公开(公告)号：US06611332B2

公开(公告)日：2003-08-26

申请号：US09239792

申请日：1999-01-29

Applicant: Seiji Funakawa

Inventor： Seiji Funakawa

IPC: H01S3067

CPC classification number: G01J1/42 ,  G01J1/16

Abstract: A wavelength-variable light source apparatus having a wavelength measurement function for measuring the wavelength characteristic of an object to be measured. In the apparatus, a CPU outputs control signals for controlling components of a light power meter section via a bus for controlling a light detection operation. When the CPU obtains light detection level data detected by the light power meter section from light passing through an object to be measured, the CPU stores the light detection level data for each wavelength in the object to be measured in an RAM and causes a display control section to display the light detection level on a display section. Further, the CPU executes wavelength analysis processing according to a wavelength analysis program stored in an ROM, analyzes the light wavelength characteristic of the object to be measured based on the light detection level data for each wavelength stored in the RAM, and causes the display control section to display the analysis result on the display section.

Abstract translation: 一种具有用于测量待测物体的波长特性的波长测量功能的波长可变光源装置。 在该装置中，CPU经由用于控制光检测操作的总线输出用于控制光功率计部件的部件的控制信号。 当CPU从通过待测物体的光获取由光功率计部检测出的光检测水平数据时，CPU将待测物体中的每个波长的光检测电平数据存储在RAM中，并且进行显示控制 显示部分显示光线检测等级。 此外，CPU根据存储在ROM中的波长分析程序执行波长分析处理，基于存储在RAM中的每个波长的光检测电平数据分析被测量对象的光波长特性，并且使显示控制 在显示部分显示分析结果。

公开(公告)号：US06778564B2

公开(公告)日：2004-08-17

申请号：US10066062

申请日：2002-01-31

Applicant: Seiji Funakawa

Inventor： Seiji Funakawa

IPC: H01S310

CPC classification number: H01S5/141 ,  H01S5/0622 ,  H01S5/143

Abstract: Lenses 102, 103, and 104, a diffraction grating 105, a mirror 106, a light isolator 107, an arm 108, a pulse motor 109, and a pulse motor 110 operate in conjunction for mechanically roughly adjusting the wavelength of laser light generated by an LD 101, and the wavelength of laser light generated by the LD 101 is electrically finely adjusted in a wavelength adjustment section 30.

Abstract translation: 透镜102,103和104，衍射光栅105，反射镜106，光隔离器107，臂108，脉冲电动机109和脉冲电动机110联合操作，用于机械地大致调节由 LD 101，并且在波长调节部分30中对由LD 101产生的激光的波长进行电微调。

公开(公告)号：US6009712A

公开(公告)日：2000-01-04

申请号：US121442

申请日：1998-07-23

Applicant: Akishige Ito ,  Seiji Funakawa

Inventor： Akishige Ito ,  Seiji Funakawa

IPC: H01L23/38 ,  F25B21/02 ,  G05D23/19 ,  H01L31/02 ,  H01L31/024 ,  H01L33/64 ,  H01S5/00 ,  F25D15/00

CPC classification number: H01L31/024 ,  F25B21/02 ,  G05D23/1919

Abstract: A temperature controller of an optical module package comprises an optical element and first thermistor fixedly held over a first Peltier element housed in an optical module package with a base interposed therebetween; a second thermistor housed in the optical module package; and a second Peltier element with the optical module package fixedly attached thereon with a mount interposed therebetween. While temperature control of the optical module package is achieved by monitoring the temperature of the optical module package with the second thermistor and controlling the second Peltier element, temperature control of the optical element is achieved by monitoring the temperature of the optical element with the first thermistor and controlling the first Peltier element. The temperature controller of the optical module package is impervious to the effect of open air temperature and capable of saving required space.

