This invention provides an infrared touch screen, comprising: a touch detecting region; a plurality of edges containing at least a first edge and a second edge, wherein the first edge and the second edge are opposite to each other, there are infrared emitters and infrared receivers fixed on the firs
This invention provides an infrared touch screen, comprising: a touch detecting region; a plurality of edges containing at least a first edge and a second edge, wherein the first edge and the second edge are opposite to each other, there are infrared emitters and infrared receivers fixed on the first edge and there are infrared emitters and infrared receivers fixed on the second edge; and a phase managing mechanism configured to control the phase alternation of the infrared touch screen which has a plurality of phases containing at least a first phase and a second phase. With the structure change and phase managing mechanism application in this infrared touch screen, the light interference caused by varying ambient light can be reduced or eliminated effectively.
대표청구항▼
1. An infrared touch screen, comprising: a touch detecting region;a plurality of edges including at least a first edge and a second edge,wherein said first edge and said second edge are opposite to each other, said first edge having infrared emitters and infrared receivers fixed thereon, and said se
1. An infrared touch screen, comprising: a touch detecting region;a plurality of edges including at least a first edge and a second edge,wherein said first edge and said second edge are opposite to each other, said first edge having infrared emitters and infrared receivers fixed thereon, and said second edge having infrared emitters and infrared receivers fixed thereon; anda phase managing mechanism configured to control a phase alternation of said infrared touch screen which has a plurality of phases including at least a first phase and a second phase;wherein said phase managing mechanism controls the infrared emitters fixed on said first edge and the infrared receivers fixed on said second edge to scan said touch detecting region in said first phase; andsaid phase managing mechanism controls the infrared receivers fixed on said first edge and the infrared emitters fixed on said second edge to scan said touch detecting region in said second phase, andwherein a standard ambient light intensity is preset in said phase managing mechanism;in any of said first phase and said second phase, said phase managing mechanism compares an intensity of ambient light received in the infrared receivers fixed on a current receiving edge with said preset standard ambient light intensity;if the intensity of the ambient light received in the infrared receivers fixed on the current receiving edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to maintain a current phase of the infrared touch screen; andif the intensity of the ambient light received in the infrared receivers fixed on the current receiving edge is larger than said preset standard ambient light intensity, said phase managing mechanism changes the phase of said infrared touch screen from said current phase to another one of said first phase and said second phase. 2. The infrared touch screen of claim 1, wherein said infrared touch screen further includes a third edge and a fourth edge, said third edge and said fourth edge are opposite to each other, said third edge having infrared emitters fixed thereon, and said fourth edge having infrared receivers fixed thereon. 3. The infrared touch screen of claim 1, wherein said infrared touch screen further includes a third edge and a fourth edge, said third edge and said fourth edge are opposite to each other, said third edge having infrared receivers fixed thereon, and said fourth edge having infrared emitters fixed thereon. 4. The infrared touch screen of claim 1, wherein infrared light emitted from the infrared emitters fixed on any of said first edge and said second edge can be received by at least one infrared receiver fixed on an opposite edge. 5. The infrared touch screen of claim 4, wherein heights of the infrared emitters and infrared receivers fixed on a same edge are different or the same. 6. An infrared touch screen, comprising: a touch detecting region;a plurality of edges including at least a first edge, a second edge, a third edge and a fourth edge, wherein said first edge and said second edge are opposite to each other, said third edge and said fourth edge are opposite to each other, each of said first edge, said second edge, said third edge, and said fourth edge having infrared emitters and infrared receivers fixed thereon; anda phase managing mechanism configured to control a phase alternation of said infrared touch screen which has a plurality of phases including at least a third phase, a fourth phase, a fifth phase and a sixth phase;wherein said phase managing mechanism controls the infrared emitters fixed on said first edge and the infrared receivers fixed on said second edge to scan said touch detecting region and controls the infrared emitters fixed on said third edge and the infrared receivers fixed on said fourth edge to scan said touch detecting region in said third phase;said phase managing mechanism controls the infrared emitters fixed on said first edge and the infrared receivers fixed on said second edge to scan said touch detecting region and controls the infrared receivers fixed on said third edge and the infrared emitters fixed on said fourth edge to scan said touch detecting region in said fourth phase;said phase managing mechanism controls the infrared receivers fixed on said first edge and the infrared emitters fixed on said second edge to scan said touch detecting region and controls the infrared receivers fixed on said third edge and the infrared emitters fixed on said fourth edge to scan said touch detecting region in said fifth phase; andsaid phase managing mechanism controls the infrared receivers fixed on said first edge and the infrared emitters fixed on said second edge to scan said touch detecting region and