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    • 4. 发明申请
    • SPECTROSCOPY MODULE
    • 光谱模块
    • US20110299077A1
    • 2011-12-08
    • US13208774
    • 2011-08-12
    • Katsumi SHIBAYAMATomofumi SuzukiMasaki Hirose
    • Katsumi SHIBAYAMATomofumi SuzukiMasaki Hirose
    • G01J3/02
    • G01J3/2803G01J3/02G01J3/0202G01J3/0208G01J3/0243G01J3/0259G01J3/0262G01J3/0286G01J3/18
    • In a spectroscopy module 1, a light passing hole 50 through which a light L1 advancing to a spectroscopic portion 4 passes is formed in a light detecting element 5. Therefore, it is possible to prevent the relative positional relationship between the light passing hole 50 and a light detecting portion 5a of the light detecting element 5 from deviating. Moreover, the light detecting element 5 is bonded to a front plane 2a of a substrate 2 with an optical resin adhesive 63. Thus, it is possible to reduce a stress generated onto the light detecting element 5 due to a thermal expansion difference between the light detecting element 5 and the substrate 2. Additionally, on the light detecting element 5, a first convex portion 101 is formed so as to be located at least between the light detecting portion 5a and the light passing hole 50 when viewed from a direction substantially perpendicular to the front plane 2a. Thus, when the light detecting element 5 is attached to the substrate 2 via the optical resin adhesive 63, the optical resin adhesive 63 is dammed at the first convex portion 101. Thus, the optical resin adhesive 63 is prevented from penetrating into the light passing hole 50.
    • 在光谱模块1中,在光检测元件5中形成有通过向分光部4前进的光L1通过的光通过孔50.因此,能够防止光通过孔50与 光检测元件5的光检测部分5a偏离。 此外,光检测元件5利用光学树脂粘合剂63接合到基板2的前面2a。因此,可以减少由于光的热膨胀差而在光检测元件5上产生的应力 检测元件5和基板2.此外,在光检测元件5上,当从基本上垂直的方向观察时,形成至少位于光检测部分5a和光通过孔50之间的第一凸部101 到前平面2a。 因此,当光检测元件5经由光学树脂粘合剂63安装到基板2上时,光学树脂粘合剂63被阻挡在第一凸部101处。因此,防止光学树脂粘合剂63渗透到光通过 孔50。
    • 5. 发明申请
    • METHOD FOR MANUFACTURING SPECTROSCOPY MODULE, AND SPECTROSCOPY MODULE
    • 制造光谱模块的方法和光谱模块
    • US20090290154A1
    • 2009-11-26
    • US12464267
    • 2009-05-12
    • Katsumi SHIBAYAMATomofumi SUZUKI
    • Katsumi SHIBAYAMATomofumi SUZUKI
    • G01J3/28B23P11/00
    • G01J3/18G01J3/02G01J3/0202G01J3/0208G01J3/0243G01J3/0259G01J3/0262G01J3/04G01J3/2803Y10T29/49826Y10T29/49895Y10T156/10
    • In a spectroscopy module 1, a light detecting element 5 having a light passing hole 50 is used. Therefore, it is possible to prevent the relative positional relationship between the light passing hole 50 and a light detecting portion 5a of the light detecting element 5 from deviating. Moreover, the light detecting element 5 is electrically connected to a wiring 9 formed on a front plane 2a of a substrate 2 by face-down bonding, and a resin layer 79 is formed as an underfill resin between the substrate 2 and the light detecting element 5. Therefore, it is possible to improve the fixing strength between the substrate 2 and the light detecting element 5. Additionally, before the resin layer 79 is formed, a resin layer 78 is formed along a guide portion 77 that surrounds the passing hole 50. Thus, the resin layer 79 is prevented from penetrating into the light passing hole 50, which makes it possible to make a light be appropriately incident into the substrate 2.
