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1. 发明授权

US6091371A Electronic scanning reflector antenna and method for using same 失效
标题翻译：电子扫描反射天线及其使用方法
公开(公告)号：US6091371A
公开(公告)日：2000-07-18
申请号：US943810
申请日：1997-10-03
申请人： Kenneth Vern Buer , David Warren Corman , Dean L. Cook , Deborah Sue Dendy
发明人： Kenneth Vern Buer , David Warren Corman , Dean L. Cook , Deborah Sue Dendy
IPC分类号： H01Q3/44 , H01Q15/14 , H01Q25/00 , H01Q19/06
CPC分类号： H01Q25/00 , H01Q15/148 , H01Q3/44
摘要： An antenna subsystem (120) which comprises an electronic scanning reflector antenna (400) is used for the formation of single and multiple beams. Reflecting surface (420) is covered with at least one dielectric layer (430) which is used to simultaneously and independently steer multiple beams. Electronic scanning reflector antenna (400) operates similar to a phased array antenna. ESRA (400) comprises a number of independent controllable reflecting surfaces (450) which are combined together in close proximity. Each one of the individual regions is covered by a dielectric layer, and the dielectric constant for each can be independently controlled. Electronic scanning reflector antennas (400, 600) are used in both space-based and terrestrial-based applications. Electronic scanning reflector antennas (400, 600) are used for both transmission and reception of electromagnetic signals.
摘要翻译：包括电子扫描反射器天线（400）的天线子系统（120）用于形成单个和多个光束。反射表面（420）被至少一个介电层（430）覆盖，该电介质层用于同时且独立地引导多个光束。电子扫描反射器天线（400）类似于相控阵天线。 ESRA（400）包括多个独立的可控反射表面（450），它们紧密组合在一起。各个区域中的每一个被介电层覆盖，并且可以独立地控制每个区域的介电常数。电子扫描反射天线（400,600）用于基于空间和地面的应用。电子扫描反射天线（400,600）用于电磁信号的发射和接收。

2. 发明授权

US5949312A Suspended monolithic microwave integrated circuit and method of manufacture 失效
标题翻译：悬挂式单片微波集成电路及制造方法
公开(公告)号：US5949312A
公开(公告)日：1999-09-07
申请号：US961234
申请日：1997-10-30
申请人： Kenneth Vern Buer , David Warren Corman , Deborah Sue Dendy , James Roger Clark, II
发明人： Kenneth Vern Buer , David Warren Corman , Deborah Sue Dendy , James Roger Clark, II
IPC分类号： H01L23/66 , H01P3/08
CPC分类号： H01L23/66 , H01L2924/0002 , H01L2924/3011
摘要： A MMIC for providing a suspended transmission medium, comprising a MMIC chip, an upper ground plane overlying and spaced from critical circuitry and a lower ground plane underlying and spaced from the critical circuitry. The upper and lower ground planes are spaced from the critical circuitry at electrically similar distances. The portion of the MMIC chip that has the critical circuitry is suspended over a recess in the housing floor.
摘要翻译：用于提供悬挂的传输介质的MMIC，包括MMIC芯片，覆盖并与关键电路相隔并且与关键电路隔开的下接地平面的上接地平面以及与关键电路相隔并间隔开的下接地平面。上下接地平面与电气相似的距离与关键电路隔开。具有关键电路的MMIC芯片的部分悬挂在壳体地板的凹部上。

3. 发明授权

US6067047A Electrically-controllable back-fed antenna and method for using same 失效
标题翻译：电子可控反馈天线及其使用方法
公开(公告)号：US6067047A
公开(公告)日：2000-05-23
申请号：US980251
申请日：1997-11-28
申请人： Dean Lawrence Cook , Kenneth Vern Buer , Deborah Sue Dendy , David Warren Corman
发明人： Dean Lawrence Cook , Kenneth Vern Buer , Deborah Sue Dendy , David Warren Corman
IPC分类号： H01Q3/26 , H01Q3/36 , H01Q3/44 , H01Q21/06 , H01Q3/22 , H01Q3/24
CPC分类号： H01Q3/44 , H01Q21/065 , H01Q3/2605 , H01Q3/36
摘要： A user terminal (110) which comprises an electrically-controllable back-fed antenna (300, FIG. 3) is used for the formation of single and multiple beams. The electrically-controllable back-fed antenna comprises an RF power distribution/combination network (310), electrically-controllable phase-shifting elements (320), a control network (440, FIG. 4) and radiating/receiving elements (360). The control network is coupled to the electrically-controllable phase-shifting elements and is used for controlling the dielectric constant of dielectric material contained within the electrically-controllable phase-shifting elements. In a preferred embodiment, phase-shifting elements comprise waveguide sections containing at least one dielectric material, and the dielectric material includes a ferroelectric material, preferably comprising Barium Strontium Titanate (BST).
摘要翻译：包括电控制的反馈天线（图3中的300）的用户终端（110）用于形成单个和多个波束。电可控逆馈天线包括RF功率分配/组合网络（310），电可控相移元件（320），控制网络（440，图4）和辐射/接收元件（360）。控制网络耦合到电可控相移元件，并用于控制电可控相移元件中包含的电介质材料的介电常数。在优选实施例中，相移元件包括包含至少一种电介质材料的波导部分，并且电介质材料包括优选包含钛酸钡锶（BST）的铁电材料。

