Medical ultrasound receive architecture
First Claim
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1. An ultrasound system comprising:
- a transducer having a plurality of transducer elements that convert acoustic energy into an electrical signal; and
an ultrasound receiver, in communication with said transducer elements, having a plurality of channels, each of said channels receiving the electrical signal from a respective one of said transducer elements and outputting a digital representation of the electrical signal, each of said channels having an A/D converter capable of converting a signal with a dynamic range of at least 154 dB.
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Abstract
An ultrasound system that performs image processing in the digital domain, including CW Doppler. The ultrasound system is provided with a transducer having a plurality of elements and an ultrasound receiver with a plurality of channels. Each channel receives an analog echo signal and outputs a digital representation of the analog echo signal using an A/D converter capable of converting a signal with a dynamic range of at least 154 dB.
15 Citations
20 Claims
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1. An ultrasound system comprising:
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a transducer having a plurality of transducer elements that convert acoustic energy into an electrical signal; and
an ultrasound receiver, in communication with said transducer elements, having a plurality of channels, each of said channels receiving the electrical signal from a respective one of said transducer elements and outputting a digital representation of the electrical signal, each of said channels having an A/D converter capable of converting a signal with a dynamic range of at least 154 dB. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
a processor that performs digital processing on the output of said ultrasound receiver, the digital processing including one of CW Doppler processing and harmonic signal processing.
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5. An ultrasound system, as set forth in claim 1, wherein each of said channels in said ultrasound receiver comprises:
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a pre-amplifier that amplifies the output of said respective transducer element to match a maximum input signal level of said A/D converter in said channel;
a Nyquist filter that filters the output of said pre-amplifier to remove frequencies that cannot be converted by said A/D converter in said channel; and
beamforming logic that receives the output of said A/D converter in said channel and delays the output of said channel by a predetermined value.
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6. An ultrasound system, as set forth in claim 1, further comprising:
summing logic that sums the output of each of said channels.
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7. An ultrasound system as set forth in claim 1, wherein each of said transducer elements directs the signal only to the respective one of said channels such that the signal from each of said transducer elements is only subject to digital processing in said respective channel.
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8. An ultrasound system as set forth in claim 1, wherein each of said channels in said ultrasound receiver further comprises:
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a pre-amplifier that amplifies the output of said respective transducer element to match a maximum input signal level of said A/D converter in said channel; and
a Nyquist filter arranged directly after said pre-amplifier to receive the output of said pre-amplifier directly from said pre-amplifier and filter the output of said pre-amplifier to remove frequencies that cannot be converted by said A/D converter in said channel.
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9. An ultrasound system as set forth in claim 8, wherein the output from said pre-amplifier is directed only to said Nyquist filter.
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10. An ultrasound system as set forth in claim 1, wherein said ultrasound receiver consists of said channels such that analog processing of the signals from said transducer elements is not performed in said ultrasound receiver.
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11. A method of processing echoes received by a plurality of elements of a transducer, the method comprising the steps of:
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directing the echoes from each transducer element into a respective one of a plurality of separate processing paths; and
digitizing the echoes in each of the processing paths to produce a digital signal with a dynamic range of at least 160 dB. - View Dependent Claims (12, 13, 14)
digitally processing the digital signals to perform at least one of CW Doppler processing and harmonic signal processing.
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13. A method as set forth in claim 11, further comprising the steps of:
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summing the digital signals from each processing path; and
subjecting the summed signal to digital processing.
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14. A method as set forth in claim 11, further comprising the step of:
delaying the output of the digital signal from each processing path independent of the delay in the output of digital signals from other processing paths.
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15. An ultrasound system comprising:
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a transducer having a plurality of elements that convert acoustic energy into an electrical signal; and
an ultrasound receiver, in communication with said transducer elements, having a plurality of channels, each of said channels receiving the electrical signal from a respective one of said transducer elements and outputting a digital representation of the electrical signal, each of said channels having an A/D converter capable of digitizing the electrical signal with a dynamic range of at least 160 dB. - View Dependent Claims (16, 17, 18, 19)
a pre-amplifier that amplifies the output of said respective transducer element to match a maximum input signal level of said A/D converter in said channel; and
a Nyquist filter arranged directly after said pre-amplifier to receive the output of said pre-amplifier directly from said pre-amplifier and filter the output of said pre-amplifier to remove frequencies that cannot be converted by said A/D converter in said channel.
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18. An ultrasound system as set forth in claim 17, wherein the output from said pre-amplifier is directed only to said Nyquist filter.
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19. An ultrasound system as set forth in claim 15, wherein said ultrasound receiver consists of said channels such that analog processing of the signals from said transducer elements is not performed in said ultrasound receiver.
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20. A method of processing echoes received by a plurality of elements of a transducer, the method comprising the steps of:
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directing the echoes from each transducer element into a respective one of a plurality of separate processing paths;
digitizing the echoes from each transducer element to produce a digital signal with a dynamic range of at least 154 dB; and
performing at least one of CW Doppler processing and harmonic signal processing on the digital signals in an entirely digital domain.
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Specification