公开(公告)号：US20090079520A1

公开(公告)日：2009-03-26

申请号：US11858237

申请日：2007-09-20

Applicant: Tiberiu Jamneala ,  Martha Small ,  Richard Ruby

Inventor： Tiberiu Jamneala ,  Martha Small ,  Richard Ruby

IPC: H03H9/58

CPC classification number: H03H9/60 ,  H03H9/584

Abstract: A bandpass filter includes input and output terminals, first and second acoustic resonators, and an acoustic coupling layer. The first acoustic resonator includes first and second electrodes, and a piezoelectric layer between the first and second electrodes. The first electrode of the first acoustic resonator is connected to the input terminal. The second acoustic resonator includes first and second electrodes, and a piezoelectric layer between the first and second electrodes. The acoustic coupling is provided between the second electrode of the first acoustic resonator and the first electrode of the second acoustic resonator. The output terminal is connected to the second electrode of the second acoustic resonator. A capacitor extends between the input terminal and the output terminal. The filter's frequency response includes at least two transmission zeros.

Abstract translation: 带通滤波器包括输入和输出端子，第一和第二声谐振器以及声耦合层。 第一声​​谐振器包括第一和第二电极，以及在第一和第二电极之间的压电层。 第一声​​谐振器的第一电极连接到输入端。 第二声谐振器包括第一和第二电极，以及在第一和第二电极之间的压电层。 声耦合设置在第一声谐振器的第二电极和第二声谐振器的第一电极之间。 输出端子连接到第二声谐振器的第二电极。 电容器在输入端子和输出端子之间延伸。 滤波器的频率响应包括至少两个传输零点。

公开(公告)号：US07612636B2

公开(公告)日：2009-11-03

申请号：US11343117

申请日：2006-01-30

Applicant: Tiberiu Jamneala ,  John D. Larson, III ,  Richard Ruby

Inventor： Tiberiu Jamneala ,  John D. Larson, III ,  Richard Ruby

IPC: H03H9/54 ,  H03H9/60

CPC classification number: H03H9/584 ,  H03H9/0095 ,  H03H9/587 ,  H03H9/589

Abstract: A bulk acoustic wave device includes an acoustic decoupler between first and second film bulk acoustic resonators (FBARs). The first FBAR is resonant at a resonant frequency of the device and includes first and second planar electrodes abutting opposite sides of a first resonator volume free of any intervening electrodes and containing piezoelectric material disposed for acoustic vibrations parallel to a propagation axis normal to the first and second electrodes. The first FBAR has a first electrical impedance parallel to the propagation axis. The second FBAR is resonant at the resonant frequency and includes third and fourth planar electrodes abutting opposite sides of a second resonator volume free of any intervening electrodes and containing piezoelectric material disposed for acoustic vibrations parallel to the propagation axis. The second FBAR has a second electrical impedance parallel to the propagation axis and different from the first electrical impedance.

Abstract translation: 体声波器件包括第一和第二膜体声波谐振器（FBAR）之间的声耦合器。 第一FBAR以该器件的谐振频率谐振，并且包括第一和第二平面电极，该第一和第二平面电极邻接第一谐振器体的相对侧，第一谐振器体积不含任何中间电极，并且包含压电材料，该压电材料设置为平行于垂直于第一谐振器的传播轴的声振动， 第二电极。 第一个FBAR具有平行于传播轴的第一个电阻抗。 第二FBAR在谐振频率下谐振，并且包括第三和第四平面电极，其邻接没有任何中间电极的第二谐振器体的相对侧，并且包含被设置用于平行于传播轴的声学振动的压电材料。 第二FBAR具有平行于传播轴线并且不同于第一电阻抗的第二电阻抗。

公开(公告)号：US20070205850A1

公开(公告)日：2007-09-06

申请号：US11713726

申请日：2007-03-05

Applicant: Tiberiu Jamneala ,  Richard Ruby

Inventor： Tiberiu Jamneala ,  Richard Ruby

IPC: H03H9/54

CPC classification number: H03H9/173 ,  H03H9/02118 ,  H03H9/13 ,  H03H9/177

Abstract: Film bulk acoustic resonators (FBARs) having frame elements and filters including the resonators are described.

