MEMS THERMAL FLOW SENSOR WITH COMPENSATION FOR FLUID COMPOSITION

摘要

The present invention provides a MEMS thermal flow sensor or meter for measuring the flow rate of a fluid without need for calibration of the flow sensor for that particular fluid. A response curve is determined by plotting the sensor output voltage against the volume flow rate divided by fluid thermal diffusivity for a calibration fluid of known thermal diffusivity, and storing response curve data in memory. A conversion factor is employed to provide a measure of correct flow rate of an unknown fluid. This conversion factor is derived from the ratio of the thermal time constant of the calibration fluid to the thermal time constant of the measured fluid, the time constants being measured at zero flow. These time constants are stored in memory. This conversion factor in conjunction with the response curve data is utilized by the processor to produce the correct flow rate. The invention also encompasses a method for measuring fluid flow rate of fluids of differing properties without necessity of a separate flow calibration for each fluid.

主权项

1. A MEMS thermal flow sensor for measuring flow rate of a fluid comprising:
a body having a flow channel through which a fluid can flow and having a flow sensing chamber; first and second valves at respective inlet and outlet ends of the flow sensing chamber, the valves being operative in an open position to permit fluid flow through the chamber, and operative in a closed position to block fluid flow through the chamber; a MEMS thermal sensor disposed in the flow sensing chamber in contact with fluid therein and providing a sensor signal representative of fluid flow rate; a processor including a memory and operative to store data representative of a sensor response curve, and to store data representing the thermal time constant of a calibration fluid; the processor operative to control the opening and closing of the first and second valves and to measure the thermal time constant of a measured fluid in the flow sensing chamber when the first and second valves are closed and to store that measured thermal time constant data, and operative to provide a conversion factor derived from the ratio of the thermal time constant of the calibration fluid to the measured thermal time constant, and operative to adjust the reading of the sensor signal in accordance with the conversion factor and sensor response curve to produce an output signal which represents the correct flow rate of the measured fluid.