    • 在光谱模块1中,使用具有光通过孔50的光检测元件5。 因此,可以防止光通过孔50和光检测元件5的光检测部分5a之间的相对位置关系偏离。 此外,光检测元件5通过面朝下接合与形成在基板2的前面2a上的布线9电连接,并且在基板2和光检测元件之间形成树脂层79作为底部填充树脂 因此,可以提高基板2和光检测元件5之间的固定强度。另外,在形成树脂层79之前,沿着包围通孔50的引导部77形成树脂层78 因此,防止了树脂层79渗入光通过孔50,这使得可以使光适当地入射到基板2中。
    • 6. 发明申请
    • SPECTROSCOPY MODULE
    • 光谱模块
    • US20090290155A1
    • 2009-11-26
    • US12464273
    • 2009-05-12
    • Katsumi SHIBAYAMATomofumi SUZUKIMasaki HIROSE
    • Katsumi SHIBAYAMATomofumi SUZUKIMasaki HIROSE
    • G01J3/28
    • G01J3/2803G01J3/02G01J3/0202G01J3/0208G01J3/0243G01J3/0259G01J3/0262G01J3/0286G01J3/18
    • In a spectroscopy module 1, a light passing hole 50 through which a light L1 advancing to a spectroscopic portion 4 passes is formed in a light detecting element 5. Therefore, it is possible to prevent the relative positional relationship between the light passing hole 50 and a light detecting portion 5a of the light detecting element 5 from deviating. Moreover, the light detecting element 5 is bonded to a front plane 2a of a substrate 2 with an optical resin adhesive 63. Thus, it is possible to reduce a stress generated onto the light detecting element 5 due to a thermal expansion difference between the light detecting element 5 and the substrate 2. Additionally, on the light detecting element 5, a first convex portion 101 is formed so as to be located at least between the light detecting portion 5a and the light passing hole 50 when viewed from a direction substantially perpendicular to the front plane 2a. Thus, when the light detecting element 5 is attached to the substrate 2 via the optical resin adhesive 63, the optical resin adhesive 63 is dammed at the first convex portion 101. Thus, the optical resin adhesive 63 is prevented from penetrating into the light passing hole 50.
    • 在光谱模块1中,在光检测元件5中形成有通过向分光部4前进的光L1通过的光通过孔50.因此,能够防止光通过孔50与 光检测元件5的光检测部分5a偏离。 此外,光检测元件5利用光学树脂粘合剂63接合到基板2的前面2a。因此,可以减少由于光的热膨胀差而在光检测元件5上产生的应力 检测元件5和基板2.此外,在光检测元件5上,当从基本上垂直的方向观察时,形成至少位于光检测部分5a和光通过孔50之间的第一凸部101 到前平面2a。 因此,当光检测元件5经由光学树脂粘合剂63安装到基板2上时,光学树脂粘合剂63被阻挡在第一凸部101处。因此,防止光学树脂粘合剂63渗透到光通过 孔50。
    • 7. 发明申请
    • SPECTROSCOPY MODULE
    • 光谱模块
    • US20090284741A1
    • 2009-11-19
    • US12465276
    • 2009-05-13
    • Katsumi SHIBAYAMATomofumi SUZUKI
    • Katsumi SHIBAYAMATomofumi SUZUKI
    • G01J3/02
    • G01J3/02G01J3/0208G01J3/0243G01J3/0256G01J3/0259G01J3/0286G01J3/0297
    • In a spectroscopy module 1, a light passing hole 50 through which a light L1 advancing to a spectroscopic portion 4 passes is formed in a light detecting element 5. Therefore, it is possible to prevent the relative positional relationship between the light passing hole 50 and a light detecting portion 5a of the light detecting element 5 from deviating. Moreover, the light detecting element 5 is bonded to a front plane 2a of a substrate 2 with an optical resin adhesive 63. Thus, it is possible to reduce a stress generated onto the light detecting element 5 due to a thermal expansion difference between the light detecting element 5 and the substrate 2. Additionally, on the light detecting element 5, a first pool portion 101 is formed so as to be located at least between the light detecting portion 5a and the light passing hole 50 when viewed from a direction substantially perpendicular to the front plane 2a. Thus, when the light detecting element 5 is attached to the substrate 2 via the optical resin adhesive 63, the optical resin adhesive 63 is pooled to remain at the first pool portion 101. Thus, the optical resin adhesive 63 is prevented from penetrating into the light passing hole 50.
