Minimizing bulk charge in an electroadhesive actuator

What is claimed is: 1. An electroadhesive clutch device comprising: a first electrode assembly comprising a first conductive portion that is at least partially covered by a first dielectric insulator; a second electrode assembly comprising a second conductive portion that is at least partially covered by a second dielectric insulator; an electrical signal generator configured to provide first and second signals to the first and second conductive portions of the electrode assemblies, respectively, wherein the first and second signals comprise respective opposite-polarity portions of an alternating current (AC) signal; and an accelerometer configured to measure motion of the clutch device, wherein the signal generator is configured to generate the AC signal based on the measured motion; wherein the first and second electrode assemblies are at least partially overlapping and configured to slide relative to each other at their respective surfaces that comprise the first and second dielectric insulators. 2. The electroadhesive clutch device of claim 1 , wherein at least one of the first and second electrode assemblies is configured to move linearly relative to the other. 3. The electroadhesive clutch device of claim 1 , wherein the electrical signal generator is configured to generate the AC signal as a pulse-width modulated signal with a duty cycle of about 50%. 4. The electroadhesive clutch device of claim 1 , wherein the electrical signal generator is configured to generate the AC signal as a pulse-width modulated signal having an average duty cycle of about 50%. 5. The electroadhesive clutch device of claim 1 , wherein the AC signal has a frequency of at least about 10 Hz. 6. The electroadhesive clutch device of claim 5 , wherein the AC signal has a frequency that is less than about 50 Hz. 7. The electroadhesive clutch device of claim 1 , further comprising an accelerometer configured to measure motion of a body to which the clutch device is coupled, wherein the signal generator is configured to generate the AC signal based on the measured motion. 8. The electroadhesive clutch device of claim 1 , wherein the accelerometer is configured to measure a magnitude of an acceleration of at least a portion of the clutch device, and wherein the signal generator is configured to generate the AC signal with a magnitude and/or frequency characteristic that depends on the measured magnitude of the acceleration. 9. The electroadhesive clutch device of claim 1 , wherein the accelerometer is configured to measure a frequency of a change in acceleration of at least a portion of the clutch device, and wherein the signal generator is configured to generate the AC signal with a magnitude and/or frequency characteristic that depends on the measured frequency of the change in acceleration. 10. The electroadhesive clutch device of claim 1 , further comprising a processor circuit configured to control the signal generator to generate the AC signal based on information from an accelerometer about an acceleration of the clutch device or about an acceleration of a body with which the clutch device is coupled. 11. The electroadhesive clutch device of claim 10 , further comprising the accelerometer, wherein the processor circuit is configured to: receive an acceleration-indicating signal from the accelerometer; identify an oscillatory motion based on the acceleration-indicating signal from the accelerometer; and control the signal generator based on the oscillatory motion as-identified. 12. The electroadhesive clutch device of claim 11 , wherein the processor circuit is configured to identify a magnitude or frequency characteristic of the oscillatory motion and, in response, update a magnitude characteristic of the AC signal to thereby update a shear force resistance characteristic of the clutch device. 13. The electroadhesive clutch device of claim 1 , further comprising a processor circuit configured to receive a clutch force indication and, in response, control the electrical signal generator to update a frequency or magnitude characteristic of the AC signal based on the clutch force indication. 14. The electroadhesive clutch device of claim 13 , further comprising a displacement sensor configured to provide the clutch force indication based on information about a relative displacement of the first and second electrode assemblies. 15. A wearable garment with a controllably expandable and contractible portion, the wearable garment comprising: a clutch device coupled to the expandable and contractible portion, the clutch device including a substantially planar first conductive portion that is at least partially covered by a first dielectric insulator and a substantially planar second conductive portion that is at least partially covered by a second dielectric insulator; an electrical signal generator configured to provide first and second signals to the first and second conductive portions of the clutch device, respectively, wherein the first and second signals comprise an alternating current (AC) clutch control signal; and a sensor configured to sense motion or an orientation of the wearable garment, wherein the electrical signal generator is configured to update a frequency or magnitude characteristic of the AC clutch control signal based on a sensor signal from the sensor, the sensor signal including information about the sensed motion or orientation of the wearable garment; wherein the first and second conductive portions of the clutch device are at least partially overlapping at respective surfaces that comprise the first and second dielectric insulators. 16. The wearable garment of claim 15 , further comprising a displacement sensor configured to measure a change in a dimension of the expandable and contractible portion, wherein the electrical signal generator is configured to update a frequency or magnitude characteristic of the AC clutch control signal based on measured change in the dimension of the expandable and contractible portion. 17. The wearable garment of claim 15 , wherein the electrical signal generator is configured to generate the AC clutch control signal as a pulse-width modulated signal with a duty cycle of about 50%. 18. The wearable garment of claim 17 , wherein the AC clutch control signal has a frequency of at least about 10 Hz and less than about 50 Hz. 19. An electroadhesive clutch device comprising: a first electrode assembly comprising a planar first conductive portion; a second electrode assembly comprising a planar second conductive portion; a first dielectric member provided between the first and second conductive portions; an electrical signal generator configured to provide first and second signals to the first and second conductive portions of the electrode assemblies, respectively, wherein the first and second signals comprise respective opposite-polarity portions of an alternating current (AC) clutch control signal; and an accelerometer configured to measure motion of the clutch device, wherein the signal generator is configured to generate the AC clutch control signal based on the measured motion; wherein the first and second electrode assemblies are at least partially overlapping at along surfaces that comprise the first and second conductive portions. 20. The electroadhesive clutch device of claim 19 , further comprising a device housing, wherein the first electrode assembly is substantially fixed relative to the device housing, and wherein the second electrode assembly is configured to move r