Fluid regulator having improved flow stability

What is claimed: 1. A dual stage fluid regulator comprising: a regulator body having a fluid inlet and a fluid outlet connected by a fluid flow path, a portion of the regulator body forming a first chamber and a second chamber; a first stage orifice carried by a first stage orifice fitting and disposed in the fluid flow path and leading to a first stage seat; a second stage orifice disposed in the fluid flow path and leading to a second stage seat; a first stage control element disposed within the fluid flow path and shiftable between an open position spaced away from the first stage seat and a closed position seated against the first stage seat, the first stage control element arranged to respond to fluid pressure changes to control flow of a process fluid through the first stage orifice; a second stage control element disposed within the fluid flow path and shiftable between an open position spaced away from the second stage seat and a closed position seated against the second stage seat; an actuator attached to the regulator body, the actuator operatively coupled to the second stage control element and arranged to respond to fluid pressure changes in the fluid outlet to move the second stage control element between the open position and the closed position to control flow of the process fluid through the second stage orifice; and wherein the first stage control element is operatively coupled to a first diaphragm and a second diaphragm, the first and second diaphragms disposed between the first chamber and the second chamber; an inlet fitting coupled to the regulator body, the inlet fitting forming at least a portion of the first chamber; wherein the first diaphragm includes a radially inner portion, the radially inner portion of the first diaphragm secured between the inlet fitting and the first stage orifice fitting. 2. The dual stage regulator of claim 1 , wherein the first and second diaphragms are secured to the regulator body by the inlet fitting. 3. The dual stage regulator of claim 2 , wherein the first diaphragm includes a convolution having a convex portion, and wherein the convex portion faces the second chamber. 4. The dual stage regulator of claim 2 , wherein the second diaphragm includes a radially inner portion operatively coupled to the first stage control element. 5. The dual stage regulator of claim 4 , wherein, the radially inner portion of the first diaphragm is spaced axially from the radially inner portion of the second diaphragm. 6. A dual stage fluid regulator comprising: a regulator body having a fluid inlet and a fluid outlet connected by a fluid flow path, a portion of the regulator body forming a first chamber and a second chamber; a first stage orifice disposed in the fluid flow path and leading to a first stage seat; a second stage orifice disposed in the fluid flow path and leading to a second stage seat; a first stage control element disposed within the fluid flow path and shiftable between an open position spaced away from the first stage seat and a closed position seated against the first stage seat, the first stage control element arranged to respond to fluid pressure changes to control flow of a process fluid through the first stage orifice; a second stage control element disposed within the fluid flow path and shiftable between an open position spaced away from the second stage seat and a closed position seated against the second stage seat; an actuator attached to the regulator body, the actuator operatively coupled to the second stage control element and arranged to respond to fluid pressure changes in the fluid outlet to move the second stage control element between the open position and the closed position to control flow of the process fluid through the second stage orifice; and wherein the first stage control element is operatively coupled to a first diaphragm and a second diaphragm, the first and second diaphragms disposed between the first chamber and the second chamber; a first spring disposed in the first chamber and bearing against a first spring seat, the first spring positioned to bias the first stage control element toward the open position; a second spring disposed in the second chamber and bearing against a second spring seat, the second spring positioned to bias the first stage control element toward the closed position; the first diaphragm including a radially inner portion secured between the first spring seat and the second spring seat; the second diaphragm including a radially inner portion engaging the second spring seat and spaced axially away from the radially inner portion of the first diaphragm. 7. The dual stage regulator of claim 6 , wherein the regulator body includes a removable inlet fitting, the inlet fitting forming the first chamber and including a central support, the first spring seat including an inner portion and an outer portion, the inner portion sized to surround and slide along the central support, the outer portion including a flange having an upstream face and a downstream face, the inner portion of the second diaphragm bearing against the upstream face, the downstream face operatively coupled to the radially inner portion of the first diaphragm. 8. The dual stage regulator of claim 6 , wherein the first stage control element includes a valve disc coupled to a disc holder disposed in the second chamber, and wherein the second spring seat is carried by the disc holder. 9. The dual stage regulator of claim 8 , wherein the disc holder includes a central portion arranged to receive the valve disc, an outer flange forming the second spring seat, and a plurality of supports extending between the central portion and the outer flange, the supports separated by flow apertures. 10. A method of improving stability in a dual stage regulator, the method comprising: providing a conventional dual stage fluid regulator having a regulator body, a fluid inlet and a fluid outlet connected by a fluid flow path with a portion of the regulator body forming a first chamber and a second chamber, the regulator further having a first stage orifice disposed in the fluid flow path and leading to a first stage seat, a second stage orifice disposed in the fluid flow path and leading to a second stage seat, a first stage control element disposed within the fluid flow path and shiftable between an open position spaced away from the first stage seat and a closed position seated against the first stage seat, the first stage control element arranged to respond to fluid pressure changes to control flow of a process fluid through the first stage orifice, and a second stage control element disposed within the fluid flow path and shiftable between an open position spaced away from the second stage seat and a closed position seated against the second stage seat, the regulator further having an actuator attached to the regulator body, the actuator operatively coupled to the second stage control element and arranged to respond to fluid pressure changes in the fluid outlet to move the second stage control element between the open position and the closed position to control flow of the process fluid through the second stage orifice; providing a first diaphragm; positioning the first diaphragm between the first chamber and the second chamber; coupling a radially inner portion of the first diaphragm to the first stage control element; providing a second diaphragm; coupling a radially inner portion of the second diaphragm to the first stage control element; positioning a first spring in the first chamber and bearing against a first spring seat, the first spring positioned to bias the first stage control element toward the open position; positioning a second spri