Systems and methods for ultrasonic power measurement and control of phacoemulsification systems
First Claim
1. A method for determining the voltage-current phase relationship of a piezoelectric phacoemulsification handpiece, said method comprising the steps of:
- obtaining an analog AC voltage signal corresponding to the operating AC voltage of a piezoelectric handpiece having a driving frequency;
obtaining an analog AC current signal corresponding to the operating AC current of the piezoelectric handpiece;
producing a digital representation of the AC current signal and the AC voltage signal using an analog detection circuit;
correlating a reference amplitude component of the digital representation with a point in time using a master clock, wherein the master clock uses a signal that is faster than the driving frequency of the AC current signal;
determining a phase count measurement, wherein the phase count is the number of master clock periods between the reference amplitude component of the AC current signal and the AC voltage signal; and
resetting the master clock upon completion of the phase count measurement.
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Abstract
A method for determining the voltage current phase relationship of a piezoelectric phacoemulsification handpiece generally includes the steps of obtaining an analog AC voltage signal corresponding to the operating AC voltage of a piezoelectric handpiece along with an analog AC current signal corresponding to the operating AC current of the piezoelectric handpiece. Using reference detection circuits, a digital voltage signal and a digital current signal is produced. A synchronous sample clock is taken that has a frequency that is 2N times faster than the frequency of the operating ultrasonic handpiece (i.e., driving frequency), where N is the number of digital bits allocated to the sample clock. This clock measures the time between onsets of a voltage and current cycle. This time value equates to the phase time delta between the two signals. Dividing the synchronous sample clock to obtain the driving frequency ensures the signals are synchronous.
120 Citations
20 Claims
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1. A method for determining the voltage-current phase relationship of a piezoelectric phacoemulsification handpiece, said method comprising the steps of:
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obtaining an analog AC voltage signal corresponding to the operating AC voltage of a piezoelectric handpiece having a driving frequency; obtaining an analog AC current signal corresponding to the operating AC current of the piezoelectric handpiece; producing a digital representation of the AC current signal and the AC voltage signal using an analog detection circuit; correlating a reference amplitude component of the digital representation with a point in time using a master clock, wherein the master clock uses a signal that is faster than the driving frequency of the AC current signal; determining a phase count measurement, wherein the phase count is the number of master clock periods between the reference amplitude component of the AC current signal and the AC voltage signal; and resetting the master clock upon completion of the phase count measurement. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for determining the voltage current phase relationship of a piezoelectric phacoemulsification handpiece comprising:
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a voltage sensor configured to obtain an analog AC voltage signal corresponding to the operating AC voltage of a piezoelectric handpiece having a driving frequency; a current sensor configured to obtain an analog AC current signal corresponding to the operating AC current of the piezoelectric handpiece; an analog detection circuit configured to produce a digital representation of the AC current signal and the AC voltage signal; a measurement circuit configured to correlate a reference amplitude component of the digital representation with a point in time using a master clock and to determine a phase count measurement, wherein the phase count is the number of master clock periods between the reference amplitude component of the AC current signal and the AC voltage signal, wherein the master clock uses a signal that is faster than the driving frequency of the AC current signal; and a reset generator configured to reset the master clock upon completion of the phase count measurement. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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17. A method for determining the voltage-current phase relationship of a piezoelectric phacoemulsification handpiece, said method comprising the steps of:
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obtaining an analog AC voltage signal corresponding to the operating AC voltage of a piezoelectric handpiece having a driving frequency; obtaining an analog AC current signal corresponding to the operating AC current of the piezoelectric handpiece; producing a digital representation of the AC current signal and the AC voltage signal using an analog detection circuit; correlating a reference amplitude component of the digital representation with a point in time using a master clock, the master clock having a frequency 2N times faster than the driving frequency of the AC current signal, wherein N represents a number of digital bits; determining a phase count measurement, wherein the phase count is the number of master clock periods between the transition of the digital representation of the AC current signal and the digital representation of the AC voltage signal; dividing the phase count measurement by the 2N factor to obtain a phase signal, wherein the division produces a measurement that is frequency independent and the phase signal corresponds to a 0 to 359 degree phase shift; and resetting the master clock upon completion of the phase count measurement. - View Dependent Claims (18, 19, 20)
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Specification