Abstract translation: 描述具有框架元件的膜体声波谐振器（FBAR）和包括谐振器的滤波器。

公开(公告)号：US20070176710A1

公开(公告)日：2007-08-02

申请号：US11343117

申请日：2006-01-30

Applicant: Tiberiu Jamneala ,  John Larson ,  Richard Ruby

Inventor： Tiberiu Jamneala ,  John Larson ,  Richard Ruby

IPC: H03H9/56

CPC classification number: H03H9/584 ,  H03H9/0095 ,  H03H9/587 ,  H03H9/589

Abstract: A bulk acoustic wave device includes an acoustic decoupler between first and second film bulk acoustic resonators (FBARs). The first FBAR is resonant at a resonant frequency of the device and includes first and second planar electrodes abutting opposite sides of a first resonator volume free of any intervening electrodes and containing piezoelectric material disposed for acoustic vibrations parallel to a propagation axis normal to the first and second electrodes. The first FBAR has a first electrical impedance parallel to the propagation axis. The second FBAR is resonant at the resonant frequency and includes third and fourth planar electrodes abutting opposite sides of a second resonator volume free of any intervening electrodes and containing piezoelectric material disposed for acoustic vibrations parallel to the propagation axis. The second FBAR has a second electrical impedance parallel to the propagation axis and different from the first electrical impedance.

Abstract translation: 体声波器件包括第一和第二膜体声波谐振器（FBAR）之间的声耦合器。 第一FBAR以该器件的谐振频率谐振，并且包括第一和第二平面电极，该第一和第二平面电极邻接第一谐振器体的相对侧，第一谐振器体积不含任何中间电极，并且包含压电材料，该压电材料设置为平行于垂直于第一谐振器的传播轴的声振动， 第二电极。 第一个FBAR具有平行于传播轴的第一个电阻抗。 第二FBAR在谐振频率下谐振，并且包括第三和第四平面电极，其邻接没有任何中间电极的第二谐振器体的相对侧，并且包含被设置用于平行于传播轴的声学振动的压电材料。 第二FBAR具有平行于传播轴线并且不同于第一电阻抗的第二电阻抗。

公开(公告)号：US20070058707A1

公开(公告)日：2007-03-15

申请号：US11226974

申请日：2005-09-15

Applicant: William Trutna ,  Steven Rosenau ,  Ken Nishimura ,  Graham Flower ,  Richard Ruby ,  Michael Frank ,  Mark Unkrich

Inventor： William Trutna ,  Steven Rosenau ,  Ken Nishimura ,  Graham Flower ,  Richard Ruby ,  Michael Frank ,  Mark Unkrich

IPC: H04B17/00

CPC classification number: H04W72/02 ,  H04W72/085

Abstract: Systems and methods of detecting wireless channel status from acoustic discrimination of spectral content are described. In one aspect, a wireless system includes a spectrum analyzer, a detector, and a controller. The spectrum analyzer is operable to acoustically discriminate spectral content of an input electrical signal in multiple discrete frequency channels. The detector is operable to determine respective statuses of the frequency channels from the acoustically discriminated spectral content. The controller is operable to select one of the frequency channels based on the determined statuses of the frequency channels.

Abstract translation: 描述了从频谱内容的声学鉴别中检测无线信道状态的系统和方法。 一方面，无线系统包括频谱分析仪，检测器和控制器。 频谱分析仪可用于在多个离散频道中声学地区分输入电信号的频谱含量。 检测器可操作以从声学鉴别的频谱内容确定频道的各自状态。 控制器可操作以基于所确定的频率信道的状态来选择一个频率信道。

公开(公告)号：US20070057734A1

公开(公告)日：2007-03-15

申请号：US11223425

申请日：2005-09-09

Applicant: Richard Ruby

Inventor： Richard Ruby

IPC: H03L7/00

CPC classification number: H03L1/027 ,  H03L1/028

Abstract: An oscillatory circuit. The oscillatory circuit includes a first oscillator, a second oscillator, and a mixer circuit. The first oscillator is configured to generate a first oscillating signal at a first frequency and has a first frequency temperature coefficient. The second oscillator is configured to generate a second oscillating signal at a second frequency and has a second frequency temperature coefficient. The second frequency is greater than the first frequency, and the second frequency temperature coefficient is less than the first frequency temperature coefficient. The mixer circuit is configured to receive the first oscillating signal from the first oscillator, to receive the second oscillating signal from the second oscillator, and to generate a mixer signal from the first and the second oscillating signals. The mixer signal comprises a signal component at a beat frequency. The beat frequency is equal to the difference between the second frequency and the first frequency.

