Among other things, a gas storage system includes a group of capsules and an activation element coupled to the group. The group of capsules are formed within a substrate and contain gas stored at a relatively high pressure compared to atmospheric pressure. The activation element is configured to del
Among other things, a gas storage system includes a group of capsules and an activation element coupled to the group. The group of capsules are formed within a substrate and contain gas stored at a relatively high pressure compared to atmospheric pressure. The activation element is configured to deliver energy in an amount sufficient to cause at least one of the capsules to release stored gas.
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1. A gas storage system comprising: a top cap substrate;a bottom cap substrate;a plurality of intermediate substrates, a first one of the plurality of intermediate substrates in contact with a first surface of the top cap substrate, a last one of the plurality of intermediate substrates in contact w
1. A gas storage system comprising: a top cap substrate;a bottom cap substrate;a plurality of intermediate substrates, a first one of the plurality of intermediate substrates in contact with a first surface of the top cap substrate, a last one of the plurality of intermediate substrates in contact with a first surface of the bottom cap substrate, with each of the plurality of intermediate substrates having voids, the intermediate substrates arranged in a stack, with the voids aligned to provide a plurality of capsules within the stack of intermediate substrates, with each of the capsules containing stored gas that is stored at a relatively high pressure compared to atmospheric pressure;a plurality of activation elements, each one coupled to a corresponding one of a plurality of groups of one or more capsules, the activation elements configured to deliver energy in an amount sufficient to cause at least one of the capsules each of the plurality of groups of capsules to release stored gas in the capsules. 2. The gas storage system of claim 1 further comprising: control electronics coupled to the activation elements, the control electronics configured to selectively deliver an electrical signal to control operation of a selected one of the activation elements. 3. The gas storage system of claim 1 wherein the capsules are interconnected by channels that allow gas to flow between the capsules, the capsules configured to release the gas simultaneously when at least one of the capsules is activated by the activation element. 4. The gas storage system of claim 1, wherein the capsules are discrete elements positioned adjacent to each other, the capsules having a wall thickness selected to be sufficient to hold a predetermined storage pressure only when the capsules are positioned adjacent to each other, wherein a rupture of one of the capsules causes a cascading rupture of the remaining capsules of the group. 5. The gas storage system of claim 1 wherein the material of the substrate is single crystalline silicon. 6. The gas storage system of claim 1, wherein first and second ones of the intermediate substrates have partial voids with the first and second intermediate substrates that form hemispherical shapes, with remaining ones of the intermediate substrates having voids with cylindrical shapes through the remaining intermediate substrates. 7. The gas storage system of claim 6, wherein the first and second ones of the intermediate substrates have gas channels in the first and second intermediate substrates. 8. A system for digitally controlled release of a fluid, the system comprises: a plurality of substrates arranged in a stack of substrates, with each substrate containing groups of fluid-filled capsules coupled to activation elements; andcontrol circuitry configured to deliver a control signal to a selected activation element, that is on a portion of a corresponding one of the second plurality of substrates, the control signal to cause a rupture of the portion of the corresponding one of the second plurality of substrates in a region that is in proximity to a corresponding group of fluid-filled capsules to release from the system of the fluid in the corresponding group. 9. The system of claim 8 wherein the fluid is a gas contained at a relatively high pressure compared to atmospheric pressure. 10. The system of claim 8 wherein the capsules are micro pressure vessels. 11. The system of claim 8 wherein the capsules are micro pressure vessels, and are arranged in groups each group configured to allow fluid to flow between the capsules within that group, such that the capsules with the group release the fluid simultaneously when at least one of the lids of a capsule in that group is ruptured by the activation element. 12. The system of claim 8 wherein the capsules are discrete elements packed adjacent to each other, the capsules having a wall thickness selected to be sufficient to hold a predetermined storage pressure only when the capsules are positioned adjacent to each other, wherein a rupture of one of the capsules causes a cascading rupture of the remaining capsules of the group. 13. The system of claim 8 wherein the material of the substrate is single crystalline silicon. 14. The system of claim 8 wherein the group of capsules are arranged in a hexagonal packing. 15. The system of claim 8 wherein the fluid is an elemental gas and each of the plurality of substrates are comprised of crystalline material selected from the group consisting of silicon, diamond and materials that have sufficient tensile strength to withstand pressure of gas in the capsules. 16. The system of claim 8 wherein the fluid is a gas, and the control circuitry further comprises: a controller for controlling operation of the gas storage system, the controller comprising:logic circuitry to select a group of the gas-filled capsules; and, with the circuitry further comprising: circuitry to determine an address for the group, including a row count, column count and a substrate count that correspond to the selected group of gas filled capsules. 17. The controller of claim 16, further comprising: circuitry to deliver plural control signals including the control signal sufficient to cause corresponding activation elements in the groups of capsules to rupture at least one capsule in each group. 18. The controller of claim 16, further comprising: a sensor configured to monitor gas pressure. 19. The controller of claim 18 wherein the logic circuitry is further configured to adjust a number of subsequent groups selected for activation based on the monitoring. 20. The controller of claim 18 wherein the logic circuitry is further configured to adjust a frequency of selection of subsequent groups for activation based on the monitoring.
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이 특허에 인용된 특허 (1)
Diamond George B. ; Slocum Ray G., Method of and package for sterilized edible material.
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