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51.发明授权Deployment of electro-optic amplitude varying elements (AVEs) and electro-optic multi-functional elements (MFEs) in photonic integrated circuits (PICs) 有权在光子集成电路(PIC)中部署电光振幅变化元件(AVE)和电光多功能元件(MFE)公开(公告)号:US07162113B2
公开(公告)日:2007-01-09
申请号:US11268325
申请日:2005-11-07
申请人: David F. Welch , Fred A. Kish, Jr. , Radhakrishnan L. Nagarajan , Alan C. Nilsson , Robert L. Taylor
发明人: David F. Welch , Fred A. Kish, Jr. , Radhakrishnan L. Nagarajan , Alan C. Nilsson , Robert L. Taylor
IPC分类号: G02B6/12
CPC分类号: G02B6/12019 , G02B6/12004 , G02B6/12026 , G02B6/4249 , G02B6/43 , H01S5/02248 , H01S5/0268 , H04J14/02
摘要: Electro-optic amplitude varying elements (AVEs) or electro-optic multi-function elements (MFEs) are integrated into signal channels of photonic integrated circuits (PICs) or at the output of such PICs to provide for various optical controlling and monitoring functions. In one case, such PIC signal channels may minimally include a laser source and a modulator (TxPIC) and in another case, may minimally include a photodetector to which channels, in either case, an AVE or an MFE may be added.
摘要翻译: 电光振幅变化元件(AVE)或电光多功能元件(MFE)被集成到光子集成电路(PIC)的信号通道中或集成在这些PIC的输出端,以提供各种光学控制和监视功能。 在一种情况下,这样的PIC信号通道可以最小化地包括激光源和调制器(TxPIC),并且在另一种情况下,可以最小化地包括光电检测器,在任一种情况下,可以在其中添加AVE或MFE的通道。
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公开(公告)号:US07751713B2
公开(公告)日:2010-07-06
申请号:US11781912
申请日:2007-07-23
申请人: Drew D. Perkins , David F. Welch , Ting-Kuang Chiang , Charles H. Joyner , Edward E. Sprague , Parthiban Kandappan , Stephen G. Grubb , Biao Lu , Prasad Paranjape
发明人: Drew D. Perkins , David F. Welch , Ting-Kuang Chiang , Charles H. Joyner , Edward E. Sprague , Parthiban Kandappan , Stephen G. Grubb , Biao Lu , Prasad Paranjape
CPC分类号: H04J14/02
摘要: Embodiments of the present invention route a WDM signal across multiple communication paths using skew characteristics of at least some of the communication paths. The network is an optical transport network, using either circuit or packet based switching, and wavelength division multiplexed wavelengths and/or optical carrier groups (“OCGs”) over a fiber link to another node in the network. The plurality of communication paths involves different signal and path attributes such as a plurality of carrier wavelengths, optical carrier groups, physical communication paths (different nodes, different fibers along a same path, or any combination of the foregoing), or any other differentiating factors between two paths.
摘要翻译: 本发明的实施例使用至少一些通信路径的偏斜特性来跨越多个通信路径来路由WDM信号。 该网络是光传输网络,其使用电路或分组交换,以及波分复用波长和/或光载波组(“OCG”),通过光纤链路到网络中的另一个节点。 多个通信路径涉及不同的信号和路径属性,例如多个载波波长,光载波组,物理通信路径(不同节点,沿着相同路径的不同光纤,或前述的任何组合)或任何其它微分因素 两条路径之间。
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公开(公告)号:US20080175590A1
公开(公告)日:2008-07-24
申请号:US11781912
申请日:2007-07-23
申请人: Drew D. Perkins , David F. Welch , Ting-Kuang Chiang , Charles H. Joyner , Edward E. Sprague , Parthiban Kandappan , Stephen G. Grubb , Biao Lu , Prasad Paranjape
发明人: Drew D. Perkins , David F. Welch , Ting-Kuang Chiang , Charles H. Joyner , Edward E. Sprague , Parthiban Kandappan , Stephen G. Grubb , Biao Lu , Prasad Paranjape
IPC分类号: H04B10/00
CPC分类号: H04J14/02
摘要: Embodiments of the present invention route a WDM signal across multiple communication paths using skew characteristics of at least some of the communication paths. The network is an optical transport network, using either circuit or packet based switching, and wavelength division multiplexed wavelengths and/or optical carrier groups (“OCGs”) over a fiber link to another node in the network. The plurality of communication paths involves different signal and path attributes such as a plurality of carrier wavelengths, optical carrier groups, physical communication paths (different nodes, different fibers along a same path, or any combination of the foregoing), or any other differentiating factors between two paths.
