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    • 2. 发明授权
    • Manufacturing method for semiconductor device
    • 半导体器件的制造方法
    • US09412755B2
    • 2016-08-09
    • US14572115
    • 2014-12-16
    • Synaptics Display Devices GK
    • Hiroshi IshidaKazuhiko Sato
    • H01L21/8234H01L27/115H01L21/28H01L29/66H01L29/792H01L29/49H01L21/265
    • H01L27/11573H01L21/26586H01L21/28282H01L21/823462H01L29/4916H01L29/66537H01L29/792
    • In a manufacturing method for a semiconductor device provided with a MONOS-type FET for a non-volatile memory and high-voltage and low-voltage MOSFETs, a groove having a predetermined depth is formed in a region in which the high-voltage MOSFET on a semiconductor substrate is formed, and an oxide film serving as a gate insulating film of the high-voltage MOSFET is formed within the formed groove by thermal oxidation. Thereafter, a gate electrode film of the low-voltage MOSFET is formed on the entire surface of the semiconductor substrate. Thereafter, a region for the MONOS-type FET is opened, the semiconductor surface of the semiconductor substrate is exposed, and a first potential barrier film, a charge storage film, and a second potential barrier film are sequentially deposited, to thereby form a charge storage three-layer film. Agate electrode film of the MONOS-type FET is formed on the formed charge storage three-layer film.
    • 在具有用于非易失性存储器的MONOS型FET和高压和低压MOSFET的半导体器件的制造方法中,在高压MOSFET的区域中形成具有预定深度的沟槽 形成半导体衬底,并且通过热氧化在形成的沟槽内形成用作高压MOSFET的栅极绝缘膜的氧化膜。 此后,在半导体衬底的整个表面上形成低压MOSFET的栅极电极膜。 此后,打开用于MONOS型FET的区域,半导体衬底的半导体表面被暴露,并且顺序地沉积第一势垒膜,电荷存储膜和第二势垒膜,从而形成电荷 储存三层薄膜。 在形成的电荷存储三层膜上形成MONOS型FET的玛瑙电极膜。