会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 43. 发明申请
    • CONTROL APPARATUS, INPUT APPARATUS, CONTROL SYSTEM, CONTROL METHOD, AND HANDHELD APPARATUS
    • 控制装置,输入装置,控制系统,控制方法和手持装置
    • US20100265175A1
    • 2010-10-21
    • US12526315
    • 2008-12-02
    • Hidetoshi KabasawaTakashi MasudaKazuyuki YamamotoKunihito Sawai
    • Hidetoshi KabasawaTakashi MasudaKazuyuki YamamotoKunihito Sawai
    • G06F3/033G09G5/08
    • G06F3/0481G06F3/0346G06F3/04847
    • [Object] To provide a control apparatus, an input apparatus, a control system, a control method, and a handheld apparatus that are capable of preventing a deviation between a display position of a pointer and a relative position of the input apparatus when the input apparatus is moved out of a screen from an end portion of the screen, and with which a user can obtain an intuitional operational feeling.[Solving Means] Not only on a real screen (95) but also on a virtual screen (105) set around the real screen (95), coordinates of a virtual pointer (2′) are generated and stored. Accordingly, by moving an input apparatus (1) only by an amount that the input apparatus has moved outside the real screen (95), in an opposite direction, for example, a user can resume a movement of a pointer (2) that has reached a boundary line of the real screen (95), on the real screen (95). As a result, since coordinate values of the pointer are generated in a pseudo absolute coordinate system without being bound by a small screen, the user can operate the input apparatus (1) intuitionally without stress.
    • 本发明提供一种控制装置,输入装置,控制系统,控制方法以及手持式装置,其能够防止当输入的指示器的显示位置与输入装置的相对位置之间的偏差时 设备从屏幕的端部移出屏幕,用户可以通过该屏幕获得直观的操作感觉。 [解决方案]不仅在真实屏幕(95)上,而且在围绕实际屏幕(95)设置的虚拟屏幕(105)上,生成并存储虚拟指针(2')的坐标。 因此,通过使输入装置(1)仅以输入装置已经移动到实际屏幕(95)外的量,以相反的方向移动输入装置(1),例如,用户可以恢复指针(2)的移动,该指针具有 在实际屏幕(95)上到达真实屏幕(95)的边界线。 结果,由于指针的坐标值在伪绝对坐标系中产生而不受小屏幕的约束,所以用户可以直接地无压力地操作输入装置(1)。
    • 44. 发明申请
    • MTF MEASURING SYSTEM, MTF MEASURING METHOD, MTF MEASURING UNIT AND MTF MEASURING PROGRAM
    • MTF测量系统,MTF测量方法,MTF测量单元和MTF测量程序
    • US20100177303A1
    • 2010-07-15
    • US12376600
    • 2007-08-03
    • Takashi MasudaKouki YoshidaTakaharu AokiKenichiro Waki
    • Takashi MasudaKouki YoshidaTakaharu AokiKenichiro Waki
    • G01M11/02
    • G01M11/0292
    • Measurement result screen data indicative of an object image and an MTF curve image are generated in accordance with the object image data obtained by photographing the object and the MTF curve image data indicative of the MTF curve generated from MTF data that become an index to evaluate lens performance. The measurement result screen based on the generated measurement result screen data is displayed, so that the measurement result screen indicative of the object image and the MTF curve image can be displayed on a real time basis in the case of evaluation measurement operations of the lens performance. As a result, a user grasps necessity for a focus adjustment from the MTF curve image on the measurement result screen, if necessary, adjusts focus of the object displayed together with the MTF curve image, and at the same time can evaluate the lens performance from the MTF curve image.