Abstract translation: 光学模块封装的温度控制器包括光学元件和固定地保持在容纳在光学模块封装中的第一珀尔帖元件上的第一热敏电阻，其中插入有基座; 容纳在所述光学模块封装中的第二热敏电阻; 以及第二珀耳帖元件，其中光学模块封装固定地附接在其上，其间安装有安装件。 通过用第二热敏电阻监测光学模块封装的温度并控制第二珀耳帖元件来实现光学模块封装的温度控制，通过用第一热敏电阻监测光学元件的温度来实现光学元件的温度控制 并控制第一珀尔帖元件。 光学模块封装的温度控制器不受透气温度的影响，能够节省空间。

公开(公告)号：US06922418B2

公开(公告)日：2005-07-26

申请号：US10382632

申请日：2003-03-07

Applicant: Seiji Funakawa

Inventor： Seiji Funakawa

IPC: H01S3/139 ,  H01S5/0687 ,  H01S5/14 ,  H01S3/10

CPC classification number: H01S5/0687 ,  H01S3/1392 ,  H01S5/141 ,  H01S5/143

Abstract: A wavelength-variable light source apparatus having a wavelength calibration function of emitted light therefrom. The apparatus includes a semiconductor laser light source section, an external resonance section having a reflection surface for externally resonating emitted light from the semiconductor laser light source section at a predetermined reflection wavelength, a drive section for moving a position of the reflection surface in the external resonance section for varying an external resonance condition, a control section for controlling a variable move distance of the reflection surface in the drive section, and a wavelength detection section comprising a gas cell having a wavelength absorption characteristic absorbing light at a plurality of specific wavelengths for sweeping light emitted from the external resonance section into the gas cell and detecting an absorption wavelength of the emitted light, wherein the control section controls the move distance of the reflection surface in the drive section based on the absorption wavelength detected by the wavelength detection section.

Abstract translation: 具有从其发射的光的波长校准功能的波长可变光源装置。 该装置包括半导体激光光源部分，具有用于以预定反射波长将来自半导体激光光源部分的发射光外部谐振的反射表面的外部谐振部分，用于使外部的反射表面的位置移动的驱动部分 用于改变外部谐振条件的谐振部分，用于控制驱动部分中的反射表面的可变移动距离的控制部分和包括具有吸收多个特定波长的光的波长吸收特性的气室的波长检测部分， 从外部共振部分射出的扫描光进入气室并检测发射光的吸收波长，其中控制部分基于由波长检测部分检测到的吸收波长来控制驱动部分中的反射表面的移动距离。

公开(公告)号：US06795196B2

公开(公告)日：2004-09-21

申请号：US10077673

申请日：2002-02-15

Applicant: Seiji Funakawa

Inventor： Seiji Funakawa

IPC: G01B902

CPC classification number: G01J3/06

Abstract: Light under measurement whose wavelength is continuously swept is incident on fiber-optic Etalon. The fiber-optic Etalon transmits the light under measurement each time the wavelength of the light under measurement satisfies specific conditions. A PD detects the transmitted light of the fiber-optic Etalon and outputs the intensity of the light under measurement. A counter counts the number of peaks of the output of the PD. A CPU calculates the wavelength of the light under measurement based on the count value of the counter.

Abstract translation: 波长不断扫描的测量光入射到光纤Etalon上。 每次测量光的波长满足特定条件时，光纤Etalon会传输测量光。 PD检测光纤Etalon的透射光，并输出测量光的强度。 计数器计数PD输出的峰值数。 CPU根据计数器的计数值计算被测光的波长。

公开(公告)号：US06343091B1

公开(公告)日：2002-01-29

申请号：US09160442

申请日：1998-09-25

Applicant: Seiji Funakawa

Inventor： Seiji Funakawa

IPC: H10S308

CPC classification number: H01S5/141 ,  H01S3/0812 ,  H01S5/143

Abstract: The present invention provides an external resonator light source which, by removing natural emitted light, is able to send out only light which has an extremely high wavelength purity. As shown in FIG. 1, the present invention's external resonator light source is provided with a light amplifying element 21; a first light reflecting means 22 disposed to the side of one outgoing light edge surface 21a of the light amplifying element 21; a wavelength selecting element 23 disposed to the side of the other outgoing light edge surface 21b of the light amplifying element 21; and a second light reflecting means 24 which reflects and/or transmits outgoing light 31a from the wavelength selecting element 23, and which, together with the first light reflecting means 22, forms a light resonator; wherein outgoing light from the wavelength selecting element 23 is output as transmitted light 32 from the second light reflecting means 24.

