摘要:
An HEMT type transistor is disclosed that is a normally off type, and in which variations in the gate threshold voltage are small. A transistor is provided with a p-type region, a barrier region, an insulation film, a gate electrode. The channel region is connected to an upper surface of the p-type region. The channel region is n-type or i-type and provided with a first channel region and a second channel region. The barrier region is forming a hetero-junction with an upper surface of the first channel region. The insulation film is connected to an upper surface of the second channel region and an upper surface of the barrier region. The gate electrode faces the second channel region and the barrier region via the insulation film. The first channel region and the second channel region are arranged in series in a current pathway.
摘要:
The present invention provides a p-type group III nitride semiconductor production method which is excellent in terms of reliability and reproducibility. A photoresist mask is formed on a surface of an n−-GaN layer. Subsequently, an Mg film is formed so as to cover the n−-GaN layer and the photoresist mask, and an Ni/Pt metal film is formed on the Mg film. Thereafter, the photoresist mask is removed, whereby the Mg film and the metal film remain only on a portion of the n−-GaN layer where a p-type region is formed. Subsequently, when thermal treatment is performed in an ammonia atmosphere at 900° C. for three hours, Mg is diffused in the n−-GaN layer while being activated. Therefore, a p-type region is formed. Thereafter, the Mg film and the metal film are removed by use of aqua regia.
摘要:
The present invention aims to suppress the diffusion of p-type impurities (typically magnesium), included in a semiconductor region of a III-V compound semiconductor, into an adjoining different semiconductor region. A semiconductor device 10 of the present invention comprises a first semiconductor region 28 of gallium nitride (GaN) including p-type impurities that consist of magnesium, a second semiconductor region 34 of gallium nitride, and an impurity diffusion suppression layer 32 of silicon oxide (SiO2) located between the first semiconductor region 28 and the second semiconductor region 34.
摘要:
A semiconductor device has a stacked structure in which a p-GaN layer, an SI-GaN layer, and an AlGaN layer are stacked, and has a gate electrode that is formed at a top surface side of the AlGaN layer. A band gap of the AlGaN layer is wider than a band gap of the p-GaN layer and the SI-GaN layer. Moreover, impurity concentration of the SI-GaN layer is less than 1×1017 cm−3. Semiconductor devices including III-V semiconductors may have a stable normally-off operation.
摘要:
A semiconductor device has a stacked structure in which a p-GaN layer, an SI-GaN layer, and an AlGaN layer are stacked, and has a gate electrode that is formed at a top surface side of the AlGaN layer. A band gap of the AlGaN layer is wider than a band gap of the p-GaN layer and the SI-GaN layer. Moreover, impurity concentration of the SI-GaN layer is less than 1×1017 cm−3. Semiconductor devices including III-V semiconductors may have a stable normally-off operation.
摘要:
A semiconductor device 10 is provided with a first hetero junction 40b configured with two types of nitride semiconductors having different bandgap energy from each other, a second hetero junction 50b configured with two types of nitride semiconductors having different bandgap energy from each other, and a gate electrode 58 facing the second hetero junction 50b. The second hetero junction 50b is configured to be electrically connected to the first hetero junction 40b. The first hetero junction 40b is a c-plane and the second hetero junction 50b is either an a-plane or an m-plane.
摘要:
A nitride semiconductor device 2 comprises a nitride semiconductor layer 10. A gate insulating film 16 is formed on the surface of the nitride semiconductor layer 10. The gate insulating film 16 includes a portion composed of an aluminum nitride film 15 and a portion composed of an insulating material 14 that contains at least one of oxygen or silicon. A region W2 of the nitride semiconductor layer 10 facing the aluminum nitride film 15 is included in a region W1 of the nitride semiconductor layer 10 facing a gate electrode 18. The nitride semiconductor device 2 may further comprise a nitride semiconductor lower layer 8. The nitride semiconductor layer 10 may be stacked on the surface of the nitride semiconductor lower layer 8. The nitride semiconductor layer 10 may have a larger band gap than that of the nitride semiconductor lower layer 8 and have a heterojunction formed there between.
摘要:
A semiconductor device 10 comprises a heterojunction between a lower semiconductor layer 26 made of p-type gallium nitride and an upper semiconductor layer 28 made of n-type AlGaN, wherein the upper semiconductor layer 28 has a larger band gap than the lower semiconductor layer 26. The semiconductor device 10 further comprises a drain electrode 32 formed on a portion of a top surface of the upper semiconductor layer 28, a source electrode 34 formed on a different portion of the top surface of the upper semiconductor layer 28, and a gate electrode 36 electrically connected to the lower semiconductor layer 26. The semiconductor device 10 can operate as normally-off.
摘要:
A semiconductor device is provided with a drain electrode 22, a semiconductor base plate 32, an electric current regulation layer 42 covering a part of a surface of the semiconductor base plate 32 and leaving a non-covered surface 55 at the surface of the semiconductor base plate 32, a semiconductor layer 50 covering a surface of the electric current regulation layer 42, and a source electrode 62 formed at a surface of the semiconductor layer 50. A drift region 56, a channel forming region 54, and a source region 52 are formed within the semiconductor layer 50. The drain electrode 22 is connected to a first terminal of a power source, and the source electrode 62 is connected to a second terminal of the power source. With this semiconductor layer 50, it is possible to increase withstand voltage or reduce the occurrence of current leakage.
摘要:
A nitride semiconductor device 2 comprises a nitride semiconductor layer 10. A gate insulating film 16 is formed on the surface of the nitride semiconductor layer 10. The gate insulating film 16 includes a portion composed of an aluminum nitride film 15 and a portion composed of an insulating material 14 that contains at least one of oxygen or silicon. A region W2 of the nitride semiconductor layer 10 facing the aluminum nitride film 15 is included in a region W1 of the nitride semiconductor layer 10 facing a gate electrode 18. The nitride semiconductor device 2 may further comprise a nitride semiconductor lower layer 8. The nitride semiconductor layer 10 may be stacked on the surface of the nitride semiconductor lower layer 8. The nitride semiconductor layer 10 may have a larger band gap than that of the nitride semiconductor lower layer 8 and have a heterojunction formed there between.