摘要翻译: 本发明的实施例使用至少一些通信路径的偏斜特性来跨越多个通信路径来路由WDM信号。 该网络是光传输网络,其使用电路或分组交换,以及波分复用波长和/或光载波组(“OCG”),通过光纤链路到网络中的另一个节点。 多个通信路径涉及不同的信号和路径属性,例如多个载波波长,光载波组,物理通信路径(不同节点,沿着相同路径的不同光纤,或前述的任何组合)或任何其它微分因素 两条路径之间。
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54.发明授权Optical probe and method of testing employing an interrogation beam or optical pickup 有权光探头和使用询问光束或光学拾取器的测试方法公开(公告)号:US07079718B2
公开(公告)日:2006-07-18
申请号:US10909642
申请日:2004-08-02
IPC分类号: G02B6/12
CPC分类号: H04B10/2914 , B82Y20/00 , G02B6/12004 , G02B6/12007 , G02B6/12011 , G02B6/12019 , G02B6/12023 , G02B6/12026 , G02B6/12028 , G02B6/1203 , G02B6/12033 , G02B6/4249 , G02F1/01725 , G02F2001/0175 , G02F2001/01758 , H01S5/026 , H01S5/0264 , H01S5/0265 , H01S5/0268 , H01S5/0425 , H01S5/06256 , H01S5/06258 , H01S5/0683 , H01S5/101 , H01S5/1014 , H01S5/12 , H01S5/1228 , H01S5/183 , H01S5/2077 , H01S5/22 , H01S5/2224 , H01S5/227 , H01S5/3404 , H01S5/3408 , H01S5/34306 , H01S5/4025 , H01S5/4031 , H01S5/4087 , H01S5/50 , H01S5/5072 , H04B10/25 , H04B10/50 , H04B10/675 , H04J14/02
摘要: An optical probe and a method for testing an optical chip or device, such as an photonic integrated circuit (PIC), to provide for testing of such devices or circuits while they are still in their in-wafer form and is accomplished by using a an optical probe for interrogation of the circuit where an access is provided in the wafer to one or more of such in-wafer devices or circuits. As one example, the interrogation may be an interrogation beam provided at the access input to the in-wafer device or circuit. As another example, the interrogation may be an optical pickup from the access input to the in-wafer device or circuit.
