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    • 3. 发明授权
    • Servo signal recording apparatus, information recording apparatus, and tracking servo method
    • 伺服信号记录装置,信息记录装置和跟踪伺服方法
    • US08068308B2
    • 2011-11-29
    • US12476773
    • 2009-06-02
    • Masao FujitaShinji KawakamiToshio KawakitaSadamu Kuse
    • Masao FujitaShinji KawakamiToshio KawakitaSadamu Kuse
    • G11B5/584G11B21/02
    • G11B5/584
    • In the apparatus and method of the invention, a servo signal reproduction unit generates a PES from a servo signal reproduced from a magnetic tape, and a frequency conversion unit performs FFT processing of the PES to generate frequency component information. Then, a filter value generation unit generates filter values based on the frequency component information and writes these to a memory. When recording various data signals to the magnetic tape, the filter values are read from the memory and a control filter serving as a notch filter is incorporated into a feedback control for a tracking servo. This enables periodic and narrow-band noise to be removed from a PES, consequently reducing PESs. Accordingly, learning-type optimum notch filter control that allows a magnetic head to follow recording tracks at high speed and with high precision is possible even when the recording track width is reduced and the tape speed is increased.
    • 在本发明的装置和方法中,伺服信号再现单元从从磁带再现的伺服信号产生PES,并且频率转换单元执行PES的FFT处理以产生频率分量信息。 然后,滤波器值生成单元基于频率分量信息生成滤波器值,并将其写入存储器。 当将各种数据信号记录到磁带上时,从存储器中读取滤波器值,并且将用作陷波滤波器的控制滤波器并入用于跟踪伺服的反馈控制。 这使得能够从PES去除周期性和窄带噪声,从而减少PES。 因此,即使当记录磁道宽度减小并且磁带速度增加时,也可以使磁头以高速和高精度跟随记录磁道的学习型最佳陷波滤波器控制。
    • 4. 发明授权
    • Magnetic head assembly and magnetic tape driving apparatus
    • 磁头组件和磁带驱动装置
    • US08035929B2
    • 2011-10-11
    • US12191925
    • 2008-08-14
    • Toshio KawakitaShinji KawakamiSadamu Kuse
    • Toshio KawakitaShinji KawakamiSadamu Kuse
    • G11B5/265
    • G11B5/40G11B5/29G11B5/3106G11B5/3967
    • A magnetic head assembly of the present invention includes a head rail having a plurality of head element portions each including a MR element and sliding portions that come into contact with a magnetic tape, and a protective film on a magnetic tape sliding surface of the head element portions and the sliding portions, wherein the protective film is formed in a portion other than the vicinity of both ends of the head rail in a traveling direction, and an outermost surface of the protective film, on which a magnetic tape is capable of sliding, is formed flat. Thus, a magnetic head assembly used in a magnetic tape apparatus can be provided, in which an output does not decrease due to the abrasion deformation of the head element portions and the increase in spacing by the adhesion of stain.
    • 本发明的磁头组件包括具有多个磁头元件部分的磁头导轨,磁头元件部分各自包括MR元件和与磁带接触的滑动部分,以及在磁头元件的磁带滑动表面上的保护膜 部分和滑动部分,其中保护膜沿行进方向形成在头轨两端附近的部分中,以及保护膜的能够滑动的最外表面, 形成平坦。 因此,可以提供在磁带装置中使用的磁头组件,其中由于头元件部分的磨损变形而导致的输出不会减小,并且由于污渍的附着而增加间隔。
    • 5. 发明申请
    • SERVO SIGNAL RECORDING APPARATUS, INFORMATION RECORDING APPARATUS, AND TRACKING SERVO METHOD
    • 伺服信号记录装置,信息记录装置和跟踪伺服方法
    • US20090296269A1
    • 2009-12-03
    • US12476773
    • 2009-06-02
    • Masao FujitaShinji KawakamiToshio KawakitaSadamu Kuse
    • Masao FujitaShinji KawakamiToshio KawakitaSadamu Kuse
    • G11B5/584
    • G11B5/584
    • In the apparatus and method of the invention, a servo signal reproduction unit generates a PES from a servo signal reproduced from a magnetic tape, and a frequency conversion unit performs FFT processing of the PES to generate frequency component information. Then, a filter value generation unit generates filter values based on the frequency component information and writes these to a memory. When recording various data signals to the magnetic tape, the filter values are read from the memory and a control filter serving as a notch filter is incorporated into a feedback control for a tracking servo. This enables periodic and narrow-band noise to be removed from a PES, consequently reducing PESs. Accordingly, learning-type optimum notch filter control that allows a magnetic head to follow recording tracks at high speed and with high precision is possible even when the recording track width is reduced and the tape speed is increased.
