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    • 1. 发明专利
    • Optical disk recording power controller, control method of optical disk recording power and recording medium of optical disk recording power control program
    • 光盘记录功率控制器,光盘记录功率的控制方法和光盘记录功率控制程序的记录介质
    • JP2004062919A
    • 2004-02-26
    • JP2002215619
    • 2002-07-24
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • INOUE TAKAOOKAMOTO TOSHINORI
    • G11B7/0045G11B7/007G11B7/125
    • PROBLEM TO BE SOLVED: To provide an optical disk recording power controller capable of accurately forming a pit also when the high dennsity and high speed recording operation are performed to the optical disk, a control method of the optical disk recording power and a recording medium of an optical disk recording power control program. SOLUTION: The controller is furnished with an arithmetic part 110 for calculating the driving amount for a laser beam and the separately prepared correction amount to make them to be the driving amount for a new laser beam. This arithmetic part 110 is constituted of a plurality of storage elements for storing the correction amount, a selector for selecting one from the plurality of storage elements by a specified selection signal, and an adder for adding the correction amount outputted by the selector and the driving amount for the inputted laser beam to output the added amount as the new laser beam driving amount. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了提供一种能够在对光盘执行高精度和高速记录操作时也能够精确地形成凹坑的光盘记录功率控制器,光盘记录功率的控制方法和 光盘记录功率控制程序的记录介质。 解决方案:控制器配备有用于计算激光束的驱动量的运算部件110和单独准备的校正量,以使其成为新的激光束的驱动量。 该运算部110由多个用于存储校正量的存储元件构成,用于通过指定的选择信号从多个存储元件中选择一个的选择器和用于将由选择器输出的校正量与驱动相加的加法器 输入激光束的量作为新的激光束驱动量输出添加量。 版权所有(C)2004,JPO
    • 2. 发明专利
    • Data reproducing circuit for disk reproducer, and data reproducing method
    • 盘式再生器的数据再生电路及数据再现方法
    • JP2003022616A
    • 2003-01-24
    • JP2001203950
    • 2001-07-04
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • INOUE TAKAOSAWADA NATSUKIIDEI KIMIO
    • G11B20/10G11B20/18
    • PROBLEM TO BE SOLVED: To provide a data reproducing circuit for disk reproducer, which promptly and easily demodulate target data when failing in the detection of a target ID sink and a data sink, and to provide a method for reproducing the data. SOLUTION: The data reproducing circuit 10 demodulates a bit steam Bs by using a decoder 1. In parallel, a serial/parallel conversion device 7 converts the bit steam Bs into a sample signal SMP. A memory control part 2 stores the sample signal SMP into a RAM 3. When the decoder 1 fails in the detection of the target data sink and carries out retry, an N bit shifter 8 inputs the sample signal SMP on the RAM 3 into the decoder 1 by shifting it by only a prescribed number of bits. The decoder 1 demodulates the target data from the sample signal SMP on the RAM 3.
    • 要解决的问题:提供一种用于盘再现器的数据再现电路,其在目标ID宿和数据宿的检测失败时及时且容易地解调目标数据,并提供再现数据的方法。 解决方案:数据再现电路10通过使用解码器1解调位蒸汽Bs。并行地,串行/并行转换装置7将位蒸汽Bs转换成采样信号SMP。 存储器控制部分2将采样信号SMP存储到RAM3中。当解码器1检测到目标数据宿失败并进行重试时,N位移位器8将RAM 3上的采样信号SMP输入到解码器 1通过将其移位只有规定的位数。 解码器1从RAM 3上的采样信号SMP解调目标数据。
    • 5. 发明专利
    • GLASS FUSING DEVICE AND METHOD AS WELL AS FUSED GLASS STIRRING VANE
    • JPH10265226A
    • 1998-10-06
    • JP7136697
    • 1997-03-25
    • MATSUSHITA ELECTRIC IND CO LTD
    • NAGAHARA TAKAYUKIINOUE TAKAOYASUHIRA NOBUOUEDA SHUJI
    • C03B5/18C03B5/187
    • PROBLEM TO BE SOLVED: To make it possible to deal with production of diversified kinds in a small quantity and to improve the homogeneity of glass by including plural flat plates for pressurizing the fused glass to the bottom in a stirring vessel disposed at a fusing device for continuously fusing the glass and carrying the fused glass to the upper side and to the bottom side as a revolving shaft revolves in the stirring sections of fused glass stirring vanes having the revolving shaft and the stirring sections. SOLUTION: The stirring section 2 is provided with the first flat plates 3, 4 which pressurize the fused glass toward the bottom side in the stirring vessel as the revolving shaft 9 revolves, the second flat plates 5, 6 which carry at least the fused glass pressurized to the bottom side in the stirring vessel by means of the first flat plates 3, 4 toward the upper side in the stirring vessel as the revolving shaft 9 revolves and the third flat plates 7, 8 which carry at least the fused glass carried to the upper side in the stirring vessel by means of the second flat plates 7, 8 toward the bottom side in the stirring vessel as the revolving shaft 9 revolves. The respective flat plates 3 to 8 are preferably inclined at an angle of 30 to 60 toward the axial direction of the revolving shaft 9 and are arranged at >=2 points in the circumferential direction of the revolving shaft 9.
