Controlled low humidity storage device and methods

The invention claimed is: 1. A controlled low humidity storage device comprising: a housing defining a storage compartment and an access aperture; a door attached to the housing configured to selectively open to allow access to the storage compartment through the access aperture and close to seal the access aperture; a dry gas supply system in fluid communication with the storage compartment configured to deliver low humidity gas to the storage compartment; a control unit in electrical communication with the dry gas supply system; and a pressure sensor configured to measure a pressure differential between the inside of the storage compartment and the ambient environment, the pressure sensor in electronic communication with the control unit; wherein the control unit is configured to intermittently initiate delivery of low humidity gas from the dry gas supply system in an amount sufficient to raise the pressure within the storage compartment to at least 1 inch of water greater than the pressure of the ambient environment and then cease delivering low humidity gas. 2. The controlled low humidity storage device of claim 1 , the dry gas supply system comprising a hollow fiber membrane filter. 3. The controlled low humidity storage device of claim 1 , further comprising a door sensor in electrical communication with the control unit, the door sensor configured to detect opening and closing of the door. 4. The controlled low humidity storage device of claim 3 , the control unit configured to cause gas flow from the dry gas supply system to cease when the door sensor detects opening of the door. 5. The controlled low humidity storage device of claim 3 , the control unit configured to trigger the dry gas supply to deliver low humidity gas in response to a signal from the door sensor. 6. The controlled low humidity storage device of claim 1 , wherein the control unit is configured to intermittently initiate delivery of low humidity gas from the dry gas supply system to maintain a pressure within the storage compartment that is greater than ambient pressure. 7. The controlled low humidity storage device of claim 1 , wherein the cessation of delivering low humidity gas lasts until the pressure within the storage compartment falls to within a predefined amount greater than the pressure of the ambient environment and thereafter the delivery of low humidity gas from the dry gas supply system is initiated again. 8. The controlled low humidity storage device of claim 1 , wherein the cessation of delivering low humidity gas lasts until the pressure within the storage compartment falls to within 0 to 0.1 inch of water greater than the pressure of the ambient environment and thereafter the delivery of low humidity gas from the dry gas supply system is initiated again. 9. The controlled low humidity storage device of claim 1 , wherein the control unit is configured to trigger the dry gas supply to deliver low humidity gas to in an amount sufficient to raise the pressure within the storage compartment to at least a predefined amount greater than the pressure of the ambient environment in response to a detected door opening event, then continue delivering low humidity gas for a predefined period of time, and then cease delivering low humidity gas. 10. The controlled low humidity storage device of claim 1 , wherein the control unit is configured to trigger the dry gas supply to deliver low humidity gas to in an amount sufficient to raise the pressure within the storage compartment to at least 1 inch of water greater than the pressure of the ambient environment in response to a detected door opening event, then continue delivering low humidity gas for a predefined period of time, and then cease delivering low humidity gas. 11. The controlled low humidity storage device of claim 1 , wherein the control unit interprets a drop in pressure of greater than 0.5 inches of water in less than 5 seconds as a door opening event. 12. The controlled low humidity storage device of claim 9 , wherein the predefined period of time is calculated from the volume of the box and the gas turnovers in the box to achieve the target humidity within the desired time. 13. The controlled low humidity storage device of claim 9 , wherein the predefined period of time is from 1 minute to 45 minutes. 14. The controlled low humidity storage device of claim 1 , wherein the controlled low humidity gas has a humidity of less than 5% RH at 23 degrees Celsius. 15. The controlled low humidity storage device of claim 1 , further comprising a weight sensor to detect the weight of the contents of the storage compartment. 16. A controlled low humidity storage device comprising: a housing defining a storage compartment and an access aperture; a door attached to the housing configured to selectively open to allow access to the storage compartment through the access aperture and close to seal the access aperture; a dry gas supply system in fluid communication with the storage compartment configured to deliver low humidity gas to the storage compartment; a control unit in electrical communication with the dry gas supply system; and a pressure sensor configured to measure a pressure differential between the inside of the storage compartment and the ambient environment, the pressure sensor in electronic communication with the control unit; wherein the control unit is configured to trigger the dry gas supply to deliver low humidity gas to in an amount sufficient to raise the pressure within the storage compartment to at least a predefined amount greater than the pressure of the ambient environment in response to a detected door opening event, then continue delivering low humidity gas for a predefined period of time, and then cease delivering low humidity gas. 17. A controlled low humidity storage device comprising: a housing defining a storage compartment and an access aperture; a door attached to the housing configured to selectively open to allow access to the storage compartment through the access aperture and close to seal the access aperture; a dry gas supply system in fluid communication with the storage compartment configured to deliver low humidity gas to the storage compartment; a control unit in electrical communication with the dry gas supply system; and a pressure sensor configured to measure a pressure differential between the inside of the storage compartment and the ambient environment, the pressure sensor in electronic communication with the control unit; wherein the control unit interprets a drop in pressure of greater than 0.5 inches of water in less than 5 seconds as a door opening event.