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    • 1. 发明授权
    • Delay-line demodulator
    • 延迟线解调器
    • US07884996B2
    • 2011-02-08
    • US12629846
    • 2009-12-02
    • Junichi HasegawaKazutaka Nara
    • Junichi HasegawaKazutaka Nara
    • G02F2/00G02B6/12
    • G02F2/00H04B10/505H04B10/677
    • A delay-line demodulator for demodulating a differential quadrature phase shift keying (DQPSK) signal is provided. The demodulator includes two Mach-Zehnder interferometers individually comprising two waveguides having different lengths therebetween and through which a light signal branched from the DQPSK signal propagates, respectively. A phase of the light signal propagating at one of the waveguides is delayed as compared to a phase of the light signal propagating at another one of the waveguides, wherein a divergence amount of polarization is adjusted by driving sets of heaters that are facing each other and sandwiching a half wavelength plate therebetween.
    • 提供了用于解调差分正交相移键控(DQPSK)信号的延迟线解调器。 解调器包括两个马赫 - 曾德干涉仪,它们分别包括两个不同长度的波导,分别从DQPSK信号分支的光信号通过该波导传播。 与在另一个波导上传播的光信号的相位相比,在波导中的一个传播的光信号的相位被延迟,其中通过驱动彼此面对的加热器组来调节偏振的发散量, 在其间夹着半波片。
    • 2. 发明申请
    • ARRAYED-WAVEGUIDE-GRATING-TYPE OPTICAL MULTIPLEXER/DEMULTIPLEXER
    • 阵列式光栅型光学多路复用器/解复用器
    • US20110008002A1
    • 2011-01-13
    • US12831662
    • 2010-07-07
    • Junichi HASEGAWAKazutaka Nara
    • Junichi HASEGAWAKazutaka Nara
    • G02B6/34G02B6/10
    • G02B6/1203G02B6/12033
    • A multiplexer/demultiplexer includes: a waveguide chip including a first chip and a second chip that are divided by a plane and obtained by cutting, together with a substrate, in a direction crossing an optical axis, a first slab waveguide of an AWG including the first slab waveguide and a second slab waveguide that are formed on the substrate; a first base to which the first chip is fixed; a second base separated from the first base and to which the second chip is fixed; and a member that has one end fixed to the first base or chip and another end fixed to the second base or chip, in a state in which cut surfaces of the first and second chips face each other, and that is configured to move the first base and the second base relatively to each other along the plane by expanding/contracting when temperature changes.
    • 多路复用器/解复用器包括:波导芯片,包括由平面划分得到的第一芯片和第二芯片,所述第一芯片和第二芯片与基板一起沿与光轴交叉的方向切割,所述第一芯片和第二芯片包括AWG的第一平板波导 第一平板波导和形成在基板上的第二平板波导; 固定第一芯片的第一基座; 与所述第一基座分离并且所述第二芯片固定到所述第二基座的第二基座; 以及在第一和第二芯片的切割面彼此面对的状态下固定到第一基座或芯片的一端固定到第二基座或芯片的另一端部,并且构造成将第一 基部和第二基座在温度变化时通过膨胀/收缩沿着平面彼此相对。
    • 3. 发明授权
    • Arrayed-waveguide-grating-type optical multiplexer/demultiplexer
    • 阵列波导光栅型光复用器/解复用器
    • US08457459B2
    • 2013-06-04
    • US12831662
    • 2010-07-07
    • Junichi HasegawaKazutaka Nara
    • Junichi HasegawaKazutaka Nara
    • G02B6/26G02B6/42
    • G02B6/1203G02B6/12033
    • A multiplexer/demultiplexer includes: a waveguide chip including a first chip and a second chip that are divided by a plane and obtained by cutting, together with a substrate, in a direction crossing an optical axis, a first slab waveguide of an AWG including the first slab waveguide and a second slab waveguide that are formed on the substrate; a first base to which the first chip is fixed; a second base separated from the first base and to which the second chip is fixed; and a member that has one end fixed to the first base or chip and another end fixed to the second base or chip, in a state in which cut surfaces of the first and second chips face each other, and that is configured to move the first base and the second base relatively to each other along the plane by expanding/contracting when temperature changes.
