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    • 4. 发明授权
    • Variable voltage CMOS off-chip driver and receiver circuits
    • 可变电压CMOS片外驱动和接收电路
    • US08604828B1
    • 2013-12-10
    • US08657849
    • 1996-05-31
    • Harry Randall BickfordPaul William CoteusRobert Heath DennardDaniel Mark DrepsGerard Vincent Kopcsay
    • Harry Randall BickfordPaul William CoteusRobert Heath DennardDaniel Mark DrepsGerard Vincent Kopcsay
    • H03K19/0175
    • H03K19/0005H03K19/018521H03K19/018585
    • A structure is described having a plurality of electronic devices with the same or different internal CMOS voltages; an interconnection between two or more of the electronic devices; driver and receiver circuits which provide selectable input/output voltage levels for interfacing with several generations of CMOS technology, thus allowing chips fabricated in such technologies to communicate using a signal voltage range most suitable for each chip; Circuitry for selecting or adjusting the type of receiver circuit used, thus allowing either the use of a differential comparator circuit with an externally supplied reference voltage, or alternatively, the use of an inverter style receiver with an adjustable threshold, the selection being accomplished by setting the external reference to a predetermined voltage; Circuitry for selecting or adjusting the switching threshold of the inverter receiver circuit, which enables the threshold to be set appropriately for a given input signal voltage range.
    • 描述了具有多个具有相同或不同的内部CMOS电压的电子器件的结构; 两个或多个电子设备之间的互连; 驱动器和接收器电路,其提供用于与几代CMOS技术接口的可选输入/输出电压电平,从而允许以这种技术制造的芯片使用最适合于每个芯片的信号电压范围进行通信; 用于选择或调整所使用的接收器电路的类型的电路,从而允许使用具有外部提供的参考电压的差分比较器电路,或者使用具有可调阈值的逆变器式接收器,该选择通过设置 外部参考预定电压; 用于选择或调整逆变器接收器电路的开关阈值的电路,其使得能够针对给定输入信号电压范围适当地设定阈值。
    • 6. 发明授权
    • Methods and apparatus for cooling electronics
    • 冷却电子元件的方法和装置
    • US08899060B2
    • 2014-12-02
    • US13173082
    • 2011-06-30
    • Shawn Anthony HallGerard Vincent Kopcsay
    • Shawn Anthony HallGerard Vincent Kopcsay
    • H05K7/20G05D23/19G06F1/20
    • G05D23/1919F25B49/02F25D17/02G06F1/206Y02D10/16
    • Methods and apparatus are provided for choosing an energy-efficient coolant temperature for electronics by considering the temperature dependence of the electronics' power dissipation. This dependence is explicitly considered in selecting the coolant temperature T0 that is sent to the equipment. To minimize power consumption PTotal for the entire system, where PTotal=P0+PCool is the sum of the electronic equipment's power consumption P0 plus the cooling equipment's power consumption PCool, PTotal is obtained experimentally, by measuring P0 and PCool, as a function of three parameters: coolant temperature T0; weather-related temperature T3 that affects the performance of free-cooling equipment; and computational state C of the electronic equipment, which affects the temperature dependence of its power consumption. This experiment provides, for each possible combination of T3 and C, the value T0* of T0 that minimizes PTotal. During operation, for any combination of T3 and C that occurs, the corresponding optimal coolant temperature T0* is selected, and the cooling equipment is commanded to produce it.
    • 提供了通过考虑电子设备功耗的温度依赖性来选择用于电子设备的节能冷却剂温度的方法和装置。 在选择发送到设备的冷却剂温度T0时,明确考虑到这种依赖性。 为了最大限度地降低功耗PT total为整个系统,其中PTotal = P0 + PCool是电子设备功耗P0加冷却设备功耗PCool的总和,PTotal通过实验得到,通过测量P0和PCool作为三个函数 参数:冷却液温度T0; 影响自由冷却设备性能的天气相关温度T3; 和电子设备的计算状态C,影响其功耗的温度依赖性。 该实验为T3和C的每个可能的组合提供使PTotal最小化的T0的值T0 *。 在运行期间,对于发生的T3和C的任何组合,选择相应的最佳冷却剂温度T0 *,并命令冷却设备进行生产。
    • 7. 发明申请
    • METHODS AND APPARATUS FOR COOLING ELECTRONICS
    • 冷却电子的方法和装置
    • US20130006427A1
    • 2013-01-03
    • US13173082
    • 2011-06-30
    • Shawn Anthony HallGerard Vincent Kopcsay
    • Shawn Anthony HallGerard Vincent Kopcsay
    • G05D23/19G05D7/06
    • G05D23/1919F25B49/02F25D17/02G06F1/206Y02D10/16
    • Methods and apparatus are provided for choosing an energy-efficient coolant temperature for electronics by considering the temperature dependence of the electronics' power dissipation. This dependence is explicitly considered in selecting the coolant temperature T0 that is sent to the equipment. To minimize power consumption PTotal for the entire system, where PTotal=P0+PCool is the sum of the electronic equipment's power consumption P0 plus the cooling equipment's power consumption PCool, PTotal is obtained experimentally, by measuring P0 and PCool, as a function of three parameters: coolant temperature T0; weather-related temperature T3 that affects the performance of free-cooling equipment; and computational state C of the electronic equipment, which affects the temperature dependence of its power consumption. This experiment provides, for each possible combination of T3 and C, the value T*0 of T0 that minimizes PTotal. During operation, for any combination of T3 and C that occurs, the corresponding optimal coolant temperature T*0 is selected, and the cooling equipment is commanded to produce it.
    • 提供了通过考虑电子设备功耗的温度依赖性来选择用于电子设备的节能冷却剂温度的方法和装置。 在选择发送到设备的冷却剂温度T0时,明确考虑到这种依赖性。 为了最大限度地降低功耗PT total为整个系统,其中PTotal = P0 + PCool是电子设备功耗P0加冷却设备功耗PCool的总和,PTotal通过实验得到,通过测量P0和PCool作为三个函数 参数:冷却液温度T0; 影响自由冷却设备性能的天气相关温度T3; 和电子设备的计算状态C,影响其功耗的温度依赖性。 该实验为T3和C的每个可能的组合提供了将PTotal最小化的T0的值T * 0。 在运行期间,对于发生的T3和C的任何组合,选择相应的最佳冷却剂温度T * 0,并且命令冷却设备进行生产。