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    • 3. 发明申请
    • COMPACT OPTICAL MULTIPLEXER AND DEMULTIPLEXER
    • 紧凑光学多路复用器和解复用器
    • US20080118243A1
    • 2008-05-22
    • US11739422
    • 2007-04-24
    • Zhenli WenKevin Dapeng ZhangDongsheng HanFahua Lan
    • Zhenli WenKevin Dapeng ZhangDongsheng HanFahua Lan
    • H04J14/00
    • G02B6/4246G02B6/2746G02B6/29367G02B6/2938G02B6/4214G02B6/4215
    • Spatially-efficient optical multiplexers and optical demultiplexers include elements interrelating along orthogonal axes. A transmission block of extreme thinness has highly reflective coatings on opposed parallel surfaces. Lasers of multiplexer are on one side of transmission block with transmission axes perpendicular to transmission block surface. An associated multiplexed signal transmitting port on opposite side of transmission block has receiving axis parallel to transmission block surface on that side. Detectors of demultiplexer are on one side of transmission block with reception axes perpendicular to transmission block surface. An associated multiplexed signal receiving port on opposite side of transmission block has receiving axis parallel to transmission block surface on that side. A unitary structure performs both optical multiplexer functions and optical demultiplexer function with a single thin transmission block. Related optical signal processing methods are included.
    • 空间效率的光复用器和光解复用器包括沿着正交轴相互关联的元件。 极薄的透射块在相对的平行表面上具有高反射涂层。 多路复用器的激光器位于传输块的一侧,传输轴垂直于传动块表面。 传输块相对侧的相关复用信号发射端口具有平行于该侧传输块表面的接收轴。 多路分解器的检测器位于传输块的一侧,接收轴垂直于传输块表面。 传输块相对侧的相关复用信号接收端口具有平行于该侧传输块表面的接收轴。 单一结构通过单个薄传输块执行光复用器功能和光解复用器功能。 包括相关的光信号处理方法。
    • 4. 发明授权
    • Compact optical multiplexer and demultiplexer
    • 紧凑型光复用器和解复用器
    • US07366371B1
    • 2008-04-29
    • US11739422
    • 2007-04-24
    • Zhenli WenKevin Dapeng ZhangDongsheng HanFahua Lan
    • Zhenli WenKevin Dapeng ZhangDongsheng HanFahua Lan
    • G02B6/28
    • G02B6/4246G02B6/2746G02B6/29367G02B6/2938G02B6/4214G02B6/4215
    • Spatially-efficient optical multiplexers and optical demultiplexers include elements interrelating along orthogonal axes. A transmission block of extreme thinness has highly reflective coatings on opposed parallel surfaces. Lasers of multiplexer are on one side of transmission block with transmission axes perpendicular to transmission block surface. An associated multiplexed signal transmitting port on opposite side of transmission block has receiving axis parallel to transmission block surface on that side. Detectors of demultiplexer are on one side of transmission block with reception axes perpendicular to transmission block surface. An associated multiplexed signal receiving port on opposite side of transmission block has receiving axis parallel to transmission block surface on that side. A unitary structure performs both optical multiplexer functions and optical demultiplexer function with a single thin transmission block. Related optical signal processing methods are included.
    • 空间效率的光复用器和光解复用器包括沿着正交轴相互关联的元件。 极薄的透射块在相对的平行表面上具有高反射涂层。 多路复用器的激光器位于传输块的一侧,传输轴垂直于传动块表面。 传输块相对侧的相关复用信号发射端口具有平行于该侧传输块表面的接收轴。 多路分解器的检测器位于传输块的一侧,其接收轴垂直于传输块表面。 传输块相对侧的相关复用信号接收端口具有平行于该侧传输块表面的接收轴。 单一结构通过单个薄传输块执行光复用器功能和光解复用器功能。 包括相关的光信号处理方法。
    • 5. 发明授权
    • Asymmetrical interleaver and deinterleaver
    • 非对称交织器和解交织器
    • US08218915B2
    • 2012-07-10
    • US12561077
    • 2009-09-16
    • Zhenli WenFan ChenFahua LanKevin Dapeng Zhang
    • Zhenli WenFan ChenFahua LanKevin Dapeng Zhang
    • G02B6/00H04J14/00
    • G02B6/29302G02B6/29386
    • Asymmetrical interleavers and deinterleavers. In one example embodiment, an asymmetrical deinterleaver includes first, second, third, fourth, and fifth filter cells interleaved with first, second, third, and fourth waveplates and followed by a fifth waveplate. The filter cells are configured to filter optical signals propagating on first and second legs of an optical loop. The asymmetrical deinterleaver also includes a retro reflector optically coupled with the filter cells and waveplates. The retro reflector is configured to reflect the optical signals between the first leg and the second leg to form the optical loop. The asymmetrical deinterleaver further includes a single-fiber collimator optically coupled to the first leg of the optical loop and a dual-fiber collimator optically coupled to the second leg of the optical loop.
