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    • 1. 发明授权
    • Optical wavelength filter
    • 光波长滤波器
    • US08619216B1
    • 2013-12-31
    • US13491029
    • 2012-06-07
    • Seong Woo Suh
    • Seong Woo Suh
    • G02F1/1335
    • G02B5/30G02B6/12019G02F1/13
    • An optical wavelength selective device includes a waveguide grating unit to separate input beam signals with different wavelengths into a plurality of output beam signals, each of which has a different wavelength span and is output from a different channel region of the waveguide grating unit; a polarization splitting unit to split each of the output beam signals into a first polarized beam with a first polarization and a second polarized beam with a second polarization different from the first polarization; a birefringence control member to control the first polarized beam to undergo a different refractive effect than the second polarized beam when the first and second polarized beams pass through the birefringence control member under a first voltage applied thereto; and a reflection member configured to reflect the first and second polarized beams output from the birefringence control member back to the birefringence control member.
    • 光波长选择装置包括波导光栅单元,用于将具有不同波长的输入波束信号分离成多个输出波束信号,每个输出波束信号具有不同的波长跨度,并从波导光栅单元的不同通道区域输出; 偏振分束单元,用于将每个输出光束信号分离为具有第一偏振的第一偏振光束和具有不同于第一偏振的第二偏振的第二偏振光束; 当第一和第二偏振光束以施加于其上的第一电压通过双折射控制部件时,控制第一偏振光束经受与第二偏振光束不同的折射效应的双折射控制部件; 以及反射构件,被配置为将从双折射控制构件输出的第一和第二偏振光束反射回双折射控制构件。
    • 2. 发明申请
    • OPTICAL WAVELENGTH SELECTIVE ROUTER
    • 光波长选择路由器
    • US20110033151A1
    • 2011-02-10
    • US12911661
    • 2010-10-25
    • Gil COHENSeong Woo SuhYossi Corem
    • Gil COHENSeong Woo SuhYossi Corem
    • G02B6/35
    • G02B6/29383G02B6/2713G02B6/29311G02B6/29313G02B6/3512G02B6/3548G02B6/356G02B6/3594H04J14/0212H04J14/0219H04Q11/0005H04Q2011/003H04Q2011/0035
    • A fiber-optical, wavelength selective switch, especially for channel routing with equalization and blocking applications. The input signals are converted to light beams having predefined polarizations (41). The beams are then laterally expanded (43), and then undergo spatial dispersion in the beam expansion plane. The different wavelength components are directed through a polarization rotation device, pixilated along the wavelength dispersion direction such that each pixel operates on a separate wavelength. Each beam is passed into a pixilated beam steering array (48), for directing each wavelength to a desired output port. The beam steering devices can be MEMS-based or Liquid crystal-based, or an LCOS array. When the appropriate voltage is applied to a pixel and its associated beam steering element, the polarization of the light passing through the pixel is rotated and the beam steered to couple to the selected output port.
    • 一种光纤,波长选择开关,特别适用于具有均衡和阻塞应用的信道路由。 输入信号被转换成具有预定极化的光束(41)。 然后将梁横向膨胀(43),然后在梁膨胀平面中进行空间色散。 不同的波长分量被引导通过偏振旋转装置,沿着波长色散方向被像素化,使得每个像素在单独的波长上操作。 每个光束被传送到像素化的光束操纵阵列(48)中,用于将每个波长指向所需的输出端口。 光束转向装置可以是基于MEMS的或基于液晶的或LCOS阵列。 当适当的电压施加到像素及其相关联的光束操纵元件时,通过像素的光的偏振被旋转,并且光束被转向以耦合到所选择的输出端口。
    • 3. 发明授权
    • Variable optical attenuator (VOA)
    • 可变光衰减器(VOA)
    • US08620131B2
    • 2013-12-31
    • US13250180
    • 2011-09-30
    • Seong Woo Suh
    • Seong Woo Suh
    • G02B6/00
    • G02B6/266G02B6/3594G02F1/1326G02F2203/48
    • A variable optical attenuator includes a collimating unit that collimates an incident light beam, a polarization splitting member that separates the collimated light beam into a first polarized light beam having a first polarization and a second polarized light beam having a second polarization, a birefringence control unit through which the first and second polarized light beams pass, the birefringence control unit including a liquid crystal cell having a birefringence is controlled by a voltage or current, wherein the birefringence of the liquid crystal cell is substantially zero when no voltage or current is applied thereto, and a reflection member that reflects the first and second polarized light beams output from the birefringence control unit. The variable optical attenuator has high stability, high precision, and low volume.