    • 7. 发明专利
    • LIQUID CRYSTAL DISPLAY ELEMENT AND ITS PRODUCTION
    • JPH10123537A
    • 1998-05-15
    • JP27197396
    • 1996-10-15
    • MATSUSHITA ELECTRIC IND CO LTD
    • EGAMI NORIHIKONAGAHARA TAKAYUKIINOUE TAKAOUEDA SHUJI
    • G02F1/1339
    • PROBLEM TO BE SOLVED: To obtain a liquid crystal display element which is free from image unevenness defects by peeling of seals for sticking two substrates to each other and with which the aperture ratio of a screen may be increased by using the seals which consist of double structures consisting of an elastic material seal in the inner side. SOLUTION: The elastic material seal 9 on the inner side, the outer seal 10 and liquid crystals 11 are arranged between the two substrates 7 and 8 arranged to face each other while a specified gap is maintained therebetween. The elastic material seal 9 on the inner side adheres to the one substrate 7 alone and is merely into contact with the other substrate 8 and is not adhered and fixed thereto. Then, even if the force by working in later stages acts on the substrates, the upper side of the elastic material seal 9 is freely movable and the force acting over the entire part of the elastic material seal 9 decreases and, therefore, the seal peeling is lessened. The elastic material seal 9 is formed taller than the outer seal 10. A hermetic sealing effect is thus obtd. by the falling and contracting of the elastic material seal 9 at the time of sticking the substrates 7, 8.
    • 8. 发明专利
    • SEMICONDUCTOR DEVICE
    • JPH1056114A
    • 1998-02-24
    • JP20996196
    • 1996-08-08
    • MATSUSHITA ELECTRIC IND CO LTD
    • INOUE TAKAONISHIKI NAOKIKOMYOJI DAIDOKAWASHIMA TSUTOMUMAEDA YUKIO
    • H01L23/36H01L23/38
    • PROBLEM TO BE SOLVED: To improve heat dissipation, miniaturize a cooling structure and reduce its weight, by cooling a semiconductor element by bringing a carbon sheet into contact with a part of the semiconductor element. SOLUTION: On a semiconductor element 3, a heat sink 1 is provided through a carbon (for instance, high orientation graphite) sheet 2. Since heat generated from the semiconductor element 3 is conducted to the heat sink 1 through the carbon sheet 2 having excellent heat conductivity, the semiconductor element 3 is cooled efficiently by heat dissipation. Since heat generated by the semiconductor element 3 is dissipated by the heat sink 1 through the carbon sheet 2 without convecting, heat dissipation characteristic is improved more in the order of graphite fiber, pressed sheet, high orientation graphite, compared with the conventional one which uses aluminum. As for high orientation graphite, heat dissipation characteristic improves as much as 8%. The length of the carbon sheet 2 is permitted to be longer than the semiconductor element 3. Therefore, the carbon sheet 2 operates as a heat dissipation fin.
    • 10. 发明专利
    • OPTICAL SHAPING DEVICE
    • JPS63312130A
    • 1988-12-20
    • JP14758987
    • 1987-06-12
    • MATSUSHITA ELECTRIC IND CO LTD
    • KENMOCHI KATSUEINOUE TAKAO
    • B29C35/08B29C67/00
    • PURPOSE:To efficiently produce thin films and, in addition, prevent the films from deforming, breaking, falling down and the like by a method wherein fluid substance is applied in the form of thin film on a transparent sheet, along which a fluid substance film forming means can travel on a light energy radiating surface,. CONSTITUTION:A fluorescent screen 3 is formed on the rear surface of a glass wall 2, which acts as the light emitting surface of a cathode ray tube 1. On the glass wall 2, a light guiding part 5 consisting of a lens array 4, which integrates a large number of SELFOC lenses 4a, is arranged. In addition, a transparent plate 6, of the top surface of which a light energy radiating surface 7 is composed, is arranged on the light guiding part 5. Numeral 8 designates a transparent sheet. Further, a coating means 9 is arranged this side of the radiating surface 7. After the transparent sheet 8, onto which a thin fluid substance film 18 is formed by means of the coating means 9, is shifted above the radiating surface 7, a lifting base plate 11 is lowered so as to bring the underside of the plate 16 into contact with the top surface of the thin fluid substance film 18 in order to harden or decompose the fluid substance by irradiating with ultraviolet rays. Next, when the lifting base plate 16 is lifted, the transparent sheet 8 is also lifted as adhered to the hardened substance film 19. Thus, the transparent sheet 8 can be easily separated from the radiating surface 7.