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    • 2. 发明授权
    • Power interrupt device with remote activity detector
    • 具有远程活动检测器的电源中断装置
    • US5548764A
    • 1996-08-20
    • US56112
    • 1993-04-30
    • Raymond S. DuleyAshfaq R. Khan
    • Raymond S. DuleyAshfaq R. Khan
    • G09F9/00G06F1/32
    • G06F1/3209G06F1/3231G06F1/3265G09G2330/021Y02B60/1242Y02B60/1289
    • A power interrupt device for detecting activity remote from the detector and/or device and for producing a signal capable of interrupting power to a load, such as an electronic display. The detector can sense remote activity, and the activity or associated object need not contact the detector. Depending upon whether the activity is present or not present, the detector and associated interrupt circuitry can turn on or off a power load device such as an electronic display. The power interrupt device is well suited for turning off an electronic display when a user is no longer in the room or working area. The computer can remain running, however, the associated display can be remotely turned off to reduce the amount of heat dissipated from the display during periods when the user is not present.
    • 一种电力中断装置,用于检测远离检测器和/或装置的活动,并用于产生能够中断诸如电子显示器的负载的电力的信号。 检测器可以感测远程活动,并且活动或相关对象不需要接触检测器。 根据活动是否存在,检测器和相关联的中断电路可以打开或关闭诸如电子显示器的功率负载装置。 电源中断装置非常适合在用户不在室内或工作区域时关闭电子显示屏。 计算机可以保持运行,然而,可以远程关闭相关联的显示器,以减少在用户不存在期间从显示器消散的热量。
    • 4. 发明授权
    • Power saving apparatus for use in peripheral equipment of a computer
    • 用于计算机外围设备的节电装置
    • US5483464A
    • 1996-01-09
    • US176450
    • 1993-12-30
    • Moon-Jong Song
    • Moon-Jong Song
    • G06F1/32
    • G06F1/3215G06F1/3231G06F1/325Y02B60/1289Y10T307/461Y10T307/469Y10T307/615
    • An apparatus for use in the peripheral equipment of a computer reduces the needless consumption of power. Once it has been determined that the computer has not been used for a predetermined period of time, an operation control signal indicative of a specific control mode is supplied for controlling the supply of power to the computer's peripheral equipment and the computer's operating state. The operation of a power supply means for generating operating power to a computer's peripheral equipment is controlled in response to a detected control mode. Accordingly, energy is conserved by controlling the supply of power and the operating state of a computer's peripheral equipment according to the peripheral equipment's operational state.
    • 用于计算机的外围设备的装置减少了不必要的功率消耗。 一旦确定计算机在预定时间段内未被使用,则提供指示特定控制模式的操作控制信号,以控制对计算机外围设备的供电和计算机的运行状态。 响应于检测到的控制模式来控制用于向计算机的外围设备产生操作电力的电源装置的操作。 因此,通过根据外围设备的操作状态控制计算机的外围设备的功率供给和操作状态来节省能量。
    • 7. 发明授权
    • Detection of hand location as an input for power controls in a computing
system
    • 检测手位置作为计算系统中功率控制的输入
    • US5758173A
    • 1998-05-26
    • US611259
    • 1996-03-05
    • David Ross Evoy
    • David Ross Evoy
    • G06F1/00
    • G06F1/3231G06F1/1637G06F1/1662G06F1/1684Y02B60/1289
    • Power is conserved in a computing system by detecting when a user's hands are not placed over a keyboard for the computing system. When it is detected that the user's hand are not placed over the keyboard power to a display for the computing system is reduced. For example, the hands are detected by generating and detecting ultrasound waves. In one embodiment of the present invention, the ultrasound waves are generated and detected from positions on a case of the computing system so that when the user's hands are placed on the keyboard, the user's hands block a portion of the ultrasound waves from being detected. In another embodiment, the ultrasound waves are generated and detected from positions on a case of the computing system so that when the user's hands are placed on the keyboard, the user's hands reflect a portion of the ultrasound waves so that the portion of the ultrasound waves are detected.
    • 在计算系统中通过检测用户的手何时未被放置在用于计算系统的键盘上来保存功率。 当检测到用户的手不被放置在键盘上时,用于计算系统的显示器的电力减少。 例如,通过生成和检测超声波来检测手。 在本发明的一个实施例中,从计算系统的壳体上的位置产生和检测超声波,使得当用户的手被放置在键盘上时,用户的手阻止一部分超声波被检测到。 在另一个实施例中,从计算系统的壳体上的位置产生和检测超声波,使得当用户的手被放置在键盘上时,用户的手反射超声波的一部分,使得超声波的一部分 被检测到。
    • 10. 发明授权
    • Method and apparatus for controlling the provision of power to computer
peripherals
    • US5408668A
    • 1995-04-18
    • US98577
    • 1993-07-28
    • Richard Tornai
    • Richard Tornai
    • G06F1/32
    • G06F1/3215G06F1/3231G06F1/325Y02B60/1289
    • The provision of power to a peripheral of a computer system is controlled by first receiving input signals from an input source, such as a keyboard, mouse, printer port, or an occupancy sensor. The input signals are then processed to determine whether power should be provided to the peripheral, and if so, an activation signal is generated. In response to this activation signal, the peripheral is connected to an external power source, thereby turning the peripheral on. Thereafter, the input signals continue to be processed to determine whether power should be disconnected from the peripheral, and if so, a deactivation signal is generated. The peripheral is disconnected from the power source in response to the deactivation signal to turn the peripheral off. An apparatus for carrying out the method described above comprises an input port for receiving the input signals, a processor the processing the input signals, and a connection circuit for selectively connecting the peripheral to a power source. The input port receives the input signals and passes them on to the processor. The processor monitors the input signals for input signal activity, and if there is input signal activity, the processor processes the input signals to determine whether the peripheral needs to be turned on. If so, the processor generates and sends an activation signal to the connection circuit to cause the connection circuit to connect the peripheral to a power source, thereby, turning the peripheral on. Thereafter, the processor continues to monitor the input signals for input signal activity, and if no activity is detected, the processor starts a timer having a selected time limit. If no activity is detected before the time limit expires, the processor generates and sends a deactivation signal to the connection circuit, which causes the connection circuit to disconnect the peripheral from the power source, thereby, turning the peripheral off. Thus, the peripheral is automatically turned off when it is not needed in order to minimize the power consumed by the peripheral.