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    • 4. 发明申请
    • Multi-Section Visual Display having Overlapping Structure
    • 具有重叠结构的多段视觉显示
    • US20100079696A1
    • 2010-04-01
    • US12356115
    • 2009-01-20
    • Keh-Long HwuKuo-Feng KaoSeok-Lyul Lee
    • Keh-Long HwuKuo-Feng KaoSeok-Lyul Lee
    • G02F1/1333
    • G02B27/1066G02B27/126G02F1/13336G02F1/133526G02F1/1336G02F2001/133331G06F1/1616G06F1/1624H04M1/027H04M2250/16
    • A multi-section visual display having an overlapping structure is disclosed, and includes a first magnifying lens, a second magnifying lens, a first display apparatus having a first display panel and a second display apparatus having a second display panel, wherein the second display apparatus is disposed between the first magnifying lens and the first display apparatus, and the second magnifying lens is aligned with the first magnifying lens in an edge-to-edge manner. While at an operation state, a first border area of the first display panel is partially overlapped with a second border area of the second display panel, thereby reducing the non-display area needing shielding by using a virtual image display from the first display panel/magnifying lens to shield a portion of the second border area, thus reducing the space required between the magnifying lenses and the first display panel.
    • 公开了具有重叠结构的多部分视觉显示器,并且包括第一放大透镜,第二放大透镜,具有第一显示面板的第一显示装置和具有第二显示面板的第二显示装置,其中第二显示装置 设置在第一放大透镜和第一显示装置之间,并且第二放大透镜以边缘到边缘的方式与第一放大透镜对准。 在操作状态下,第一显示面板的第一边界区域与第二显示面板的第二边界区域部分地重叠,从而通过使用来自第一显示面板/图像的虚拟图像显示来减少需要屏蔽的非显示区域, 放大透镜以屏蔽第二边界区域的一部分,从而减小放大透镜和第一显示面板之间所需的空间。
    • 5. 发明授权
    • Noise suppression method for wave filter
    • 滤波器噪声抑制方法
    • US07057476B2
    • 2006-06-06
    • US10853873
    • 2004-05-25
    • Keh-Long Hwu
    • Keh-Long Hwu
    • H03H9/15H03H9/54
    • H03H9/02118H03H9/0211
    • A noise suppression method of a wave filter used to eliminate standing wave signal interferences in the acoustic wave filter consisted by a plurality of film bulk acoustic resonators (FBARs). The method is to provide a plurality of scatterers in the structured consisted by the FBARs, thereby creating an band-gap structure due to the material characteristics difference, which consequently generates a destructive interfering effect to the transverse higher harmonics vibration within a specific operating frequency range, and ultimately decreases or even eliminates any parasitic effects. Therefore, within the operation frequency range of this band-gap structure, abnormal signals created by any transverse wave modes cannot exist. In addition, an acoustic shield can be provided by phononic crystal structures between different FBARs, thus acoustic shielding any mutual interference within the operation frequency range.
    • 用于消除由多个膜体声波谐振器(FBAR)组成的声波滤波器中的驻波信号干扰的滤波器的噪声抑制方法。 该方法是在由FBAR构成的结构中提供多个散射体,从而由于材料特性差异而产生带隙结构,因此,这在特定工作频率范围内对横向高次谐波振动产生破坏性的干扰效应 ,并最终减少甚至消除任何寄生效应。 因此,在该带隙结构的工作频率范围内,不能存在由任何横波模式产生的异常信号。 另外,可以通过不同FBAR之间的声子晶体结构提供声屏蔽,从而声音屏蔽操作频率范围内的任何相互干扰。
    • 6. 发明授权
    • Multi-section visual display having overlapping structure
    • 具有重叠结构的多段视觉显示
    • US07898617B2
    • 2011-03-01
    • US12356115
    • 2009-01-20
    • Keh-Long HwuKuo-Feng KaoSeok-Lyul Lee
    • Keh-Long HwuKuo-Feng KaoSeok-Lyul Lee
    • G02F1/133
    • G02B27/1066G02B27/126G02F1/13336G02F1/133526G02F1/1336G02F2001/133331G06F1/1616G06F1/1624H04M1/027H04M2250/16
    • A multi-section visual display having an overlapping structure is disclosed, and includes a first magnifying lens, a second magnifying lens, a first display apparatus having a first display panel and a second display apparatus having a second display panel, wherein the second display apparatus is disposed between the first magnifying lens and the first display apparatus, and the second magnifying lens is aligned with the first magnifying lens in an edge-to-edge manner. While at an operation state, a first border area of the first display panel is partially overlapped with a second border area of the second display panel, thereby reducing the non-display area needing shielding by using a virtual image display from the first display panel/magnifying lens to shield a portion of the second border area, thus reducing the space required between the magnifying lenses and the first display panel.