    • 在本发明的装置和方法中,伺服信号再现单元从从磁带再现的伺服信号产生PES,并且频率转换单元执行PES的FFT处理以产生频率分量信息。 然后,滤波器值生成单元基于频率分量信息生成滤波器值,并将其写入存储器。 当将各种数据信号记录到磁带上时,从存储器中读取滤波器值,并且将用作陷波滤波器的控制滤波器并入用于跟踪伺服的反馈控制。 这使得能够从PES去除周期性和窄带噪声,从而减少PES。 因此,即使当记录磁道宽度减小并且磁带速度增加时,也可以使磁头以高速和高精度跟随记录磁道的学习型最佳陷波滤波器控制。
    • 6. 发明申请
    • MAGNETIC HEAD ASSEMBLY AND MAGNETIC TAPE DRIVING APPARATUS
    • 磁头组件和磁带驱动装置
    • US20090052093A1
    • 2009-02-26
    • US12191925
    • 2008-08-14
    • Toshio KawakitaShinji KawakamiSadamu Kuse
    • Toshio KawakitaShinji KawakamiSadamu Kuse
    • G11B5/33
    • G11B5/40G11B5/29G11B5/3106G11B5/3967
    • A magnetic head assembly of the present invention includes a head rail having a plurality of head element portions each including a MR element and sliding portions that come into contact with a magnetic tape, and a protective film on a magnetic tape sliding surface of the head element portions and the sliding portions, wherein the protective film is formed in a portion other than the vicinity of both ends of the head rail in a traveling direction, and an outermost surface of the protective film, on which a magnetic tape is capable of sliding, is formed flat. Thus, a magnetic head assembly used in a magnetic tape apparatus can be provided, in which an output does not decrease due to the abrasion deformation of the head element portions and the increase in spacing by the adhesion of stain.
    • 本发明的磁头组件包括具有多个磁头元件部分的磁头导轨,磁头元件部分各自包括MR元件和与磁带接触的滑动部分,以及在磁头元件的磁带滑动表面上的保护膜 部分和滑动部分,其中保护膜沿行进方向形成在头轨两端附近的部分中,以及保护膜的能够滑动的最外表面, 形成平坦。 因此,可以提供在磁带装置中使用的磁头组件,其中由于头元件部分的磨损变形而导致的输出不会减小,并且由于污渍的附着而增加间隔。
    • 7. 发明申请
    • Apparatus and method for measuring spacing
    • 仪器和方法测量间距
    • US20080123102A1
    • 2008-05-29
    • US11717672
    • 2007-03-14
    • Masao FujitaToshio KawakitaShinji KawakamiSadamu Kuse
    • Masao FujitaToshio KawakitaShinji KawakamiSadamu Kuse
    • G01B9/02G01B11/02
    • G01B11/026G11B15/62
    • An apparatus is provided for measuring a spacing between an object to be measured T and a transparent object 4. The transparent object 4 is disposed, facing a surface of the object to be measured T, light is emitted to impinge through the transparent object 4 onto the object to be measured T, and the spacing is calculated based on an intensity of interference light occurring in a facing portion between the surface of the object to be measured T and the transparent object 4. The apparatus comprises a light source 1 for emitting light, a modulator 2 for modulating an intensity of the emitted light with modulation waves having a predetermined frequency, a sensor 7 for converting the light intensity of the interference light into an electrical signal, and a synchronous demodulator 8 for subjecting the electrical signal to synchronous demodulation using the modulation waves as reference waves.
    • 提供了一种用于测量待测物体T与透明物体4之间的间隔的装置。透明物体4被设置为面对待测物体T的表面,发射光以穿过透明物体4撞击到 要测量的对象T,并且基于在待测物体T的表面和透明物体4之间的相对部分中发生的干涉光的强度来计算间距。该装置包括用于发射光的光源1 用于通过具有预定频率的调制波来调制发射光的强度的调制器2,用于将干扰光的光强度转换为电信号的传感器7以及用于对电信号进行同步解调的同步解调器8 使用调制波作为参考波。
    • 8. 发明授权
    • Recording and reproducing apparatus and recording medium
    • 记录和再现设备和记录介质
    • US08081559B2
    • 2011-12-20
    • US11960439
    • 2007-12-19
    • Masao FujitaKenji TanakaShinji KawakamiSadamu Kuse
    • Masao FujitaKenji TanakaShinji KawakamiSadamu Kuse
    • G11B7/00
    • G11B5/584G11B5/59677
    • The present invention provides a recording and reproducing apparatus that can perform high-precision tracking servo control by removing noise from detected servo signals. The recording and reproducing apparatus performs tracking servo control while reading servo signals 10 that are formed on a surface 9 of a recording medium 2 so as to produce optical contrast, the apparatus including a modulated irradiator 20 for irradiating the servo signals 10 with a light beam, the intensity of the light beam being modulated by a modulating wave that is frequency-modulated; a photoelectric converter 30 for converting reflected light from the servo signals 10 into electric signals; and a synchronous demodulator 15 for subjecting the electrical signal to synchronous demodulation using the modulating wave as a reference wave.