摘要翻译: 光学探针和用于测试诸如光子集成电路(PIC)的光学芯片或器件的光学探针和方法,以提供这些器件或电路在晶片状态下的测试,并且通过使用 用于询问电路的光学探针,其中在晶片中提供对所述晶片内器件或电路中的一个或多个的访问。 作为一个示例,询问可以是设置在晶片内设备或电路的访问输入处的询问光束。 作为另一示例,询问可以是从访问输入到晶片内设备或电路的光学拾取器。
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公开(公告)号:US09031412B2
公开(公告)日:2015-05-12
申请号:US12612646
申请日:2009-11-04
申请人: Radhakrishnan L. Nagarajan , Fred A. Kish, Jr. , David F. Welch , Drew D. Perkins , Masaki Kato
发明人: Radhakrishnan L. Nagarajan , Fred A. Kish, Jr. , David F. Welch , Drew D. Perkins , Masaki Kato
IPC分类号: H04J14/02 , H04B10/50 , G02B6/12 , B82Y20/00 , H01S5/024 , H01S5/223 , H01S5/40 , G02B6/28 , G02B6/293 , H01S5/00 , H01S5/022 , H01S5/026 , H01S5/0683 , H01S5/10 , H01S5/12 , H01S5/343
CPC分类号: G02B6/12033 , B82Y20/00 , G02B6/12019 , G02B6/2813 , G02B6/293 , G02B6/29317 , G02B6/29338 , G02B6/29352 , H01S5/005 , H01S5/0085 , H01S5/02248 , H01S5/024 , H01S5/0261 , H01S5/0265 , H01S5/0268 , H01S5/0683 , H01S5/1032 , H01S5/12 , H01S5/1221 , H01S5/2231 , H01S5/34306 , H01S5/4031 , H01S5/4087 , H04B10/506
摘要: A coolerless photonic integrated circuit (PIC), such as a semiconductor electro-absorption modulator/laser (EML) or a coolerless optical transmitter photonic integrated circuit (TxPIC), may be operated over a wide temperature range at temperatures higher then room temperature without the need for ambient cooling or hermetic packaging. Since there is large scale integration of N optical transmission signal WDM channels on a TxPIC chip, a new DWDM system approach with novel sensing schemes and adaptive algorithms provides intelligent control of the PIC to optimize its performance and to allow optical transmitter and receiver modules in DWDM systems to operate uncooled. Moreover, the wavelength grid of the on-chip channel laser sources may thermally float within a WDM wavelength band where the individual emission wavelengths of the laser sources are not fixed to wavelength peaks along a standardized wavelength grid but rather may move about with changes in ambient temperature. However, control is maintained such that the channel spectral spacing between channels across multiple signal channels, whether such spacing is periodic or aperiodic, between adjacent laser sources in the thermally floating wavelength grid are maintained in a fixed relationship. Means are then provided at an optical receiver to discover and lock onto floating wavelength grid of transmitted WDM signals and thereafter demultiplex the transmitted WDM signals for OE conversion.
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56.发明申请COOLERLESS PHOTONIC INTEGRATED CIRCUITS (PICs) FOR WDM TRANSMISSION NETWORKS AND PICs OPERABLE WITH A FLOATING SIGNAL CHANNEL GRID CHANGING WITH TEMPERATURE BUT WITH FIXED CHANNEL SPACING IN THE FLOATING GRID 审中-公开用于WDM传输网络的无线光电集成电路(PIC)可用于浮动信号通道网格变化与温度变化,但在浮动网格中具有固定通道间隔公开(公告)号:US20100166424A1
公开(公告)日:2010-07-01
申请号:US12612646
申请日:2009-11-04
申请人: Radhakrishnan L. Nagarajan , Fred A. Kish, JR. , David F. Welch , Drew D. Perkins , Masaki Kato
发明人: Radhakrishnan L. Nagarajan , Fred A. Kish, JR. , David F. Welch , Drew D. Perkins , Masaki Kato
CPC分类号: G02B6/12033 , B82Y20/00 , G02B6/12019 , G02B6/2813 , G02B6/293 , G02B6/29317 , G02B6/29338 , G02B6/29352 , H01S5/005 , H01S5/0085 , H01S5/02248 , H01S5/024 , H01S5/0261 , H01S5/0265 , H01S5/0268 , H01S5/0683 , H01S5/1032 , H01S5/12 , H01S5/1221 , H01S5/2231 , H01S5/34306 , H01S5/4031 , H01S5/4087 , H04B10/506
摘要: A coolerless photonic integrated circuit (PIC), such as a semiconductor electro-absorption modulator/laser (EML) or a coolerless optical transmitter photonic integrated circuit (TxPIC), may be operated over a wide temperature range at temperatures higher then room temperature without the need for ambient cooling or hermetic packaging. Since there is large scale integration of N optical transmission signal WDM channels on a TxPIC chip, a new DWDM system approach with novel sensing schemes and adaptive algorithms provides intelligent control of the PIC to optimize its performance and to allow optical transmitter and receiver modules in DWDM systems to operate uncooled. Moreover, the wavelength grid of the on-chip channel laser sources may thermally float within a WDM wavelength band where the individual emission wavelengths of the laser sources are not fixed to wavelength peaks along a standardized wavelength grid but rather may move about with changes in ambient temperature. However, control is maintained such that the channel spectral spacing between channels across multiple signal channels, whether such spacing is periodic or aperiodic, between adjacent laser sources in the thermally floating wavelength grid are maintained in a fixed relationship. Means are then provided at an optical receiver to discover and lock onto floating wavelength grid of transmitted WDM signals and thereafter demultiplex the transmitted WDM signals for OE conversion.