Abstract translation: 本发明提供一种外部谐振器光源，其通过去除自然发射的光，能够仅发出具有极高波长纯度的光。 如图所示。 如图1所示，本发明的外部谐振器光源设置有光放大元件21; 设置在光放大元件21的一个出射光边缘表面21a侧的第一光反射装置22; 布置在光放大元件21的另一个出射光边缘表面21b侧的波长选择元件23; 以及从波长选择元件23反射和/或透射出射光31a的第二光反射装置24，与第一光反射装置22一起形成光谐振器; 其中来自波长选择元件23的出射光从第二光反射装置24输出为透射光32。

公开(公告)号：US06842464B2

公开(公告)日：2005-01-11

申请号：US10166697

申请日：2002-06-12

Applicant: Seiji Funakawa ,  Toshiyuki Yagi

Inventor： Seiji Funakawa ,  Toshiyuki Yagi

IPC: H01S3/1055 ,  H01S3/10 ,  H01S3/137 ,  H01S5/10 ,  H01S5/14 ,  H01S3/13

CPC classification number: H01S5/141 ,  H01S5/1078 ,  H01S2301/02

Abstract: A wavelength tunable light source equipment provided with an external resonator light source having a wavelength selection structure inside it and lasing by a wavelength selected by this and a light path changer introducing at least part of the light emitted from the external resonator light source and including a spontaneous emitted light ingredient to the wavelength selection structure so that a wavelength of the light emitted from the external resonator light source and a wavelength selected by the wavelength selection structure become synchronized. Of the light emitted from the external resonator light source, the light introduced to the wavelength selection structure through the light path changer and emitted from it is made the output light. Due to this configuration, it is possible to reduce the resonator loss of the external resonator light source to stabilize the oscillation in the laser resonator, increase the intensity of the output light with the suppressed spontaneous emitted light ingredient, and finely adjust and freely change the relationship between the intensity of the output light including the spontaneous emitted light ingredient and the intensity of the output light with the suppressed spontaneous emitted light ingredient.

Abstract translation: 一种波长可调光源设备，其设置有在其内部具有波长选择结构并由其选择的波长的外部谐振器光源以及引入至少部分从外部谐振器光源发射的光的光路变换器，并且包括 自发发射的光成分到波长选择结构，使得从外部谐振器光源发射的光的波长和由波长选择结构选择的波长变得同步。 从外部谐振器光源发出的光中，通过光路改变器引入波长选择结构并从其发射的光被制成输出光。 由于这种结构，可以减小外部谐振器光源的谐振器损耗，以稳定激光谐振器中的振荡，通过抑制的自发发光成分增加输出光的强度，并且可以精细地自由地改变 包括自发发光成分的输出光的强度与抑制的自发发光成分的输出光强度之间的关系。

公开(公告)号：US06697389B2

公开(公告)日：2004-02-24

申请号：US10171126

申请日：2002-06-13

Applicant: Seiji Funakawa ,  Nobuaki Ema

Inventor： Seiji Funakawa ,  Nobuaki Ema

IPC: H01S310

CPC classification number: H01S5/141 ,  H01S5/0687 ,  H01S5/143

Abstract: In a tunable laser source device for branching a light output from a tunable laser source portion 1 to supply to a wavelength measuring device 6 and a wavelength calibrating reference device 5 and then controlling the tunable laser source portion in response to an output of the wavelength measuring device, at least one peak and one notch or two peaks or two notches or more in a measurement interference period of the wavelength measuring device are included between a plurality of reference wavelengths of the wavelength calibrating reference device.