4. 发明授权

US5831476A Voltage-tuned millimeter-wave amplifier and method for tuning 失效
标题翻译：电压调谐毫米波放大器和调谐方法
公开(公告)号：US5831476A
公开(公告)日：1998-11-03
申请号：US753817
申请日：1996-12-02
申请人： Kenneth Vern Buer , John Holmes , David Warren Corman
发明人： Kenneth Vern Buer , John Holmes , David Warren Corman
IPC分类号： H03F3/193
CPC分类号： H03F3/193
摘要： A method (140) for tuning millimeter-wave FET amplifiers (20) during manufacture, through the application (144) of a gate bias voltage (52) so as to tune the FET (22) of the amplifier (20) to match an input circuit (24), and through the application (146) of a drain bias voltage (74) so as to tune the FET (22) of the amplifier (20) to match an output circuit (26), then measuring (150) the frequency response of the amplifier (20). This tuning method (140) is repeated (152) until a predetermined frequency response has been achieved. Once achieved, the predetermined frequency response is realized (154) by permanently fixing the gate bias voltage (52) and the drain bias voltage (74) at the determined values. This iterative method (140) of tuning amplifiers (20) is then repeated for all amplifiers (20) to be tuned.
摘要翻译：一种用于在制造期间通过栅极偏置电压（52）的应用（144）来调谐毫米波FET放大器（20）的方法（140），以便调谐放大器（20）的FET（22）以匹配输入电路（24），并通过漏极偏置电压（74）的应用（146），以调谐放大器（20）的FET（22）以匹配输出电路（26），然后测量（150）放大器（20）的频率响应。重复该调谐方法（140）（152），直到达到预定的频率响应。一旦实现，通过将栅极偏置电压（52）和漏极偏置电压（74）永久固定在所确定的值来实现预定的频率响应（154）。然后对所有放大器（20）进行调谐的这种迭代方法（140）的调谐放大器（20）被重复。

5. 发明授权

US5712593A Linear power amplifier with distortion detection 失效
标题翻译：线性功率放大器，具有失真检测
公开(公告)号：US5712593A
公开(公告)日：1998-01-27
申请号：US596533
申请日：1996-02-05
申请人： Kenneth Vern Buer , David Warren Corman , Bill Tabano Agar, Jr.
发明人： Kenneth Vern Buer , David Warren Corman , Bill Tabano Agar, Jr.
IPC分类号： H03G3/30 , H03G3/20
CPC分类号： H03G3/3042
摘要： A power amplifier (10) suitable for satellite cellular communication systems provides highly efficient linear amplification of noise-like RF signals that have multiple carriers spread over a large instantaneous bandwidth. The amount of distortion present in the output is detected (14, 16, 18) and a feedback signal is provided to control the bias point of the active devices. As drive levels increase, the increased harmonic distortion power detected causes the power amplifier bias to increase thus reducing distortion. The control circuit (20) continually re-biases the power amplifier (12) for maximum efficiency for a predetermined level of distortion. The control circuit (20) may be adjusted to maximize efficiency while maintaining an allowable distortion level over the entire dynamic range of the devices.
摘要翻译：适用于卫星蜂窝通信系统的功率放大器（10）提供了具有多个载波在大的瞬时带宽上扩展的类噪声RF信号的高效线性放大。检测输出中出现的失真量（14,16,18），并提供反馈信号来控制有源器件的偏置点。当驱动电平增加时，检测到的增加的谐波失真功率导致功率放大器偏置增加，从而减少失真。控制电路（20）为了达到预定的失真水平而最大限度地重新偏置功率放大器（12）。可以调整控制电路（20）以最大化效率，同时在整个设备的整个动态范围内保持允许的失真水平。

