Magnetic head having a single-crystal ferrite core
    2.
    发明授权
    Magnetic head having a single-crystal ferrite core 失效
    具有单晶铁素体磁芯的磁头

    公开(公告)号:US5218500A

    公开(公告)日:1993-06-08

    申请号:US813751

    申请日:1991-12-31

    IPC分类号: G11B5/187

    CPC分类号: G11B5/1878 G11B5/1874

    摘要: With a view to solving the problem of "pseudo-gap" in a parallel type MIG head and to improving its reproduction output, effective combinations of the principal magnetic path forming face and the gap-forming face were determined empirically for the case of using a single-crystal ferrite core material. The improved magnetic head comprises a pair of magnetic core halves made of a single-crystal ferrite, at least one of said magnetic core halves having a thin ferromagnetic metal film formed on the gap-forming face, and said thin ferromagnetic metal film abutting against the other magnetic core half with a non-magnetic material being interposed to form a magnetic gap, the improvement wherein the principal magnetic path forming face of the magnetic core half provided with said thin ferromagnetic metal film has a crystal plane generally designated {211} whereas a vector A that is parallel to the crystal axis in said principal magnetic path forming face and that is directed away from the gap-forming face forms an angle .theta. of the range 0.degree.-60.degree. or 150.degree.-180.degree. with a vector B that is parallel to the intersection of the principal magnetic path forming face and the gap-forming face and that approaches the face opposite to a recording medium.

    Magnetic head with improved efficiency in both high and low frequency
ranges
    3.
    发明授权
    Magnetic head with improved efficiency in both high and low frequency ranges 失效
    磁头在高频和低频范围内提高了效率

    公开(公告)号:US5155645A

    公开(公告)日:1992-10-13

    申请号:US611574

    申请日:1990-11-13

    IPC分类号: G11B5/187

    CPC分类号: G11B5/1877

    摘要: A magnetic head has a pair of magnetic core halves opposed to each other with a non-magnetic material posed therebetween to form a magnetic gap, which head includes a pair of magnetic core halves, a first ferromagnetic metal thin film and a second ferromagnetic metal thin film. The magnetic core halves are formed of ferromagnetic oxide such as Mn-Zn ferrite, and they have opposing surfaces opposed to each other to provide the magnetic gap. The first ferromagnetic metal thin film formed of Fe-Si-Al alloy is formed at least on one of the opposing surfaces. The second ferromagnetic metal thin film formed of Fe-Si-Al alloy having different constituent ratio from the first ferromagnetic metal thin film is formed between the magnetic gap and the first ferromagnetic metal thin film. The flux density of the second ferromagnetic metal thin film induced when a magnetic field of 1.2K oersted is applied exceeds 1000 gauss. The ratio of the saturation flux density of the second ferromagnetic metal thin film to that of the first ferromagnetic metal thin film is not higher than 0.6. The self recording reproducing capability of the magnetic head is not degraded in the high frequency region, and the self recording reproducing capability in the low frequency region is increased.

    摘要翻译: 磁头具有彼此相对的一对磁芯半部,其间具有非磁性材料,以形成磁隙,该磁头包括一对磁芯半部,第一铁磁金属薄膜和第二铁磁金属薄片 电影。 磁芯半部由诸如Mn-Zn铁氧体的铁磁性氧化物形成,并且它们具有彼此相对的相对表面以提供磁隙。 由Fe-Si-Al合金形成的第一铁磁金属薄膜至少在相对的表面之一上形成。 在磁隙和第一铁磁金属薄膜之间形成由与第一强磁性金属薄膜构成比不同的Fe-Si-Al合金形成的第二强磁性金属薄膜。 当施加1.2K奥斯特的磁场时引起的第二铁磁性金属薄膜的磁通密度超过1000高斯。 第二强磁性金属薄膜的饱和磁通密度与第一强磁性金属薄膜的饱和磁通密度的比率不高于0.6。 在高频区域中,磁头的自记录再现能力不会降低,并且低频区域中的自动记录再现能力增加。