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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | UP-0051075 (2005-02-04) |
등록번호 | US-7766905 (2010-08-24) |
발명자 / 주소 |
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출원인 / 주소 |
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인용정보 | 피인용 횟수 : 22 인용 특허 : 468 |
An electrosurgical generator is provided which includes a continuity test circuit assembly for testing electrical continuity through an electrode of an electrosurgical instrument. The continuity test circuit assembly includes a test power source providing electrical test energy to a first conductor
An electrosurgical generator is provided which includes a continuity test circuit assembly for testing electrical continuity through an electrode of an electrosurgical instrument. The continuity test circuit assembly includes a test power source providing electrical test energy to a first conductor which is in electrical communication with the electrode and the electrosurgical generator and to at least one second conductor which is coupled to the first conductor for providing a path for current to flow between the first conductor and the at least one second conductor for establishing a test path through which the test energy flows between the first conductor and at least one conductor of the at least one second conductor. The continuity test circuit assembly further includes energy detection circuitry positioned along the test path for detecting the flow of the test energy through the test path for determining electrical continuity through the electrode.
What is claimed is: 1. A continuity test circuit assembly for testing electrical continuity between an electrosurgical generator generating electrosurgical energy and an electrode of at least one electrode of an electrosurgical instrument for receiving the electrosurgical energy and delivering the
What is claimed is: 1. A continuity test circuit assembly for testing electrical continuity between an electrosurgical generator generating electrosurgical energy and an electrode of at least one electrode of an electrosurgical instrument for receiving the electrosurgical energy and delivering the electrosurgical energy to tissue, the continuity test circuit assembly comprising: a first conductor coupling the electrode to the electrosurgical generator; at least one second conductor in electrical communication with a test power source and with the electrode for forming a test path, said test power source configured to selectively provide electrical test energy; energy detection circuitry positioned along the test path for detecting a flow of the test energy through the test path for determining continuity status; switching circuitry positioned along the test path for selectively closing or opening the test path for enabling the flow of the test energy through the test path; a control module configured to activate the switching circuitry to control the flow of the test energy through the test path; and a detector which detects at least one predetermined condition, and wherein the control module generates a signal to automatically activate the switching circuitry upon detection of the at least one predetermined condition by the detector such that the switching circuitry opens or closes the test path upon activation by the signal generated by the control module. 2. A continuity test circuit assembly according to claim 1, wherein the at least one predetermined condition which is detected includes mounting of the electrode on the electrosurgical instrument, and wherein the control module controls the switching circuitry to close the test path upon detection of the at least one predetermined condition. 3. A continuity test circuit assembly according to claim 1, wherein the at least one predetermined condition which is detected includes delivery of electrosurgical energy to the electrode, and wherein the control module controls the switching circuitry to open the test path upon detection of the at least one predetermined condition. 4. A continuity test circuit assembly according to claim 1, wherein the switching circuitry further selectively enables delivery of the electrosurgical energy to the tissue, and the control module controls the switching circuitry to open the test path upon detection of the at least one predetermined condition. 5. A continuity test circuit assembly according to claim 1, wherein the energy detection circuitry provides electrical isolation to the test energy via an optocoupler. 6. A continuity test circuit assembly according to claim 1, further comprising second switching circuitry for selecting one of the at least one second conductors to be included in the test path. 7. A continuity test circuit assembly according to claim 1, further comprising second switching circuitry for selecting one of the at least one second conductors to be included in the test path, wherein the control module controls the second switching circuitry at least partially in accordance with detection of the predetermined condition. 8. A continuity test circuit assembly according to claim 1, wherein the at least one second conductor includes at least a pair of thermocouple wires. 9. A continuity test circuit assembly according to claim 1, wherein the switching circuitry is provided along at least one of the first conductor, the at least one second conductor and the test power source. 10. A continuity test circuit assembly according to claim 1, wherein at least one of the test power source, the energy detection circuitry and the switching circuitry are disposed within the electrosurgical generator. 11. A continuity test circuit assembly according to claim 1, wherein the test power source derives power from a power source of the electrosurgical generator. 12. A continuity test circuit assembly according to claim 1, wherein the test energy provided by the test power source is substantially lower than the energy delivered by the electrosurgical generator. 13. An electrosurgical generator for generating electrosurgical energy which is provided to an electrosurgical instrument having at least one electrode for delivery of the electrosurgical energy to tissue, the electrosurgical generator comprising: a continuity test circuit assembly for testing electrical continuity between the electrosurgical generator and an electrode of the at least one electrode of the electrosurgical instrument, the continuity test circuit assembly comprising: a test power source configured to selectively provide electrical test energy to a first conductor which is in electrical communication with the electrode and the electrosurgical generator and to at least one second conductor which is coupled to the first conductor for providing a path for current to flow between the first conductor and the at least one second conductor for establishing a test path through which the test energy flows between the first conductor and at least one conductor of the at least one second conductor; energy detection circuitry positioned along the test path that detects a flow of the test energy through the test path for determining electrical continuity through the electrode; switching circuitry positioned along the test path that selectively opens or closes the test path thereby controlling the flow of test energy through the test path; and a control module that generates a signal to control the switching circuitry for automatically controlling flow of the test energy through the test path upon detection of at least one predetermined condition such that the signal generated by the control module causes the switching circuitry to open or close the test path. 14. An electrosurgical generator according to claim 13, wherein the at least one predetermined condition includes detection of mounting of the electrode on the electrosurgical instrument, and wherein the control module controls the switching circuitry to close the test path upon detection of the at least one predetermined condition. 15. An electrosurgical generator according to claim 13, wherein the at least one predetermined condition includes detection of delivery of the electrosurgical energy to the electrode, and wherein the control module controls the switching circuitry to open the test path upon detection of the at least one predetermined condition. 16. An electrosurgical generator according to claim 13, wherein the switching circuitry selectively enables delivery of the electrosurgical energy to the tissue, and the control module controls the switching circuitry to open the test path upon detection of the at least one predetermined condition. 17. An electrosurgical generator according to claim 13, wherein the energy detection circuitry provides electrical isolation to the test energy via an optocoupler. 18. An electrosurgical generator according to claim 13, wherein the continuity test circuit assembly further comprises second switching circuitry for selecting one of the at least one second conductors to be included in the test path. 19. An electrosurgical generator according to claim 13, wherein the continuity test circuit assembly further comprises second switching circuitry for selecting one of the at least one second conductors to be included in the test path, and the control module controls the switching circuitry at least partially in accordance with detection of the predetermined condition. 20. An electrosurgical generator according to claim 13, wherein the at least one second conductor includes at least a pair of thermocouple wires.
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