    • 非对称交织器和解交织器。 在一个示例实施例中,不对称解交织器包括与第一,第二,第三和第四波片交替并且随后是第五波片的第一,第二,第三,第四和第五滤波器单元。 滤波器单元被配置为滤波在光环路的第一和第二支路上传播的光信号。 不对称解交织器还包括与滤波器单元和波片光学耦合的回射反射器。 回射反射器被配置为反射第一支腿和第二支腿之间的光信号以形成光环路。 不对称解交织器还包括光耦合到光环路的第一支路的单光纤准直器和光耦合到光环路的第二支路的双光纤准直器。
    • 6. 发明申请
    • ASYMMETRICAL INTERLEAVER AND DEINTERLEAVER
    • 不对称交互和删除
    • US20110064406A1
    • 2011-03-17
    • US12561077
    • 2009-09-16
    • Zhenli WenFan ChenFahua LanKevin Dapeng Zhang
    • Zhenli WenFan ChenFahua LanKevin Dapeng Zhang
    • H04J14/00
    • G02B6/29302G02B6/29386
    • Asymmetrical interleavers and deinterleavers. In one example embodiment, an asymmetrical deinterleaver includes first, second, third, fourth, and fifth filter cells interleaved with first, second, third, and fourth waveplates and followed by a fifth waveplate. The filter cells are configured to filter optical signals propagating on first and second legs of an optical loop. The asymmetrical deinterleaver also includes a retro reflector optically coupled with the filter cells and waveplates. The retro reflector is configured to reflect the optical signals between the first leg and the second leg to form the optical loop. The asymmetrical deinterleaver further includes a single-fiber collimator optically coupled to the first leg of the optical loop and a dual-fiber collimator optically coupled to the second leg of the optical loop.
    • 非对称交织器和解交织器。 在一个示例实施例中,不对称解交织器包括与第一,第二,第三和第四波片交替并且随后是第五波片的第一,第二,第三,第四和第五滤波器单元。 滤波器单元被配置为滤波在光环路的第一和第二支路上传播的光信号。 不对称解交织器还包括与滤波器单元和波片光学耦合的回射反射器。 回射反射器被配置为反射第一支腿和第二支腿之间的光信号以形成光环路。 不对称解交织器还包括光耦合到光环路的第一支路的单光纤准直器和光耦合到光环路的第二支路的双光纤准直器。
    • 7. 发明申请
    • MULTICHANNEL TUNABLE OPTICAL DISPERSION COMPENSATOR
    • 多通道光源分散补偿器
    • US20110076023A1
    • 2011-03-31
    • US12569134
    • 2009-09-29
    • Fan ChenYongkang HuZhenli WenDongshen HanFahua LanKevin Dapeng Zhang
    • Fan ChenYongkang HuZhenli WenDongshen HanFahua LanKevin Dapeng Zhang
    • H04B10/00H04B10/12
    • H04B10/25133G02B6/272G02B6/29358G02B6/29394G02B6/29395
    • An embodiment of the invention includes a tunable optical dispersion compensator (TODC) comprising a first beam displacer on an optical path, wherein the first beam displacer separates an optical signal into a first beam and a second beam, and one or more polarizing beam splitters on the optical path, wherein the one or more polarizing beam splitters keep the first beam and the second beam on the optical path. The TODC also comprises one or more etalons on the optical path, wherein the one or more etalons are tunable to introduce a group delay in the first beam and the second beam, and a reflecting mirror on the optical path, wherein the reflecting mirror returns the optical signal back along the optical path. The TODC further comprises a second beam displacer, wherein the second beam displacer combines the first beam and the second beam into an output optical signal.