摘要翻译: 诸如半导体电吸收调制器/激光器(EML)或无冷器光发射机光子集成电路(TxPIC)的无冷却光子集成电路(PIC)可以在高于室温的温度范围内工作,而不需要 需要环境冷却或密封包装。 由于在TxPIC芯片上存在N个光传输信号WDM信道的大规模集成,新的具有新型感测方案和自适应算法的DWDM系统方法提供了PIC的智能控制,以优化其性能并允许光发射机和接收机模块在DWDM 系统运行未冷却。 此外,片上通道激光源的波长网格可以在WDM波长带内热漂浮,其中激光源的各个发射波长不沿着标准波长网格固定到波长峰值,而是可以随着环境的变化而移动 温度。 然而,保持控制,使得在热浮动波长网格中的相邻激光源之间跨多个信号通道的信道之间的信道频谱间隔(无论这样的间隔是周期性的还是非周期性的)保持固定的关系。 然后在光接收器处提供装置以发现并锁定发送的WDM信号的浮动波长网格,然后对发送的WDM信号进行解复用以进行OE转换。
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57.发明授权Coolerless photonic integrated circuits (PICs) for WDM transmission networks and PICs operable with a floating signal channel grid changing with temperature but with fixed channel spacing in the floating grid 有权用于WDM传输网络和PIC的无冷却光子集成电路(PIC)可与浮动信号通道网格一起工作,浮动信道网格随着温度而变化,但在浮动网格中具有固定的信道间隔公开(公告)号:US07636522B2
公开(公告)日:2009-12-22
申请号:US11106875
申请日:2005-04-14
申请人: Radhakrishnan L. Nagarajan , Fred A. Kish, Jr. , David F. Welch , Drew D. Perkins , Masaki Kato
发明人: Radhakrishnan L. Nagarajan , Fred A. Kish, Jr. , David F. Welch , Drew D. Perkins , Masaki Kato
IPC分类号: H04J14/02
CPC分类号: G02B6/12033 , B82Y20/00 , G02B6/12019 , G02B6/2813 , G02B6/293 , G02B6/29317 , G02B6/29338 , G02B6/29352 , H01S5/005 , H01S5/0085 , H01S5/02248 , H01S5/024 , H01S5/0261 , H01S5/0265 , H01S5/0268 , H01S5/0683 , H01S5/1032 , H01S5/12 , H01S5/1221 , H01S5/2231 , H01S5/34306 , H01S5/4031 , H01S5/4087 , H04B10/506
摘要: A coolerless photonic integrated circuit (PIC), such as a semiconductor electro-absorption modulator/laser (EML) or a coolerless optical transmitter photonic integrated circuit (TxPIC), may be operated over a wide temperature range at temperatures higher then room temperature without the need for ambient cooling or hermetic packaging. Since there is large scale integration of N optical transmission signal WDM channels on a TxPIC chip, a new DWDM system approach with novel sensing schemes and adaptive algorithms provides intelligent control of the PIC to optimize its performance and to allow optical transmitter and receiver modules in DWDM systems to operate uncooled. Moreover, the wavelength grid of the on-chip channel laser sources may thermally float within a WDM wavelength band where the individual emission wavelengths of the laser sources are not fixed to wavelength peaks along a standardized wavelength grid but rather may move about with changes in ambient temperature. However, control is maintained such that the channel spectral spacing between channels across multiple signal channels, whether such spacing is periodic or aperiodic, between adjacent laser sources in the thermally floating wavelength grid are maintained in a fixed relationship. Means are then provided at an optical receiver to discover and lock onto floating wavelength grid of transmitted WDM signals and thereafter demultiplex the transmitted WDM signals for OE conversion.
