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    • 2. 发明授权
    • Semiconductor device
    • 半导体器件
    • US07859014B2
    • 2010-12-28
    • US11571290
    • 2005-06-24
    • Tatsuo NakayamaHironobu MiyamotoYuji AndoMasaaki KuzuharaYasuhiro OkamotoTakashi InoueKoji Hataya
    • Tatsuo NakayamaHironobu MiyamotoYuji AndoMasaaki KuzuharaYasuhiro OkamotoTakashi InoueKoji Hataya
    • H01L29/66
    • H01L29/7787H01L29/2003H01L29/4236H01L29/42376H01L29/78
    • The present invention provides a semiconductor device capable of suppressing current collapse, and also of preventing dielectric breakdown voltage and gain from lowering so as to perform high-voltage operation and realize an ideal high output. On a substrate (101), there are formed a buffer layer (102) made of a first GaN-based semiconductor, a carrier traveling layer (103) made of a second GaN-based semiconductor and a carrier supplying layer (104) made of a third GaN-based semiconductor. A recess structure (108) is made by eliminating a part of a first insulation film (107) and a part of the carrier supplying layer (104). Next, a gate insulation film (109) is deposited, and then a gate electrode (110) is formed so as to fill up the recess portion (108) and cover on over an area where the first insulation film (107) remains so that its portion on the drain electrode side is longer than that on the source electrode side. Such a recess structure is employed so as to provide the high-output semiconductor device capable of performing the high-voltage operation.
    • 本发明提供一种能够抑制电流塌陷以及防止电介质击穿电压和增益降低的半导体器件,从而进行高压操作并实现理想的高输出。 在基板(101)上形成有由第一GaN基半导体构成的缓冲层(102),由第二GaN基半导体构成的载流子移动层(103)和由 第三GaN基半导体。 通过消除第一绝缘膜(107)的一部分和载体供给层(104)的一部分来制造凹陷结构(108)。 接下来,沉积栅极绝缘膜(109),然后形成栅极电极(110),以填充凹部(108)并覆盖在第一绝缘膜(107)保留的区域上,使得 其漏电极侧的部分比源电极侧的部分长。 采用这样的凹部结构来提供能够执行高电压操作的高输出半导体器件。
    • 4. 发明申请
    • Semiconductor device
    • 半导体器件
    • US20070158692A1
    • 2007-07-12
    • US11571290
    • 2005-06-24
    • Tatsuo NakayamaHironobu MiyamotoYuji AndoMasaaki KuzuharaYasuhiro OkamotoTakashi InoueKoji Hataya
    • Tatsuo NakayamaHironobu MiyamotoYuji AndoMasaaki KuzuharaYasuhiro OkamotoTakashi InoueKoji Hataya
    • H01L29/76
    • H01L29/7787H01L29/2003H01L29/4236H01L29/42376H01L29/78
    • The present invention provides a semiconductor device capable of suppressing current collapse, and also of preventing dielectric breakdown voltage and gain from lowering so as to perform high-voltage operation and realize an ideal high output. On a substrate (101), there are formed a buffer layer (102) made of a first GaN-based semiconductor, a carrier traveling layer (103) made of a second GaN-based semiconductor and a carrier supplying layer (104) made of a third GaN-based semiconductor. A recess structure (108) is made by eliminating a part of a first insulation film (107) and a part of the carrier supplying layer (104). Next, a gate insulation film (109) is deposited, and then a gate electrode (110) is formed so as to fill up the recess portion (108) and cover on over an area where the first insulation film (107) remains so that its portion on the drain electrode side is longer than that on the source electrode side. Such a recess structure is employed so as to provide the high-output semiconductor device capable of performing the high-voltage operation.
    • 本发明提供一种能够抑制电流塌陷以及防止电介质击穿电压和增益降低的半导体器件,从而进行高压操作并实现理想的高输出。 在基板(101)上形成有由第一GaN基半导体构成的缓冲层(102),由第二GaN基半导体构成的载流子移动层(103)和由 第三GaN基半导体。 通过消除第一绝缘膜(107)的一部分和载体供给层(104)的一部分来制造凹陷结构(108)。 接下来,沉积栅极绝缘膜(109),然后形成栅电极(110),以填充凹部(108)并覆盖在第一绝缘膜(107)保留的区域上,使得 其漏电极侧的部分比源电极侧的部分长。 采用这样的凹部结构来提供能够执行高电压操作的高输出半导体器件。