公开(公告)号：US20070077007A1

公开(公告)日：2007-04-05

申请号：US11603560

申请日：2006-11-22

申请人： Mark Feuer ,  Nicholas Frigo

发明人： Mark Feuer ,  Nicholas Frigo

IPC分类号： G02B6/26

CPC分类号： G02F1/3132 ,  G02B6/12 ,  G02B6/12002 ,  G02B6/12004 ,  G02B6/1221 ,  G02B6/125 ,  G02B6/1342 ,  G02B2006/121 ,  G02B2006/12147 ,  G02B2006/1218 ,  G02F1/3523 ,  G02F2203/055 ,  H01S3/0612 ,  H01S3/063 ,  H01S3/0632 ,  H01S3/0637 ,  H01S3/2308

摘要： An optical device comprises a first substrate wafer with at least one buried optical waveguide on an approximately flat planar surface of the substrate and a second substrate wafer with at least a second buried optical waveguide. The waveguides so formed may be straight or curved along the surface of the wafer or curved by burying the waveguide at varying depth along its length. The second wafer is turned (flipped) and bonded to the first wafer in such a manner that the waveguides, for example, may form an optical coupler or may cross over one another and be in proximate relationship along a region of each. As a result, three-dimensional optical devices are formed avoiding the convention techniques of layering on a single substrate wafer.

摘要翻译： 一种光学器件包括：第一衬底晶片，其具有至少一个掩埋光波导在基板的大致平坦的平面上;以及第二衬底晶片，具有至少第二掩埋光波导。 如此形成的波导可以沿着晶片的表面是直的或弯曲的，或者通过沿其长度以不同的深度掩埋波导来弯曲。 第二晶片以这样的方式转动（翻转）并结合到第一晶片，使得波导例如可以形成光耦合器，或者可以彼此交叉并且沿着每个的区域彼此相交。 结果，形成三维光学器件，避免了在单个衬底晶片上分层的常规技术。

公开(公告)号：US20060018598A1

公开(公告)日：2006-01-26

申请号：US11215851

申请日：2005-08-31

申请人： Mark Feuer ,  Nicholas Frigo

发明人： Mark Feuer ,  Nicholas Frigo

IPC分类号： G02B6/26

CPC分类号： G02F1/3132 ,  G02B6/12 ,  G02B6/12002 ,  G02B6/12004 ,  G02B6/1221 ,  G02B6/125 ,  G02B6/1342 ,  G02B2006/121 ,  G02B2006/12147 ,  G02B2006/1218 ,  G02F1/3523 ,  G02F2203/055 ,  H01S3/0612 ,  H01S3/063 ,  H01S3/0632 ,  H01S3/0637 ,  H01S3/2308

摘要： A method for fabricating optical devices comprises the steps of preparing a first substrate wafer with at least one buried optical waveguide on an approximately flat planar surface of the substrate and a second substrate wafer with at least a second buried optical waveguide. The waveguides so formed may be straight or be curved along the surface of the wafer or curved by burying the waveguide at varying depth along its length. The second wafer is turned (flipped) and bonded to the first wafer in such a manner that the waveguides, for example, may form an optical coupler or may crossover one another and be in proximate relationship along a region of each. As a result, three dimensional optical devices are formed avoiding conventional techniques of layering on a single substrate wafer. Optical crossover angles may be reduced, for example, to thirty degrees from ninety degrees saving substrate real estate. Recessed areas may be provided in one or the other substrate surface reducing crosstalk in a completed three dimensional crossover device. Three dimensional optical couplers may comprise waveguides of identical or dissimilar characteristics. Moreover, three dimensional optical switches may be formed using the proposed flip and bond assembly process.

摘要翻译： 一种制造光学器件的方法包括以下步骤：在衬底的近似平坦的平坦表面上制备具有至少一个掩埋光波导的第一衬底晶片，以及具有至少第二掩埋光波导的第二衬底晶片。 如此形成的波导可以是直的或沿着晶片的表面弯曲，或者通过沿其长度以不同的深度掩埋波导来弯曲。 第二晶片以这样的方式转动（翻转）并结合到第一晶片，使得波导例如可以形成光耦合器，或者可以彼此交叉并且沿着每个的区域彼此相邻。 结果，形成了三维光学器件，避免了在单个衬底晶片上分层的常规技术。 光学交叉角度可以降低，例如，从九十度节省衬底空间可以降低三十度。 可以在一个或另一个衬底表面中提供嵌入区域，减少完整的三维交叉装置中的串扰。 三维光耦合器可以包括相同或不同特性的波导。 此外，可以使用所提出的翻转和键合组装过程来形成三维光学开关。

公开(公告)号：US20070147739A1

公开(公告)日：2007-06-28

申请号：US11707681

申请日：2007-02-16

申请人： Mark Feuer ,  Nicholas Frigo

发明人： Mark Feuer ,  Nicholas Frigo

IPC分类号： G02B6/26 ,  G02B6/42

CPC分类号： G02B6/12 ,  G02B6/12002 ,  G02B6/125 ,  G02B2006/121 ,  G02B2006/12119 ,  G02B2006/12147 ,  G02B2006/1218 ,  G02B2006/12188 ,  G02F1/3132 ,  G02F1/3523 ,  G02F2203/055 ,  H01S3/0612 ,  H01S3/0632 ,  H01S3/0637 ,  H01S3/2308

摘要： A method for fabricating an optical device wherein the device comprises a first substrate wafer with at least one buried optical waveguide on an approximately flat planar surface of the substrate and a second substrate wafer with at least a second buried optical waveguide. The waveguides so formed may be straight or curved along the surface of the wafer or curved by burying the waveguide at varying depth along its length. The second wafer is turned (flipped) and bonded to the first wafer in such a manner that the waveguides, for example, may form an optical coupler or may cross over one another and be in proximate relationship along a region of each. As a result, three-dimensional optical devices are formed avoiding the convention techniques of layering on a single substrate wafer.

摘要翻译： 一种用于制造光学器件的方法，其中所述器件包括具有在所述衬底的大致平坦平面上的至少一个掩埋光波导的第一衬底晶片和具有至少第二掩埋光波导的第二衬底晶片。 如此形成的波导可以沿着晶片的表面是直的或弯曲的，或者通过沿其长度以不同的深度掩埋波导来弯曲。 第二晶片以这样的方式转动（翻转）并结合到第一晶片，使得波导例如可以形成光耦合器，或者可以彼此交叉并且沿着每个的区域彼此相交。 结果，形成三维光学器件，避免了在单个衬底晶片上分层的常规技术。

公开(公告)号：US20060115216A1

公开(公告)日：2006-06-01

申请号：US11328529

申请日：2006-01-10

申请人： Mark Feuer ,  Nicholas Frigo

发明人： Mark Feuer ,  Nicholas Frigo

IPC分类号： G02B6/26

CPC分类号： G02F1/3132 ,  G02B6/12 ,  G02B6/12002 ,  G02B6/12004 ,  G02B6/1221 ,  G02B6/125 ,  G02B6/1342 ,  G02B2006/121 ,  G02B2006/12147 ,  G02B2006/1218 ,  G02F1/3523 ,  G02F2203/055 ,  H01S3/0612 ,  H01S3/063 ,  H01S3/0632 ,  H01S3/0637 ,  H01S3/2308

摘要： A method for fabricating optical devices comprises the steps of preparing a first substrate wafer with at least one buried optical waveguide on an approximately flat planar surface of the substrate and a second substrate wafer with at least a second buried optical waveguide. The waveguides so formed may be straight or be curved along the surface of the wafer or curved by burying the waveguide at varying depth along its length. The second wafer is turned (flipped) and bonded to the first wafer in such a manner that the waveguides, for example, may form an optical coupler or may crossover one another and be in proximate relationship along a region of each. As a result, three dimensional optical devices are formed avoiding conventional techniques of layering on a single substrate wafer. Optical crossover angles may be reduced, for example, to thirty degrees from ninety degrees saving substrate real estate. Recessed areas may be provided in one or the other substrate surface reducing crosstalk in a completed three dimensional crossover device. Three dimensional optical couplers may comprise waveguides of identical or dissimilar characteristics. Moreover, three dimensional optical switches may be formed using the proposed flip and bond assembly process.

摘要翻译： 一种制造光学器件的方法包括以下步骤：在衬底的近似平坦的平坦表面上制备具有至少一个掩埋光波导的第一衬底晶片，以及具有至少第二掩埋光波导的第二衬底晶片。 如此形成的波导可以是直的或沿着晶片的表面弯曲，或者通过沿其长度以不同的深度掩埋波导来弯曲。 第二晶片以这样的方式转动（翻转）并结合到第一晶片，使得波导例如可以形成光耦合器，或者可以彼此交叉并且沿着每个的区域彼此相邻。 结果，形成了三维光学器件，避免了在单个衬底晶片上分层的常规技术。 光学交叉角度可以降低，例如，从九十度节省衬底空间可以降低三十度。 可以在一个或另一个衬底表面中提供嵌入区域，减少完整的三维交叉装置中的串扰。 三维光耦合器可以包括相同或不同特性的波导。 此外，可以使用所提出的翻转和键合组装过程来形成三维光学开关。

公开(公告)号：US20050226620A1

公开(公告)日：2005-10-13

申请号：US10818242

申请日：2004-04-05

申请人： Mark Feuer ,  Nicholas Frigo ,  Cedric Lam

发明人： Mark Feuer ,  Nicholas Frigo ,  Cedric Lam

IPC分类号： H04J14/02 ,  H04Q11/00

CPC分类号： H04Q11/0005 ,  H04J14/0206 ,  H04J14/0209 ,  H04J14/0212 ,  H04J14/0213 ,  H04Q2011/0032 ,  H04Q2011/0035

摘要： A four-port wavelength-selective crossbar switch generates an add/drop wavelength signal from a wave division multiplexed (WDM) signal using a plurality of double-sided reflectors that selectively reflects a selected wavelength channel signal of the WDM signal through optical circulators to provide low crosstalk between the dropped and added wavelength signals. The switch also reduces the number of WDM MUX-DEMUX required to one half that compared to a traditional approach. Furthermore, the switch can be designed to be wavelength cyclic with individual free spectral ranges that can be independently set to either through or add/drop states.

摘要翻译： 四端口波长选择性交叉开关使用多个双面反射器从波分复用（WDM）信号产生加/减波长信号，所述多个双面反射器通过光循环器选择性地反射WDM信号的选定波长信道信号，以提供 丢弃和添加的波长信号之间的低串扰。 与传统方法相比，该开关还将所需的WDM MUX-DEMUX数量减少了一半。 此外，开关可以被设计为波长循环，具有各自的自由光谱范围，其可以独立地设置为通过或加/减状态。

公开(公告)号：US20070081767A1

公开(公告)日：2007-04-12

申请号：US11604554

申请日：2006-11-27

申请人： Mark Feuer ,  Nicholas Frigo

发明人： Mark Feuer ,  Nicholas Frigo

IPC分类号： G02B6/26

CPC分类号： G02F1/3132 ,  G02B6/12 ,  G02B6/12002 ,  G02B6/12004 ,  G02B6/1221 ,  G02B6/125 ,  G02B6/1342 ,  G02B2006/121 ,  G02B2006/12147 ,  G02B2006/1218 ,  G02F1/3523 ,  G02F2203/055 ,  H01S3/0612 ,  H01S3/063 ,  H01S3/0632 ,  H01S3/0637 ,  H01S3/2308

摘要： A method for fabricating an optical device wherein the device comprises a first substrate wafer with at least one buried optical waveguide on an approximately flat planar surface of the substrate and a second substrate wafer with at least a second buried optical waveguide. The waveguides so formed may be straight or curved along the surface of the wafer or curved by burying the waveguide at varying depth along its length. The second wafer is turned (flipped) and bonded to the first wafer in such a manner that the waveguides, for example, may form an optical coupler or may cross over one another and be in proximate relationship along a region of each. As a result, three-dimensional optical devices are formed avoiding the convention techniques of layering on a single substrate wafer.

摘要翻译： 一种用于制造光学器件的方法，其中所述器件包括具有在所述衬底的大致平坦平面上的至少一个掩埋光波导的第一衬底晶片和具有至少第二掩埋光波导的第二衬底晶片。 如此形成的波导可以沿着晶片的表面是直的或弯曲的，或者通过沿其长度以不同的深度掩埋波导来弯曲。 第二晶片以这样的方式转动（翻转）并结合到第一晶片，使得波导例如可以形成光耦合器，或者可以彼此交叉并且沿着每个的区域彼此相交。 结果，形成三维光学器件，避免了在单个衬底晶片上分层的常规技术。

公开(公告)号：US20060153563A1

公开(公告)日：2006-07-13

申请号：US11328782

申请日：2006-01-10

申请人： Mark Feuer ,  Nicholas Frigo ,  Cedric Lam

发明人： Mark Feuer ,  Nicholas Frigo ,  Cedric Lam

IPC分类号： H04J14/00 ,  H04B10/20

CPC分类号： H04Q11/0005 ,  H04Q11/0062 ,  H04Q2011/0016 ,  H04Q2011/0022 ,  H04Q2011/0026 ,  H04Q2011/0032 ,  H04Q2011/0035 ,  H04Q2011/0047 ,  H04Q2011/0058

摘要： A method and a system in which selected wavelengths of a wavelength division multiplexed (WDM) signal are modulated with multicast data for multicasting data services on an optical network. The WDM signal is received from a hub node of the optical network, such as a unidirectional ring network or a bi-directional ring network. A four-port wavelength crossbar switch (4WCS) selectably switches selected wavelengths from the optical network to a modulator loop. The modulator loop includes a multicast modulator that modulates the selected plurality of wavelengths with the multicast data. Each modulated wavelength is then switched back to the optical network by the 4WCS switch, and sent to a plurality of subscriber nodes of the optical network. This architecture allows a facility provider to be physically separated from a content provider, and affords the flexibility of selectively delivering multicast content to individual subscribers.

公开(公告)号：US20050094942A1

公开(公告)日：2005-05-05

申请号：US10985822

申请日：2004-11-10

申请人： Mark Feuer ,  Nicholas Frigo

发明人： Mark Feuer ,  Nicholas Frigo

IPC分类号： G02B6/12 ,  G02B6/125 ,  G02F1/313 ,  G02F1/35 ,  H01S3/063 ,  G02B6/26 ,  G02B6/10

CPC分类号： G02F1/3132 ,  G02B6/12 ,  G02B6/12002 ,  G02B6/12004 ,  G02B6/1221 ,  G02B6/125 ,  G02B6/1342 ,  G02B2006/121 ,  G02B2006/12147 ,  G02B2006/1218 ,  G02F1/3523 ,  G02F2203/055 ,  H01S3/0612 ,  H01S3/063 ,  H01S3/0632 ,  H01S3/0637 ,  H01S3/2308

摘要： A method for fabricating optical devices comprises the steps of preparing a first substrate wafer with at least one buried optical waveguide on an approximately flat planar surface of the substrate and a second substrate wafer with at least a second buried optical waveguide. The waveguides so formed may be straight or be curved along the surface of the wafer or curved by burying the waveguide at varying depth along its length. The second wafer is turned (flipped) and bonded to the first wafer in such a manner that the waveguides, for example, may form an optical coupler or may crossover one another and be in proximate relationship along a region of each. As a result, three dimensional optical devices are formed avoiding conventional techniques of layering on a single substrate wafer. Optical crossover angles may be reduced, for example, to thirty degrees from ninety degrees saving substrate real estate. Recessed areas may be provided in one or the other substrate surface reducing crosstalk in a completed three dimensional crossover device. Three dimensional optical couplers may comprise waveguides of identical or dissimilar characteristics. Moreover, three dimensional optical switches may be formed using the proposed flip and bond assembly process.

摘要翻译： 一种制造光学器件的方法包括以下步骤：在衬底的近似平坦的平坦表面上制备具有至少一个掩埋光波导的第一衬底晶片，以及具有至少第二掩埋光波导的第二衬底晶片。 如此形成的波导可以是直的或沿着晶片的表面弯曲，或者通过沿其长度以不同的深度掩埋波导来弯曲。 第二晶片以这样的方式转动（翻转）并结合到第一晶片，使得波导例如可以形成光耦合器，或者可以彼此交叉并且沿着每个的区域彼此相邻。 结果，形成了三维光学器件，避免了在单个衬底晶片上分层的常规技术。 光学交叉角度可以降低，例如，从九十度节省衬底空间可以降低三十度。 可以在一个或另一个衬底表面中提供嵌入区域，减少完整的三维交叉装置中的串扰。 三维光耦合器可以包括相同或不同特性的波导。 此外，可以使用所提出的翻转和键合组装过程来形成三维光学开关。

公开(公告)号：US20070212072A1

公开(公告)日：2007-09-13

申请号：US11701265

申请日：2007-02-01

申请人： Patrick Iannone ,  Mark Feuer ,  Kenneth Reichmann ,  Kent McCammon

发明人： Patrick Iannone ,  Mark Feuer ,  Kenneth Reichmann ,  Kent McCammon

IPC分类号： H04J14/00

CPC分类号： H04J14/0226 ,  H04J14/0227 ,  H04J14/0232 ,  H04J14/0246 ,  H04J14/0247 ,  H04J14/025 ,  H04J14/0252 ,  H04J14/0282

摘要： A method and system for upgrading service to an optical network terminal among a plurality of optical network terminals on a passive optical network. The upgrade enables bidirectional communications between a central office and the optical network terminal over dedicated downstream and upstream wavelength channels outside the downstream and upstream wavelength bands associated with the passive optical network. The optical network terminal to receive upgraded service is disconnected from a passive optical splitter at a remote node serving the optical network terminal, and optically coupled to a port of the multi-port arrayed waveguide grating at the remote node. Wavelength taps are provided at the central office and the remote node to facilitate multiplexing and demultiplexing the dedicated downstream and upstream channels with the downstream and upstream wavelength bands associated with the passive optical network. In this manner, certain users on the passive optical network may receive service upgrades to wavelength specific services without affecting other users who remain on the passive optical network.

摘要翻译： 一种用于在无源光网络上的多个光网络终端之间升级到光网络终端的业务的方法和系统。 该升级使得能够通过与无源光网络相关联的下游和上游波长带外的专用下行和上行波长信道在中心局和光网络终端之间进行双向通信。 用于接收升级服务的光网络终端从服务于光网络终端的远程节点处的无源光分路器断开，并且光耦合到远端节点处的多端口阵列波导光栅的端口。 在中央局和远程节点提供波长抽头，以便于与无源光网络相关联的下游和上游波长带对专用下行和上行信道进行复用和解复用。 以这种方式，无源光网络上的某些用户可以接收对波长特定服务的服务升级，而不影响留在被动光网络上的其他用户。

公开(公告)号：US08611741B2

公开(公告)日：2013-12-17

申请号：US12614469

申请日：2009-11-09

申请人： Mark Feuer ,  Mikhail Brodsky

发明人： Mark Feuer ,  Mikhail Brodsky

IPC分类号： H04B10/08 ,  H04B17/00 ,  H04J14/00 ,  H04J4/00

CPC分类号： H04B10/07953

摘要： A method and memory medium in a wavelength division multiplexing (WDM) network that communicates multiplexed signals representing a plurality of communication channels to determine received signal quality are disclosed. Generally, the signals format the plurality of communication channels to impart a distinctive noise profile in time or frequency for each channel; and collectively process the channels at a digital signal processing device to measure the signal-to-noise ratio.

摘要翻译： 公开了一种波分多路复用（WDM）网络中传送表示多个通信信道的复用信号以确定接收信号质量的方法和存储介质。 通常，信号格式化多个通信信道，以在每个信道的时间或频率上赋予独特的噪声分布; 并且在数字信号处理装置处共同处理信道以测量信噪比。