Imaging ultrasound transducer temperature control system and method
First Claim
1. A method of cooling an imaging ultrasonic transducer in an imaging ultrasonic transducer system, wherein a patient-contacting surface of said imaging ultrasonic transducer is pressed externally against the skin of a patient in order to generate an image, comprising the steps of:
- monitoring a temperature of the imaging ultrasonic transducer; and
automatically switching from a desired higher power imaging mode to a less desired lower power imaging mode based on the monitored temperature, if necessary to reduce the temperature of the patient contacting surface of the imaging ultrasonic transducer to prevent at least one of pain to the patient and damage to the skin of the patient caused by the temperature of the patient-contacting surface.
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Abstract
A system and method for controlling the heat of an ultrasonic transducer is disclosed. The presently preferred embodiments of the present invention control the temperature of the transducer face by changing the imaging modes of the system. In a preferred embodiment, feedback from temperature sensing elements placed in the transducer is used to determine when to switch from a higher power imaging mode to a lower power imaging mode. In another preferred embodiment, the system switches from a higher power imaging mode to a lower power imaging mode after a predetermined period of time has elapsed. In yet another preferred embodiment, the system switches to a “mixed” imaging mode, where the system cycles rapidly between a higher power imaging mode and a lower power imaging mode, and the resulting data is combined to form a single image.
173 Citations
21 Claims
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1. A method of cooling an imaging ultrasonic transducer in an imaging ultrasonic transducer system, wherein a patient-contacting surface of said imaging ultrasonic transducer is pressed externally against the skin of a patient in order to generate an image, comprising the steps of:
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monitoring a temperature of the imaging ultrasonic transducer; and
automatically switching from a desired higher power imaging mode to a less desired lower power imaging mode based on the monitored temperature, if necessary to reduce the temperature of the patient contacting surface of the imaging ultrasonic transducer to prevent at least one of pain to the patient and damage to the skin of the patient caused by the temperature of the patient-contacting surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
automatically switching from a desired higher power imaging mode to a less desired lower power imaging mode if the monitored temperature is greater than, or equal to, a threshold temperature.
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3. The method of claim 1, further comprising, after switching to the lower power imaging mode, the step of:
switching back to the higher power imaging mode.
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4. The method of claim 1, further comprising, after switching to the lower power imaging mode, the step of:
automatically switching back to the higher power imaging mode.
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5. The method of claim 4, wherein the step of automatically switching back comprises the step of:
automatically switching back to the higher power imaging mode when the monitored temperature reaches a reset temperature.
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6. The method of claim 4, wherein the step of automatically switching back comprises the step of:
automatically switching back to the higher power imaging mode after a predetermined period of time has passed.
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7. The method of claim 1, further comprising, after switching to the lower power imaging mode, the step of:
switching back, by an operator, to the higher power imaging mode.
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8. The method of claim 1, wherein the step of switching from a desired higher power imaging mode to a less desired lower power imaging mode comprises the step of:
automatically switching from a current imaging mode to fundamental imaging mode if the monitored temperature is greater than, or equal to, a threshold temperature.
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9. The method of claim 8, wherein, if the current imaging mode is the fundamental imaging mode when the monitored temperature is greater than, or equal to, a threshold temperature, said method further comprises the step of:
changing at least one mutable system parameter so that the temperature in the patient contacting surface of the imaging ultrasonic transducer is reduced.
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10. The method as recited in claim 9, wherein the at least one mutable system parameter comprises at least one of:
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duty cycle, wherein the duty cycle is a ratio of the time in which the imaging ultrasonic transducer is transmitting to the time in which the imaging ultrasonic transducer is receiving;
applied voltage to a transmitting elements in the imaging ultrasonic transducer;
frequency of a ultrasonic sound waves;
frame rate of the imaging ultrasonic transducer;
pulse repetition frequency (PRF) of the imaging ultrasonic transducer;
aperture of the imaging ultrasonic transducer;
imaging depth of the imaging ultrasonic transducer;
sector width of the imaging ultrasonic transducer.
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11. The method of claim 1, wherein the step of monitoring the temperature of the imaging ultrasonic transducer is performed by means of at least one temperature sensor positioned in the imaging ultrasonic transducer so that the temperature of the patient contacting surface can be ascertained.
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12. The method as recited in claim 1, further comprising the steps of:
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determining by the imaging ultrasonic transducer system whether the monitored temperature of the imaging ultrasonic transducer is greater than or equal to a critical temperature;
turning the imaging ultrasonic transducer off if it is determined that the monitored temperature is greater than or equal to the critical temperature; and
once the imaging ultrasonic transducer has been turned off;
determining the current temperature of the imaging ultrasonic transducer;
determining whether the current temperature is less than the critical temperature; and
turning the imaging ultrasonic transducer back on if it is determined that the current temperature is less than a reset temperature.
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13. An ultrasonic imaging system which performs the steps of claim 1.
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14. A method of cooling an imaging ultrasonic transducer in an imaging ultrasonic transducer system, wherein a patient-contacting surface of said imaging ultrasonic transducer is pressed externally against the skin of a patient in order to generate an image, comprising the steps of:
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automatically switching from a desired higher power imaging mode to a less desired lower power imaging mode after a predetermined period of time has elapsed;
whereby at least one of pain to the patient and damage to the skin of the patient caused by the temperature of the patient-contacting surface of the imaging ultrasonic transducer are prevented. - View Dependent Claims (15)
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16. A method of cooling an imaging ultrasonic transducer, wherein a patient-contacting surface of said imaging ultrasonic transducer is pressed externally against the skin of a patient in order to generate an image, comprising the steps of:
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cycling between a higher power imaging mode with a lower power imaging mode while operating the ultrasonic transducer;
combining the data from the two different imaging modes; and
presenting the combined data in a display for the ultrasonic transducer data;
whereby said cycling between imaging modes prevents at least one of pain to the patient and damage to the skin of the patient caused by the temperature of the patient-contacting surface of the imaging ultrasonic transducer. - View Dependent Claims (17, 18, 19, 20, 21)
alternating frames between data from the higher power imaging mode and data from the lower power imaging mode in the display.
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18. The method as recited in claim 16, wherein said combining and presenting steps comprise:
alternating scan lines between data from the higher power imaging mode and data from the lower power imaging mode in the display.
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19. The method as recited in claim 16, wherein said combining and presenting steps comprise:
forming a compound image by presenting a central image of limited width based on data from the higher power imaging mode and filling out the edges with data from the lower power imaging mode in the display.
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20. The method of claim 16, wherein the higher power imaging mode is harmonic imaging and the lower power imaging mode is fundamental imaging.
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21. An imaging ultrasonic system which performs the steps of claim 16.
Specification