    • 可变光衰减器包括准直入射光束的准直单元,将准直光束分离为具有第一偏振的第一偏振光束和具有第二偏振的第二偏振光束的偏振分束构件,双折射控制单元 通过第一和第二偏振光束通过的双折射控制单元,包括具有双折射性的液晶单元的双折射控制单元由电压或电流控制,其中当不施加电压或电流时液晶单元的双折射基本上为零 以及反射从双折射控制单元输出的第一和第二偏振光的反射构件。 可变光衰减器稳定性高,精度高,体积小。
    • 4. 发明申请
    • Single-Pole Optical Wavelength Selector
    • 单极光波长选择器
    • US20080181559A1
    • 2008-07-31
    • US11914946
    • 2006-05-18
    • Yossi CoremSeong Woo SuhBoris FrenkelHaggai Arbell
    • Yossi CoremSeong Woo SuhBoris FrenkelHaggai Arbell
    • G02B6/42
    • G02F1/31G02B6/272G02B6/29311
    • A fiber-optical, wavelength selective switch, especially for channel blocking applications. The input signal is converted to light beams having predefined polarizations relative to the plane in which optical manipulation of the beam is performed. The beams are then preferably laterally expanded in this system plane only, and then spatially dispersed in the beam expansion plane, preferably by means of a diffraction grating. The light is directed through a polarization rotation device, preferably a liquid crystal cell, pixelated along the wavelength dispersive direction such that each pixel operates on a separate wavelength. When the appropriate control voltage is applied to a pixel, the polarization of the light signal passing through that pixel is rotated. The wavelength dispersed beams from all of the pixels are then recombined, and are passed towards a polarization selective device, aligned such that only selected polarization components are transmitted out of the switch.
    • 光纤,波长选择开关,特别适用于通道阻塞应用。 输入信号被转换成相对于其中执行光束的光学操作的平面具有预定极化的光束。 然后优选地,梁在该系统平面中仅横向膨胀,然后优选地通过衍射光栅在空间上分散在光束扩展平面中。 光被引导通过偏振旋转装置,优选地是沿着波长色散方向像素化的液晶单元,使得每个像素在单独的波长上操作。 当对像素施加适当的控制电压时,通过该像素的光信号的偏振旋转。 然后将来自所有像素的波长分散光束重新组合,并且被传送到偏振选择装置,对准使得仅选择的偏振分量被传送出开关。
    • 5. 发明申请
    • VARIABLE OPTICAL ATTENUATOR (VOA)
    • 可变光学衰减器(VOA)
    • US20120081625A1
    • 2012-04-05
    • US13250180
    • 2011-09-30
    • Seong Woo SUH
    • Seong Woo SUH
    • G02F1/133G02B6/00
    • G02B6/266G02B6/3594G02F1/1326G02F2203/48
    • A variable optical attenuator includes a collimating unit that collimates an incident light beam, a polarization splitting member that separates the collimated light beam into a first polarized light beam having a first polarization and a second polarized light beam having a second polarization, a birefringence control unit through which the first and second polarized light beams pass, the birefringence control unit including a liquid crystal cell having a birefringence is controlled by a voltage or current, wherein the birefringence of the liquid crystal cell is substantially zero when no voltage or current is applied thereto, and a reflection member that reflects the first and second polarized light beams output from the birefringence control unit. The variable optical attenuator has high stability, high precision, and low volume.
