IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0946048
(2001-09-04)
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발명자
/ 주소 |
- Jamieson, James R.
- Ray, Mark D.
- Meneely, Clinton T.
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출원인 / 주소 |
- Rosemount Aerospace, Inc.
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대리인 / 주소 |
Rashid, James M.Calfee, Halter & Griswold LLP
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인용정보 |
피인용 횟수 :
7 인용 특허 :
3 |
초록
▼
A LIDAR system for measuring flow velocity in three axes comprises: a LIDAR arrangement of optical elements for generating a coherent beam of light and directing the coherent beam of light by at least one rotationally operated optical element from the system with a predetermined pattern, the at leas
A LIDAR system for measuring flow velocity in three axes comprises: a LIDAR arrangement of optical elements for generating a coherent beam of light and directing the coherent beam of light by at least one rotationally operated optical element from the system with a predetermined pattern, the at least one rotationally operated optical element also for receiving reflections from particles along the predetermined pattern and directing the beam reflections to a light detector which converts the beam reflections into representative electrical signals; and a processor for detecting bursts from the electrical signals which are representative of light beam reflections from at least one particle substantially at a corresponding position along the predetermined pattern, and for computing a Doppler frequency for each of a selected plurality of detected bursts from the signal content thereof. The processor also capable of associating the selected plurality of detected bursts with their corresponding positions along the predetermined pattern and for computing a three axis flow velocity measurement from at least three of the selected plurality of computed Doppler frequencies and their corresponding positions along the predetermined pattern. A method of measuring flow velocity in three axes is further disclosed.
대표청구항
▼
A LIDAR system for measuring flow velocity in three axes comprises: a LIDAR arrangement of optical elements for generating a coherent beam of light and directing the coherent beam of light by at least one rotationally operated optical element from the system with a predetermined pattern, the at leas
A LIDAR system for measuring flow velocity in three axes comprises: a LIDAR arrangement of optical elements for generating a coherent beam of light and directing the coherent beam of light by at least one rotationally operated optical element from the system with a predetermined pattern, the at least one rotationally operated optical element also for receiving reflections from particles along the predetermined pattern and directing the beam reflections to a light detector which converts the beam reflections into representative electrical signals; and a processor for detecting bursts from the electrical signals which are representative of light beam reflections from at least one particle substantially at a corresponding position along the predetermined pattern, and for computing a Doppler frequency for each of a selected plurality of detected bursts from the signal content thereof. The processor also capable of associating the selected plurality of detected bursts with their corresponding positions along the predetermined pattern and for computing a three axis flow velocity measurement from at least three of the selected plurality of computed Doppler frequencies and their corresponding positions along the predetermined pattern. A method of measuring flow velocity in three axes is further disclosed. ising: first and second opposed substrates, a liquid crystal layer sealed between said first and second substrates, first and second electrodes formed on said first substrate at positions shifted from each other in the direction parallel to the substrate surfaces, said first substrate having gate lines, data lines and TFIs, and electrodes of one of said first and second electrodes including portions extending from one of the gate lines; characterized in that the electrodes constituting the portions extending from said gate lines are used as a common electrode, electrodes of the other of said first and second electrodes are connected to the source electrodes of the TFTs, and the liquid crystal is driven by the electric field formed between the first and second electrodes; and further characterized in that first and second gate lines are adjacent to each other, the electrodes constituting the portions connected to the first gate lines extend to the vicinity of the second gate lines above the data line, the TFTs are formed at the forward ends of the electrodes constituting the portions connected to said first gate lines, the electrodes connected to said source electrodes are mainly located on the side opposite to said first gate lines with respect to the second gate lines, and the electrodes connected to said source electrodes are connected to the TFTs formed at the forward end of the electrodes constituting the portions connected to said first gate lines over said second gate lines. 5. A liquid crystal display apparatus comprising: first and second opposed substrates, a liquid crystal layer sealed between said first and second substrates, first and second electrodes formed on said first substrate at positions shifted from each other in the direction parallel to the substrate surfaces, said first substrate having gate lines, data lines and TFTs, and electrodes of one of said first and second electrodes including portions extending from one of the gate lines; characterized in that the electrodes constituting the portions extending from said gate lines are used as a common electrode, electrodes of the other of said first and second electrodes are connected to the source electrodes of the TFTs, and the liquid crystal is driven by the electric field formed between the first and second electrodes; and further characterized in that first and second gate lines are adjacent to each other, the electrodes constituting the portions connected to the first gate lines extend to the vicinity of the second gate lines above the data line, the TFTs are formed at the forward ends of the electrodes constituting the portions connected to said first gate lines, and the forward ends of the electrodes constituting the portions connected to said first gate lines are formed in two forked parts as portions for forming TFTs and portions for forming an electric field. 6. A liquid crystal display apparatus comprising: first and second opposed substrates, a liquid crystal layer sealed between said first and second substrates, first electrodes formed on said first substrate, and second electrodes formed on said second substrate, each of said first and second electrodes including a plurality of parallel electrode elements in a single pixel, the electrode elements of said first electrodes and the electrode elements of said second electrodes being alternately arranged, so that when viewed from above the substrates, the electrode elements of said first electrodes have a first shape, the electrode elements of said second electrodes have a second shape that is different from said first shape, so that, a gap between one electrode element of the first electrodes and another electrode element of the second electrodes that is positioned adjacent to said one electrode element changes when considered along the lengths of said one and said another electrode elements. 7. A liquid crystal display apparatus as described in claim 6, further comprising data bu s lines, and wherein the electrode elements of at least one of said first and second electrodes are parallel or perpendicular to one of the data bus lines. 8. A liquid crystal display apparatus as described in claim 6, further comprising data bus lines, and wherein at least a portion of the electrode elements of at least one of said first and second electrodes is not parallel to one of the data bus lines. 9. A liquid crystal display apparatus as described in claim 6, wherein the electrode elements of at least one of said first and second electrodes have widths that vary along at least a portion of the lengths thereof. 10. A liquid crystal display apparatus as described in claim 9, wherein the widths of the electrode elements of at least one of said first and second electrodes changes in a stepwise manner. 11. A liquid crystal display apparatus as described in claim 10, wherein widths of the electrode elements of both said first and second electrodes change in a stepwise manner so that the widths are narrowed in the same direction. 12. A liquid crystal display apparatus comprising: first and second opposed substrates, a liquid crystal layer sealed between said first and second substrates, first electrodes formed on said first substrate, and second electrodes formed on said second substrate, each of said first and second electrodes including a plurality of parallel electrode elements in a single pixel, the electrodes elements of said first electrodes and the electrode elements of said second electrodes being alternately arranged, when viewed from above the substrates, a first gap between a first electrode element of one of said first and second electrodes and a second electrode element of the other of said first and second electrodes being different from a second gap between the second electrode element and a third electrode element of said one of said first and second electrodes.
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