公开(公告)号：JP2007332458A

公开(公告)日：2007-12-27

申请号：JP2007132786

申请日：2007-05-18

Applicant: Sony Corp ,  ソニー株式会社

Inventor： KANO HIROSHI ,  UETAKE YUKI ,  MATSUMOTO HISAKI ,  TSUCHIYA TAKASHI ,  SAITO AKIRA

IPC: C23C14/24 ,  H01L51/50 ,  H05B33/10

CPC classification number: C23C14/243

Abstract: PROBLEM TO BE SOLVED: To provide a vapor deposition apparatus applicable to a large substrate and capable of obtaining a vapor-deposited film having a uniform film thickness, and a vapor deposition source used therefor.
SOLUTION: A vapor deposition source 10 feeds a vapor deposition substance m substantially in a horizontal direction from a plurality of openings 10A arranged in a line. The vapor deposition source 10 comprises a feed end 11 having the plurality of openings 10A, a raw material feed source 12 for storing and vaporizing the vapor deposition substance m, and a feed pipe 13 for connecting the raw material feed source 12 to the feed end 11 and conveying the vaporized vapor deposition substance m to the feed end 11. The feed pipe 13 is connected to the feed end 11 while at least the feed end 11 side is branched into a plurality of parts, and a flow rate control means 17 is provided on each of the plurality of branched feed pipes 13a. The vapor deposition has the vapor deposition source.
COPYRIGHT: (C)2008,JPO&INPIT

Abstract translation: 要解决的问题：提供一种适用于大型基板并能够获得具有均匀膜厚度的气相沉积膜的气相沉积设备和用于其的气相沉积源。 解决方案：气相沉积源10从布置成一行的多个开口10A基本上沿水平方向供给气相沉积物质。 气相沉积源10包括具有多个开口10A的进料端11，用于储存和蒸发气相沉积物质m的原料进料源12和用于将原料进料源12连接到进料端的进料管13 并将蒸发的气相沉积物质m输送到进料端11.进料管13连​​接到进料端11，至少进料端11侧分支成多个部分，流量控制装置17是 设置在多个分支供给管13a的每一个上。 气相沉积具有气相沉积源。 版权所有（C）2008，JPO＆INPIT

公开(公告)号：JP2006295618A

公开(公告)日：2006-10-26

申请号：JP2005114683

申请日：2005-04-12

Applicant: Sony Corp ,  ソニー株式会社

Inventor： HATTORI JUN ,  TSUCHIYA TAKASHI

IPC: H04N5/20 ,  H04N9/04

Abstract: PROBLEM TO BE SOLVED: To provide a novel and improved signal processor circuit, an integrated circuit, a program, a signal processing method, an imaging apparatus, and a memory medium reproducer which processes the picture into a picture with colors more nearer to primary colors and vivid like a film in real time.
SOLUTION: The signal processor circuit comprises a plurality of signal lines 210, a difference calculator 220 for calculating the difference between the signal levels of a specific signal line and other signal line, a corresponding signal output unit 230 for outputting a signal corresponding to the calculated difference, and a level limiter 240 for limiting the signal level on the specific signal line according to the corresponding signal. This expands the difference between the signal levels and changes the picture to a picture with bright colors on the whole.
COPYRIGHT: (C)2007,JPO&INPIT

Abstract translation: 要解决的问题：提供一种新颖和改进的信号处理器电路，集成电路，程序，信号处理方法，成像装置和存储介质再现器，其将图像处理成更接近的颜色的图像 以原色和实时生动的电影。 信号处理电路包括多个信号线210，差分计算器220，用于计算特定信号线的信号电平与其它信号线之间的差异;相应的信号输出单元230，用于输出对应的信号 以及电平限制器240，用于根据相应的信号限制特定信号线上的信号电平。 这扩大了信号电平之间的差异，并将照片整体改变为具有明亮色彩的图片。 版权所有（C）2007，JPO＆INPIT

公开(公告)号：JP2006157451A

公开(公告)日：2006-06-15

申请号：JP2004344794

申请日：2004-11-29

Applicant: Sony Corp ,  ソニー株式会社

Inventor： TSUCHIYA TAKASHI

IPC: H04N5/20 ,  H04N5/232

CPC classification number: G06T5/50 ,  G06T5/009 ,  H04N5/142 ,  H04N5/20 ,  H04N9/69