    • 可变光衰减器包括准直入射光束的准直单元,将准直光束分离为具有第一偏振的第一偏振光束和具有第二偏振的第二偏振光束的偏振分束构件,双折射控制单元 通过第一和第二偏振光束通过的双折射控制单元,包括具有双折射性的液晶单元的双折射控制单元由电压或电流控制,其中当不施加电压或电流时液晶单元的双折射基本上为零 以及反射从双折射控制单元输出的第一和第二偏振光的反射构件。 可变光衰减器稳定性高,精度高,体积小。
    • 6. 发明申请
    • OPTICAL WAVELENGTH FILTER
    • 光波长滤波器
    • US20130329145A1
    • 2013-12-12
    • US13491029
    • 2012-06-07
    • Seong Woo SUH
    • Seong Woo SUH
    • G02F1/13G02B5/30
    • G02B5/30G02B6/12019G02F1/13
    • An optical wavelength selective device includes a waveguide grating unit to separate input beam signals with different wavelengths into a plurality of output beam signals, each of which has a different wavelength span and is output from a different channel region of the waveguide grating unit; a polarization splitting unit to split each of the output beam signals into a first polarized beam with a first polarization and a second polarized beam with a second polarization different from the first polarization; a birefringence control member to control the first polarized beam to undergo a different refractive effect than the second polarized beam when the first and second polarized beams pass through the birefringence control member under a first voltage applied thereto; and a reflection member configured to reflect the first and second polarized beams output from the birefringence control member back to the birefringence control member.
    • 光波长选择装置包括波导光栅单元,用于将具有不同波长的输入波束信号分离成多个输出波束信号,每个输出波束信号具有不同的波长跨度,并从波导光栅单元的不同通道区域输出; 偏振分束单元,用于将每个输出光束信号分离为具有第一偏振的第一偏振光束和具有不同于第一偏振的第二偏振的第二偏振光束; 当第一和第二偏振光束以施加于其上的第一电压通过双折射控制部件时,控制第一偏振光束经受与第二偏振光束不同的折射效应的双折射控制部件; 以及反射构件,被配置为将从双折射控制构件输出的第一和第二偏振光束反射回双折射控制构件。
    • 7. 发明授权
    • Optical wavelength selective router
    • 光波长选择性路由器
    • US08078019B2
    • 2011-12-13
    • US12911661
    • 2010-10-25
    • Gil CohenSeong Woo SuhYossi Corem
    • Gil CohenSeong Woo SuhYossi Corem
    • G02B6/26
    • G02B6/29383G02B6/2713G02B6/29311G02B6/29313G02B6/3512G02B6/3548G02B6/356G02B6/3594H04J14/0212H04J14/0219H04Q11/0005H04Q2011/003H04Q2011/0035
    • A fiber-optical, wavelength selective switch, especially for channel routing with equalization and blocking applications. The input signals are converted to light beams having predefined polarizations (41). The beams are then laterally expanded (43), and then undergo spatial dispersion in the beam expansion plane. The different wavelength components are directed through a polarization rotation device, pixilated along the wavelength dispersion direction such that each pixel operates on a separate wavelength. Each beam is passed into a pixilated beam steering array (48), for directing each wavelength to a desired output port. The beam steering devices can be MEMS-based or Liquid crystal-based, or an LCOS array. When the appropriate voltage is applied to a pixel and its associated beam steering element, the polarization of the light passing through the pixel is rotated and the beam steered to couple to the selected output port.
