Ultrasound imaging system with improved dynamic focusing
First Claim
1. An ultrasonic imaging system which comprises:
- an ultrasonic transducer array having a set of array elements disposed in a pattern and each being separately operable to produce a pulse of ultrasonic energy during a transmission mode and each being operable to produce an echo signal in response to ultrasonic energy which impinges on the array element during a receive mode;
a transmitter connected to the ultrasonic transducer array and being operable during the transmission mode to apply a separate signal to each array element such that a steered transmit beam is produced;
a receiver connected to the ultrasonic transducer array and being operable during the receive mode to sample the echo signal produced by each array element as the ultrasonic energy impinges thereon and to form a receive beam signal therefrom by separately delaying and summing the separate echo signals sampled from each transducer element;
a display system connected to receive the receive beam signal and produce an image therefrom; and
in which the receiver has a separate channel for each array element that operates to impart said delay on the echo signal sample by calculating a value (D) according to the expression;
space="preserve" listing-type="equation">D=nA-npB-E.sup.2 +p.sup.2 where n is the number of time increments since the production of said steered transmit beam, p is the number of delay increments applied to the echo signal sample, and A, B and E are values which remain constant during the reception of the echo signals produced as a result of said steered transmit beam; and
the value of D is changed as a function of time increments (n) and the value of D is periodically compared to a preestablished value, and the value of p is changed when the value of D exceeds said preestablished value.
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Accused Products
Abstract
A PASS ultrasonic system includes a receive channel for each element in an ultrasonic transducer array which imparts a delay to the echo signal produced by each element. The delayed echo signals are summed to form a steered and dynamically focused receive beam. Each receive channel is formed as an integrated circuit. The integrated circuit calculates the required time delay for dynamic focussing in the receive channel as a function both of elapsed time in unit increments related to unit phase rotation increments of the carrier frequency and of previously calculated time delay values, in order to control a phase rotator and delay FIFO in the receive channel to implement echo signal delay control.
87 Citations
7 Claims
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1. An ultrasonic imaging system which comprises:
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an ultrasonic transducer array having a set of array elements disposed in a pattern and each being separately operable to produce a pulse of ultrasonic energy during a transmission mode and each being operable to produce an echo signal in response to ultrasonic energy which impinges on the array element during a receive mode; a transmitter connected to the ultrasonic transducer array and being operable during the transmission mode to apply a separate signal to each array element such that a steered transmit beam is produced; a receiver connected to the ultrasonic transducer array and being operable during the receive mode to sample the echo signal produced by each array element as the ultrasonic energy impinges thereon and to form a receive beam signal therefrom by separately delaying and summing the separate echo signals sampled from each transducer element; a display system connected to receive the receive beam signal and produce an image therefrom; and in which the receiver has a separate channel for each array element that operates to impart said delay on the echo signal sample by calculating a value (D) according to the expression;
space="preserve" listing-type="equation">D=nA-npB-E.sup.2 +p.sup.2where n is the number of time increments since the production of said steered transmit beam, p is the number of delay increments applied to the echo signal sample, and A, B and E are values which remain constant during the reception of the echo signals produced as a result of said steered transmit beam; and the value of D is changed as a function of time increments (n) and the value of D is periodically compared to a preestablished value, and the value of p is changed when the value of D exceeds said preestablished value. - View Dependent Claims (2, 3, 4)
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5. An ultrasonic imaging system which comprises:
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an ultrasonic transducer array having a set of array elements disposed in a pattern and each being separately operable to produce a pulse of ultrasonic energy during a transmission mode and each being operable to produce an echo signal in response to ultrasonic energy which impinges on the array element during a receive mode; a transmitter connected to the ultrasonic transducer array and being operable during the transmission mode to apply a separate signal to each array element such that a steered transmit beam is produced; a receiver connected to the ultrasonic transducer array and being operable during the receive mode to sample the echo signal produced by each array element as the ultrasonic energy impinges thereon and to form a receive beam signal therefrom by separately rotating the phase of the separate echo signals sampled from each transducer element and summing them together; a display system connected to receive the receive beam signal and produce an image therefrom; and in which the receiver has a separate channel for each array element that operates to impart said phase rotation on the echo signal sample by calculating a value (D) according to the expression;
space="preserve" listing-type="equation">D=nA-npB-E.sup.2 +p.sup.2where n is the number of time increments since the production of said steered transmit beam, p is the number of phase rotation increments applied to the echo signal sample, and A, B and E are values which remain constant during the reception of the echo signals produced as a result of said steered transmit beam; and the value of D is changed as a function of time increments (n) and the value of D is periodically compared to a preestablished value, and the value of p is changed and when the value of D exceeds said preestablished value. - View Dependent Claims (6, 7)
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Specification