Medical diagnostic ultrasound instrument with ECG module, authorization mechanism and methods of use
First Claim
1. A handheld ultrasound device weighing less than fifteen pounds, including a transducer, beamformer and image processor and a first digital signal processor capable of processing B mode and flow (2D Doppler) scans, having a second digital processor block comprising:
- a digital Doppler QBP filter (FPGA) for filtering PW Doppler signals; and
a second digital signal processor core for PW Doppler signal processing, wherein the first digital signal processor, the second digital signal processor and the FPGA are unified onto a single application specific integrated circuit (ASIC) chip.
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Accused Products
Abstract
A handheld ultrasound instrument is disclosed having enhanced diagnostic modes including pulse/continuous wave Doppler, time-motion analysis, spectral analysis and tissue harmonic imaging. An external electrocardiograph (ECG) recording unit is also disclosed. The ECG unit is adaptable to be used with the handheld ultrasound instrument to provide for ECG monitoring while performing an ultrasound scan in B-mode, Doppler, color Doppler, M-mode, and CW/PW mode. The enhanced handheld ultrasound instrument further includes a security mechanism allowing any combination of the diagnostic modes to be enabled by the manufacturer, and later to enable or disable any one or group of the diagnostic modes. The invention also discloses a method for a manufacturer to maintain a database of handheld ultrasound instrument capabilities after the instruments enter the stream of commerce.
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Citations
10 Claims
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1. A handheld ultrasound device weighing less than fifteen pounds, including a transducer, beamformer and image processor and a first digital signal processor capable of processing B mode and flow (2D Doppler) scans, having a second digital processor block comprising:
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a digital Doppler QBP filter (FPGA) for filtering PW Doppler signals; and a second digital signal processor core for PW Doppler signal processing, wherein the first digital signal processor, the second digital signal processor and the FPGA are unified onto a single application specific integrated circuit (ASIC) chip. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A handheld ultrasound device weighing less than fifteen pounds, including a transducer, beamformer and image processor and a first digital signal processor capable of processing B mode and flow (2D Doppler) scans, having a second digital processor block comprising:
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a digital Doppler QBP filter (FPGA) for filtering PW Doppler signals; and a second digital signal processor core for PW Doppler signal processing and for performing M mode interpolation, wherein the second digital signal processor, digital Doppler QBP filtering and PW Doppler signal processing are located on a digital signal processing application specific integrated circuit (ASIC) chip.
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9. A handheld ultrasound device weighing less than fifteen pounds, including a transducer, beamformer and image processor and a first digital signal processor capable of processing B mode and flow (2D Doppler) scans, having a second digital processor block comprising:
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a digital Doppler QBP filter (FPGA) for filtering PW Doppler signals; and second digital signal processor core for PW Doppler signal processing, wherein the first digital signal processor, the second digital signal processor and the FPGA are unified onto a single application specific integrated circuit (ASIC) chip, the handheld ultrasound device further comprising a CW Doppler circuit having a CW beamformer ASIC and a supplemental circuit for A/D filtering and performing analog to digital conversion on I and Q signal pairs, wherein the FPGA of the second digital processor block processes complex data at a constant sample rate prior to processing through the second digital signal processor core. - View Dependent Claims (10)
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Specification