摘要翻译: 诸如半导体电吸收调制器/激光器(EML)或无冷器光发射机光子集成电路(TxPIC)的无冷却光子集成电路(PIC)可以在高于室温的温度范围内工作,而不需要 需要环境冷却或密封包装。 由于在TxPIC芯片上存在N个光传输信号WDM信道的大规模集成,新的具有新型感测方案和自适应算法的DWDM系统方法提供了PIC的智能控制,以优化其性能并允许光发射机和接收机模块在DWDM 系统运行未冷却。 此外,片上通道激光源的波长网格可以在WDM波长带内热漂浮,其中激光源的各个发射波长不沿着标准波长网格固定到波长峰值,而是可以随着环境的变化而移动 温度。 然而,保持控制,使得在热浮动波长网格中的相邻激光源之间跨多个信号通道的信道之间的信道频谱间隔(无论这样的间隔是周期性的还是非周期性的)保持固定的关系。 然后在光接收器处提供装置以发现并锁定发送的WDM信号的浮动波长网格,然后对发送的WDM信号进行解复用以进行OE转换。
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58.发明授权Forward error correction (FEC) enabled photonic integrated circuit (PIC) chips with multiple signal channels 有权具有多个信号通道的前向纠错(FEC)使能光子集成电路(PIC)芯片公开(公告)号:US08521020B2
公开(公告)日:2013-08-27
申请号:US12795619
申请日:2010-06-07
CPC分类号: H01S5/0265 , B82Y20/00 , G02B6/12021 , H01S5/026 , H01S5/0264 , H01S5/0268 , H01S5/06256 , H01S5/06258 , H01S5/0683 , H01S5/1228 , H01S5/2077 , H01S5/22 , H01S5/3408 , H01S5/4025 , H01S5/4031 , H01S5/4087 , H01S5/50 , H04B10/25 , H04B10/2914 , H04B10/50 , H04B10/675 , H04J14/02 , H04J14/0279
摘要: A forward error correction (FEC) communication device that includes a transmitter photonic integrated circuit (TxPIC) or a receiver photonic integrated circuit (RxPIC) and a FEC device for FEC coding at least one channel with a first error rate and at least one additional channel with a second error rate, wherein the first error rate is greater than the second error rate. The TxPIC chip is a monolithic multi-channel chip having an array of modulated sources integrated on the chip, each operating at a different wavelength, wherein at least one of the modulated sources is modulated with a respective FEC encoded signal. The TxPIC also includes an integrated wavelength selective combiner for combining the channels for transport over an optical link.
