AM-EWOD device and control methods with intermittent actuation patterns

What is claimed is: 1. A microfluidic system comprising: an electro-wetting on dielectric (EWOD) device comprising an element array configured to receive one or more fluid droplets, the element array comprising a plurality of individual array elements; and a control system configured to control actuation voltages applied to the element array to perform manipulation operations as to the fluid droplets; wherein: the control system is configured to apply a sequence of actuation voltages to a portion of the array elements comprising a plurality of array elements associated with a droplet, wherein the sequence of actuation voltages is applied commonly to the plurality of array elements to maintain the droplet in a desired droplet state corresponding to a predetermined droplet property; and the sequence of actuation voltages includes an actuation-on period in which the plurality of array elements associated with the droplet commonly are actuated and an actuation-off period in which the plurality of array elements associated with the droplet commonly are not actuated, and the actuation-off period is non-zero. 2. The microfluidic system of claim 1 , wherein the control system is configured to apply a sequence of actuation voltages comprising a predetermined duty cycle including a predetermined time, rate and duration of actuation voltages to the plurality of array elements associated with the droplet. 3. The microfluidic system of claim 2 , wherein the actuation-off period of the duty cycle is greater than the actuation-on period of the duty cycle. 4. The microfluidic system of claim 2 , wherein a ratio of the actuation-on period of the duty cycle to the actuation-off period of the duty cycle is less than or equal to 1:10. 5. The microfluidic system of claim 1 , further comprising a sensor for sensing a droplet state, and the control system is configured to: receive droplet state information from the sensor; determine whether a droplet is in a state that deviates from the desired droplet state in accordance with predetermined criteria based on the droplet state information; and apply actuation voltages commonly to the plurality of array elements associated with the droplet when the control system determines that the droplet state satisfies the predetermined criteria to return the droplet to the desired droplet state. 6. The microfluidic system of claim 5 , wherein the sensor comprises sensor circuitry incorporated into one or more array elements. 7. The microfluidic system of claim 1 , wherein the predetermined droplet property of the desired droplet state is based on at least one of droplet position on the element array, droplet shape or aspect ratio, droplet size, proximity of the droplet to a second object or second droplet on the element array, and proximity of the droplet to a path of a second droplet moving along the array. 8. A control method for controlling actuation voltages applied to array elements of an element array on an electro-wetting on dielectric (EWOD) device, the control method comprising the steps of: receiving one or more fluid droplets on the element array; and applying a sequence of actuation voltages to a portion of the array elements comprising a plurality of array elements associated with a droplet, wherein the sequence of actuation voltages is applied commonly to the plurality of array elements to maintain the droplet in a desired droplet state corresponding to a predetermined droplet property; and wherein the sequence of actuation voltages includes an actuation-on period in which the plurality of array elements associated with the droplet commonly are actuated and an actuation-off period in which the plurality of array elements associated with the droplet commonly are not actuated, and the actuation-off period is non-zero. 9. The control method of claim 8 , wherein applying a sequence of actuation voltages comprises applying actuation voltages in accordance with a predetermined duty cycle including a predetermined time, rate and duration of actuation voltages to the portion of the array elements associated with the droplet. 10. The control method of 9 , wherein the actuation-off period of the duty cycle is greater than the actuation-on period of the duty cycle. 11. The control method of claim 9 , wherein a ratio of the actuation-on period of the duty cycle to the actuation-off period of the duty cycle is less than or equal to 1:10. 12. The control method of claim 9 , wherein the duty cycle comprises applying actuation voltages to the array elements associated with a droplet for 0.5 seconds once every 5.0 seconds. 13. The control method of claim 8 , further comprising: sensing a droplet state with a sensor; determining whether the sensed droplet state is a state that deviates from the desired droplet state in accordance with predetermined criteria; and applying actuation voltages to the plurality of array elements associated with the droplet when it is determined that the droplet state satisfies the predetermined criteria to return the droplet state to the desired droplet state. 14. The control method of claim 13 , wherein sensing a droplet state with the sensor comprises sensing a droplet position on the element array, the control method further comprising: determining whether the sensed droplet state is a state in which the droplet position deviates from a desired droplet state position in accordance with the predetermined criteria; and applying actuation voltages to the plurality of array elements associated with the droplet when it is determined that the droplet state satisfies the predetermined criteria to return the droplet state to the desired droplet state position. 15. The control method of claim 14 , wherein the predetermined criteria includes whether the droplet is at a position within a preset proximity to a second object on the element array. 16. The control method of claim 14 , wherein the predetermined criteria includes whether the droplet is at a position within a preset proximity to a path of a moving second droplet on the element array. 17. The control method of claim 13 , wherein sensing a droplet state with the sensor comprises sensing a droplet shape or aspect ratio, the control method further comprising: determining whether the sensed droplet state is a state in which the droplet shape or aspect ratio deviates from a desired droplet state shape or aspect ratio in accordance with predetermined criteria; and applying actuation voltages to the plurality of array elements associated with the droplet when it is determined that the droplet state satisfies the predetermined criteria to return the droplet state to the desired droplet state shape or aspect ratio. 18. The control method of claim 13 , wherein sensing a droplet state with the sensor comprises sensing a droplet size, the control method further comprising: determining whether the sensed droplet state is a state in which the droplet size deviates from a desired droplet state size in accordance with predetermined criteria; and applying actuation voltages to the plurality of array elements associated with the droplet when it is determined that the droplet state satisfies the predetermined criteria to return the droplet state to the desired droplet state size. 19. A non-transitory computer-readable medium storing program code which is executed a processing device for controlling actuation voltages applied to array elements of an element array of an electro-wetting on dielectric (EWOD) device for performing droplet manipulations on