diaphragm modules to an output connection point, the output connection point configured to receive a load. 23. The VSA of claim 22 , wherein the actuator is an actuation motor. 24. The VSA of claim 22 , wherein the input block is coupled to the inner frames and the output block is coupled to the outer frames.