Abstract: PROBLEM TO BE SOLVED: To provide a technology capable of obtaining a processing image output in real time by decreasing a delayed output image caused by compression of a dynamic range of an image and contrast enhancement processing.
SOLUTION: An image processing apparatus generates an image signal Shv' whose delay is corrected by mixing an image signal Shv nonlinearly smoothed by a nonlinear smoothing section 21 and an image signal Y before the nonlinear smoothing at a delay correction 22, calculates a gain correction factor gdc for compression processing on the basis of the Shv', applies gradation conversion to a difference between the image signal Shv' subjected to delay correction and the input signal Y before the smoothing without a delay, multiplies gain correction coefficients gdc, gcc for contrast enhancement processing for applying difference signal emphasis to an original image signal to thereby obtain a gain factor G' for compression/enhancement processing and obtains image signals Rout', Gout', Bout' to which 3-channel compression/enhancement processing is applied.
COPYRIGHT: (C)2006,JPO&NCIPI

Abstract translation: 要解决的问题：提供一种能够通过减少由图像的动态范围的压缩引起的延迟输出图像和对比度增强处理来实时获得处理图像输出的技术。 解决方案：图像处理装置通过将由非线性平滑部分21非线性平滑的图像信号Shv和在延迟校正22处的非线性平滑之前的图像信号Y混合来产生其延迟被校正的图像信号Shv'，计算出 基于Shv'进行压缩处理的增益校正因子gdc将灰度转换应用于经过延迟校正的图像信号Shv'与平滑前的输入信号Y之间的差异而不延迟，将增益校正系数gdc，gcc 对于用于对原始图像信号应用差分信号强调的对比度增强处理，从而获得用于压缩/增强处理的增益因子G'，并且获得应用3通道压缩/增强处理的图像信号Rout'，Gout'，Bout' 。 版权所有（C）2006，JPO＆NCIPI

公开(公告)号：JP2000156797A

公开(公告)日：2000-06-06

申请号：JP32827498

申请日：1998-11-18

Applicant: SONY CORP

Inventor： OGATA MASAMI ,  TSUCHIYA TAKASHI ,  UEDA KAZUHIKO

IPC: G06T5/20 ,  H04N1/407 ,  H04N5/20 ,  H04N5/205 ,  H04N5/243 ,  H04N9/07

Abstract: PROBLEM TO BE SOLVED: To avoid partial lowering of contrast by generating a correction coefficient for correcting the pixel value of image data, based on a decision result of an area to which the image data belongs, smoothening the corresponding correction coefficients between corresponding pieces of image data in a continuous frame and correcting the pixel value of the image data according to the correction coefficient. SOLUTION: An image pickup result VT with a wide dynamic range and with sufficient pixel value is outputted by adding an image pickup result VN through normal exposure held in a memory 4N and an image pickup result VS through a short time exposure held in a memory 4S together by an adding circuit 5, the pixel value of the image pickup result VN by the short time exposure to be outputted from the memory 4S is corrected and outputted, so that practically sufficient linearity is secured in the image pickup result VT by the adding circuit 5 with a level correcting circuit 6. By correcting the pixel values of the image pickup result VT, a gradation correcting circuits corrects the gradation of the image pickup result VT and outputs them.

公开(公告)号：JPH11337468A

公开(公告)日：1999-12-10

申请号：JP15838198

申请日：1998-05-24

Applicant: SONY CORP ,  TARUCHIN KK

Inventor： TSUCHIYA TAKASHI ,  KONDO SHIGEKI

IPC: G01M13/00 ,  B23K1/00 ,  G01N13/00 ,  H05K3/34

Abstract: PROBLEM TO BE SOLVED: To selectively execute a plurality of measuring methods without providing a plurality of solderability measuring apparatuses exclusive to the respective methods by providing a solder tank capable of corresponding to a plurality of the measuring methods in the measurement of the solderability of a sample. SOLUTION: A solderability measuring apparatus is equipped with a sample holding part 13, a measuring part 11 obtaining the measured result related to the soldability of a sample, the movable support part 21 supporting the solder pot unit 20 holding solder 24 to be measured to rise and fall and the solder tank part 19 storing molten solder 71 and arranged under the sample holding part 13 and the solder pot unit 20 is made detachable with respect to the movable support part 21 and the solder tank part 19 is constituted of a double tank having an inner tank 72 storing molten solder 71 and the outer tank 74 having the inner tank 72 housed therein in a detachable manner and having the heater 75 heating the molten solder 71 stored in the inner tank 72.