    • 在光谱模块1中,在光检测元件5中形成有通过向分光部4前进的光L1通过的光通过孔50.因此,能够防止光通过孔50与 光检测元件5的光检测部分5a偏离。 此外,光检测元件5利用光学树脂粘合剂63接合到基板2的前面2a。因此,可以减少由于光的热膨胀差而在光检测元件5上产生的应力 检测元件5和基板2.此外,在光检测元件5上,当从基本上垂直的方向观察时,第一池部分101形成为至少位于光检测部分5a和光通过孔50之间 到前平面2a。 因此,当光检测元件5通过光学树脂粘合剂63附着到基板2上时,将光学树脂粘合剂63汇集以保持在第一池部101处。因此,防止光学树脂粘合剂63渗透到 光通过孔50。
    • 9. 发明申请
    • SPECTROMETER
    • 光谱仪
    • US20090284742A1
    • 2009-11-19
    • US12465245
    • 2009-05-13
    • Katsumi SHIBAYAMA
    • Katsumi SHIBAYAMA
    • G01J3/28
    • G01J3/2803G01J3/02G01J3/0202G01J3/0208G01J3/0218G01J3/0243G01J3/0256G01J3/0262G01J3/0291G01J3/18
    • In the spectrometer 1, a lens portion 3 having a spherical surface 35 on which a spectroscopic portion 4 is provided and a bottom plane 31 in which a light detecting element 5 is disposed, has a side plane 32 substantially perpendicular to the bottom plane 31 and a side plane 34 substantially perpendicular to the bottom plane 31 and the side plane 32. Then, a package 11 that houses a spectroscopy module 10 has side planes 16 and 18 respectively coming into planar-contact with the side planes 32 and 34, and contact portions 22 coming into contact with the spherical surface 35. Therefore, the side planes 32 and 34 of the lens portion 3 are respectively brought into planar-contact with the side planes 16 and 18 of the package 11 while bringing the spherical surface 35 of the lens portion 3 into contact with the contact portions 22 of the package 11, that positions the spectroscopic portion 4 and the light detecting element 5 with respect to a light incident window plate 25 of the package 11.
    • 在分光计1中,具有设置有分光部4的球面35的透镜部3和设置有光检测元件5的底面31具有大致垂直于底面31的侧面32, 基本上垂直于底平面31和侧平面32的侧平面34.然后,容纳光谱模块10的封装11具有分别与侧平面32和34平面接触的侧平面16和18,并且接触 部分22与球面35接触。因此,透镜部分3的侧面32和34分别与包装11的侧面16和18平面接触,同时使 透镜部分3与封装11的接触部分22接触,其将分光部分4和光检测元件5相对于封装的光入射窗板25定位 11。
    • 10. 发明申请
    • SPECTROSCOPY MODULE, AND METHOD FOR MANUFACTURING THE SAME
    • 光谱模块及其制造方法
    • US20090284743A1
    • 2009-11-19
    • US12465264
    • 2009-05-13
    • Katsumi SHIBAYAMA
    • Katsumi SHIBAYAMA
    • G01J3/28B32B37/02
    • G01J3/02G01J3/0202G01J3/0208G01J3/0243G01J3/0256G01J3/0262G01J3/18Y10T156/10
    • To provide a highly-reliable spectroscopy module. In a spectroscopy module 1, a light passing hole 5b through which a light L1 advancing to a spectroscopic portion 4 passes is formed in a light detecting element 5. Therefore, it is possible to prevent the relative positional relationship between the light passing hole 5b and a light detecting portion 5a of the light detecting element 5 from deviating. Moreover, the light to be measured L1 advancing to the spectroscopic portion 4 via the light passing hole 5b and the diffracted lights L2 advancing to the light detecting portion 5a from the spectroscopic portion 4 pass through a void formed between the light detecting element 5 and the substrate 2 by an opening portion 10a of a wiring substrate 10. Thereby, it is possible to prevent a situation in which the light to be measured L1 and the diffracted lights L2 are scattered or the like due to a resin adhesive 16 or the like interposed between the light detecting element 5 and the substrate 2. Therefore, it is possible to prevent generation of stray light. Therefore, according to the spectroscopy module 1, it is possible to improve the reliability.
    • 提供高度可靠的光谱模块。 在光谱模块1中,在光检测元件5中形成有通过向分光部4前进的光L1通过的光通过孔5b。因此,能够防止光通过孔5b和 光检测元件5的光检测部分5a偏离。 此外,经由光通过孔5b前进到分光部4的被测光L1和从分光部4向光检测部5a前进的衍射光L2通过形成在光检测元件5和 基板2通过布线基板10的开口部分10a形成。由此,可以防止由于树脂粘合剂16等引起的待测光L1和衍射光L2散射等的情况 在光检测元件5和基板2之间。因此,可以防止杂散光的产生。 因此,根据光谱模块1,可以提高可靠性。