    • 根据通过拍摄对象获得的对象图像数据和表示从成为指标的MTF数据生成的MTF曲线的MTF曲线图像数据来生成表示对象图像和MTF曲线图像的测量结果画面数据,以评估透镜 性能。 显示基于生成的测量结果画面数据的测量结果画面,从而可以在透镜性能的评估测量操作的情况下实时显示指示对象图像和MTF曲线图像的测量结果画面 。 结果,如果需要,用户可以从测量结果画面上的MTF曲线图像中掌握聚焦调整的必要性,调整与MTF曲线图像一起显示的对象的焦点,并且同时可以评估来自 MTF曲线图像。
    • 45. 发明授权
    • Temperature compensation oscillator and method for manufacturing the same
    • 温度补偿振荡器及其制造方法
    • US07728685B2
    • 2010-06-01
    • US12092772
    • 2006-11-06
    • Rikoku NakamuraTakuo FurukiTakashi Masuda
    • Rikoku NakamuraTakuo FurukiTakashi Masuda
    • H03L1/02H03B5/32
    • H03B5/04H03B5/368
    • A temperature detection circuit (18) detects temperature around an oscillation circuit (20) equipped with voltage variable capacitors (23, 24). According to its temperature detection signal, a temperature compensation circuit (30) produces a voltage signal as a temperature compensation signal. That voltage signal is supplied to the voltage variable capacitors (23, 24) in order to sustain oscillation frequency of the oscillation circuit (20) at a substantially constant level. When a switch element (1) is, turned on by a non-TCXO signal, both terminals of each voltage variable capacitor (23, 24) are brought to the same potential (ground potential). Consequently, each voltage variable capacitor has a predetermined capacitance and temperature compensation function is made ineffective. In that state, initial frequency regulation is performed under normal temperature.
    • 温度检测电路(18)检测配备有电压可变电容器(23,24)的振荡电路(20)周围的温度。 根据其温度检测信号,温度补偿电路(30)产生作为温度补偿信号的电压信号。 该电压信号被提供给电压可变电容器(23,24),以便将振荡电路(20)的振荡频率维持在基本上恒定的水平。 当开关元件(1)由非TCXO信号导通时,每个电压可变电容器(23,24)的两个端子都达到相同的电位(接地电位)。 因此,每个电压可变电容器具有预定的电容,并且使温度补偿功能无效。 在这种状态下,初始频率调节在常温下进行。
    • 46. 发明申请
    • TEMPERATURE COMPENSATION OSCILLATOR AND METHOD FOR MANUFACTURING THE SAME
    • 温度补偿振荡器及其制造方法
    • US20090115542A1
    • 2009-05-07
    • US12092772
    • 2006-11-06
    • Rikoku NakamuraTakuo FurukiTakashi Masuda
    • Rikoku NakamuraTakuo FurukiTakashi Masuda
    • H03L1/02
    • H03B5/04H03B5/368
    • A temperature detection circuit (18) detects temperature around an oscillation circuit (20) equipped with voltage variable capacitors (23, 24). According to its temperature detection signal, a temperature compensation circuit (30) produces a voltage signal as a temperature compensation signal. That voltage signal is supplied to the voltage variable capacitors (23, 24) in order to sustain oscillation frequency of the oscillation circuit (20) at a substantially constant level. When a switch element (1) is, turned on by a non-TCXO signal, both terminals of each voltage variable capacitor (23, 24) are brought to the same potential (ground potential). Consequently, each voltage variable capacitor has a predetermined capacitance and temperature compensation function is made ineffective. In that state, initial frequency regulation is performed under normal temperature.
    • 温度检测电路(18)检测配备有电压可变电容器(23,24)的振荡电路(20)周围的温度。 根据其温度检测信号,温度补偿电路(30)产生作为温度补偿信号的电压信号。 该电压信号被提供给电压可变电容器(23,24),以便将振荡电路(20)的振荡频率维持在基本上恒定的水平。 当开关元件(1)由非TCXO信号导通时,每个电压可变电容器(23,24)的两个端子都达到相同的电位(接地电位)。 因此,每个电压可变电容器具有预定的电容,并且使温度补偿功能无效。 在这种状态下,初始频率调节在常温下进行。