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    • 1. 发明授权
    • Method and a device for reducing an electric field produced by a cathode ray tube in its surroundings
    • 用于减少阴极射线管在其周围产生的电场的方法和装置
    • US06351084B1
    • 2002-02-26
    • US09497055
    • 2000-02-02
    • Lasse KivirantaJari Pistemaa
    • Lasse KivirantaJari Pistemaa
    • G09G128
    • H01J29/003H01J2229/0015H04N3/185
    • The invention relates to a method and a device for reducing an electric field produced by display devices equipped with cathode ray tubes, in their surroundings. According to the invention, a part of a spectrum (ff), caused by a picture content, the level of which is separately adjusted, is discriminated from an interference voltage frequency spectrum (fs), produced by the display terminal and caused by deflection signals (fv, fh). Spurious pulses, significant for the generation of the electric field, are connected to a compensation circuit, wherein they are summed and supplied to a common emitter. The directions of the pulses are determined so that the electric field produced by the emitter reverses the field produced by the display device.
    • 本发明涉及一种用于减少在其周围装有阴极射线管的显示装置产生的电场的方法和装置。 根据本发明,由图像内容引起的频谱(ff)的一部分,其电平被单独调整,与由显示终端产生并由偏转信号引起的干扰电压频谱(fs) (fv,fh)。 对于产生电场有重要意义的伪脉冲连接到补偿电路,其中它们相加并提供给公共发射极。 确定脉冲的方向,使得由发射极产生的电场反转由显示装置产生的场。
    • 2. 发明授权
    • Protecting optical coupling between optical ports on opposing electronic components
    • 保护相对的电子元件上的光学端口之间的光耦合
    • US07324720B2
    • 2008-01-29
    • US11067089
    • 2005-02-25
    • Jari PistemaaNiko Porjo
    • Jari PistemaaNiko Porjo
    • G02B6/12
    • G02B6/4204H04M1/0202
    • In an exemplary aspect of the invention, a method is disclosed for protecting optical coupling between optical ports on opposing electronic components. The method comprises the following. First and second electronic components are oriented, where each of the first and second components has a side comprising an optical port, so that the sides are opposite each other. The first and second electronic components are positioned so as to enable optical coupling between the optical ports. A ring is formed, using at least one material, to surround the optical ports and fill a gap between the sides of the first and second components. The first and second components are mechanically coupled together. In other exemplary aspects, apparatus are disclosed having a ring formed around optical ports (e.g., one or more sets of optical ports) and between sides of electronic components.
    • 在本发明的示例性方面,公开了一种用于保护相对电子部件上的光学端口之间的光耦合的方法。 该方法包括以下。 第一和第二电子部件被定向,其中第一和第二部件中的每一个具有包括光学端口的侧面,使得侧面彼此相对。 第一和第二电子部件被定位成使得能够在光学端口之间进行光耦合。 使用至少一种材料形成围绕光学端口并填充第一和第二部件的侧面之间的间隙的环。 第一和第二部件机械耦合在一起。 在其他示例性方面,公开了具有围绕光学端口(例如,一组或多组光学端口)形成并且在电子部件的侧面之间形成的环的装置。
    • 3. 发明申请
    • Protecting optical coupling between optical ports on opposing electronic components
    • 保护相对的电子元件上的光学端口之间的光耦合
    • US20060193551A1
    • 2006-08-31
    • US11067089
    • 2005-02-25
    • Jari PistemaaNiko Porjo
    • Jari PistemaaNiko Porjo
    • G02B6/12
    • G02B6/4204H04M1/0202
    • In an exemplary aspect of the invention, a method is disclosed for protecting optical coupling between optical ports on opposing electronic components. The method comprises the following. First and second electronic components are oriented, where each of the first and second components has a side comprising an optical port, so that the sides are opposite each other. The first and second electronic components are positioned so as to enable optical coupling between the optical ports. A ring is formed, using at least one material, to surround the optical ports and fill a gap between the sides of the first and second components. The first and second components are mechanically coupled together. In other exemplary aspects, apparatus are disclosed having a ring formed around optical ports (e.g., one or more sets of optical ports) and between sides of electronic components.
