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A fluid pressure control device, including a pressurized fluid inlet, a first valve in fluid communication with the pressurized fluid inlet and controlling the flow of fluid from the pressurized fluid inlet, a first pressure measurement device detecting a fluid pressure downstream of the first valve

A fluid pressure control device, including a pressurized fluid inlet, a first valve in fluid communication with the pressurized fluid inlet and controlling the flow of fluid from the pressurized fluid inlet, a first pressure measurement device detecting a fluid pressure downstream of the first valve, and a controller electrically coupled to the first valve. The first pressure measurement device causes the controller to operate the first valve such that a fluid downstream of the first valve is maintained at a substantially constant pressure.

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1. A fluid pressure control device, comprising: a pressurized fluid inlet;a first valve in fluid communication with the pressurized fluid inlet and controlling the flow of fluid from the pressurized fluid inlet;a first pressure measurement device detecting a fluid pressure downstream of the first va

1. A fluid pressure control device, comprising: a pressurized fluid inlet;a first valve in fluid communication with the pressurized fluid inlet and controlling the flow of fluid from the pressurized fluid inlet;a first pressure measurement device detecting a fluid pressure downstream of the first valve;a controller electrically coupled to the first valve; anda second pressure measurement device disposed upstream of the first valve that senses a fluid pressure upstream of the first valve,wherein the first pressure measurement device causes the controller to operate the first valve such that fluid downstream of the first valve is maintained at a substantially constant pressure, andwherein, when the fluid pressure sensed by the second pressure measurement device is greater than a threshold, the first valve opens for a specified time period. 2. The device of claim 1, further comprising an analyzer downstream of the first valve and in selective fluid communication with the pressurized fluid inlet. 3. The device of claim 2, wherein a second valve is disposed between the first valve and the analyzer. 4. The device of claim 3, wherein the second valve is a three-way valve. 5. The device of claim 2, wherein the first pressure measurement device detects a change in fluid pressure between the first valve and the analyzer. 6. The device of claim 2, further comprising an orifice having an internal diameter, the internal diameter of the orifice different than at least a portion of the internal diameter of a lumen fluidly connecting the first valve and the analyzer. 7. The device of claim 2, wherein the analyzer is a blood gas analyzer. 8. The device of claim 1, wherein when the fluid pressure sensed by the second pressure measurement device is less than a threshold, the first valve opens until a sensed fluid pressure at the first pressure measurement device exceeds a second threshold. 9. The device of claim 1, wherein the controller includes a processor. 10. The device of claim 1, wherein the pressurized fluid inlet connects to a canister of fluid, the canister of fluid being separable from the device. 11. The device of claim 10, wherein the canister has a diaphragm, the diaphragm configured to be punctured by a pin having a bore therethrough, at least a portion of the bore forming the pressurized fluid inlet. 12. The device of claim 1, wherein the first valve is a two-way valve. 13. The device of claim 1, wherein the fluid is a gas. 14. A gas analyzer system, comprising: a pressurized calibration gas canister;a two-way valve having an inlet and an outlet, the pressurized calibration gas canister in fluid communication with the inlet of the two-way valve;a three-way valve having a calibration gas inlet, an atmospheric gas inlet, and a common outlet, the two-way and three-way valves being in fluid communication;a lumen fluidly connecting the two-way valve and the three-way valve;a first pressure measurement device detecting calibration gas pressure downstream of the two-way valve;an electronic controller coupled to the first pressure measurement device and controlling the two-way valve such that calibration gas in the lumen is maintained at a substantially constant pressure; anda gas analysis unit in fluid communication with the common outlet of the three-way valve. 15. The gas analyzer system of claim 14, wherein when the first pressure measurement device detects a pressure drop below a first threshold pressure, the electronic controller opens the two-way valve. 16. The gas analyzer system of claim 14, further comprising a second pressure measurement device, the second pressure measurement device coupled to the electronic controller and detecting calibration gas pressure upstream of the two-way valve. 17. The gas analyzer system of claim 16, wherein when the detected pressure upstream of the two-way valve is greater than about 17 psi, the two-way valve to opens for a pre-set period. 18. The gas analyzer system of claim 16, wherein when the detected pressure upstream of the two-way valve is between about 5 psi and 10 psi, the two-way valve opens until a pressure detected by the first pressure measurement device exceeds a second threshold pressure. 19. The gas analyzer system of claim 14, further comprising an orifice in the lumen. 20. A method for controlling fluid pressure of a fluid supplied to an analyzer, comprising: connecting a pressurized fluid source vessel to a fluid pressure control device including a two-way valve and a three-way valve;selectively switching the three-way valve such that the three-way valve provides atmospheric gas or fluid from the pressurized fluid source vessel to an analyzer in fluid communication with the three-way valve;sensing the pressure of fluid from the pressurized fluid source vessel at a location between the three-way valve and the two-way valve; andselectively opening the two-way valve upon detection of a fluid pressure less than a first threshold such that the sensed fluid pressure remains substantially constant and at a pressure lower than the pressurized fluid source vessel. 21. The method of claim 20, wherein the sensed fluid pressure is maintained within a range of about 2 psi to about 5 psi. 22. The method of claim 20, further comprising sensing a pressure of the fluid in the pressurized fluid source vessel. 23. The method of claim 22, wherein upon detection of a pressure of fluid in the pressurized fluid source vessel in excess of a second threshold, the period that the two-way valve is opened is set to a fixed time period. 24. The method of claim 22, wherein upon detection of a pressure of fluid in the pressurized fluid source vessel less than a second threshold, the two-way valve is opened until the sensed pressure at the location between the three-way valve and the two-way valve exceeds a third threshold. 25. The method of claim 20, wherein the fluid from the pressurized fluid source vessel is a gas. 26. A fluid pressure control device, comprising: a pressurized fluid inlet;a first valve in fluid communication with the pressurized fluid inlet and controlling the flow of fluid from the pressurized fluid inlet;a first pressure measurement device detecting a fluid pressure downstream of the first valve;a controller electrically coupled to the first valve; anda second pressure measurement device disposed upstream of the first valve that senses a fluid pressure upstream of the first valve,wherein the first pressure measurement device causes the controller to operate the first valve such that fluid downstream of the first valve is maintained at a substantially constant pressure, andwherein, when the fluid pressure sensed by the second pressure measurement device is less than a threshold, the first valve opens until a sensed fluid pressure at the first pressure measurement device exceeds a second threshold.