Controlling valve operation using pressure

What is claimed is: 1. A valve, comprising: a valve body including an interior surface; a fluid inlet communicating fluid into an interior of the valve body; a piston slideable successively through first, second, third, and fourth positions within the valve body and including: a head, a skirt forming an upper skirt portion connected to and extending from the head in a direction of the fluid inlet, the upper skirt portion forming a seal against the interior surface of the valve body; a piston port formed in the upper skirt portion; a low pressure port formed through the interior surface of the valve body, the low pressure port sealed against the interior of the valve body when the piston is in the first and third positions, the low pressure port in fluid communication with the piston port when the piston is in the second position; a high pressure port formed through the interior surface of the valve body, the high pressure port in fluid communication with the piston port when the piston is in the fourth position; a biasing element positioned within the valve body to urge the piston head in a direction of the first position, the piston moveable against a biasing force of the biasing element to slide successively from the first to the fourth position as the pressure at the fluid inlet is increased; a fluid retaining chamber disposed at an outlet of at least one of the low and high pressure ports; and a membrane dividing the chamber, the membrane displaceable by fluid passing under pressure into the chamber from the at least one of the low and high pressure ports, the membrane movable to a non-displaced configuration to gradually release fluid passed into the chamber when fluid is not passing into the chamber. 2. The valve of claim 1 , further including a lower skirt portion connected to and extending from the head in a direction away from the fluid inlet, the lower skirt portion forming a seal against the interior surface of the valve body. 3. The valve of claim 2 , wherein the lower skirt portion forms a seal against the low pressure port and the high pressure port when the piston is in the first position. 4. The valve of claim 2 , wherein the lower skirt portion forms a seal against the high pressure port when the piston is in the second position. 5. The valve of claim 2 , wherein the lower skirt portion forms a seal against the high pressure port when the piston is in the second position and the third position, the upper skirt portion forming a seal against the low pressure port when the piston is in the third position. 6. The valve of claim 1 , wherein the biasing element is a spring. 7. The valve of claim 1 , further including at least one tab connected to the valve body and slideable within a slot in the piston skirt to prevent rotation of the skirt. 8. The valve of claim 1 , wherein the piston has the form of a cylinder. 9. The valve of claim 1 , further including a lower skirt portion connected to and extending from the head in a direction away from the fluid inlet, the piston forming the shape of a cylinder having two open ends with the piston head separating the two open ends. 10. The valve of claim 1 , the membrane forming a resilient bladder. 11. The valve of claim 1 , the membrane formed of rubber or plastic. 12. The valve of claim 1 , the membrane being a spring biased diaphragm. 13. The valve of claim 9 , the lower skirt configured to block the high pressure port when the piston port is not in communication with the high pressure port.