    • 公开了具有重叠结构的多部分视觉显示器,并且包括第一放大透镜,第二放大透镜,具有第一显示面板的第一显示装置和具有第二显示面板的第二显示装置,其中第二显示装置 设置在第一放大透镜和第一显示装置之间,并且第二放大透镜以边缘到边缘的方式与第一放大透镜对准。 在操作状态下,第一显示面板的第一边界区域与第二显示面板的第二边界区域部分重叠,从而通过使用来自第一显示面板/图像的虚拟图像显示来减少需要屏蔽的非显示区域, 放大透镜以屏蔽第二边界区域的一部分,从而减小放大透镜和第一显示面板之间所需的空间。
    • 8. 发明申请
    • Noise suppression method for wave filter
    • 滤波器噪声抑制方法
    • US20050140465A1
    • 2005-06-30
    • US10853873
    • 2004-05-25
    • Keh-Long Hwu
    • Keh-Long Hwu
    • H03H9/00H03H9/02H03H9/17H03H9/46H03H9/54
    • H03H9/02118H03H9/0211
    • A noise suppression method of a wave filter used to eliminate standing wave signal interferences in the acoustic wave filter consisted by a plurality of film bulk acoustic resonators (FBARs). The method is to provide a plurality of scatterers in the structured consisted by the FBARs, thereby creating an band-gap structure due to the material characteristics difference, which consequently generates a destructive interfering effect to the transverse higher harmonics vibration within a specific operating frequency range, and ultimately decreases or even eliminates any parasitic effects. Therefore, within the operation frequency range of this band-gap structure, abnormal signals created by any transverse wave modes cannot exist. In addition, an acoustic shield can be provided by phononic crystal structures between different FBARs, thus acoustic shielding any mutual interference within the operation frequency range.
    • 用于消除由多个膜体声波谐振器(FBAR)组成的声波滤波器中的驻波信号干扰的滤波器的噪声抑制方法。 该方法是在由FBAR构成的结构中提供多个散射体,从而由于材料特性差异而产生带隙结构,因此,这在特定工作频率范围内对横向高次谐波振动产生破坏性的干扰效应 ,并最终减少甚至消除任何寄生效应。 因此,在该带隙结构的工作频率范围内,不能存在由任何横波模式产生的异常信号。 另外,可以通过不同FBAR之间的声子晶体结构提供声屏蔽,从而声音屏蔽操作频率范围内的任何相互干扰。
    • 9. 发明授权
    • Display apparatus
    • 显示装置
    • US08378940B2
    • 2013-02-19
    • US12390640
    • 2009-02-23
    • Kuo-Feng KaoZeng-De ChenTsung-Chin ChengKeh-Long HwuWeng-Bing ChouSeok-Lyul Lee
    • Kuo-Feng KaoZeng-De ChenTsung-Chin ChengKeh-Long HwuWeng-Bing ChouSeok-Lyul Lee
    • G09G3/36
    • G02F1/133526
    • A display apparatus is disclosed, and comprises a display panel and a lens. On the display panel, there are a width-fixed pixel zone, a width-variating pixel zone and a border zone arranged sequentially from the center to the edges of the display panel, wherein there are a plurality of width-fixed pixels disposed in the width-fixed zone, and there are a plurality of width-variating pixel groups disposed in the width-variating pixel zone, and the widths of the width-variating pixel groups are present in a first decreasing sequence. The lens has a focus-length-variating portion and a planar portion, wherein the planar portion is aligned with the width-fixed pixel zone, and the focus-length-variating portion is disposed to correspond to the border zone and the width-variating pixel zone. The focus lengths of the focus-length-variating portion corresponding to the width-variating pixel groups are present in a second decreasing sequence.
    • 公开了显示装置,并且包括显示面板和透镜。 在显示面板上,从显示面板的中心到边缘顺序设置有宽度固定的像素区域,宽度变化像素区域和边界区域,其中,设置有多个宽度固定像素区域 宽度固定区域,并且在宽度变化像素区域中设置多个宽度变化像素组,宽度变化像素组的宽度以第一递减顺序存在。 透镜具有焦距变化部分和平面部分,其中平面部分与宽度固定像素区域对准,并且焦距变化部分设置成对应于边界区域和宽度变化部分 像素区。 对应于宽度变化像素组的焦点长度变化部分的焦距长度以第二递减序列存在。
    • 10. 发明申请
    • Surface acoustic wave touch panel and system of the same
    • 表面声波触摸屏和系统相同
    • US20060109261A1
    • 2006-05-25
    • US11225211
    • 2005-09-14
    • Yuan-Fang ChouKeh-Long HwuChing-Cheng Tien
    • Yuan-Fang ChouKeh-Long HwuChing-Cheng Tien
    • G09G5/00
    • G06F3/0436
    • A surface acoustic wave touch panel and a system of the same are provided. The system includes the touch panel, an input/output (I/O) controlling unit, a detecting unit, and a signal processing unit. The touch panel includes a substrate on which at least one first emitter and at least one second emitter are provided on two adjacent edges thereof, and at least one first receiver and at least one second receiver are provided on the other two adjacent edges of the substrate. The I/O controlling unit controls the emitters to emit signals, and controls the detecting unit to pick up output signals from the receivers. The signal processing unit uses a neural network to determine an amplitude-reduction feature of any of the output signals so as to identify a position being touched on the touch panel. The touch panel is provided with high resolution and high throughput.
    • 提供表面声波触摸面板及其系统。 该系统包括触摸面板,输入/输出(I / O)控制单元,检测单元和信号处理单元。 触摸面板包括其上在其两个相邻边缘上设置有至少一个第一发射器和至少一个第二发射器的衬底,并且至少一个第一接收器和至少一个第二接收器设置在衬底的另外两个相邻边缘上 。 I / O控制单元控制发射器发射信号,并且控制检测单元从接收器拾取输出信号。 信号处理单元使用神经网络来确定任何输出信号的幅度降低特征,以便识别在触摸面板上被触摸的位置。 触摸屏具有高分辨率和高吞吐量。