    • 多路复用器/解复用器包括:波导芯片,包括由平面划分得到的第一芯片和第二芯片,所述第一芯片和第二芯片与基板一起沿与光轴交叉的方向切割,所述第一芯片和第二芯片包括AWG的第一平板波导 第一平板波导和形成在基板上的第二平板波导; 固定第一芯片的第一基座; 与所述第一基座分离并且所述第二芯片固定到所述第二基座的第二基座; 以及在第一和第二芯片的切割面彼此面对的状态下固定到第一基座或芯片的一端固定到第二基座或芯片的另一端部,并且构造成将第一 基部和第二基座在温度变化时通过膨胀/收缩沿着平面彼此相对。
    • 4. 发明授权
    • Delay demodulation devices
    • 延时解调装置
    • US07978401B2
    • 2011-07-12
    • US12415407
    • 2009-03-31
    • Junichi HasegawaKazutaka Nara
    • Junichi HasegawaKazutaka Nara
    • H04B10/06G02F2/00
    • G02B6/12007G02B6/125H04B10/677
    • The delay demodulation device 1 comprises: an input waveguide 2 which receives DQPSK signals; a Y-branch waveguide 3 which splits the input waveguide 2; a first Mach-Zehnder interferometer 4; and a second Mach-Zehnder interferometer 5. Both end of two arm-waveguides 8, 9 of the first Mach-Zehnder interferometer 4 and both ends of two arm-waveguides 12, 13 of the second Mach-Zehnder interferometer 5 are angled toward the center portion of a planar lightwave circuit (PLC) 1A. Because of the angle, the length of the two arm-waveguides 8, 9 of the first Mach-Zehnder interferometer 4 and the length of the two arm-waveguides 12, 13 of the second Mach-Zehnder interferometer 5 in Z-direction can be shortened, and input couplers 6,10 and output couplers 7,11 of each Mach-Zehnder interferometers in Z-direction can be shortened as well. The area occupied by each Mach-Zehnder interferometers 4, 5 are also reduced.
    • 延迟解调装置1包括:输入波导2,其接收DQPSK信号; 分割输入波导2的Y分支波导3; 第一马赫 - 曾德干涉仪4; 和第二马赫 - 策德尔干涉仪5.第二马赫 - 策德尔干涉仪4的两个臂波导8,9的两端和第二马赫 - 策德尔干涉仪5的两个臂波导12,13的两端相对于 平面光波电路(PLC)1A的中心部分。 由于角度,第一马赫 - 策德尔干涉仪4的两个臂波导8,9的长度和第二马赫 - 策德尔干涉仪5的两个臂波导12,13在Z方向上的长度可以是 每个马赫 - 策德尔干涉仪在Z方向上的缩短和输入耦合器6,10和输出耦合器7,11也可以被缩短。 每个马赫 - 曾德干涉仪4,5所占据的面积也减少了。
    • 5. 发明授权
    • Delay demodulation devices
    • 延时解调装置
    • US07961991B2
    • 2011-06-14
    • US12412932
    • 2009-03-27
    • Junichi HasegawaKazutaka Nara
    • Junichi HasegawaKazutaka Nara
    • G02B6/12
    • G02F2/00G02F2001/212
    • The delay demodulation device 1 comprises an input waveguide 2 which receives DQPSK signals; a Y-branch waveguide 3 which splits the light waveguide 2; a first Mach-Zehnder interferometer (MZI) 4; and a second Mach-Zehnder interferometer 5. Both ends of the arm-waveguides 8, 9 of the MZI 4 and the both ends of the arm-waveguides 12, 13 of the MZI 5 are bent toward the center portion of the planar lightwave circuit (PLC) 1A. Thereby, the length of the arm-waveguides 8, 9 of the MZI 4 and the length of the arm-waveguides of the MZI 5 are shortened in the Z-direction. And, the length of the input couplers 6, 10 and the output couplers 7, 11 of the MZIs 4, 5 are shortened in the Z-direction. Therefore, the area covered by the MZIs 4, 5 can be made smaller.
    • 延迟解调装置1包括接收DQPSK信号的输入波导2; 分离光波导2的Y分支波导3; 第一马赫曾德尔干涉仪(MZI)4; 和第二马赫 - 策德尔干涉仪5.MZI4的臂波导8,9的两端和MZI 5的臂波导12,13的两端朝向平面光波电路的中心部分弯曲 (PLC)1A。 由此,MZI4的臂波导8,9的长度和MZI 5的臂波导的长度在Z方向上缩短。 并且,输入耦合器6,10的长度和MZI 4,5的输出耦合器7,11在Z方向上缩短。 因此,MZI 4,5的覆盖范围可以更小。
    • 7. 发明申请
    • DELAY-LINE DEMODULATOR
    • 延迟线解调器
    • US20090097101A1
    • 2009-04-16
    • US12248871
    • 2008-10-09
    • Junichi HasegawaKazutaka Nara
    • Junichi HasegawaKazutaka Nara
    • G02F2/00
    • G02F2/00H04B10/505H04B10/677
    • Problem to be Solved To provide a delay-line demodulator of which the divergence amount of polarization is reduced.Solution: A delay-line demodulator 1 for a DQPSK signal to be demodulated comprises two of Mach-Zehnder interferometers 6 and 7 individually comprising two of waveguides having different lengths therebetween through which a light signal branched the DQPSK signal propagates respectively, for delaying a phase of the light signal propagating at one of the waveguides as an amount of one symbol comparing to a phase of the light signal propagating at another one of the waveguides, wherein a divergence amount of polarization is adjusted by driving a first heater A and a fourth heater D, or a third heater B and a second heater C, that are facing to each other as sandwiching a half wavelength plate therebetween.