公开(公告)号：JPH1014048A

公开(公告)日：1998-01-16

申请号：JP16139196

申请日：1996-06-21

Applicant: SONY CORP

Inventor： TSUCHIYA TAKASHI

IPC: H01F41/04 ,  H01R43/05 ,  H01R43/28 ,  H02G1/12

Abstract: PROBLEM TO BE SOLVED: To provide a method and device for eliminating a partial insulation coating in circumference direction from the outer-periphery surface of a magnet wire for forming a tap at the magnet wire. SOLUTION: An insulation coating elimination device 41 with an electric motor 54, a whetstone 60 connected to the tip of the electric motor 54, and pulleys 44A and 44B is used. The whetstone 60 is rotated by the electric motor 54. To eliminate a coating, a specific tension force is applied to a magnet wire 34, and a magnet wire is placed on the pulleys 44A and 44B. Then, the whetstone 60 is rotated and is brought into contact with the wire 34, thus exposing a conductor and hence eliminating a partial insulation coating in circumferential direction from the outer-periphery surface at a tap formation region and reducing the coating elimination area drastically as compared with before. Therefore, even if a coil is manufactured and wires are connected to the exposed conductor by soldering, the possibility of short-circuiting can be reduced drastically, thus improving reliability and yield.

公开(公告)号：JPH06143148A

公开(公告)日：1994-05-24

申请号：JP31658292

申请日：1992-10-30

Applicant: SONY CORP

Inventor： TSUCHIYA TAKASHI ,  ISHII OSAMU

IPC: B24C9/00 ,  B08B5/02 ,  B24C1/04 ,  B24C3/32

Abstract: PURPOSE:To facilitate removal of powder stuck on a platen after machining is applied to a work support on the platen. CONSTITUTION:Slopes 31a are formed on the upper and lower end faces of a rib formed along the outer periphery of a platen 8 and through-holes 32 are formed in the vicinity of four corners. Through injection of air during cleaning, an air pressure is exerted on the slopes 31a to facilitate removal of stuck powder.

公开(公告)号：JPH05285840A

公开(公告)日：1993-11-02

申请号：JP11692492

申请日：1992-04-09

Applicant: SONY CORP

Inventor： YOSHIKAWA TAKASHI ,  MISHIMA AKIO ,  TSUCHIYA TAKASHI

IPC: B24C9/00 ,  B24C7/00

Abstract: PURPOSE:To feed a powdery material to a mixing chamber after dehumidification of a powder material sucked and recovered from a processing chamber with the aid of an exhauster and to measure a powdery material in the mixing chamber with high precision by means of an electric balance without exercising an influence on the mixing chamber by a negative pressure generated by the exhauster. CONSTITUTION:A powdery material feeding device comprises an air compressor 1 to feed compressed air, a mixing chamber 2 in which a powdery material mixed with compressed air delivered from the air compressor 1 is contained and which is placed on an electric balance 22, a reservoir chamber 4 to contain a powder material, fed to the mixing chamber 2, through a cyclone 29, and a processing chamber 3 wherein the powdery material in the mixing chamber 2 is injected togetherwith compressed air to process a work. Further, the device comprises a powdery material recovery chamber 6 to recover the powdery material from the processing chamber 3 through a cyclone 39 by exhaust operation of the exauster, a powdery material feed passage 44 through which the powdery material in the powdery material recovering chamber 6 is fed to the reservoir chamber 4, and second and third on-off valves 43 and 45 to shut off the influence of a negative pressure exerted on the mixing chamber 2 through exhaust operation.

