Self-regulating flow control device

What is claimed is: 1. A self-regulating flow control device comprising: a main body comprising a through bore, the through bore having an upstream end and a downstream end; a cavity intersecting the through bore between the upstream end and the downstream end and angularly offset from the through bore; a piston comprising an aperture; a biasing member; and a first fluid flow path between the through bore upstream end and the cavity on a side of the piston opposite the biasing member to communicate pressure therebetween; wherein, in an unactuated position, the biasing member biases the piston such that the aperture is enclosed in the cavity and isolated from the first fluid flow path, and the first fluid flow path is able to communicate pressure between the through bore upstream end and the side of the piston opposite the biasing member; wherein, in the unactuated position, the communicated pressure in the first fluid flow path overcomes the biasing member to move the aperture into the through bore. 2. A self-regulating flow control device comprising: a main body comprising a through bore, the through bore having an upstream end and a downstream end; a cavity intersecting the through bore between the upstream end and the downstream end and angularly offset from the through bore; a piston comprising an aperture; a biasing member; a first fluid flow path between the through bore upstream end and the cavity on a side of the piston opposite the biasing member to communicate pressure therebetween; wherein, in an unactuated position, the biasing member biases the piston such that the aperture is enclosed in the cavity, and the first fluid flow path is able to communicate pressure between the through bore upstream end and the side of the piston opposite the biasing member; wherein, in the unactuated position, the communicated pressure in the first fluid flow path overcomes the biasing member to move the aperture into the through bore; and a second fluid flow path between the cavity and an exterior portion of the main body to vent to atmosphere. 3. The device of claim 2 , wherein the second fluid flow path is in fluid communication with the biasing member and further comprises a filter. 4. The device of claim 1 further comprising a control module coupled to pressure transducers disposed upstream and downstream of the device. 5. The device of claim 4 , wherein the control module is an electro-hydraulic control module. 6. The device of claim 1 , wherein when a reduced pressure is applied through the first fluid flow path and into the cavity, the biasing member overcomes the reduced pressure to move the aperture out of the through bore. 7. A self-regulating flow control device comprising: a housing assembly comprising a through bore with an upper through bore and a lower through bore; a piston moveable to position an aperture in and out of the through bore, the piston disposed between the upper through bore and the lower through bore; a biasing member; and a first fluid flow path between the upper through bore and a side of the piston opposite the biasing member to communicate pressure therebetween; wherein, in an unactuated position, the biasing member biases the piston such that the upper through bore is isolated from the lower through bore and the aperture, and the first fluid flow path is able to communicate pressure between the upper through bore and the side of the piston opposite the biasing member; wherein, in the unactuated position, the communicated pressure overcomes the biasing member to move the piston and expose the upper through bore to the aperture and the lower through bore. 8. The device of claim 7 , wherein when a reduced pressure is applied through the first fluid flow path, the biasing member overcomes the reduced pressure to move the piston and re-isolate the aperture and the lower through bore from the upper through bore. 9. The device of claim 7 further comprising a second fluid flow path between the cavity and an exterior portion of the housing assembly to vent to atmosphere.