Poppet valve system and method

What is claimed is: 1. A fluidic device worn on a body of a user, the fluidic device comprising: a plurality of inflatable fluidic actuators that define a plurality of pressure cavities, the inflatable fluidic actuators configured to be associated with and move one or more joints by at least inflation of the plurality of inflatable fluidic actuators; and a plurality of poppet valve units configured to inflate one or more pressure cavity, the poppet valve units each comprising: a valve body having a first and second end and defining a valve cavity; and a poppet assembly extending from the first end to the second end and through the valve cavity, the poppet assembly comprising: a poppet head disposed at the first end of the poppet assembly and configured to generate a seal by contacting a portion of the valve body and configured to define an opening between the valve cavity and a pressure cavity of an inflatable fluidic actuator; and a guiding element coupled at the second end of the valve body, wherein the poppet head and guiding element comprise matching effective cross-sectional areas. 2. A fluidic device worn on a body of a user, the fluidic device comprising: a plurality of inflatable fluidic actuators that define a plurality of pressure cavities, the inflatable fluidic actuators configured to be associated with and move one or more joints by at least inflation of the plurality of inflatable fluidic actuators; and a plurality of poppet valve units configured to inflate one or more pressure cavity, the poppet valve units each comprising: a valve body having a first and second end and defining a valve cavity; and a poppet assembly extending from the first end to the second end and through the valve cavity, the poppet assembly comprising: a poppet head disposed at the first end of the poppet assembly and configured to generate a seal by contacting a portion of the valve body and configured to define an opening between the valve cavity and a pressure cavity of an inflatable fluidic actuator; and a guiding element coupled at the second end of the valve body, wherein a force balance of the poppet assembly is configured to be tuned by changing geometry of at least one of the poppet head and the guiding element. 3. The fluidic device worn on the body of a user of claim 1 , wherein the plurality of poppet valve units are configured to inflate, deflate and maintain pressure within the plurality of pressure cavities. 4. The fluidic device worn on the body of a user of claim 1 , wherein the inflatable fluidic actuators configured to be associated with one or more joints including one or more of an ankle, knee, elbow, shoulder, or wrist of a human user. 5. The fluidic device worn on the body of a user of claim 1 , further comprising an actuator configured to drive the poppet assembly. 6. A poppet valve system comprising: a valve body having a first and second end and defining a valve cavity; and a poppet assembly extending from the first end to the second end and through the valve cavity, the poppet assembly comprising: a movable poppet head disposed at the first end of the poppet assembly and configured generate a seal by contacting a portion of the valve body and configured to define an opening between the valve cavity and a pressure cavity; and a movable guiding element disposed at the second end of the valve body, the poppet head and guiding element comprising matching effective cross-sectional areas. 7. The poppet valve system of claim 6 , wherein the poppet assembly further comprises a shaft extending from the first end to the second end and coupled to the poppet head and guiding element, and wherein the poppet head, guiding element and shaft are configured to move along a common first axis. 8. The poppet valve system of claim 7 , further comprising an actuator that includes an actuator drive shaft disposed along the common first axis, the actuator drive shaft coupled to the poppet assembly and configured to drive the poppet assembly along the common first axis. 9. The poppet valve system of claim 8 , wherein the actuator is disposed in a fluid flow path defined by the poppet valve system and configured to be cooled by fluid moving in the fluid flow path. 10. The poppet valve system of claim 6 , wherein the guiding element comprises a diaphragm. 11. The poppet valve system of claim 6 , wherein the poppet assembly is configured such that a valve cavity pressure acting on an inside face of the guiding element and an inside face of the poppet head exerts substantially the same force on the poppet head as the guiding element, which results in a substantially net zero-force on the poppet assembly; and wherein an external pressure acting on an external face of the poppet head and on an external face of the guiding element exerts substantially the same force on the poppet assembly in opposite directions to result in a substantially net-zero force. 12. The poppet valve system of claim 6 , wherein a force balance of the poppet assembly is configured to be tuned by changing geometry of at least one of the poppet head and the guiding element. 13. The poppet valve system of claim 6 , further comprising a vent that extends from the first end to the second end and configured to operably connect a separate first and second portion of the pressure cavity. 14. The poppet valve system of claim 6 , wherein the poppet head defines a poppet channel that extends between a first poppet head end and a second poppet head end, the poppet channel providing venting between the first and second end of the valve body. 15. The poppet valve system of claim 6 , wherein the poppet assembly comprises a return spring configured to force the poppet assembly into a closed position when an actuation force is not applied to the poppet assembly. 16. The poppet valve system of claim 6 , wherein the valve body defines a plurality of ports, and wherein the poppet valve system is configured to control, direct and regulate two-way fluid flow via the plurality of ports. 17. The poppet valve system of claim 6 , wherein the valve body defines a plurality of ports, and wherein the poppet valve system is configured to selectively direct fluid flow between the plurality of ports. 18. The poppet valve system of claim 6 , wherein a poppet valve system comprises a plurality of poppet assemblies, and wherein the plurality of poppet assemblies are driven by a single actuator. 19. The poppet valve system of claim 6 , wherein the pressure cavity is defined at least in part by an inflatable fluidic actuator; and wherein the inflatable fluidic actuator is part of a fluidic robot with the inflatable fluidic actuator positioned about a joint and configured to move the joint when the inflatable fluidic actuator is inflated by the poppet valve system.