| CPC B06B 1/0253 (2013.01) [A61F 9/00745 (2013.01); B06B 1/0261 (2013.01); B06B 2201/55 (2013.01); B06B 2201/76 (2013.01)] | 15 Claims |
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1. A method for controlling operation of an ophthalmic surgical phacoemulsification device, comprising the steps of:
generating, using a resonant output circuit, a transducer voltage for driving an ultrasonic transducer of the ophthalmic surgical phacoemulsification device;
generating a frequency command signal having a frequency based on a phase difference between a sensed current signal and a sensed voltage signal in the resonant output circuit;
generating an amplitude command signal having an amplitude that is based on a time averaged product of the sensed current signal and the sensed voltage signal;
generating a first phase signal and a second phase signal based on the frequency command signal, the first and second phase signals having the same frequency and a fixed mutual phase difference;
generating a power supply to a bridge unit, the power supply being proportional to the amplitude of the amplitude command signal, and
generating, using the bridge unit, a bridge output signal for feeding the resonant output circuit, the bridge output signal being based on a composition of the first and second phase signals,
wherein the method further comprises a step of determining a resistive part of the impedance of the ultrasonic transducer of the ophthalmic surgical phacoemulsification device.
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3. A computer program product for controlling operation of an ophthalmic surgical phacoemulsification device, the computer program product comprising computer readable code for causing a processor to perform the steps of:
generating, using a resonant output circuit, a transducer voltage for driving an ultrasonic transducer of the ophthalmic surgical phacoemulsification device;
generating a frequency command signal having a frequency based on a phase difference between a sensed current signal and a sensed voltage signal in the resonant output circuit;
generating an amplitude command signal having an amplitude that is based on a time averaged product of the sensed current signal and the sensed voltage signal;
generating a first phase signal and a second phase signal based on the frequency command signal, the first and second phase signals having the same frequency and a fixed mutual phase difference;
generating a power supply to a bridge unit, the power supply being proportional to the amplitude of the amplitude command signal, and
generating, using the bridge unit, a bridge output signal for feeding the resonant output circuit, the bridge output signal being based on a composition of the first and second phase signals,
wherein the fixed mutual phase difference of the first and second signals is circa 0.7 pi radians.
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4. A phaco driver system for controlling operation of an ophthalmic surgical phacoemulsification device, comprising:
a resonant output circuit for generating a transducer voltage for driving an ultrasonic transducer of the ophthalmic surgical phacoemulsification device;
a control unit for generating:
a frequency command signal having a frequency based on a phase difference between a sensed current signal and a sensed voltage signal in the resonant output circuit, and
an amplitude command signal based on a time averaged product of the sensed current signal and the sensed voltage signal;
a phase shift unit for generating a first phase signal and a second phase signal based on the frequency command signal, the first and second phase signals having the same frequency and a fixed mutual phase difference;
a bridge unit for generating a bridge output signal for feeding the resonant output circuit, the bridge output signal being based on a composition of the first and second phase signals, and
a power supply unit for generating a power supply to the bridge unit, the power supply being controlled by the amplitude command signal,
wherein the fixed mutual phase difference of the first and second signals is circa 0.7 pi radians.
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