Hybrid pressure calibration

The invention claimed is: 1. A pressure calibration system, comprising: a manual pump configured to receive a fluid from a fluid source and output the received fluid in response to manual actuation of the pump by an operator; a pressure adjustment subsystem including: a manifold including a plurality of channels extending between an inlet and a first outlet, wherein the inlet is in fluid communication with the pump for receipt of the fluid and the first outlet is configured for fluid communication with a pressure vessel; an adjustable chamber in fluid communication with the plurality of channels and includes an actuator configured to move so as to increase or decrease the adjustable chamber volume in response to receipt of a command signal; at least one first pressure sensor configured to measure a manifold pressure of the fluid received within the manifold from the manual pump and output a manifold pressure signal representing the measured manifold pressure; and a pressure controller including at least one processor and configured to: receive the manifold pressure signal from the at least one first pressure sensor; output a first notification signal when the manifold pressure is within a first tolerance range about a pressure set point and outside of a second tolerance range about the pressure set point, the first notification signal representing an instruction for the operator to cease manual actuation of the manual pump; transmit at least one first command signal to the adjustable chamber following output of the first notification signal, wherein, when the manifold pressure is less than the pressure set point, the first command signal is configured to command the actuator to move and decrease the adjustable chamber volume, and wherein, when the manifold pressure is greater than the pressure set point, the first command signal is configured to command the actuator to move and increase the adjustable chamber volume; and a user interface in electrical communication with the pressure adjustment subsystem and configured receive notification signals from the pressure adjustment subsystem and to generate corresponding annunciations. 2. The system of claim 1 , wherein the pressure controller is further configured to output a second notification signal to the user interface for annunciation when the manifold pressure is within the second tolerance range about the pressure set point, wherein annunciation of the second notification signal represents achievement of the pressure set point within the manifold. 3. The system of claim 1 , wherein the user interface is further configured to receive input of the pressure set point and transmit the pressure set point to the pressure controller. 4. The system of claim 1 , wherein the manifold further comprises a second outlet in fluid communication with the plurality of channels, a first normally open valve positioned within the plurality of channels adjacent to the first outlet, and a second normally closed valve positioned within the plurality of channels adjacent to the second outlet, wherein the first and second valves are configured to open and close in response to at least one second command signal. 5. The system of claim 4 , wherein pressure controller is configured to output the at least one second command signal to the first and second valves when the manifold pressure is greater than a safety pressure, the at least one second command signal being configured to cause the first valve to close, and to cause the second valve to open. 6. The system of claim 4 , wherein the pressure controller is further configured to output a third notification signal to the user interface device when the manifold pressure is greater than the safety pressure, wherein annunciation of the third notification represents an overpressure condition. 7. The system of claim 1 , wherein the pressure controller is further configured to receive, from at least one second pressure sensor in fluid communication with a pressure vessel, a vessel pressure signal representing a vessel pressure measured within a pressure vessel in fluid communication with the first outlet. 8. The system of claim 7 , wherein the pressure controller is further configured to output a fourth notification signal to the user interface when the magnitude of a difference between the vessel pressure and the manifold pressure is greater than a calibration tolerance, wherein annunciation of the fourth notification represents an incorrect calibration of the at least one second pressure sensor. 9. The system of claim 7 , wherein the pressure controller is further configured to: determine, the magnitude of a difference between the vessel pressure and the manifold pressure; generate, when the determined difference is greater than a calibration threshold, a calibration update based upon the determined magnitude difference; and transmit the calibration update to the at least one second pressure sensor; wherein the calibration update is configured to recalibrate the at least one second pressure sensor upon receipt to output an updated vessel pressure signal representing a vessel pressure that is approximately equal to the manifold pressure. 10. A method of pressure calibration, comprising: receiving, by a manual pump, a fluid received from a fluid source; outputting, by the manual pump in response to manual actuation by an operator, the received fluid to an inlet of a manifold, the manifold including a plurality of channels extending between the inlet and a first outlet configured for fluid communication with a pressure vessel; measuring, by at least one first pressure sensor, a manifold pressure of the fluid received within the manifold from the manual pump; outputting, by at least one first pressure sensor, a manifold pressure signal representing the measured manifold pressure; receiving, by a pressure controller including at least one processor, the manifold pressure signal; outputting, by the pressure controller, a first notification signal when the manifold pressure is within a first tolerance range about a pressure set point and outside of a second tolerance range about the pressure set point, wherein annunciation of the first notification signal represents an instruction for the operator to cease manual actuation of the manual pump; transmitting, by the pressure controller, at least one first command signal to an adjustable chamber following output of the first notification signal, wherein the adjustable chamber includes an actuator configured to move so as to increase or decrease the chamber volume in response to receipt of the at least one first command signal; wherein, when the manifold pressure is less than the pressure set point, the first command signal is configured to command the actuator to move and decrease the chamber volume, and wherein, when the manifold pressure is greater than the pressure set point, the first command signal is configured to command the actuator to move and increase the chamber volume; and generating, by a user interface in response to receipt of notification signals from the pressure controller, annunciations corresponding to received notifications. 11. The method of claim 10 , further comprising: outputting, by the pressure controller, a second notification signal to the user interface when the manifold pressure is within the second tolerance range about the pressure set point; and annunciating, by the user interface, the second notification signal to communicate achievement of the pressure set point within the manifold. 12. The method of claim 10 , further comprising: receiving, by user interface, input of the pressure set point; and t