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    • 1. 发明申请
    • Selective layer millimeter-wave surface-heating system and method
    • 选择层毫米波表面加热系统及方法
    • US20050087529A1
    • 2005-04-28
    • US10693125
    • 2003-10-24
    • James GallivanKenneth Brown
    • James GallivanKenneth Brown
    • H01L21/00H05B6/00H05B6/10H05B6/72
    • H01L21/67115H05B6/686H05B6/705H05B6/72H05B2203/032Y02B40/143
    • A surface-heating system heats a surface with a high-power wavefront at a millimeter-wave frequency. The high-power wavefront may be a collimated wavefront or a converging or diverging wavefront. In some embodiments, the system includes a frequency generator to generate a lower-power millimeter-wave frequency signal, and an active-array antenna system to amplify the millimeter-wave frequency and generate the high-power wavefront in a direction of a surface for heating the surface. In other embodiments, a frequency generator and power amplifier may generate a high-power power millimeter-wave frequency signal, and a passive-array antenna system may provide the high-power wavefront in a direction of the surface. In some embodiments, a thermal-sensing subsystem may measure the surface temperature and generate a control signal to maintain the surface temperature within a predetermined temperature range.
    • 表面加热系统以毫米波频率的高功率波阵面加热表面。 高功率波阵面可以是准直波前或者会聚或发散的波阵面。 在一些实施例中,该系统包括用于产生低功率毫米波频率信号的频率发生器和用于放大毫米波频率并且在表面方向上产生高功率波阵面的有源阵列天线系统, 加热表面。 在其他实施例中,频率发生器和功率放大器可以产生大功率功率毫米波频率信号,并且无源阵列天线系统可以在表面的方向上提供高功率波前。 在一些实施例中,热感测子系统可以测量表面温度并产生控制信号以将表面温度保持在预定温度范围内。
    • 2. 发明申请
    • Solid-state high-power oscillators
    • 固态大功率振荡器
    • US20070176700A1
    • 2007-08-02
    • US11343632
    • 2006-01-31
    • James GallivanKenneth Brown
    • James GallivanKenneth Brown
    • H03B5/32
    • H03B9/12H03B9/14
    • Embodiments of High-Power Millimeter-Wave Oscillators are generally described herein. Other embodiments may be described and claimed. In some embodiments, the oscillator includes a polarized partial reflector to at least partially reflect back signals to a reflection array amplifier to help induce oscillation by individual sub-array amplifier elements of the reflection array amplifier. In some other embodiments, the oscillator includes a phase-graded polarization-sensitive reflection plate to at least partially reflect back signals to the reflection array amplifier to help induce an oscillation by the sub-array amplifier elements. In some embodiments, the oscillator includes a reflector and a phase-graded polarized reflection-transmission plate to at least partially pass through signals to the reflector for reflection back to the reflection array amplifier to help induce an oscillation by the sub-array amplifier elements.
    • 本文一般地描述大功率毫米波振荡器的实施例。 可以描述和要求保护其他实施例。 在一些实施例中,振荡器包括偏振部分反射器,以至少部分地将信号反射回反射阵列放大器,以帮助通过反射阵列放大器的各个子阵列放大器元件引起振荡。 在一些其他实施例中,振荡器包括相位梯度偏振敏感反射板,以至少部分地将反射信号反射回反射阵列放大器,以帮助引起子阵列放大器元件的振荡。 在一些实施例中,振荡器包括反射器和相位梯度偏振反射透射板,以至少部分地将信号传递到反射器以反射回反射阵列放大器,以帮助感应由子阵列放大器元件的振荡。
    • 3. 发明申请
    • Apparatus and method using wavefront phase measurements to determine geometrical relationships
    • 使用波前相位测量来确定几何关系的装置和方法
    • US20050219138A1
    • 2005-10-06
    • US10817400
    • 2004-04-02
    • Thomas ObertKenneth BrownAlan RattrayJohn GerstenbergJames Gallivan
    • Thomas ObertKenneth BrownAlan RattrayJohn GerstenbergJames Gallivan
    • G01S3/48G01S7/40H01Q3/26H01Q3/30H01Q13/00
    • H01Q3/30H01Q3/26
    • An apparatus includes a microwave source that produces a microwave feed beam, and a first pair of microwave sensors that each intercept and receive a portion of the microwave feed beam. The two microwave sensors are spaced apart from each other along a first-pair axis. A first phase-comparison device has as it inputs the output signals of the two microwave sensors, and as an output a first phase comparison of the first-sensor output signal and the second-sensor output signal. A first geometrical calculator has as an input the first phase comparison and as an output a geometrical relationship of the first-pair axis to an other feature. This geometrical relationship output may be used to generate a control signal that is used to alter the geometrical relationship. There may be additional microwave sensors operating in a similar manner but spaced to provide information for other geometrical axes or allow improvements in geometrical measurements.
    • 一种装置包括产生微波馈入光束的微波源和分别拦截并接收微波馈入光束的一部分的第一对微波传感器。 两个微波传感器沿着第一对轴线彼此间隔开。 第一相位比较装置输入两个微波传感器的输出信号,作为第一传感器输出信号和第二传感器输出信号的第一相位比较输出。 第一几何计算器具有作为第一相位比较的输入和作为输出的第一对轴与另一特征的几何关系。 该几何关系输出可用于产生用于改变几何关系的控制信号。 可能有其他微波传感器以类似的方式运行,但间隔开以提供其他几何轴的信息或允许改进几何测量。
    • 5. 发明申请
    • Millimeter-wave area-protection system and method
    • 毫米波区域保护系统和方法
    • US20050156743A1
    • 2005-07-21
    • US10758334
    • 2004-01-15
    • James GallivanKenneth BrownPhilip StarbuckAndrew Brown
    • James GallivanKenneth BrownPhilip StarbuckAndrew Brown
    • F41H13/00G08B15/00G08B23/00
    • G08B15/00F41H13/0068
    • An area-protection system uses an active-array antenna to generate a high-power millimeter-wave wavefront to deter an intruder within a protected area. One or more reflectors may be positioned within the protected area to help retain energy of the wavefront within the area. The area-protection system may include an intrusion-detection subsystem to detect presence of the intruder within the protected area and to generate a detection signal. The active-array antenna may generate the high-power millimeter-wave wavefront in response to the detection signal. In some embodiments, the intrusion-detection subsystem may detect the presence of a tag worn by the intruder, and may instruct the array antenna to refrain from generating the wavefront when tag is authenticated. In some embodiments, an illuminator may be used detect intruder movement based on return signals. In some embodiments, the array antenna includes semiconductor wafers arranged together on a substantially flat surface.
    • 区域保护系统使用有源阵列天线来产生大功率毫米波波前,以阻止入侵者在受保护区域内。 一个或多个反射器可以被定位在保护区域内以帮助保持该区域内的波前的能量。 区域保护系统可以包括入侵检测子系统,以检测入侵者在受保护区域内的存在并产生检测信号。 有源阵列天线可以响应于检测信号而产生高功率毫米波波前。 在一些实施例中,入侵检测子系统可以检测入侵者佩戴的标签的存在,并且可以在标签被认证时指示阵列天线避免生成波阵面。 在一些实施例中,可以使用照明器基于返回信号检测入侵者移动。 在一些实施例中,阵列天线包括在基本平坦的表面上一起布置的半导体晶片。