    • 本发明提供了一种通过从检测到的伺服信号中去除噪声来执行高精度跟踪伺服控制的记录和再现装置。 记录和重放装置执行跟踪伺服控制,同时读取形成在记录介质2的表面9上的伺服信号10以便产生光学对比度,该装置包括调制辐射器20,用于用光束照射伺服信号10 光束的强度由被调制的调制波调制; 用于将来自伺服信号10的反射光转换为电信号的光电转换器30; 以及用于使用调制波作为参考波对电信号进行同步解调的同步解调器15。
    • 9. 发明申请
    • Magnetic recording medium and method for manufacturing the same
    • 磁记录介质及其制造方法
    • US20080070066A1
    • 2008-03-20
    • US11898757
    • 2007-09-14
    • Hisanobu MikamoHidekazu KawatokoMakoto ShiokawaShinji KawakamiMasanori YamasakiHitoshi TsukamotoSadamu Kuse
    • Hisanobu MikamoHidekazu KawatokoMakoto ShiokawaShinji KawakamiMasanori YamasakiHitoshi TsukamotoSadamu Kuse
    • G11B5/842B05D5/12
    • G11B5/842
    • A method for manufacturing a magnetic recording medium of the present invention includes a magnetic layer forming step in which a drying process is performed. The drying process includes: a pre-heating stage in which a magnetic coating film is heated until the surface temperature of the magnetic coating film stops rising and reaches a substantially constant temperature; a constant rate drying stage that is performed after the pre-heating stage in which the surface temperature of the magnetic coating film is held substantially constant; and a falling rate drying stage that is performed after the constant rate drying stage in which the surface temperature of the magnetic coating film is increased to be higher than the surface temperature during the constant rate drying stage to harden the magnetic coating film. The constant rate drying period in which the constant rate drying stage is performed is 0.2 seconds or more. The first solvent is made of one solvent or two or more solvents having different boiling points, and the difference (Tb−Ts) between the boiling point Tb of the solvent having the lowest boiling point among the solvents contained in the first solvent and the surface temperature Ts of the magnetic coating film during the constant rate drying period is 1 to 50° C.
    • 本发明的磁记录介质的制造方法包括进行干燥处理的磁性层形成工序。 干燥过程包括:预热阶段,其中加热磁性涂膜直到磁性涂膜的表面温度停止上升并达到基本恒定的温度; 在预热阶段之后进行恒定速率干燥阶段,其中磁性涂膜的表面温度保持在大致恒定的范围; 以及在恒速干燥阶段之后,在恒速干燥阶段使磁性涂膜的表面温度升高到高于表面温度的固定速率干燥阶段之后进行硬化处理的落下率干燥阶段。 进行恒定速率干燥阶段的恒定速率干燥时间为0.2秒以上。 第一溶剂由一种溶剂或两种或更多种沸点不同的溶剂制成,沸点T < 在恒定速率干燥期间,第一溶剂中所含溶剂中具有最低沸点的溶剂的b b和磁性涂膜的表面温度T S 1 / S 2为1〜50℃ C。
    • 10. 发明授权
    • Magnetic recording medium
    • 磁记录介质
    • US09165586B2
    • 2015-10-20
    • US13330219
    • 2011-12-19
    • Shinji KawakamiSadamu KuseKenji Tanaka
    • Shinji KawakamiSadamu KuseKenji Tanaka
    • G11B5/706G11B5/70G11B5/714
    • G11B5/714G11B5/70G11B5/70678
    • The magnetic recording medium of the present invention comprises: a non-magnetic substrate; a non-magnetic layer formed on one of principal surfaces of the non-magnetic substrate; and a magnetic layer formed on a principal surface of the non-magnetic layer opposite to the non-magnetic substrate. Mr and t satisfy 0.0020 μT·m≦Mr·t≦0.0150 μT·m, where Mr is the residual magnetic flux density of the magnetic layer, and t is the average thickness of the magnetic layer, L1 satisfies 2 nm≦L1≦6 nm, where L1 is the average thickness of a first mixed layer that is formed on the surface of the magnetic layer opposite to the non-magnetic layer, and L2 satisfies 0.1≦L2/t≦0.45, where L2 is the average thickness of a second mixed layer that is formed on the surface of the magnetic layer facing the non-magnetic layer.
    • 本发明的磁记录介质包括:非磁性基片; 形成在非磁性基板的一个主表面上的非磁性层; 以及形成在与非磁性基板相对的非磁性层的主表面上的磁性层。 Mr和t满足0.0020μT·m&nlE; Mr·t&nlE; 0.0150μT·m,其中Mr是磁性层的剩余磁通密度,t是磁性层的平均厚度,L1满足2nm&nlE; L1&nlE; 6 nm,其中L1是形成在与非磁性层相反的磁性层的表面上的第一混合层的平均厚度,并且L2满足0.1&lt; lE; L2 / t&nlE; 0.45,其中L2是 形成在面向非磁性层的磁性层的表面上的第二混合层。