6. 发明授权

US06295282B1 Calibrated low loss radio frequency switch matrix 有权
标题翻译：校准低损耗射频开关矩阵
公开(公告)号：US06295282B1
公开(公告)日：2001-09-25
申请号：US09127935
申请日：1998-08-03
申请人： Kenneth Vern Buer , David Warren Corman , Joel Lloyd Gross
发明人： Kenneth Vern Buer , David Warren Corman , Joel Lloyd Gross
IPC分类号： H04G7212
CPC分类号： H04Q3/521 , H04B7/2041 , H04Q2213/1302 , H04Q2213/13034 , H04Q2213/1304 , H04Q2213/13106 , H04Q2213/13291 , H04Q2213/13305 , H04Q2213/1334 , H04Q2213/13362
摘要： A system for switching radio frequency signals from an input side (5, FIG. 1 ) to an output side (6) can be used to combine multiple input signals to form a single output and to distribute a single input signal to form multiple outputs. Gain correction amplifiers (20, 25) are employed to adjust the overall gain of a particular column and row of the switch matrix which minimizes the effect of variations in the gain of the amplified switching elements (30) which perform the switching function. Resistive matching units (70, FIG. 2) provide coupling to and from the amplified switching elements (30) without substantially changing the characteristic impedance of the input and output paths.
摘要翻译：用于将射频信号从输入侧（5，图1）切换到输出侧（6）的系统可用于组合多个输入信号以形成单个输出并且分配单个输入信号以形成多个输出。增益校正放大器（20,25）用于调整开关矩阵的特定列和行的总体增益，其使执行开关功能的放大的开关元件（30）的增益变化的影响最小化。电阻匹配单元（图2中的70）提供耦合到放大的开关元件（30），而不会基本上改变输入和输出路径的特性阻抗。

7. 发明授权

US6091942A Self gain aligning circuit and method 失效
标题翻译：自增益对位电路及方法
公开(公告)号：US6091942A
公开(公告)日：2000-07-18
申请号：US755861
申请日：1996-12-02
申请人： Kenneth Vern Buer , David Warren Corman , Bill Tabano Agar, Jr.
发明人： Kenneth Vern Buer , David Warren Corman , Bill Tabano Agar, Jr.
IPC分类号： H03G3/30 , H01Q11/12 , H04B1/06
CPC分类号： H03G3/3036
摘要： An K-band amplifier circuit (10) with two samplers (12, 18) coupled to detectors (22, 26) that detect an input and an output RF signal level. These two reference signals are provided to a differential gain control circuit (24) which is coupled to one or more variable gain amplifier (VGA) (14) stages. The VGAs compensate for the gain of an entire chain of amplifiers (16). When the individual amplifier gains vary for any reason, (i.e., process, temperature effects or end of life degradation) the variation in gain causes higher or lower levels of detected output reference signals for a given RF input signal. The gain control circuit (24) drives the VGA (14) up or down as appropriate. By maintaining a constant offset in input and output reference control signals, the gain control circuit (24) drives the amplifier chain (16) to a constant gain.
摘要翻译：具有耦合到检测器（22,26）的两个采样器（12,18）的K波段放大器电路（10），其检测输入和输出RF信号电平。这两个参考信号被提供给耦合到一个或多个可变增益放大器（VGA）（14）级的差分增益控制电路（24）。 VGA补偿整个放大器链（16）的增益。当单个放大器增益由于任何原因（即，处理，温度效应或寿命终止退化）而变化时，增益的变化导致给定RF输入信号的检测到的输出参考信号的较高或较低水平。增益控制电路（24）适当地驱动VGA（14）上或下。通过保持输入和输出参考控制信号中的恒定偏移，增益控制电路（24）将放大器链（16）驱动到恒定增益。

8. 发明授权

US5844450A Integrated microstrip to suspend stripline transition structure and method of fabrication 失效
标题翻译：集成微带线悬挂带状线过渡结构和制造方法
公开(公告)号：US5844450A
公开(公告)日：1998-12-01
申请号：US611233
申请日：1996-03-05
申请人： Kenneth Vern Buer , David Warren Corman
发明人： Kenneth Vern Buer , David Warren Corman
IPC分类号： H01P3/08 , H01P5/02 , H01P5/08 , H01P11/00
CPC分类号： H01P11/00 , H01P5/08
摘要： An integrated microstrip (14) to suspended stripline (24) transition structure and method for fabricating the same provide a transition from microstrip (14) to suspended stripline (24) transmission line with minimal electrical discontinuity and insensitivity due to misalignment. A conductor (10) has a constant width, while gradually tapering voids (44,42) in ground planes (36, 38) provide a suspended stripline (24) transmission medium. The gradually tapering voids (44, 42) provide impedance transformation and minimize discontinuities during transition due to fabrication tolerances.
摘要翻译：悬挂带状线（24）过渡结构的集成微带线（14）及其制造方法提供从微带（14）到悬挂带状线（24）传输线的转变，由于不对准而具有最小的电不连续性和不敏感性。导体（10）具有恒定的宽度，而接地平面（36,38）中的逐渐变细的空隙（44,42）提供悬挂的带状线（24）传输介质。逐渐变细的空隙（44,42）提供了阻抗变换，并且由于制造公差而使过渡期间的不连续性最小化。