Abstract translation: 振荡电路。 振荡电路包括第一振荡器，第二振荡器和混频器电路。 第一振荡器被配置为以第一频率产生第一振荡信号并且具有第一频率温度系数。 第二振荡器被配置为以第二频率产生第二振荡信号并且具有第二频率温度系数。 第二频率大于第一频率，第二频率温度系数小于第一频率温度系数。 混频器电路被配置为从第一振荡器接收第一振荡信号，以从第二振荡器接收第二振荡信号，并从第一和第二振荡信号产生混频器信号。 混频器信号包括拍频的信号分量。 节拍频率等于第二频率与第一频率之间的差。

公开(公告)号：US20070017276A1

公开(公告)日：2007-01-25

申请号：US11185406

申请日：2005-07-20

Applicant: William Trutna ,  Richard Ruby ,  Storrs Hoen ,  Annette Grot ,  Mark Unkrich ,  Graham Flower ,  John Kofol

Inventor： William Trutna ,  Richard Ruby ,  Storrs Hoen ,  Annette Grot ,  Mark Unkrich ,  Graham Flower ,  John Kofol

IPC: G01N7/00

CPC classification number: G01N5/025 ,  G01N27/223

Abstract: A humidity sensor that includes a resonant structure and a structure for altering a resonant frequency of the resonant structure in response to a change in humidity. The structures of a humidity sensor according to the present teachings may be formed in relatively small form factors and are well suited to remote applications and providing mechanisms for compensating for temperature drift.

Abstract translation: 一种湿度传感器，包括谐振结构和用于响应于湿度变化而改变谐振结构的谐振频率的结构。 根据本教导的湿度传感器的结构可以以相对小的形状因子形成，并且非常适合于远程应用并提供用于补偿温度漂移的机构。

公开(公告)号：US20060205361A1

公开(公告)日：2006-09-14

申请号：US11076615

申请日：2005-03-10

Applicant: Richard Ruby ,  Paul Bradley ,  Michael Frank

Inventor： Richard Ruby ,  Paul Bradley ,  Michael Frank

IPC: H04B1/44

CPC classification number: H04B1/52

Abstract: A duplexer having a filter and a transmission line that transforms an impedance of the filter to an impedance of an antenna.

Abstract translation: 具有滤波器和将滤波器的阻抗变换为天线的阻抗的传输线的双工器。

公开(公告)号：US20060099733A1

公开(公告)日：2006-05-11

申请号：US10985312

申请日：2004-11-09

Applicant: Frank Geefay ,  Richard Ruby

Inventor： Frank Geefay ,  Richard Ruby

IPC: H01L21/44

CPC classification number: H01L21/50 ,  B81C1/00269 ,  B81C2203/0118 ,  H01L21/6835

Abstract: The present invention provides a first wafer and a second wafer having a device. A separation layer is formed on the first wafer. A cap is formed on the separation layer. The cap and the second wafer are bonded using a gasket. The first wafer is separated from the cap to form the semiconductor package comprised of the cap, the gasket, and the second wafer.

Abstract translation: 本发明提供了具有装置的第一晶片和第二晶片。 在第一晶片上形成分离层。 在分离层上形成盖。 盖和第二晶片使用垫圈结合。 第一晶片与盖分离以形成由盖，垫圈和第二晶片组成的半导体封装。

公开(公告)号：US08094704B2

公开(公告)日：2012-01-10

申请号：US11226974

申请日：2005-09-15

Applicant: William R. Trutna, Jr. ,  Steven Rosenau ,  Ken Nishimura ,  Graham Flower ,  Richard Ruby ,  Michael Louis Frank ,  Mark Unkrich

Inventor： William R. Trutna, Jr. ,  Steven Rosenau ,  Ken Nishimura ,  Graham Flower ,  Richard Ruby ,  Michael Louis Frank ,  Mark Unkrich

IPC: H04B3/46

CPC classification number: H04W72/02 ,  H04W72/085

Abstract: Systems and methods of detecting wireless channel status from acoustic discrimination of spectral content are described. In one aspect, a wireless system includes a spectrum analyzer, a detector, and a controller. The spectrum analyzer is operable to acoustically discriminate spectral content of an input electrical signal in multiple discrete frequency channels. The detector is operable to determine respective statuses of the frequency channels from the acoustically discriminated spectral content. The controller is operable to select one of the frequency channels based on the determined statuses of the frequency channels.

Abstract translation: 描述了从频谱内容的声学鉴别中检测无线信道状态的系统和方法。 一方面，无线系统包括频谱分析仪，检测器和控制器。 频谱分析仪可用于在多个离散频道中声学地区分输入电信号的频谱含量。 检测器可操作以从声学鉴别的频谱内容确定频道的各自状态。 控制器可操作以基于所确定的频率信道的状态来选择一个频率信道。