controls the infrared emitters fixed on said third edge and the infrared receivers fixed on said fourth edge to scan said touch detecting region in said sixth phase,wherein a standard ambient light intensity is preset in said phase managing mechanism;in any of said third phase, said fourth phase, said fifth phase, and said sixth phase, said phase managing mechanism compares an intensity of ambient light received in the infrared receivers fixed on current receiving edges with said preset standard ambient light intensity;if the intensity of ambient light received in the infrared receivers fixed on the current receiving edges is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to maintain a current phase of the infrared touch screen; andif the intensity of ambient light received in the infrared receivers fixed on at least one of the current receiving edges is larger than said preset standard ambient light intensity, said phase managing mechanism changes the phase of said infrared touch screen from said current phase to another one of the third phase, the fourth phase, the fifth phase and the sixth phase. 7. The infrared touch screen of claim 6, wherein: in said third phase, if an intensity of ambient light received in the infrared receivers fixed on the second edge is not larger than said preset standard ambient light intensity, and an intensity of ambient light received in the infrared receivers fixed on the fourth edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to maintain the third phase;if the intensity of the ambient light received in the infrared receivers fixed on the second edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the third phase and enter into the sixth phase;if the intensity of the ambient light received in the infrared receivers fixed on the second edge is not larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the third phase and enter into the fourth phase;if the intensity of the ambient light received in the infrared receivers fixed on the second edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the third phase and enter into the fifth phase;in said fourth phase, if the intensity of the ambient light received in the infrared receivers fixed on the second edge is not larger than said preset standard ambient light intensity, and an intensity of ambient light received in the infrared receivers fixed on the third edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to maintain the fourth phase;if the intensity of the ambient light received in the infrared receivers fixed on the second edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the fourth phase and enter into the fifth phase;if the intensity of the ambient light received in the infrared receivers fixed on the second edge is not larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the fourth phase and enter into the third phase;if the intensity of the ambient light received in the infrared receivers fixed on the second edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the fourth phase and enter into the sixth phase;in said fifth phase, if an intensity of ambient light received in the infrared receivers fixed on the first edge is not larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to maintain the fifth phase;if the intensity of the ambient light received in the infrared receivers fixed on the first edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the fifth phase and enter into the fourth phase;if the intensity of the ambient light received in the infrared receivers fixed on the first edge is not larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the fifth phase and enter into the sixth phase;if the intensity of the ambient light received in the infrared receivers fixed on the first edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the third edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the fifth phase and enter into the third phase; and in said sixth phase,if the intensity of the ambient light received in the infrared receivers fixed on the first edge is not larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to maintain the sixth phase;if the intensity of the ambient light received in the infrared receivers fixed on the first edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is not larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the sixth phase and enter into the third phase;if the intensity of the ambient light received in the infrared receivers fixed on the first edge is not larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the sixth phase and enter into the fifth phase;if the intensity of the ambient light received in the infrared receivers fixed on the first edge is larger than said preset standard ambient light intensity, and the intensity of the ambient light received in the infrared receivers fixed on the fourth edge is larger than said preset standard ambient light intensity, said phase managing mechanism controls said infrared touch screen to terminate the sixth phase and enter into the fourth phase. 8. The infrared touch screen of claim 6, wherein infrared light emitted from the infrared emitters fixed on any of said first edge, said second edge, said third edge and said fourth edge can be received by at least one infrared receiver fixed on an opposite edge. 9. The infrared touch screen of claim 7, wherein heights of the infrared emitters and infrared receivers fixed on a same edge are different or the same.
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이 특허에 인용된 특허 (9)
Komadina Bruce M. (Champaign IL) Lazarevich Vladeta D. (Bondville IL) Beining August H. (Fullerton CA), Ambient light and electromagnetic noise reduction circuit.
Bures Milan (Tabaccoville NC) Kratochvil Paul P. (Kernersville NC) Rowlette John R. (Clemmons NC), Infrared touch input device having ambient compensation.
Misek Victor A. (Hudson NH) Hastbacka Albin A. (Chelmsford MA) Beairsto Robert J. (Pembroke NH) Trasatti Alphonse J. (Amherst NH), Touch entry interactive cathode ray tube arrangement.
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