Abstract translation: 在可调激光源装置中，用于将可调激光源部分1的光输出分支，以供应到波长测量装置6和波长校准参考装置5，然后响应于波长测量的输出来控制可调激光源部分 在所述波长校准参考装置的多个参考波长之间包括在所述波长测量装置的测量干涉期间中的至少一个峰值和一个缺口或两个峰值或两个或多个凹口或更多个凹槽。

公开(公告)号：US06542523B1

公开(公告)日：2003-04-01

申请号：US09239791

申请日：1999-01-29

Applicant: Seiji Funakawa

Inventor： Seiji Funakawa

IPC: G01J351

CPC classification number: H01S5/0687 ,  H01S3/1392 ,  H01S5/141 ,  H01S5/143

Abstract: A wavelength-variable light source apparatus having a wavelength calibration function of emitted light therefrom. The apparatus includes a semiconductor laser light source section, an external resonance section having a reflection surface for externally resonating emitted light from the semiconductor laser light source section at a predetermined reflection wavelength, a drive section for moving a position of the reflection surface in the external resonance section for varying an external resonance condition, a control section for controlling a variable move distance of the reflection surface in the drive section, and a wavelength detection section comprising a gas cell having a wavelength absorption characteristic absorbing light at a plurality of specific wavelengths for sweeping light emitted from the external resonance section into the gas cell and detecting an absorption wavelength of the emitted light, wherein the control section controls the move distance of the reflection surface in the drive section based on the absorption wavelength detected by the wavelength detection section.

Abstract translation: 具有从其发射的光的波长校准功能的波长可变光源装置。 该装置包括半导体激光光源部分，具有用于以预定反射波长将来自半导体激光光源部分的发射光外部谐振的反射表面的外部谐振部分，用于使外部的反射表面的位置移动的驱动部分 用于改变外部谐振条件的谐振部分，用于控制驱动部分中的反射表面的可变移动距离的控制部分和包括具有吸收多个特定波长的光的波长吸收特性的气室的波长检测部分， 从外部共振部分射出的扫描光进入气室并检测发射光的吸收波长，其中控制部分基于由波长检测部分检测到的吸收波长来控制驱动部分中的反射表面的移动距离。

公开(公告)号：US06512582B1

公开(公告)日：2003-01-28

申请号：US09526346

申请日：2000-03-16

Applicant: Tohru Mori ,  Seiji Funakawa

Inventor： Tohru Mori ,  Seiji Funakawa

IPC: G01J306

CPC classification number: G01J3/06

Abstract: In order to start sweeping an optical spectrum analyzer 1 and a wavelength tunable light source 14 on the same timing, a motor 6 for driving a spectroscope 4 in the optical spectrum analyzer 1 is controlled. To this end, a drive circuit 7 outputs a control signal to determine the timing where the motor 6 starts to rotate. A wavelength control circuit 19 in the wavelength tunable light source 14 controls the sweep of the wavelength of single-mode oscillation from a light source unit 20 and starts sweeping the light source unit 20 in response to a signal externally supplied to control the timing of sweep start. As a result, the sweep of the wavelength being measured with the optical spectrum analyzer 1 and that of the wavelength of single-mode oscillation from the wavelength tunable light source 14 are started on the same timing and high-speed sweep is achieved.

Abstract translation: 为了在同一时刻开始扫描光谱分析仪1和波长可调谐光源1​​4，控制用于驱动光谱分析仪1中的分光镜4的电动机6。 为此，驱动电路7输出控制信号以确定电动机6开始旋转的定时。 波长可调光源14中的波长控制电路19控制来自光源单元20的单模振荡的波长的扫描，并响应于外部提供的信号开始扫描光源单元20，以控制扫描的定时 开始。 结果，在相同的定时开始用光谱分析仪1测量的波长的扫描和来自波长可调光源14的单模振荡的波长的扫描，并且实现高速扫描。