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    • 4. 发明专利
    • Semiconductor device
    • 半导体器件
    • JP2006179815A
    • 2006-07-06
    • JP2004373768
    • 2004-12-24
    • Toyota Central Res & Dev Lab IncToyota Motor Corpトヨタ自動車株式会社株式会社豊田中央研究所
    • KAWAJI SACHIKOISHIKO MASAYASUSAITO JUNHAMADA KIMIMORI
    • H01L29/78H01L21/336H01L29/739
    • PROBLEM TO BE SOLVED: To provide a semiconductor device that suppresses JFET phenomena and solves a tradeoff between break-down voltage and ON voltage.
      SOLUTION: This semiconductor device contains a gate insulating film 42 formed continually from the surface of a p
      - -type body region 34 separating the n
      - -type semiconductor 12 and n
      + -type emitter region 32 to that of a semiconductor layer 12 positioned outside of a periphery 34a of the body region 34, and a planner gate electrode 44 opposed to the body region 34 interposing the insulating film 42 separating the semiconductor layer 12 and the emitter region 32. In addition, it contains an n
      + -type semiconductor region 52 formed along the periphery 34a of the body region 34 on the surface of the semiconductor layer 12 covered with the gate insulating film 42 and a p
      + -type semiconductor region 54 formed near the n
      + -type semiconductor region 52.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供抑制JFET现象的半导体器件,并且解决断开电压和导通电压之间的折中。 解决方案:该半导体器件包含从分离n - 型半导体12的表面连续形成的栅极绝缘膜42和 n + 型发射极区域32与位于体区域34的周边34a外侧的半导体层12的栅极电极44相对,并且与插入绝缘膜42的主体区域34相对的整流栅极电极44 分离半导体层12和发射极区32.此外,其包含沿着半导体层12的表面的主体区域34的周边34a形成的n + SP +型半导体区域52 与栅极绝缘膜42和形成在n + SP型半导体区域52附近的ap + SP型半导体区域54.版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • Semiconductor device, and method for suppressing latch-up phenomenon
    • 半导体器件和用于抑制LATCH-UP PHENOMENON的方法
    • JP2005175062A
    • 2005-06-30
    • JP2003410278
    • 2003-12-09
    • Toyota Central Res & Dev Lab IncToyota Motor Corpトヨタ自動車株式会社株式会社豊田中央研究所
    • KAWAJI SACHIKOISHIKO MASAYASUHOTTA KOJI
    • H01L29/78H01L29/739
    • PROBLEM TO BE SOLVED: To solve the problem of semiconductor device breakdown due to latch-up being generated upon the application of a high emitter/collector voltage.
      SOLUTION: The semiconductor device comprises a p
      - -type body region 28 formed on an n
      - -type drift region 26, an n
      + -type emitter region 34 selectively formed in the body region 28, an emitter electrode E contacting with the emitter region 34, a trench gate electrode 32 penetrating through the body region 28, as far as the drift region 26 with the body region 28 separating the emitter region 34 and the drift region 26 from each other, and a p
      + -type semiconductor region 36 contacting with the emitter electrode E and penetrating through the body region 28 as far as the drift region 26. The p-type semiconductor region 36 is located outside the carrier transit region in the drift region 26 and is so positioned that the depletion layer, extending from the p-n junction interface between the p
      + -type semiconductor region 36 and the n
      - -type drift region 26, infiltrates the carrier transit region upon increase in the emitter/collector voltage.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:解决由于在施加高发射极/集电极电压时产生的闩锁引起的半导体器件故障的问题。 解决方案:半导体器件包括形成在n - / SP>型漂移区26上的ap - / SP>型体区28,n + SP 选择性地形成在体区28中的发射极区域34,与发射极区域34接触的发射极电极E,贯穿本体区域28的沟槽栅电极32,至少与体区28分离的漂移区域26 发射极区域34和漂移区域26,以及与发射极电极E接触并穿过体区28直到漂移区域26的p + SP +型半导体区域36。 p型半导体区域36位于漂移区域26内的载流子迁移区域的外侧,并且被定位成使得从pn结界面延伸到p 型半导体区域36和 n - / SP>型漂移区26在发射极/集电极电压增加时渗透载流子传输区 。 版权所有(C)2005,JPO&NCIPI