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    • 5. 发明授权
    • Pump and fan control concepts in a cooling system
    • 冷却系统中的泵和风扇控制概念
    • US08602092B2
    • 2013-12-10
    • US11400347
    • 2006-04-06
    • Daniel J. LenehanKenneth GoodsonThomas W. KennyMark MunchSaroj Sahu
    • Daniel J. LenehanKenneth GoodsonThomas W. KennyMark MunchSaroj Sahu
    • F24F11/06
    • H01L23/473H01L23/34H01L23/467H01L2924/0002H01L2924/00
    • A closed loop cooling system and apparatus for controlling a fluid flow rate through the closed loop cooling system, the apparatus comprising a heat exchanger coupled to at least one heat generating device for removing waste heat from the heat generating device, at least one pump for circulating the fluid, a heat rejector for receiving the fluid, at least one fan for removing waste heat from the heat rejector, at least one temperature sensor coupled to the heat generating device to measure the temperature value of the at least one heat generating device, and a controller electrically coupled to the at least one pump, the at least one fan, and the at least one temperature sensor for receiving the temperature value to selectively control the fluid flow rate and the air flow rate, based on the temperature value.
    • 一种用于控制通过闭环冷却系统的流体流速的闭环冷却系统和装置,该装置包括耦合到至少一个用于从发热装置排出废热的至少一个发热装置的热交换器,至少一个用于循环的泵 所述流体,用于接收流体的热排出器,用于从所述热排出器去除废热的至少一个风扇,耦合到所述发热装置的至少一个温度传感器以测量所述至少一个发热装置的温度值;以及 电耦合到所述至少一个泵,所述至少一个风扇和所述至少一个温度传感器的控制器,用于接收所述温度值,以基于所述温度值选择性地控制所述流体流速和所述空气流速。
    • 7. 发明授权
    • Ultra-miniature pressure sensors and probes
    • 超微型压力传感器和探头
    • US06959608B2
    • 2005-11-01
    • US10445276
    • 2003-05-23
    • Mark J. BlyThomas W. KennySara A. ShaughnessyMichael S. Bartsch
    • Mark J. BlyThomas W. KennySara A. ShaughnessyMichael S. Bartsch
    • G01L9/00
    • G01L9/0042
    • A new and versatile ultra-miniature pressure sensor comprises a very thin diaphragm of approximately one micron or less, e.g., 0.2 microns. In some embodiments, the diaphragm has a radius of 20 microns and the pressure sensor can detect signals at or near 0.1 Atm with 1% accuracy. The diaphragm is formed by epitaxial growth of silicon or by bonding and etching. A plurality of high sensitivity piezoresistive strain gauges measure strain of the diaphragm. Less than 0.1 microns thick, the piezoresistive strain gauges are embedded in the diaphragm by ion implantation or formed thereon by epitaxial growth. The ability to form ultra-thin piezoresistive layers on very thin diaphragms enables the miniaturization of the pressure sensor as well as any device that employs it.
    • 一种新型和通用的超微型压力传感器包括大约一微米或更小,例如0.2微米的非常薄的隔膜。 在一些实施例中,隔膜具有20微米的半径,并且压力传感器可以以0.1atm或接近0.1%的精度检测信号。 膜通过硅的外延生长或通过结合和蚀刻形成。 多个高灵敏度压阻应变计测量隔膜的应变。 小于0.1微米厚的压电应变计通过离子注入嵌入隔膜中或通过外延生长在其上形成。 在非常薄的隔膜上形成超薄压阻层的能力使压力传感器以及采用它的任何设备都能够小型化。