Coriolis mass flow controller
First Claim
1. A device for determining mass flow from a Coriolis force-induced phase shift between first and second input signals detected by first and second displacement gauges, comprising:
- a first phase sensitive detector coupled to the first and second displacement gauges to receive the first and second input signals, the first phase sensitive detector operable to mix the first and second input signals and provide an output representing the mixed first and second input signals;
a first phase shifter coupled to the first and second displacement gauges to receive the first input signal and operable to output a signal representing the first input signal phase shifted 90°
;
a second phase sensitive detector coupled to the first phase shifter and the second displacement gauge to receive the first phase shifter output and the second input signal, the second phase sensitive detector operable to mix the phas shifted first input signal and the second input signal and provide an output representing the mixed signals;
a processor coupled to the first and second phase sensitive detectors to receive the mixed signals and operable to calculate the vector magnitude and phase of the mixed signals relative to each other, wherein the vector phase is proportional to mass flow;
a third phase sensitive detector coupled to the first displacement gauge to receive the first input signal at each of two inputs, the third phase sensitive detector operable to mix the first input signal with itself and provide an output representing the mixed first input signal;
a fourth phase sensitive detector coupled to the first phase shifter and the first displacement gauge to receive the first phase shifter output and the first input signal, the fourth phase sensitive detector operable to mix the phase shifted first input signal and the first input signal and provide an output representing the mixed signals;
a first differential amplifier coupled to the first and third phase sensitive detectors to receive the outputs of the first and third phase sensitive detectors and provide a differential signal to the processor, and a second differential amplifier coupled to the second and fourth phase sensitive detectors to receive the outputs of the second and fourth phase sensitive detectors and provide a differential signal to the processor.
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Accused Products
Abstract
A Coriolis mass flow sensor includes a flow sensor tube, a drive device situated relative to the flow sensor tube so as to cause the flow sensor tube to vibrate, and capacitance displacement gauges situated relative to the flow sensor tube so as to measure the twist in the flow sensor tube due to Coriolis force. In specific embodiments, electromagnetic, electrostatic, acoustic, and/or piezoelectric drives are used to vibrate the flow sensor tube. In still further embodiments, piezoelectric devices are used both to vibrate the flow sensor tube and measure the twist in the flow sensor tube. In accordance with certain embodiments of the invention, the Coriolis mass flow controller further includes an integrated flow control device adapted to receive fluid from the flow sensor tube and provide flow control.
110 Citations
6 Claims
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1. A device for determining mass flow from a Coriolis force-induced phase shift between first and second input signals detected by first and second displacement gauges, comprising:
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a first phase sensitive detector coupled to the first and second displacement gauges to receive the first and second input signals, the first phase sensitive detector operable to mix the first and second input signals and provide an output representing the mixed first and second input signals;
a first phase shifter coupled to the first and second displacement gauges to receive the first input signal and operable to output a signal representing the first input signal phase shifted 90°
;
a second phase sensitive detector coupled to the first phase shifter and the second displacement gauge to receive the first phase shifter output and the second input signal, the second phase sensitive detector operable to mix the phas shifted first input signal and the second input signal and provide an output representing the mixed signals;
a processor coupled to the first and second phase sensitive detectors to receive the mixed signals and operable to calculate the vector magnitude and phase of the mixed signals relative to each other, wherein the vector phase is proportional to mass flow;
a third phase sensitive detector coupled to the first displacement gauge to receive the first input signal at each of two inputs, the third phase sensitive detector operable to mix the first input signal with itself and provide an output representing the mixed first input signal;
a fourth phase sensitive detector coupled to the first phase shifter and the first displacement gauge to receive the first phase shifter output and the first input signal, the fourth phase sensitive detector operable to mix the phase shifted first input signal and the first input signal and provide an output representing the mixed signals;
a first differential amplifier coupled to the first and third phase sensitive detectors to receive the outputs of the first and third phase sensitive detectors and provide a differential signal to the processor, and a second differential amplifier coupled to the second and fourth phase sensitive detectors to receive the outputs of the second and fourth phase sensitive detectors and provide a differential signal to the processor. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification