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1. 发明授权

US08565600B2 Optical network configurations with multiple band multiplexing and de-multiplexing and AWG structures with multiple band processing 有权
标题翻译：具有多频带复用和解复用的光网络配置以及具有多频带处理的AWG结构
公开(公告)号：US08565600B2
公开(公告)日：2013-10-22
申请号：US13157462
申请日：2011-06-10
申请人： Kenneth McGreer , Brian McGinnis , Anthony J. Ticknor , Calvin Ho
发明人： Kenneth McGreer , Brian McGinnis , Anthony J. Ticknor , Calvin Ho
IPC分类号： H04J14/00 , H04J14/02
CPC分类号： H04J14/0282 , G02B6/12009 , H04J14/02
摘要： Optical networks can comprise a branch structure with the de-multiplexing/multiplexing structure that operates to disperse a plurality of optical bands. Thus, the optical network comprises an optical network connection with a common optical channel, a plurality of de-multiplexed branch optical service connections and the de-multiplexing/multiplexing structure. In some embodiments, one optical band can be used to deliver input from a common channel to the branch node and the other optical band can carry output along the common channel from the branch node. The de-multiplexing/multiplexing element can be an arrayed waveguide grating. The AWG can have desirable architecture to efficiently provide the corresponding functions with respect to the two optical bands. Appropriate photodetectors and light sources can be associated with the AWG.
摘要翻译：光网络可以包括具有解复用/复用结构的分支结构，其操作以分散多个光带。因此，光网络包括与公共光信道，多个解复用分支光业务连接和解复用/复用结构的光网络连接。在一些实施例中，一个光带可用于将输入从公共信道传送到分支节点，而另一个光带可以沿着公共信道从分支节点传送输出。解复用/复用元件可以是阵列波导光栅。 AWG可以具有期望的架构以有效地提供相对于两个光学带的相应功能。适当的光电检测器和光源可以与AWG相关联。

2. 发明申请

US20120315044A1 OPTICAL NETWORK CONFIGURATIONS WITH MULTIPLE BAND MULTIPLEXING AND DE-MULTIPLEXING AND AWG STRUCTURES WITH MULTIPLE BAND PROCESSING 有权
标题翻译：具有多条带多路复用和多路复用和AWG结构的光网络配置与多条带处理
公开(公告)号：US20120315044A1
公开(公告)日：2012-12-13
申请号：US13157462
申请日：2011-06-10
申请人： Kenneth McGreer , Brian McGinnis , Anthony J. Ticknor , Calvin Ho
发明人： Kenneth McGreer , Brian McGinnis , Anthony J. Ticknor , Calvin Ho
IPC分类号： H04J14/00 , G02B6/28
CPC分类号： H04J14/0282 , G02B6/12009 , H04J14/02
摘要： Optical networks can comprise a branch structure with the de-multiplexing/multiplexing structure that operates to disperse a plurality of optical bands. Thus, the optical network comprises an optical network connection with a common optical channel, a plurality of de-multiplexed branch optical service connections and the de-multiplexing/multiplexing structure. In some embodiments, one optical band can be used to deliver input from a common channel to the branch node and the other optical band can carry output along the common channel from the branch node. The de-multiplexing/multiplexing element can be an arrayed waveguide grating. The AWG can have desirable architecture to efficiently provide the corresponding functions with respect to the two optical bands. Appropriate photodetectors and light sources can be associated with the AWG.
摘要翻译：光网络可以包括具有解复用/复用结构的分支结构，其操作以分散多个光带。因此，光网络包括与公共光信道，多个解复用分支光业务连接和解复用/复用结构的光网络连接。在一些实施例中，一个光带可以用于将输入从公共信道传送到分支节点，另一个光带可以沿着公共信道从分支节点传送输出。解复用/复用元件可以是阵列波导光栅。 AWG可以具有期望的架构以有效地提供相对于两个光学带的相应功能。适当的光电检测器和光源可以与AWG相关联。

3. 发明申请

US20090087138A1 THERMAL CONTROL OF OPTICAL COMPONENTS 有权
标题翻译：光学元件的热控制
公开(公告)号：US20090087138A1
公开(公告)日：2009-04-02
申请号：US12241860
申请日：2008-09-30
申请人： Ming Yan , Anthony J. Ticknor , Calvin Ho , Hao XU , Jason Weaver , Thomas S. Tarter , Jane Lam
发明人： Ming Yan , Anthony J. Ticknor , Calvin Ho , Hao XU , Jason Weaver , Thomas S. Tarter , Jane Lam
IPC分类号： G02B6/12
CPC分类号： G02B6/12026 , G01J3/0286 , G02B6/12011
摘要： A linearized thermal and optical model of an optical integrated circuit can be used to temperature-stabilize one or more optical elements of the circuit using active temperature regulation. To stabilize a single optical element, a temperature sensor and a heater can be provided proximate to the grating. Thermal and optical coefficients can be then used to select an appropriate temperature set-point for the temperature controller that receives readings from the sensor and determines the power dissipated in the heater. Multiple optical elements can be stabilized individually, using the same process and lumping cross-heating factors together with other environmental factors. Alternatively, multiple AWG's can be stabilized using fewer sensors than optical elements, by stabilizing one of the optical elements in the same manner as in the case of a single optical elements, and determining power dissipated in the heaters of the remaining optical elements based on the linearized model.
摘要翻译：可以使用光学集成电路的线性化热和光学模型来使用主动温度调节来温度稳定电路的一个或多个光学元件。为了稳定单个光学元件，可以在光栅附近提供温度传感器和加热器。然后可以使用热系数和光学系数为温度控制器选择适当的温度设定点，该温度控制器从传感器接收读数并确定加热器中消耗的功率。多个光学元件可以单独稳定，使用相同的工艺并将交叉加热因子与其他环境因素结合在一起。或者，通过以与单个光学元件的情况相同的方式来稳定光学元件之一，可以使用比光学元件少的传感器来稳定多个AWG，并且基于所述光学元件的剩余光学元件的加热器确定功率消耗线性化模型。

4. 发明授权

US07720328B2 Thermal control of optical components 有权
标题翻译：光学部件的热控制
公开(公告)号：US07720328B2
公开(公告)日：2010-05-18
申请号：US12241860
申请日：2008-09-30
申请人： Ming Yan , Anthony J. Ticknor , Calvin Ho , Hao Xu , Jason Weaver , Thomas S. Tarter , Jane Lam
发明人： Ming Yan , Anthony J. Ticknor , Calvin Ho , Hao Xu , Jason Weaver , Thomas S. Tarter , Jane Lam
IPC分类号： G02B6/12
CPC分类号： G02B6/12026 , G01J3/0286 , G02B6/12011
摘要： A linearized thermal and optical model of an optical integrated circuit can be used to temperature-stabilize one or more optical elements of the circuit using active temperature regulation. To stabilize a single optical element, a temperature sensor and a heater can be provided proximate to the grating. Thermal and optical coefficients can be then used to select an appropriate temperature set-point for the temperature controller that receives readings from the sensor and determines the power dissipated in the heater. Multiple optical elements can be stabilized individually, using the same process and lumping cross-heating factors together with other environmental factors. Alternatively, multiple AWG's can be stabilized using fewer sensors than optical elements, by stabilizing one of the optical elements in the same manner as in the case of a single optical elements, and determining power dissipated in the heaters of the remaining optical elements based on the linearized model.
摘要翻译：可以使用光学集成电路的线性化热和光学模型来使用主动温度调节来温度稳定电路的一个或多个光学元件。为了稳定单个光学元件，可以在光栅附近提供温度传感器和加热器。然后可以使用热系数和光学系数为温度控制器选择适当的温度设定点，该温度控制器从传感器接收读数并确定加热器中消耗的功率。多个光学元件可以单独稳定，使用相同的工艺并将交叉加热因子与其他环境因素结合在一起。或者，通过以与单个光学元件的情况相同的方式来稳定光学元件之一，可以使用比光学元件少的传感器来稳定多个AWG，并且基于所述光学元件的剩余光学元件的加热器确定功率消耗线性化模型。

5. 发明授权

US07447393B2 Thermal control of optical components 有权
标题翻译：光学部件的热控制
公开(公告)号：US07447393B2
公开(公告)日：2008-11-04
申请号：US10760145
申请日：2004-01-16
申请人： Ming Yan , Anthony J. Ticknor , Calvin Ho , Hao Xu , Jason Weaver , Thomas S. Tarter , Jane Lam
发明人： Ming Yan , Anthony J. Ticknor , Calvin Ho , Hao Xu , Jason Weaver , Thomas S. Tarter , Jane Lam
IPC分类号： G02B6/12
CPC分类号： G02B6/12026 , G01J3/0286 , G02B6/12011
摘要： A linearized thermal and optical model of an optical integrated circuit can be used to temperature-stabilize one or more optical elements of the circuit using active temperature regulation. To stabilize a single optical element, such as an arrayed waveguide grating (AWG), a temperature sensor and a heater can be provided proximate to the grating. Thermal and optical coefficients can be then used to select an appropriate temperature set-point for the temperature controller that receives readings from the sensor and determines the power dissipated in the heater. Multiple AWG's can be stabilized individually, using the same process and lumping cross-heating factors together with other environmental factors. Alternatively, multiple AWG's can be stabilized using fewer sensors than AWG's, by stabilizing one of the AWG's in the same manner as in the case of a single AWG, and determining power dissipated in the heaters of the remaining AWG's based on the linearized model.
摘要翻译：可以使用光学集成电路的线性化热和光学模型来使用主动温度调节来温度稳定电路的一个或多个光学元件。为了稳定单个光学元件，例如阵列波导光栅（AWG），可以在光栅附近提供温度传感器和加热器。然后可以使用热系数和光学系数为温度控制器选择适当的温度设定点，该温度控制器从传感器接收读数并确定加热器中消耗的功率。多个AWG可以单独稳定，使用相同的过程并将交叉加热因子与其他环境因素结合在一起。或者，通过使用比AWG更少的传感器，可以使用比AWG更少的传感器来稳定多个AWG，通过以与单个AWG相同的方式稳定AWG之一，并根据线性化模型确定剩余AWG的加热器中消耗的功率。

6. 发明申请

US20080080806A1 STABLE CENTER WAVELENGTH PERFORMANCE IN NON-RECTILINEARLY SHAPED OPTICAL INTEGRATED CIRCUIT CHIP 有权
标题翻译：非正常形状光集成电路芯片的稳定中心波长性能
公开(公告)号：US20080080806A1
公开(公告)日：2008-04-03
申请号：US11753074
申请日：2007-05-24
申请人： Calvin Ho , Brian McGinnis , Wilson Long , Ed Fontecha , David Quirke , Thomas Tarter , Sam Seto , Liang Zhao
发明人： Calvin Ho , Brian McGinnis , Wilson Long , Ed Fontecha , David Quirke , Thomas Tarter , Sam Seto , Liang Zhao
IPC分类号： G02B6/12 , G02B6/13
CPC分类号： G02B6/1203 , G02B6/12014 , G02B6/12019
摘要： An optical device with a non-rectilinearly shaped optical integrated circuit over a substantially flat portion of a riser, the riser also equipped with a relief structure that is in thermal contact with a stabilizing brace that is in turn connected to two portions of the non-rectilinearly shaped optical integrated circuit. The non-rectilinearly shaped optical integrated circuit exhibits reduced center wavelength drift.
摘要翻译：一种在提升板的基本上平坦的部分上具有非直线形的光学集成电路的光学装置，所述提升管还配备有与稳定支架热接触的浮雕结构，所述稳定支架又连接到所述非直线形的两个部分，直线形光集成电路。非直线形光学集成电路表现出减小的中心波长漂移。