摘要翻译: 包括发射机光子集成电路(TxPIC)或接收机光子集成电路(RxPIC)的前向纠错(FEC)通信设备和用于FEC编码具有第一错误率的至少一个信道和至少一个附加信道的FEC设备 具有第二错误率,其中第一错误率大于第二错误率。 TxPIC芯片是具有集成在芯片上的调制源阵列的单片多通道芯片,每个调制源阵列以不同的波长工作,其中至少一个调制源以相应的FEC编码信号进行调制。 TxPIC还包括用于组合用于光链路传输的信道的集成波长选择组合器。
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59.发明申请FORWARD ERROR CORRECTION (FEC) ENABLED PHOTONIC INTEGRATED CIRCUIT (PIC) CHIPS WITH MULTIPLE SIGNAL CHANNELS 有权带有多个信号通道的前向纠错(FEC)启用光电集成电路(PIC)公开(公告)号:US20110008039A1
公开(公告)日:2011-01-13
申请号:US12795619
申请日:2010-06-07
IPC分类号: H04B10/04
CPC分类号: H01S5/0265 , B82Y20/00 , G02B6/12021 , H01S5/026 , H01S5/0264 , H01S5/0268 , H01S5/06256 , H01S5/06258 , H01S5/0683 , H01S5/1228 , H01S5/2077 , H01S5/22 , H01S5/3408 , H01S5/4025 , H01S5/4031 , H01S5/4087 , H01S5/50 , H04B10/25 , H04B10/2914 , H04B10/50 , H04B10/675 , H04J14/02 , H04J14/0279
摘要: A forward error correction (FEC) communication device that includes a transmitter photonic integrated circuit (TxPIC) or a receiver photonic integrated circuit (RxPIC) and a FEC device for FEC coding at least one channel with a first error rate and at least one additional channel with a second error rate, wherein the first error rate is greater than the second error rate. The TxPIC chip is a monolithic multi-channel chip having an array of modulated sources integrated on the chip, each operating at a different wavelength, wherein at least one of the modulated sources is modulated with a respective FEC encoded signal. The TxPIC also includes an integrated wavelength selective combiner for combining the channels for transport over an optical link.
摘要翻译: 包括发射机光子集成电路(TxPIC)或接收机光子集成电路(RxPIC)的前向纠错(FEC)通信设备和用于FEC编码具有第一错误率的至少一个信道和至少一个附加信道的FEC设备 具有第二错误率,其中第一错误率大于第二错误率。 TxPIC芯片是具有集成在芯片上的调制源阵列的单片多通道芯片,每个调制源阵列以不同的波长工作,其中至少一个调制源以相应的FEC编码信号进行调制。 TxPIC还包括用于组合用于光链路传输的信道的集成波长选择组合器。
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60.发明授权Forward error correction (FEC) enabled photonic integrated circuit (PICs) chips with multiple signal channels 有权具有多个信号通道的前向纠错(FEC)使能光子集成电路(PIC)芯片公开(公告)号:US07734191B1
公开(公告)日:2010-06-08
申请号:US11609331
申请日:2006-12-11
CPC分类号: H01S5/0265 , B82Y20/00 , G02B6/12021 , H01S5/026 , H01S5/0264 , H01S5/0268 , H01S5/06256 , H01S5/06258 , H01S5/0683 , H01S5/1228 , H01S5/2077 , H01S5/22 , H01S5/3408 , H01S5/4025 , H01S5/4031 , H01S5/4087 , H01S5/50 , H04B10/25 , H04B10/2914 , H04B10/50 , H04B10/675 , H04J14/02 , H04J14/0279
摘要: A forward error correction (FEC) communication device that includes a transmitter photonic integrated circuit (TxPIC) or a receiver photonic integrated circuit (RxPIC) and a FEC device for FEC coding at least one channel with a first error rate and at least one additional channel with a second error rate, wherein the first error rate is greater than the second error rate. The TxPIC chip is a monolithic multi-channel chip having an array of modulated sources integrated on the chip, each operating at a different wavelength, wherein at least one of the modulated sources is modulated with a respective FEC encoded signal. The TxPIC also includes an integrated wavelength selective combiner for combining the channels for transport over an optical link.
摘要翻译: 包括发射机光子集成电路(TxPIC)或接收机光子集成电路(RxPIC)的前向纠错(FEC)通信设备和用于FEC编码具有第一错误率的至少一个信道和至少一个附加信道的FEC设备 具有第二错误率,其中第一错误率大于第二错误率。 TxPIC芯片是具有集成在芯片上的调制源阵列的单片多通道芯片,每个调制源阵列以不同的波长工作,其中至少一个调制源以相应的FEC编码信号进行调制。 TxPIC还包括用于组合用于光链路传输的信道的集成波长选择组合器。
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