公开(公告)号：JP2014200001A

公开(公告)日：2014-10-23

申请号：JP2013074578

申请日：2013-03-29

Applicant: ソニー株式会社 ,  Sony Corp

Inventor： OKUMURA AKIHIRO ,  FUJISAWA ICHIRO ,  ANDO KATSUTOSHI ,  TSUCHIYA TAKASHI

IPC: H04N9/07 ,  G06T1/00 ,  G06T3/40

CPC classification number: G06T3/4053 ,  G06T3/4015

Abstract: 【課題】複数の色成分により構成される色フィルタアレイを有するイメージセンサの出力から、画質を劣化させることなく、各色成分の画像信号を得ることができるようにする。【解決手段】単板式画素部から出力される第1の画像の指定領域内の画素における第1の色成分のおよび第2の色成分の、第3の色成分に対する変化量を表す色変化量、並びに、第1の色成分の画素値および第2の色成分の画素値の正規化ダイナミックレンジをそれぞれ演算し、指定領域のクラス分類の結果に基づいて、予め記憶されている係数を読み出し、予測タップを変数と係数を用いた積和演算により、各色成分の画素のみで構成される第2の画像の画素値をそれぞれ演算し、色変化量および正規化ダイナミックレンジに基づいて、第1の色成分の画素のみで構成される第2の画像の画素値の演算方式と、第2の色成分の画素のみで構成される第2の画像の画素値の演算方式が変更される。【選択図】図2

Abstract translation: 要解决的问题：使得可以从具有由多个颜色分量组成的滤色器阵列的图像传感器的输出获得每个颜色分量的图像信号，而不会降低图像质量。解决方案：图像处理装置计算颜色变化 指示从单面像素单位相对于第三颜色分量输出的第一图像的指定区域中的第一颜色分量和第二颜色分量的变化量，以及像素值的标准化动态范围 第一颜色分量和第二颜色分量的像素值分别基于指定区域中的分类结果读出预先存储的系数，分别通过使用变量的乘积和计算来计算预测抽头，并且系数 ，以及仅由每个颜色分量的像素构成的第二图像的像素值，并且改变秒的像素值的计算方法 仅由第一颜色分量的像素构成的第一图像，以及基于颜色变化量和归一化动态范围的仅由第二颜色分量的像素构成的第二图像的像素值的计算方法 。

公开(公告)号：JP2014200000A

公开(公告)日：2014-10-23

申请号：JP2013074577

申请日：2013-03-29

Applicant: ソニー株式会社 ,  Sony Corp

Inventor： OKUMURA AKIHIRO ,  FUJISAWA ICHIRO ,  ANDO KATSUTOSHI ,  TSUCHIYA TAKASHI

IPC: H04N9/07 ,  G06T1/00 ,  G06T3/40

CPC classification number: G06T3/4053 ,  G06T3/4015

Abstract: 【課題】画像処理による解像度変換に際して、複数の色成分により構成される色フィルタアレイを有するイメージセンサの出力から、画質を劣化させることなく、各色成分の画像信号を得ることができるようにする。【解決手段】単板式画素部から出力される第1の画像の指定領域における各色成分の代表値をそれぞれ演算する代表値演算部と、指定領域の特徴量に基づくクラス分類の結果に基づいて、予め記憶されている係数を読み出し、指定領域内の所定の画素に係る予測タップの各色成分の画素値を、複数の色成分のうち、1の色成分の画素値を基準とし、代表値を用いてオフセットすることにより得られる変換値に変換する色成分変換部と、変換値を変数とし、係数を用いた積和演算により、複数の色成分における各色成分の画素のみで構成され、第1の画像とは解像度の異なる画像である第2の画像の画素値をそれぞれ演算する。【選択図】図2

Abstract translation: 要解决的问题：使得可以通过图像处理在分辨率转换时由具有由多个颜色分量组成的滤色器阵列的图像传感器的输出获得每个颜色分量的图像信号，而不会降低图像质量。 图像处理装置包括：代表值计算单元，分别计算从单面像素单元输出的第一图像的指定区域中的各颜色分量的代表值; 颜色分量转换单元，其基于基于指定区域的特征量的分类结果来读出预先存储的系数，并且将与预定图像中的规定像素相关的预测分支的每个颜色分量的像素值转换为 使用多个颜色成分的一个颜色分量的像素值作为标准，通过使用代表值进行偏移而获得的转换值。 该图像处理装置分别通过将转换后的值作为变量进行乘积和计算，分别计算第二图像的像素值，该第二图像仅由多个颜色分量的各颜色分量的像素和分辨率与第一图像不同而构成 并使用系数。