9. 发明授权

US6052559A Thermoelectrically cooled low noise amplifier and method 失效
标题翻译：热电冷却低噪声放大器及方法
公开(公告)号：US6052559A
公开(公告)日：2000-04-18
申请号：US850540
申请日：1997-05-02
申请人： Kenneth Vern Buer , David Warren Corman , Richard Scott Torkington
发明人： Kenneth Vern Buer , David Warren Corman , Richard Scott Torkington
IPC分类号： H03F1/02 , H03F1/26 , H04B1/036 , H04Q7/20
CPC分类号： H03F1/26 , H03F1/02 , H03F2200/294 , H03F2200/372 , H04B1/036
摘要： A space-based communication system (30), includes a transmission terminal having a transmission antenna (42) and a power amplifier (40) to power the transmission antenna, the power amplifier to generate a power output sufficient to generate an RF signal through the transmission antenna (42), a receive terminal including a receive antenna (45) to receive the RF signal from the transmission terminal and a low noise amplifier (43) to amplify the RF signal channeled through the receive antenna, and a thermoelectric cooler (62) for cooling the low noise amplifier (43) to a predetermined temperature for increasing the sensitivity of the low noise amplifier to minimize the power output generated by the power amplifier required to generate the RF signal thereby minimizing the overall power requirements of the spaced-based communication system (30).
摘要翻译：一种基于空间的通信系统（30），包括具有发射天线（42）和功率放大器（40）的发射终端，用于为发射天线供电，功率放大器产生足以产生RF信号的功率输出发射天线（42），包括接收来自发射终端的RF信号的接收天线（45）的接收终端和放大通过接收天线引导的RF信号的低噪声放大器（43）和热电冷却器（62 ），用于将低噪声放大器（43）冷却到预定温度，以增加低噪声放大器的灵敏度，以使由生成RF信号所需的功率放大器产生的功率输出最小化，从而使基于间隔的通信系统（30）。

10. 发明授权

US5966520A Method of designing unit FET cells with unconditional stability 失效
标题翻译：设计具有无条件稳定性的单元FET单元的方法
公开(公告)号：US5966520A
公开(公告)日：1999-10-12
申请号：US810204
申请日：1997-03-03
申请人： Kenneth Vern Buer , David Warren Corman
发明人： Kenneth Vern Buer , David Warren Corman
IPC分类号： H03F3/21 , H03F3/60
CPC分类号： H03F3/604 , H03F3/211
摘要： A MMIC power amplifier (100) uses MMIC FET cells (104, 112) and provides high gain at microwave and millimeter-wave frequencies. The power amplifier includes an input matching network (102), a first plurality of unit FET cells (104) for amplifying in-phase signals provided by the input matching network, a second plurality of unit FET cells (112), an interstage matching network (106) for combining output signals provided by the first plurality of unit FET cells, and providing in-phase signals to the second plurality of unit FET cells; and a combiner (113) for combining output signals of the second plurality of unit FET cells to provide an output signal. The FET cells are designed to be unconditionally stable without the use of an external series gate resistance. The FET cells are combined to provide total device periphery suitable for output power levels exceeding 0.8 watt at frequencies ranging from 19 to 23.5 GHz. The FET cells are designed using device scaling and device modeling techniques. The power amplifier is suitable for applications where high efficiency and high gain are important, such as satellite communication systems.
摘要翻译： MMIC功率放大器（100）使用MMIC FET单元（104,112），并在微波和毫米波频率下提供高增益。功率放大器包括输入匹配网络（102），用于放大由输入匹配网络提供的同相信号的第一多个单元FET单元（104），第二多个单元FET单元（112），级间匹配网络（106），用于组合由第一多个单元FET单元提供的输出信号，并向第二多个单元FET单元提供同相信号; 以及用于组合第二多个单元FET单元的输出信号以提供输出信号的组合器（113）。 FET单元被设计成无条件稳定，而不需要使用外部串联栅极电阻。 FET单元被组合以提供适合于在19至23.5GHz频率范围内超过0.8瓦特的输出功率电平的总器件外围。 FET单元使用器件缩放和器件建模技术进行设计。功率放大器适用于高效率和高增益重要的应用，如卫星通信系统。

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