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    • 1. 发明专利
    • Solid-state image sensing device and its manufacturing method
    • 固态图像感应装置及其制造方法
    • JP2006210701A
    • 2006-08-10
    • JP2005021701
    • 2005-01-28
    • Sanyo Electric Co Ltd三洋電機株式会社
    • MATSUYAMA HISASHI
    • H01L27/14G02B5/20H04N9/07
    • PROBLEM TO BE SOLVED: To solve the problem of generation of irregularities in the surface of an image sensor due to a thick IR transmitting filter laminated in an IR picture element in a solid-state image sensing element wherein R, G, B picture elements detecting RGB color factors and IR picture element detecting infrared light factor are disposed. SOLUTION: After a transfer electrode and a wiring are formed on a semiconductor substrate 30, a flattened film 32 is formed. A recess 34 is formed by etching the flattened film 32 in a position corresponding to an IR picture element. A B filter 36 is buried in the recess 34 on the IR picture element, and an R filter 42 is further laminated. R, G, B filters are laminated on the R, G, B picture elements using the unetched flattened film 32 as a foundation. The height of the surface of a filter array formed in the RGB picture element and IR picture element becomes even by making the recess part 34 deep by one layer of a color filter. COPYRIGHT: (C)2006,JPO&NCIPI
    • 解决的问题:为了解决由于在固态摄像元件中的IR像素中层叠的厚IR传输滤波器而导致的图像传感器表面的不规则性的问题,其中R,G,B 设置检测RGB颜色因子的图像元素和IR图像元素检测红外光因子。 解决方案:在半导体衬底30上形成转移电极和布线之后,形成平坦的膜32。 通过在与IR图像元件相对应的位置蚀刻平坦化膜32来形成凹部34。 B滤光器36埋在红外像素上的凹槽34中,并且进一步层叠R滤光器42。 使用未蚀刻的扁平薄膜32作为基础将R,G,B滤色片层叠在R,G,B图像元件上。 形成在RGB像素和IR像素中的滤光器阵列的表面的高度通过使凹部34深深地被一层滤色器而变得均匀。 版权所有(C)2006,JPO&NCIPI
    • 3. 发明专利
    • RESERVATION RECORDER
    • JPH11120646A
    • 1999-04-30
    • JP28372097
    • 1997-10-16
    • SANYO ELECTRIC CO
    • MATSUYAMA HISASHI
    • G11B15/02H04N5/76
    • PROBLEM TO BE SOLVED: To easily perform reserved video recordings by performing reserved recordings based on reservation information including specification information specifying the recording order of related recording information with respect to recording mediums and specification information to be successively recorded in free areas or the like. SOLUTION: This reservation recorder is composed of a magneto-optical drive part 1 reading videos and voice data recorded on a magneto-optical disk 10 and writing information on it, a power source 2, a control part 3 controlling the whole of the reserving recorder and an AV part 4 for coding or decoding a received video and voice data. The control part 3 is composed of a display part 31 presenting various kinds of information, a control panel 32 to be used for video recording reservations and an equipment control part 33 performing total controls of the magneto-optical drive part 1, the control part 3 and the AV part 4. At the time of a timer reservation, the timer reservation of G codes or the like is performed with the control panel 32 or a remote control device. After the timer reservation, this device is set into a recording standby state and the supplying of the power 2 to the magneto-optical drive part 1 and the AV part 4 is stopped by the control part 33 and only a minimally needed power is supplied to them untill a reserved time and the supplying of the power 2 is restarted by the incoming of the reserved time to start a recording.
    • 6. 发明专利
    • MATHEMATICAL ENCODING METHOD AND TRANSMITTING METHOD
    • JPH06319046A
    • 1994-11-15
    • JP10549093
    • 1993-05-06
    • SANYO ELECTRIC CO
    • MATSUYAMA HISASHITSUJI TAISUKE
    • H04N1/411
    • PURPOSE:To improve the encoding ratio by utilizing a state control variable which is statistically obtained. CONSTITUTION:Arithmetic encoding in a JBIG(joint bilevel image group) system employs the subtraction type encoding of a QM coder as standard encoding, introduces a multi-rate transition concept, and adaptively performs state control over multi-rate transition by regarding peripheral pixels of a pixel to be encoded as a context(CX) so that codes can widely be corresponded to various images. An arithmetic encoder 11 and a state control variable execution table area 12 are on a transmission side and an arithmetic decoder 13 and a state control variable execution area 14 are on a reception side. Each time one image ends, state control variables ST(CX) and MPS(CX) are stored in storage parts such as a memory and a hard disk while attaching labels corresponding to the attributes (text, dither, etc.) of the image and when the image begins to be encoded, the state control variables having the same attribute are loaded as initial values. Thus, the encoding method with high compressibility is obtained.
    • 7. 发明专利
    • SELECTIVE BINARIZING METHOD
    • JPH05145749A
    • 1993-06-11
    • JP33121891
    • 1991-11-19
    • SANYO ELECTRIC CO
    • HOJO YUJIMATSUYAMA HISASHITSUJI TAISUKESHIKI YUKARI
    • H04N1/40G06T5/00H04N1/403
    • PURPOSE:To improve a picture quality, and to curtail the encoded data quantity by executing simple binarization to not only an outline part of a character but also its inside, at the time of selective binarization in an image area separation processing. CONSTITUTION:A black edge strength detecting part 1 detects black edge strength in the main scanning direction from a picture signal Vp and inputs it to a comparator 4. Also, to the comparator 4, a threshold Th0 is also inputted. When edge strength becomes larger than the threshold Th0, an edge detecting signal Ej is outputted. This signal Ej is latched for synchronization by a latching circuit 7, and its output is inputted to a CLR terminal of a latching circuit 3 with a clear function, and simultaneously, inputted as a latch lock to a latching circuit 2. The signal Ej which exceeds the threshold Th0 is inputted to a CLK terminal of a D flip-flop 8, and until a white variation signal Wu is inputted to a Ck terminal of the flop 8, a simple binarization period signal Sb is outputted, and a selective binarization processing is executed. In such a way, not only an outline part of a character but also its inside can be binarized.