System and method for metering gas based on amplitude and/or temporal characteristics of an electrical signal

The invention claimed is: 1. A system for metering a fluid stream, said system comprising: a primary conduit; a secondary conduit in fluid communication with said primary conduit and configured to receive a portion of a fluid stream passing through said primary conduit; a flow manager disposed in said primary conduit and configured to maintain a predetermined relationship between at least one first physical characteristic of the fluid stream and at least one second physical characteristic of the portion of the fluid stream; a sensor configured to generate an electrical signal in response to a flow characteristic of the portion of the fluid stream; and a processor communicatively coupled to said sensor and configured to determine a flow parameter of the fluid stream based, at least in part, on the predetermined relationship between the at least one first physical characteristic of the fluid stream and the at least one second physical characteristic of the portion of the fluid stream, and at least one of an amplitude characteristic of the electrical signal and a temporal characteristic of the electrical signal, wherein said processor determines the flow parameter of the fluid stream based on the amplitude characteristic when the portion of the fluid stream is in a first flow regime and based on the temporal characteristic when the portion of the fluid stream is in a second flow regime. 2. The system in accordance with claim 1 , wherein the first flow regime is substantially laminar and the second flow regime is substantially turbulent. 3. The system in accordance with claim 1 , wherein said processor further determines the flow parameter of the fluid stream based on a geometrical relationship between said primary conduit and at least one of said secondary conduit and said sensor. 4. The system in accordance with claim 1 further comprising a flow disrupter disposed in said secondary conduit and configured to induce disturbances in the portion of the fluid stream when the portion of the fluid stream exceeds a predetermined flow rate, wherein the degree of induced disturbances cause the portion of the fluid stream to flow in one of the first flow regime and the second flow regime. 5. The system in accordance with claim 1 , wherein the at least one first physical characteristic and the at least one second characteristic are one of separability, pressure, temperature, mass flow rate, volumetric flow rate, and a level of impurities. 6. The system in accordance with claim 1 , wherein at least one of said sensor and said secondary conduit are detachably coupled to said primary conduit. 7. The system in accordance with claim 1 , wherein said secondary conduit is integral with said primary conduit. 8. The system in accordance with claim 7 , wherein said secondary conduit is disposed within said primary conduit. 9. The system in accordance with claim 1 , wherein said processor is further configured to calibrate said sensor based on a third flow regime, the third flow regime corresponding to an overlap region of the first flow regime and the second flow regime. 10. The system in accordance with claim 1 , further comprising: a regime optimizer communicatively coupled to said processor, said regime optimizer configured to generate a diagnostic electrical signal in response to the flow characteristic of the portion of the fluid stream, wherein said processor is further configured to perform at least one diagnostic function based, at least in part, on said diagnostic electrical signal. 11. The system in accordance with claim 10 , wherein said at least one diagnostic includes one of: activating said sensor, changing said sensor between a first mode of operation corresponding to the first flow regime and a second mode of operation corresponding to the second flow regime, changing said sensor to a third mode of operation corresponding to a third flow regime corresponding to an overlap of the first flow regime and the second flow regime, confirming that said sensor is operational, identifying a change in the flow characteristic of the portion of the fluid stream, determining that the portion of the fluid stream has a flow rate within a predetermined flow rate range, and verifying one or more calibration constants of said sensor. 12. The system in accordance with claim 1 , wherein said sensor defines a bypass channel in fluid communication with said secondary conduit, said bypass channel configured to receive a subportion of the fluid stream, wherein the flow characteristic of the portion of the fluid stream is a flow characteristic of the subportion of the fluid stream. 13. A metering assembly for use in a fluid meter, the fluid meter including a primary conduit, the metering assembly comprising: a secondary conduit configured to be coupled to the primary conduit and configured to receive, when coupled to the primary conduit, a portion of a fluid stream passing through the primary conduit; a flow manager disposed in said primary conduit and configured to maintain a predetermined relationship between at least one first physical characteristic of the fluid stream and at least one second physical characteristic of the portion of the fluid stream; a sensor configured to generate an electrical signal in response to a flow characteristic of the portion of the fluid stream; and a processor communicatively coupled to said sensor and configured to determine a flow parameter of the fluid stream based, at least in part, the predetermined relationship between the at least one first physical characteristic of the fluid stream and the at least one second physical characteristic of the portion of the fluid stream, and at least one of an amplitude characteristic of the electrical signal and a temporal characteristic of the electrical signal, wherein said processor determines the flow parameter of the fluid stream based on the amplitude characteristic when the portion of the fluid stream is in a first flow regime and based on the temporal characteristic when the portion of the fluid stream is in a second flow regime. 14. The metering assembly in accordance with claim 13 , wherein the first flow regime is substantially laminar and the second flow regime is substantially turbulent. 15. The metering assembly in accordance with claim 13 , wherein said processor further determines the flow parameter of the fluid stream based on a geometrical relationship between said primary conduit and at least one of said secondary conduit and said sensor. 16. The metering assembly in accordance with claim 13 , further comprising a flow disrupter disposed in said secondary conduit and configured to induce disturbances in the portion of the fluid stream when the portion of the fluid stream exceeds a predetermined flow rate, wherein the degree of induced disturbances cause the portion of the fluid stream to flow in one of the first flow regime and the second flow regime. 17. The metering assembly in accordance with claim 13 , wherein the at least one first physical characteristic and the at least one second characteristic are one of separability, pressure, temperature, mass flow rate, volumetric flow rate, and a level of impurities. 18. The metering assembly in accordance with claim 13 , wherein said processor is further configured to calibrate said sensor based on a third flow regime, the third flow regime corresponding to an overlap region of the first flow regime and the second flow regime. 19. The metering assembly in accordance with claim 13 , further comprising: a regime optimizer communicative