Abstract: A calibration system for a flow meter includes a flow simulator, the flow simulator including a receiver configured to receive flow meter transducer signals from a flow meter. A simulation subsystem is configured to create simulated transit time signal pulses, and to transmit the simulated transit time signal pulses to the flow meter at preselected time intervals. A calibration subsystem is configured to receive from the flow meter a transit time differential value generated by the flow meter based on the simulated transit time signal pulses and output a calibration factor to the flow meter.

Abstract: A thermal flow measurement system includes at least first and second sensors for detecting heat loss due to fluid flowing in a conduit. The first and second sensors are spaced a predetermined distance apart. An electronics subsystem is responsive to the at least first and second sensors and configured to receive input signals from the first and second sensors including direct current and alternating current components, and to output alternating current signals for determination of flow velocity of the fluid.

Abstract: A calibration system for a flow meter includes a flow simulator, the flow simulator including a receiver configured to receive flow meter transducer signals from a flow meter. A simulation subsystem is configured to create simulated transit time signal pulses, and to transmit the simulated transit time signal pulses to the flow meter at preselected time intervals. A calibration subsystem is configured to receive from the flow meter a transit time differential value generated by the flow meter based on the simulated transit time signal pulses and output a calibration factor to the flow meter.

Abstract: An automated method and system for calculating the transit time of a pulsed signal transmitted from a first ultrasonic transducer to a second ultrasonic transducer is provided. The method includes measuring the amplitude of the pulsed signal received at the second transducer from the first transducer; measuring the amplitude of any noise proximate to the received pulsed signal; and calculating the signal to noise ratio of the received pulsed signal and the noise, respectively. If the signal to noise ratio is above a predetermined threshold, a first technique is automatically implemented for calculating the transit time of the received pulsed signal. If the signal to noise ratio is less than the predetermined threshold, a second different technique is automatically implemented for calculating the transit time of the received pulsed signal.

Abstract: A damping material for an ultrasonic transducer system includes a spreadable matrix and a plurality of particles is suspended in the spreadable matrix, forming a coating that dissipates ultrasonic energy to dampen noise and reduce crosstalk allowing ultrasonic measurement of gas using clamp-on transducers.