    • 在本发明的示例性方面,公开了一种用于保护相对电子部件上的光学端口之间的光耦合的方法。 该方法包括以下。 第一和第二电子部件被定向,其中第一和第二部件中的每一个具有包括光学端口的侧面,使得侧面彼此相对。 第一和第二电子部件被定位成使得能够在光学端口之间进行光耦合。 使用至少一种材料形成围绕光学端口并填充第一和第二部件的侧面之间的间隙的环。 第一和第二部件机械耦合在一起。 在其他示例性方面,公开了具有围绕光学端口(例如,一组或多组光学端口)形成并且在电子部件的侧面之间形成的环的装置。
    • 5. 发明授权
    • Method and device for power consumption management of an integrated display unit
    • 集成显示单元功耗管理的方法和装置
    • US06473078B1
    • 2002-10-29
    • US09320618
    • 1999-05-26
    • Raimo IkonenJari PistemaaTuro RantanenAnders Engberg
    • Raimo IkonenJari PistemaaTuro RantanenAnders Engberg
    • G09G500
    • G09G5/003G06F1/3218G09G2330/022G09G2370/045
    • A method and a device for power management regarding an integrated display unit including a video display and at least one peripheral device, wherein the video display uses horizontal and vertical sync signals for the synchronization of the display images, and the peripheral device uses a peripheral signal to carry out its function. The peripheral device can be an audio unit using audio signals to produce sound. The peripheral device can be a USB connector using a +5 V voltage to indicate a connection being made to the integrated display unit. In the integrated display unit, a single power supply is used to provide electrical power to the video display and the peripheral device. In order to reduce the power consumption by the integrated display unit, a number of power consumption states, based on the presence of the video sync signals and the peripheral signals, are implemented. The presence of the video sync signals can be detected by a micro-controller in the integrated display unit. Alternatively, the presence of the video sync signals or data indicating power save states is signaled to the integrated display unit via USB BUS or other digital communication mean. Likewise, audio signals can be sent as digital data via USB BUS to the integrated display unit.
    • 一种用于关于包括视频显示器和至少一个外围设备的集成显示单元的电源管理的方法和装置,其中,所述视频显示器使用水平和垂直同步信号来进行所述显示图像的同步,并且所述外围设备使用外围信号 执行其功能。 外围设备可以是使用音频信号产生声音的音频单元。 外围设备可以是使用+5V电压的USB连接器,以表示与集成显示单元进行连接。 在集成显示单元中,单个电源用于向视频显示器和外围设备提供电力。 为了降低集成显示单元的功耗,实现了基于存在视频同步信号和外围信号的多个功耗状态。 视频同步信号的存在可以由集成显示单元中的微控制器检测。 或者,通过USB总线或其他数字通信的方式将指示省电状态的视频同步信号或数据的存在通知给集成显示单元。 同样,音频信号可以通过USB总线作为数字数据发送到集成显示单元。
    • 8. 发明授权
    • Compounded power factor corrected universal display monitor power supply
    • 复合功率因数校正通用显示器电源
    • US06233162B1
    • 2001-05-15
    • US09501026
    • 2000-02-09
    • Jari PistemaaRaimo Ikonen
    • Jari PistemaaRaimo Ikonen
    • H02M3335
    • H02M1/4258G06F1/1601G06F1/26Y02B70/126
    • A power supply circuit for powering a display monitor has a switching mode power supply (SMPS) circuit and a voltage phase information (VPI) combiner circuit. The SMPS circuit responds to a mains voltage signal (i.e. mains input) and to a voltage phase information combiner signal (VFB) from the VPI combiner circuit, for providing three different signals. The VPI combiner signal (VFB) contains information about a phase relationship between a current drawn by the switching mode power supply and a voltage of the mains voltage signal. The first two signals are provided back to the VPI combiner circuit, and include a voltage phase information signal (VPI) containing information about a voltage phase of the mains voltage signal, and a voltage feedback signal containing information the voltage of the switching mode power supply signal. The third signal is a switching mode power supply signal for powering the monitor. The VPI combiner circuit responds to the voltage phase information signal (VPI) and the voltage feedback signal, for providing the voltage phase information combiner signal (VFB) to the switching mode power supply circuit for shaping the current drawn by the switching mode power supply to substantially follow the phase of the mains voltage signal.
    • 用于为显示器监视器供电的电源电路具有开关模式电源(SMPS)电路和电压相位信息(VPI)组合器电路。 SMPS电路响应来自VPI组合器电路的电源电压信号(即电源输入)和电压相位信息组合器信号(VFB),以提供三个不同的信号。 VPI组合器信号(VFB)包含关于由开关模式电源提取的电流与电源电压信号的电压之间的相位关系的信息。 前两个信号被提供给VPI组合器电路,并且包括包含关于电源电压信号的电压相位的信息的电压相位信息信号(VPI)以及包含开关模式电源的电压的信息的电压反馈信号 信号。 第三信号是用于为监视器供电的开关模式电源信号。 VPI组合器电路响应于电压相位信息信号(VPI)和电压反馈信号,用于向开关模式电源电路提供电压相位信息组合器信号(VFB),用于对由开关模式电源提取的电流进行整形 基本上遵循电源电压信号的相位。