Miniature flow sensor with shroud

What is claimed is: 1. A flow sensor assembly, comprising: a housing defining: an inlet port connected to an inlet flow channel; an outlet port connected to an outlet flow channel; a top flowtube including the inlet port connected to the inlet flow channel and the outlet port connected to the outlet flow channel; a bottom flowtube with a shroud; an electronic circuit board; and a flow sensor included in the electronic circuit board; and wherein the housing is configured such that the top flowtube and the bottom flowtube are capable of being overlaid on the electronic circuit board; and wherein the shroud includes a step less than a height of the flow sensor and the shroud is configured to guide fluid flow over the flow sensor and reduce turbulence. 2. The flow sensor assembly of claim 1 , wherein the flow sensor has a footprint less than 200 mm 2 . 3. The flow sensor assembly of claim 1 , wherein the inlet port feeds into the inlet flow channel that follows a circuitous path with two or more bends. 4. The flow sensor assembly of claim 1 , wherein the top flowtube includes molded-in channels. 5. The flow sensor assembly of claim 4 , wherein the top flowtube channels are formed over the bottom flowtube and utilize the entire footprint of the housing. 6. The flow sensor assembly of claim 1 , wherein the bottom flowtube acts as a cover over the electronic circuit board. 7. The flow sensor assembly of claim 6 , wherein the bottom flowtube includes a molded-in channel. 8. The flow sensor assembly of claim 1 , wherein the shroud contains walls located around the flow sensor. 9. The flow sensor assembly of claim 8 , wherein the bottom flowtube has a gap between the flow sensor and walls of the bottom flowtube. 10. The flow sensor assembly of claim 1 , wherein the inlet flow channel and the outlet flow channel are maximized in a longitudinal direction and encompass a majority of the footprint of the flow sensor assembly. 11. A flow sensor comprising: a top flowtube interconnected to a bottom flowtube which is interconnected to an electronic circuit board; and wherein the bottom flowtube includes a shroud and the electronic circuit board includes the flow sensor, and wherein the shroud includes a step less than a height of the flow sensor and the shroud is configured to guide fluid flow over the flow sensor and reduce turbulence, and wherein the flow sensor has a footprint less than 200 mm 2 . 12. The flow sensor of claim 11 , wherein the top flowtube includes a flow channel and cross section area that are maximized in a longitudinal direction of the flow sensor. 13. The flow sensor of claim 11 , wherein the bottom flowtube is overlaid onto the electronic circuit board. 14. A method of minimizing a footprint of a flow sensor, comprising: providing a housing to include an electronic circuit board, wherein the electronic circuit board includes the flow sensor; overlaying a bottom flowtube on the electronic circuit board, wherein the bottom flowtube includes a shroud; and assembling a top flowtube above the bottom flowtube; and wherein the top flowtube includes a molded-in flow channel; and wherein the shroud includes a step less than a height of the flow sensor and the shroud is configured to guide fluid flow over the flow sensor and reduce turbulence. 15. The method of claim 14 , wherein the top flowtube includes an inlet port and an outlet port. 16. The method of claim 14 , wherein the shroud covers the flow sensor. 17. The method of claim 14 , wherein the bottom flowtube reduces the step caused by the height of the flow sensor. 18. The method of claim 14 , wherein the bottom flowtube eliminates the step caused by the height of the flow sensor.