    • 一种光纤,波长选择开关,特别适用于具有均衡和阻塞应用的信道路由。 输入信号被转换成具有预定极化的光束(41)。 然后将梁横向膨胀(43),然后在梁膨胀平面中进行空间色散。 不同的波长分量被引导通过偏振旋转装置,沿着波长色散方向被像素化,使得每个像素在单独的波长上操作。 每个光束被传送到像素化的光束操纵阵列(48)中,用于将每个波长指向所需的输出端口。 光束转向装置可以是基于MEMS的或基于液晶的或LCOS阵列。 当适当的电压施加到像素及其相关联的光束操纵元件时,通过像素的光的偏振被旋转,并且光束被转向以耦合到所选择的输出端口。
    • 8. 发明授权
    • Seal pattern for liquid crystal device
    • 液晶装置密封图案
    • US06473148B1
    • 2002-10-29
    • US09724982
    • 2000-11-28
    • Seong Woo Suh
    • Seong Woo Suh
    • G02F11335
    • G02F1/1339
    • A seal pattern formed on a substrate of a liquid crystal device (LCD) is provided. The seal pattern at least includes a primary seal pattern that substantially surrounds the active area of the LCD and a dummy seal pattern that is formed at least partially inside the primary seal pattern. The dummy seal pattern can be formed substantially around one or more active areas of the LCD. The dummy seal pattern includes a plurality of discontinuous seal portions. Methods for making an LCD with the seal pattern according to this invention are also provided.
    • 提供形成在液晶装置(LCD)的基板上的密封图案。 密封图案至少包括基本上围绕LCD的有效区域的主密封图案和至少部分地形成在主密封图案内部的虚拟密封图案。 虚拟密封图案可以基本上围绕LCD的一个或多个有效区域形成。 假密封图案包括多个不连续的密封部分。 还提供了制造具有根据本发明的密封图案的LCD的方法。
    • 9. 发明授权
    • Polymer-dispersed ferroelectric liquid crystal display
    • 聚合物分散铁电液晶显示器
    • US5790217A
    • 1998-08-04
    • US619635
    • 1996-06-24
    • Sin Doo LeeSeong Woo SuhKye Hun Lee
    • Sin Doo LeeSeong Woo SuhKye Hun Lee
    • G02F1/1333G02F1/1334G02F1/1335G02F1/141
    • G02F1/1334G02F1/141
    • The present invention discloses a novel Polymer-Dispersed Ferroelectric Liquid Crystal Display (PDF LCD). The active matrix LCD such as a TFT LCD, the solution of low response speed of nematic LCD, requires very high production costs. The FLCD utilizing ferroelectric liquid crystal exhibits highly rapid response speed, but results in an unstable structure, difficult fabrication, and incompetency of expressing gray scales. Meanwhile, the PD LCD exhibits a simple structure, wide viewing angle and high strength, but low contrast thereof disqualifies it for image displays. The present invention combines the PD LCD and FLCD, that is, droplets of ferroelectric liquid crystal are dispersed in a polymer matrix to include the merits and compensate for the shortcomings of each. As a result, there is provided a novel PDF LCD having very rapid response speed, resistance to external shock or heat, and high contrast. Moreover, the present PDF LCD does not exhibit bistable characteristics to be able to express gray scales, and thus it is suitable for fabricating large area color image displays.
    • PCT No.PCT / KR94 / 00106 Sec。 371日期1996年6月24日 102(e)日期1996年6月24日PCT 1994年8月5日PCT公布。 第WO96 / 04586号公报 日期:1996年2月15日本发明公开了一种新型聚合物分散铁电液晶显示器(PDF LCD)。 诸如TFT LCD的有源矩阵LCD,向列型LCD的低响应速度的解决方案需要非常高的生产成本。 使用铁电液晶的FLCD反应速度非常快,但结构不稳定,制造难度大,表面灰度不足。 同时,PD液晶显示器结构简单,视角广,强度高,但对比度低,不利于图像显示。 本发明将PD LCD和FLCD组合在一起,即将铁电液晶的液滴分散在聚合物基质中以包括其优点并补偿其中的缺点。 因此,提供了一种具有非常快的响应速度,耐外部冲击或热量以及高对比度的新型PDF LCD。 此外,本发明的PDF LCD不具有能够表达灰度级的双稳态特性,因此适用于制造大面积彩色图像显示器。