Ultrasonic transducer health status monitor

The invention claimed is: 1. A method of monitoring a first ultrasonic transducer of an ultrasonic-based system, wherein the first ultrasonic transducer comprising at least a first piezoelectric element comprising a first matching layer thereon being electrically connected to at least a transmitter, a controller with an associated memory coupled to the transmitter, wherein the method comprising: driving, by the transmitter, the first piezoelectric element with a pulsed electrical signal to generate a transmit ultrasonic signal; sampling the pulsed electrical signal; responsive to receiving the transmit ultrasonic signal, a second ultrasonic transducer including at least a second piezoelectric element that is spaced apart from the first ultrasonic transducer comprising a second matching layer thereon generating a pulsed waveform signal, wherein the second piezoelectric element is different from the first piezoelectric element; comparing an amplitude of the pulsed electrical signal to at least one predetermined limit, wherein when the amplitude of the pulsed electrical signal is outside the at least one predetermined limit, determining an impedance of the first piezoelectric element is abnormal or an impedance of the second piezoelectric element is abnormal; and when the amplitude of the pulsed electrical signal is determined to be within the at least one predetermined limit, comparing an amplitude of the pulsed waveform signal to a lower amplitude limit, wherein when the amplitude of the pulsed waveform signal is at or below the lower amplitude limit, comparing a shape of the pulsed waveform signal to at least one waveform shape reference, wherein when the shape of the pulsed waveform signal is determined to be different as compared to the at least one waveform shape reference, determining the impedance of the first piezoelectric element is abnormal due to deposition of a contamination layer on the first matching layer or the impedance of the second piezoelectric element is abnormal due to deposition of the contamination layer on the second matching layer, and generate an alert to clean the first matching layer of the first ultrasonic transducer or to clean the second matching layer of the second ultrasonic transducer. 2. The method of claim 1 , wherein the ultrasonic-based system consists of the first ultrasonic transducer as only a single ultrasonic transducer, and wherein the ultrasonic-based system, further comprises a duplexer positioned between the controller and the single ultrasonic transducer is for controlling the first ultrasonic transducer to switch between transmitting and receiving. 3. The method of claim 1 , wherein the pulsed electrical signal comprises a pulsed current or a pulsed voltage, and wherein the transmitter further comprises a current or voltage measurement circuit for the sampling of the pulsed current or the pulsed voltage. 4. The method of claim 3 , wherein the current or voltage measurement circuit includes a sense resistor in series with the transmitter, and wherein the sampling comprises sensing across the sense resistor. 5. The method of claim 1 , wherein the pulsed electrical signal comprises a pulsed current, and a current or voltage measurement circuit comprising a Hall-effect current sensor positioned for sampling of the pulsed current. 6. The method of claim 1 , further comprising generating and transmitting the alert responsive to either the determining the impedance of the first piezoelectric element is abnormal or the determining a cleaning operation is needed for the first ultrasonic transducer or the second ultrasonic transducer. 7. The method of claim 1 , wherein the ultrasonic-based system comprises an ultrasonic flowmeter, and wherein the ultrasonic flowmeter is installed on a pipe section of a pipeline. 8. The method of claim 1 , wherein the first piezoelectric element comprises an array of piezoelectric elements, and wherein the ultrasonic-based system comprises an ultrasonic imaging system. 9. The method of claim 1 , wherein the predetermined limit comprises both a high limit and low limit. 10. An ultrasonic-based system, comprising: a transmitter and a receiver; an ultrasonic transducer including at least one piezoelectric element having a matching layer thereon electrically connected to at least the transmitter, a controller having an associated memory coupled to the transmitter; the transmitter driving the piezoelectric element with a pulsed electrical signal that comprises a pulsed current or a pulsed voltage; a current or voltage measurement circuit coupled to at least one node in the transmitter for sampling the pulsed electrical signal; wherein in response to the pulsed electrical signal the piezoelectric element transmits a transmit ultrasonic signal; the controller with an associated memory storing code for implementing an algorithm for monitoring the ultrasonic transducer wherein the controller is configured to: compare an amplitude of the pulsed electrical signal sensed by the current or voltage measurement circuit by sampling the pulsed electrical signal to at least one predetermined limit, wherein when the amplitude of the pulsed electrical signal is determined to be outside the at least one predetermined limit, determining an impedance of the piezoelectric element is abnormal; and when the amplitude of the pulsed electrical signal is within the at least one predetermined limit, comparing an amplitude of a pulsed waveform signal generated by the ultrasonic transducer to a lower amplitude limit, wherein when the amplitude of the pulsed waveform signal is at or below the lower amplitude limit, comparing a shape of the pulsed waveform signal to at least one waveform shape reference, wherein when the shape of the pulsed waveform signal is determined to be different as compared to the at least one waveform shape reference, determining the impedance of the piezoelectric element is abnormal due to deposition of a contamination layer on the matching layer, and generating an alert for cleaning the matching layer of the ultrasonic transducer. 11. The ultrasonic-based system of claim 10 , wherein the ultrasonic-based system consists of the ultrasonic transducer as only a single ultrasonic transducer, and wherein the ultrasonic-based system, further comprises a duplexer positioned between the controller and the single ultrasonic transducer for controlling the ultrasonic transducer to switch between transmitting and receiving. 12. The ultrasonic-based system of claim 10 , wherein the current or voltage measurement circuit includes a sense resistor in series with the transmitter, and wherein the sampling comprises sensing across the sense resistor. 13. The ultrasonic-based system of claim 10 , comprising generating and transmitting the alert responsive to either the determining the impedance of the piezoelectric element is abnormal or the determining a cleaning operation is needed for the matching layer. 14. The ultrasonic-based system of claim 10 , wherein the ultrasonic transducer further comprises an encapsulation layer. 15. The ultrasonic-based system of claim 10 , wherein the at least one piezoelectric element comprises an array of piezoelectric elements, and wherein the ultrasonic-based system comprises an ultrasonic imaging system. 16. An ultrasonic flowmeter (USM), comprising: an outer housing having an attachment feature for attaching to a pipe section of a pipeline that is adapted for having a fluid flowing therein; a first ultrasonic transducer comprising at least a first piezoelectric element and at least a second ultrasonic tra