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    • 3. 发明申请
    • TOUCH-PANEL DEVICE
    • 触控面板设备
    • US20100259504A1
    • 2010-10-14
    • US12759045
    • 2010-04-13
    • Koji DOINorio MambaKoji NagataToshiyuki KumagaiKoji Hayakawa
    • Koji DOINorio MambaKoji NagataToshiyuki KumagaiKoji Hayakawa
    • G06F3/044
    • G06F3/044G06F3/0418
    • Provided is a touch-panel device capable of detecting a touched position with high accuracy even when a touched area extends off an electrode area. According to the present invention, the touched area is assumed to be, for example, a circular in shape. A width in an X direction (overlap width (X46)) and a width in a Y direction (overlap width (Y47)) of an area where the touched area in a circular shape and an electrode area (6) overlap each other may be determined based on sensor measured values. When the overlap width (X46) and the overlap width (Y47) are different from each other, it is judged that the touched area extends off the electrode area, and a position of a center of the touched area in the circular shape is calculated as the touched position.
    • 提供了即使当触摸区域从电极区域延伸时,也能够以高精度检测触摸位置的触摸面板装置。 根据本发明,假定触摸区域为例如圆形。 在圆形和电极区域(6)中的触摸区域彼此重叠的区域中的X方向上的宽度(重叠宽度(X46))和Y方向上的宽度(重叠宽度(Y47))可以是 基于传感器测量值确定。 当重叠宽度(X46)和重叠宽度(Y47)彼此不同时,判断触摸区域从电极区域延伸出来,并将圆形的触摸区域的中心位置计算为 触动的位置。
    • 4. 发明申请
    • TOUCH PANEL
    • 触控面板
    • US20120139868A1
    • 2012-06-07
    • US13305787
    • 2011-11-29
    • Norio MAMBAKoji DOI
    • Norio MAMBAKoji DOI
    • G06F3/045
    • G06F3/0418G06F3/044
    • A capacitive touch panel includes a scanning circuit portion for inputting a drive voltage to each scanning electrode sequentially in 1st to n-th sub detection periods, a capacitance detection circuit portion for detecting a capacitance detection signal of the each detecting electrode in the 1st to n-th groups, and a control circuit portion for calculating a capacitance detection signal change amount from the capacitance detection signals of a plurality of the detecting electrodes detected by the capacitance detection circuit portion, and calculating coordinates of a touch position based on the capacitance detection signal change amounts. The control circuit portion determines, in consecutive sub detection periods, the capacitance detection signal change amount of the each detecting electrode in two groups from which the capacitance detection signals are detected in the consecutive sub detection periods, based on the capacitance detection signals consecutively detected from at least one same detecting electrode.
    • 电容式触摸面板包括扫描电路部分,用于在第1至第n个次检测周期内顺序地向每个扫描电极输入驱动电压;电容检测电路部分,用于检测第1至第n个中每个检测电极的电容检测信号 以及控制电路部分,用于根据由电容检测电路部分检测的多个检测电极的电容检测信号计算电容检测信号变化量,并且基于电容检测信号计算触摸位置的坐标 变更金额 控制电路部分在连续的子检测周期中,基于连续检测的电容检测信号,在连续的子检测期间中检测出电容检测信号的两组中的每个检测电极的电容检测信号变化量, 至少一个相同的检测电极。
    • 5. 发明申请
    • TOUCH PANEL
    • 触控面板
    • US20130027347A1
    • 2013-01-31
    • US13558440
    • 2012-07-26
    • Koji DOIKoji Nagata
    • Koji DOIKoji Nagata
    • G06F3/044
    • G06F3/044G06F3/0416G06F2203/04104
    • Provided is a touch panel which completes touch detection within a specified time even when the maximum number of touch points is set to be large. A control portion assigns priorities for being given a high coordinate precision to the respective touch points based on the state of the touch points. The control portion selects coordinate calculation algorithms having coordinate precisions corresponding to the priorities of the respective touch points from among a plurality of coordinate calculation algorithms, and calculates required calculation time for calculating coordinates of all the touch points. The control portion determines the priorities so that the calculated required calculation time is equal to or shorter than a specified time. The control portion selects coordinate calculation algorithms corresponding to the priorities and calculates the coordinates of the respective touch points.
    • 提供一种触摸面板,即使在触摸点的最大数量被设定为较大时,也能在规定时间内完成触摸检测。 基于触摸点的状态,控制部分为各个接触点分配给予高坐标精度的优先级。 控制部分从多个坐标计算算法中选择具有与各个触摸点的优先级相对应的坐标精度的坐标计算算法,并且计算用于计算所有触摸点坐标的所需计算时间。 控制部分确定优先级,使得所计算的所需计算时间等于或小于指定时间。 控制部分选择与优先级对应的坐标计算算法,并计算各个触摸点的坐标。
    • 6. 发明申请
    • Program Distribution Method and Computer System
    • 程序分配方法和计算机系统
    • US20080016512A1
    • 2008-01-17
    • US11769115
    • 2007-06-27
    • Koji DOIAkira Ioku
    • Koji DOIAkira Ioku
    • G06F9/46
    • G06F9/5044G06F8/60
    • Provided is a program distribution method in a managing computer for distributing a program to at least one apparatus each including a processor, a memory, and a communication interface. The method comprises steps of: storing program request information indicating a condition required for executing the program; judging whether an apparatus as a distribution destination of the program includes a program execution control unit for controlling execution of the program; and revising the program to be distributed, according to the program request information when the program is to be distributed to an apparatus not including the program execution control unit. Thus, it is possible to execute an program for various apparatuses.
    • 提供了一种在管理计算机中的程序分发方法,用于将程序分发到每个包括处理器,存储器和通信接口的至少一个装置。 该方法包括以下步骤:存储指示执行程序所需的条件的程序请求信息; 判断作为所述程序的分发目的地的装置是否包括用于控制所述程序的执行的程序执行控制单元; 以及当将程序分发给不包括程序执行控制单元的装置时,根据程序请求信息修改要分发的程序。 因此,可以执行各种装置的程序。
    • 7. 发明申请
    • SEMICONDUCTOR DEVICE AND AUDIO PROCESSOR CHIP
    • 半导体器件和音频处理器芯片
    • US20080106449A1
    • 2008-05-08
    • US11935419
    • 2007-11-06
    • Koji DOI
    • Koji DOI
    • H03M1/66
    • H04S1/007
    • An audio processor chip includes a DSP for decoding audio data, a first DAC for performing a D/A conversion to the digital data obtained from the DSP, a PLL circuit for generating a clock signal for the first DAC to supply it to the first DAC and a clock output external terminal for outputting the clock signal obtained from the PLL circuit to a second DAC of an AFE. The first DAC 142 outputs an analog signal obtained from the D/A conversion to an analog mixer and the analog mixer performs a mixing process to the analog signal to output.
    • 音频处理器芯片包括用于对音频数据进行解码的DSP,用于对从DSP获得的数字数据进行D / A转换的第一DAC,用于产生用于第一DAC以将其提供给第一DAC的时钟信号的PLL电路 以及时钟输出外部端子,用于将从PLL电路获得的时钟信号输出到AFE的第二DAC。 第一DAC 142将从D / A转换获得的模拟信号输出到模拟混频器,并且模拟混频器对模拟信号执行混频处理以输出。