    • 本发明的一个实施例包括一个可调谐光学色散补偿器(TODC),其包括光路上的第一光束置换器,其中第一光束置换器将光信号分离成第一光束和第二光束,以及一个或多个偏振分束器 所述光路,其中所述一个或多个偏振分束器将所述第一光束和所述第二光束保持在所述光路上。 TODC还包括光路上的一个或多个标准具,其中一个或多个标准具可调谐以在第一光束和第二光束中引入群延迟,以及在光路上引入反射镜,其中反射镜返回 光信号沿光路返回。 TODC还包括第二光束置换器,其中第二光束置换器将第一光束和第二光束组合成输出光信号。
    • 8. 发明授权
    • Multichannel tunable optical dispersion compensator
    • 多通道可调谐光学色散补偿器
    • US08818193B2
    • 2014-08-26
    • US12569134
    • 2009-09-29
    • Fan ChenYongkang HuZhenli WenDongshen HanFahua LanKevin Dapeng Zhang
    • Fan ChenYongkang HuZhenli WenDongshen HanFahua LanKevin Dapeng Zhang
    • H04J14/02H04B10/00H04B10/12H04B10/04
    • H04B10/25133G02B6/272G02B6/29358G02B6/29394G02B6/29395
    • An embodiment of the invention includes a tunable optical dispersion compensator (TODC) comprising a first beam displacer on an optical path, wherein the first beam displacer separates an optical signal into a first beam and a second beam, and one or more polarizing beam splitters on the optical path, wherein the one or more polarizing beam splitters keep the first beam and the second beam on the optical path. The TODC also comprises one or more etalons on the optical path, wherein the one or more etalons are tunable to introduce a group delay in the first beam and the second beam, and a reflecting mirror on the optical path, wherein the reflecting mirror returns the optical signal back along the optical path. The TODC further comprises a second beam displacer, wherein the second beam displacer combines the first beam and the second beam into an output optical signal.
    • 本发明的一个实施例包括一个可调谐光学色散补偿器(TODC),其包括光路上的第一光束置换器,其中第一光束置换器将光信号分离成第一光束和第二光束,以及一个或多个偏振分束器 所述光路,其中所述一个或多个偏振分束器将所述第一光束和所述第二光束保持在所述光路上。 TODC还包括光路上的一个或多个标准具,其中一个或多个标准具可调谐以在第一光束和第二光束中引入群延迟,以及在光路上引入反射镜,其中反射镜返回 光信号沿光路返回。 TODC还包括第二光束置换器,其中第二光束置换器将第一光束和第二光束组合成输出光信号。
    • 9. 发明申请
    • OPTICAL INTERLEAVER AND DEINTERLEAVER
    • 光学交互和去除
    • US20110069959A1
    • 2011-03-24
    • US12565668
    • 2009-09-23
    • Fan ChenZhenli WenFahua LanKevin Dapeng Zhang
    • Fan ChenZhenli WenFahua LanKevin Dapeng Zhang
    • H04J14/02
    • G02B6/29386G02B6/29362
    • Optical interleavers and deinterleavers. In one example embodiment, an optical deinterleaver includes first, second, and third filter cells interleaved with first and second waveplates. The filter cells are configured to filter optical signals propagating on first, second, and third paths of an optical loop. The optical deinterleaver also includes a retro reflector optically coupled with the filter cells and waveplates. The retro reflector is configured to reflect the optical signals between the first path and the second and third paths to form the optical loop. The optical deinterleaver further includes first, second, and third single-fiber collimators optically coupled to the first, second, and third paths of the optical loop, respectively.
    • 光交织器和解交织器。 在一个示例实施例中,光学去交织器包括与第一和第二波片交错的第一,第二和第三滤波器单元。 滤波器单元被配置为滤波在光环路的第一,第二和第三路径上传播的光信号。 光学去交织器还包括与滤波器单元和波片光学耦合的回射反射器。 后向反射器被配置为反射第一路径和第二和第三路径之间的光信号以形成光环路。 光学去交织器还包括分别光耦合到光环路的第一,第二和第三路径的第一,第二和第三单光纤准直器。