Device and method for filling cryogenic tanks

What is claimed is: 1. A device for filling a cryogenic tank, comprising: a body structure including: an inlet port for receiving fluid from a delivery device; a top-fill outlet port configured to connect to a top-fill line in communication with a cryogenic tank; a bottom-fill outlet port configured to connect to a bottom-fill line in communication with a cryogenic tank; a slider tube cylinder; a cylinder housing connected to the body structure defining a pressure comparison cylinder having an upper volume and a lower volume, the lower volume in fluid communication with a cryogenic tank; a piston slidably positioned in the pressure comparison cylinder; an over-pressure member positioned in the upper volume of the pressure comparison cylinder, the piston contacting the over-pressure member as the piston slides upward in the pressure comparison cylinder; a piston shaft connected to the piston; a pressure regulator in fluid communication with the upper volume of the pressure comparison cylinder and the slider tube cylinder; a slider tube connected to the piston shaft and slidably positioned within the slider tube cylinder, said slider tube cylinder configured to direct fluid to a top-fill line through the top-fill outlet port when a pressure in the lower volume exceeds a pressure setpoint and to direct fluid to a bottom-fill line through the bottom-fill port when the pressure in the lower volume is below a pressure setpoint. 2. The filling device of claim 1 , wherein the slider tube has at least two openings for directing fluid. 3. The filling device of claim 2 , wherein the openings are tear shaped. 4. The filling device of claim 2 , wherein one of the at least two openings comprises a top-fill opening that directs fluid to the top-fill port. 5. The filling device of claim 4 , wherein the slider tube includes one or more crevices in communication with the top-fill opening. 6. The filling device of claim 5 , wherein the one or more crevices comprise a channel in a wall of the slider tube. 7. The filling device of claim 5 , wherein the one or more crevices are configured to come into communication with the top-fill port. 8. The filling device of claim 1 , wherein the over-pressure member comprises a spring. 9. The filling device of claim 8 , wherein the spring comprises a coil spring. 10. The filling device of claim 8 , further including a finger extending downward from the spring. 11. The filling device of claim 1 , wherein the pressure regulator is a pressure relieving regulator. 12. The filling device of claim 1 , wherein the weight of the piston, shaft and slider tube is about equal to the pressure drop from the body structure to the tank while filling the cryogenic tank multiplied by the cross-sectional area of the piston shaft. 13. The filling device of claim 1 , wherein the upper volume of the cylinder housing is larger than the lower volume of the cylinder housing. 14. The filling device of claim 1 , further comprising a second pressure regulator in fluid circuit between the upper volume and the pressure regulator. 15. The filling device of claim 1 , further comprising a seal between the piston and the pressure comparison cylinder. 16. The filling device of claim 1 , further comprising a seal around the piston shaft configured to prevent fluid from flowing between the pressure comparison cylinder and the body structure. 17. The filling device of claim 1 , wherein the over-pressure member comprises a coil spring having a preload that prevents upward movement of the piston until a pressure within the lower volume of the pressure comparison cylinder exceeds a predetermined pressure level. 18. A device for filling a cryogenic tank, comprising: a body structure including: an inlet port for receiving fluid from a delivery device; a top-fill outlet port configured to connect to a top-fill line in communication with a cryogenic tank; a bottom-fill outlet port configured to connect to a bottom-fill line in communication with a cryogenic tank; a slider tube cylinder; a cylinder housing connected to the body structure defining a pressure comparison cylinder having an upper volume and a lower volume, the lower volume in fluid communication with a cryogenic tank; a piston slidably positioned in the pressure comparison cylinder; a piston shaft connected to the piston; a pressure regulator in fluid communication with the upper volume of the pressure comparison cylinder and the slider tube cylinder; a slider tube connected to the piston shaft and slidably positioned within the slider tube cylinder, said slider tube having a top-fill opening configured to direct fluid through the top-fill outlet port and a bottom-fill opening configured to direct fluid through the bottom-fill; and the slider tube including one or more crevices in fluid communication with the top-fill opening. 19. The filing device of claim 17 , wherein the one or more crevices comprise a channel in a wall of the slider tube. 20. The filing device of claim 17 , wherein the one or more crevices are configured to come into communication with the top-fill port. 21. The filing device of claim 17 , further comprising an over-pressure member positioned in the upper volume of the pressure comparison cylinder, the piston contacting the over-pressure member as the piston slides upward in the pressure comparison cylinder.