7. 发明授权

US07447394B2 Stable center wavelength performance in non-rectilinearly shaped optical integrated circuit chip 有权
标题翻译：非直线形光集成电路芯片稳定的中心波长性能
公开(公告)号：US07447394B2
公开(公告)日：2008-11-04
申请号：US11753074
申请日：2007-05-24
申请人： Calvin Ho , Brian McGinnis , Wilson Long , Ed Fontecha , David J. Quirke , Thomas S. Tarter , Sam Seto , Liang Zhao
发明人： Calvin Ho , Brian McGinnis , Wilson Long , Ed Fontecha , David J. Quirke , Thomas S. Tarter , Sam Seto , Liang Zhao
IPC分类号： G02B6/12 , G02B6/28 , G02B6/34
CPC分类号： G02B6/1203 , G02B6/12014 , G02B6/12019
摘要： An optical device with a non-rectilinearly shaped optical integrated circuit over a substantially flat portion of a riser, the riser also equipped with a relief structure that is in thermal contact with a stabilizing brace that is in turn connected to two portions of the non-rectilinearly shaped optical integrated circuit. The non-rectilinearly shaped optical integrated circuit exhibits reduced center wavelength drift.
摘要翻译：一种在提升板的基本上平坦的部分上具有非直线形的光学集成电路的光学装置，所述提升管还配备有与稳定支架热接触的浮雕结构，所述稳定支架又连接到所述非直线形的两个部分，直线形光集成电路。非直线形光学集成电路表现出减小的中心波长漂移。

8. 发明申请

US20060279734A1 Thermal control of optical components 有权
标题翻译：光学部件的热控制
公开(公告)号：US20060279734A1
公开(公告)日：2006-12-14
申请号：US10760145
申请日：2004-01-16
申请人： Ming Yan , Anthony Ticknor , Calvin Ho , Hao Xu , Jason Weaver , Thomas Tarter , Jane Lam
发明人： Ming Yan , Anthony Ticknor , Calvin Ho , Hao Xu , Jason Weaver , Thomas Tarter , Jane Lam
IPC分类号： G01J3/28
CPC分类号： G02B6/12026 , G01J3/0286 , G02B6/12011
摘要： A linearized thermal and optical model of an optical integrated circuit can be used to temperature-stabilize one or more optical elements of the circuit using active temperature regulation. To stabilize a single optical element, such as an arrayed waveguide grating (AWG), a temperature sensor and a heater can be provided proximate to the grating. Thermal and optical coefficients can be then used to select an appropriate temperature set-point for the temperature controller that receives readings from the sensor and determines the power dissipated in the heater. Multiple AWG's can be stabilized individually, using the same process and lumping cross-heating factors together with other environmental factors. Alternatively, multiple AWG's can be stabilized using fewer sensors than AWG's, by stabilizing one of the AWG's in the same manner as in the case of a single AWG, and determining power dissipated in the heaters of the remaining AWG's based on the linearized model.
摘要翻译：可以使用光学集成电路的线性化热和光学模型来使用主动温度调节来温度稳定电路的一个或多个光学元件。为了稳定单个光学元件，例如阵列波导光栅（AWG），可以在光栅附近提供温度传感器和加热器。然后可以使用热系数和光学系数为温度控制器选择适当的温度设定点，该温度控制器从传感器接收读数并确定加热器中消耗的功率。多个AWG可以单独稳定，使用相同的过程并将交叉加热因子与其他环境因素结合在一起。或者，通过使用比AWG更少的传感器，可以使用比AWG更少的传感器来稳定多个AWG，通过以与单个AWG相同的方式稳定AWG之一，并根据线性化模型确定剩余AWG的加热器中消耗的功率。

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