    • 要解决的问题提供减小偏振发散量的延迟线解调器。 解决方案:用于要解调的DQPSK信号的延迟线解调器1包括两个马赫 - 策德尔干涉仪6和7,其分别包括两个不同长度的波导,通过该两个波导分支DQPSK信号的光信号分别传播,以延迟相位 在一个波导上传播的光信号作为与在另一个波导上传播的光信号的相位相比的一个符号的量,其中通过驱动第一加热器A和第四加热器来调节偏振的发散量 D或第三加热器B和第二加热器C,它们彼此面对,将半波长板夹在其间。
    • 8. 发明授权
    • Delay-line demodulator and method of adjusting a phase shift in the demodulator
    • 延迟线解调器和调制解调器相移的方法
    • US07480091B2
    • 2009-01-20
    • US12042768
    • 2008-03-05
    • Junichi HasegawaKazutaka Nara
    • Junichi HasegawaKazutaka Nara
    • G02F2/00
    • G02F1/225G02F1/0147G02F2201/16G02F2201/20H04B10/677
    • In a method of phase adjustment for the demodulator 1 of the present invention, the phase adjustment is performed by driving any one of the heaters on the two waveguides 10 and 11 in the Mach-Zehnder interferometer (MZI) 6 and on the two waveguides 14 and 15 in the MZI 7. In case that an initial phase difference between the MZIs 6 and 7 smaller than a required phase difference as π/2 therebetween, the heaters C and D are driven, that are formed on the first waveguide 10 in the MZI 6, and the heaters G and H are driven, that are formed on the second waveguide 15 in the MZI 7. In case that the initial phase difference is larger than the required phase difference (π/2) therebetween, the heaters A and B formed on the second waveguide 11 in the MZI 6, and the heaters E and F formed on the first waveguide 14 in the MZI 7 are driven.
    • 在本发明的解调器1的相位调整方法中,通过驱动马赫曾德尔干涉仪(MZI)6中的两个波导10和11上的加热器中的任何一个以及两个波导14 在MZI7中为15。在MZI6和7之间的初始相位差小于所要求的相位差为π/ 2的情况下,驱动加热器C和D,在第一波导10上形成 MZI6,并且驱动加热器G和H,其形成在MZI 7中的第二波导15上。在初始相位差大于其间所需的相位差(pi / 2)的情况下,加热器A和 B形成在MZI 6中的第二波导11上,并且形成在MZI 7中的第一波导14上的加热器E和F被驱动。
    • 10. 发明申请
    • HYBRID INTEGRATED OPTICAL MODULE
    • 混合集成光模块
    • US20110110622A1
    • 2011-05-12
    • US12942481
    • 2010-11-09
    • Takeshi AKUTSUJunichi HasegawaKazutaka Nara
    • Takeshi AKUTSUJunichi HasegawaKazutaka Nara
    • G02B6/12H01P11/00
    • G02B6/4225Y10T29/49016
    • The present invention provides a hybrid integrated optical module having a high coupling efficiency by suppressing a connection loss between waveguides. A hybrid integrated optical module according to an embodiment of the present invention is an optical module which integrates a semiconductor chip and a PLC chip. The semiconductor chip has a semiconductor waveguide and is mounted on a Si bench. The PLC chip includes a PLC substrate and an optical waveguide formed on the PLC substrate. An end face of the semiconductor chip protrudes from an end face of the Si bench toward the PLC chip side by a protrusion amount X. Gap adjustment (adjustment of a distance D) between the semiconductor waveguide and the optical waveguide becomes possible by setting a position where the end face of the semiconductor chip is brought into contact with an end face of the PLC chip to be a reference position (zero point).
    • 本发明通过抑制波导之间的连接损耗来提供具有高耦合效率的混合集成光模块。 根据本发明的实施例的混合集成光学模块是集成了半导体芯片和PLC芯片的光学模块。 半导体芯片具有半导体波导并且安装在Si台架上。 PLC芯片包括形成在PLC基板上的PLC基板和光波导。 半导体芯片的端面从Si台架的端面朝向PLC芯片侧突出突出量X.通过设置半导体波导和光波导之间的间隙调整(距离D的调整)可以进行位置 其中半导体芯片的端面与PLC芯片的端面接触成为基准位置(零点)。