Strain gauge proportional push button

What is claimed is: 1. A transmitter device comprising: a printed circuit board including one or more electrical components thereon; and a proportional push button comprising: a flexible membrane; a dome switch positioned beneath the flexible membrane and attached to the printed circuit board, the dome switch being proximate to the flexible membrane such that depression of the flexible membrane causes the dome switch to snap down and thereby form a closed circuit in the dome switch; and a strain gauge formed on or applied to the printed circuit board and positioned adjacent the dome switch, the strain gauge generating an electrical output proportional to an amount of deflection of the printed circuit board caused by pressure exerted thereon by depression of the flexible membrane and the dome switch. 2. The transmitter device of claim 1 wherein the dome switch comprises: a metal dome member having a snap-action movement; an adhesive membrane or tape layer positioned about the metal dome member to hold the metal dome member in place; and an arrangement of conductive metal traces or contacts formed on the printed circuit board between which electrical connection is effected upon a snapping down of the metal dome member. 3. The transmitter device of claim 1 wherein the transmitter device comprises a remote hand-held transmitter. 4. The transmitter device of claim 1 wherein the strain gauge is positioned adjacent the dome switch on a side thereof opposite from the flexible membrane. 5. The transmitter device of claim 1 wherein the strain gauge comprises an arrangement of strain gauge resistors; and wherein the transmitter device further comprises push button monitoring circuitry in operable communication with the strain gauge resistors via signal paths, the push button monitoring circuitry configured to: convert analog voltage signals received from signal paths that are proportional to a strain that is applied to the arrangement of strain gauge resistors to digital strain data; and process the digital strain data to generate a desired output. 6. The transmitter device of claim 5 wherein the push button monitoring circuitry is further configured to: determine when a closed circuit is formed in the dome switch responsive to the dome switch being snapped down via the flexible membrane; and perform an auto-zeroing operation of an applied force causing the dome switch to snap down, such that the electrical output of the strain gauge is proportional only to any additional force applied to the push button beyond that applied to snap down the dome switch. 7. The transmitter device of claim 5 wherein the printed circuit board comprises a flexible printed circuit board having the arrangement of strain gauge resistors formed as part of a layer or layers therein. 8. The transmitter device of claim 5 wherein the push button monitoring circuitry is further configured to: correlate a maximum proportional value that may be output from the proportional push button with a maximum pressure level applied to the proportional push button; and scale the proportional electrical output generated by the strain gauge based on the correlation between the maximum proportional value and the maximum pressure level. 9. The transmitter device of claim 8 wherein the push button monitoring circuitry is further configured to correlate the maximum proportional value that may be output from the proportional push button with the maximum pressure level applied to the proportional push button via a calibration process performed thereby. 10. The transmitter device of claim 5 wherein the proportional push button comprises a first proportional push button, and wherein the transmitter device further comprises one or more additional proportional push buttons. 11. The transmitter device of claim 10 wherein the printed circuit board comprises a plurality of slots formed therein adjacent the strain gauge of each of the first proportional push button and the one or more additional proportional push buttons, the plurality of slots at least partially surrounding each respective strain gauge; and wherein the plurality of slots interrupt force interactions between the first and second proportional push buttons resulting from deflection of the printed circuit board. 12. The transmitter device of claim 10 wherein the push button monitoring circuitry comprises a multiplexer configured to control a forwarding of analog voltage signals from the strain gauge of each of the first and second proportional push buttons for analog-to-digital conversion and processing. 13. A proportional push button for use on a transmitter device, the proportional push button comprising: a flexible button membrane; a snap-action dome switch positioned beneath the flexible membrane and attached to a printed circuit board, the snap-action dome switch being proximate to the flexible membrane such that depression of the flexible membrane causes a movable member of the snap-action dome switch to collapse and thereby form a closed circuit in the dome switch; and a strain gauge structure formed on or applied to the printed circuit board and positioned adjacent the dome switch, the strain gauge structure generating an electrical output proportional to an amount of deflection of the printed circuit board, with the deflection of the printed circuit board being caused by pressure exerted thereon by depression of the flexible membrane and the snap-action dome switch. 14. The proportional push button of claim 13 further comprising: an arrangement of strain gauge resistors; and push button monitoring circuitry in operable communication with the arrangement of strain gauge resistors, the push button monitoring circuitry configured to generate an electrical output proportional to an amount of deflection of the printed circuit board. 15. The proportional push button of claim 14 wherein the push button monitoring circuitry is configured to: determine when a closed circuit is formed in the snap-action dome switch responsive to the dome switch being collapsed; and perform an auto-zeroing of the strain gauge structure, such that the electrical output of the strain gauge structure is proportional only to any additional force applied to the push button beyond that applied to collapse the snap-action dome switch. 16. The proportional push button of claim 14 wherein the push button monitoring circuitry is configured to: correlate a maximum proportional value that may be output from the proportional push button with a maximum pressure level applied to the proportional push button; and scale the proportional electrical output generated by the strain gauge based on the correlation between the maximum proportional value and the maximum pressure level. 17. The proportional push button of claim 14 wherein the printed circuit board comprises a flexible printed circuit board having the arrangement of strain gauge resistors formed as part of a layer or layers therein. 18. The proportional push button of claim 14 wherein the printed circuit board comprises a plurality of slots formed therein that at least partially surround the arrangement of strain gauge resistors, the plurality of slots isolating the strain gauge structure from a strain gauge structure of any adjacent proportional push buttons that are formed on the same printed circuit board. 19. A transmitter device comprising: a printed circuit board; and a plurality of proportional push buttons positioned on and adjacent to the printed circuit board,