摘要:
There is provided a semiconductor apparatus capable of achieving both a reverse blocking characteristic and a low on-resistance. The semiconductor apparatus includes a first semiconductor layer including a channel layer, a source electrode formed on the first semiconductor layer, a drain electrode formed at a distance from the source electrode on the first semiconductor layer, and a gate electrode formed between the source electrode and the drain electrode on the first semiconductor layer. The drain electrode includes a first drain region where reverse current between the first semiconductor layer and the first drain region is blocked, and a second drain region formed at a greater distance from the gate electrode than the first drain region, where a resistance between the first semiconductor layer and the second drain region is lower than a resistance between the first semiconductor layer and the first drain region.
摘要:
A semiconductor device capable of suppressing the occurrence of a punch-through phenomenon is provided. A first n-type conductive layer (2′) is formed on a substrate (1′). A p-type conductive layer (3′) is formed thereon. A second n-type conductive layer (4′) is formed thereon. On the under surface of the substrate (1′), there is a drain electrode (13′) connected to the first n-type conductive layer (2′). On the upper surface of the substrate (1′), there is a source electrode (11′) in ohmic contact with the second n-type conductive layer (4′), and a gate electrode (12′) in contact with the first n-type conductive layer (2′), p-type conductive layer (3′), the second n-type conductive layer (4′) through an insulation film (21′). The gate electrode (12′) and the source electrode (11′) are alternately arranged. The p-type conductive layer (3′) includes In.
摘要:
Provided is a semiconductor device in which the trade-off between the withstand voltage and the on-resistance is improved and the performance is increased. A semiconductor device comprises a substrate 1, a first n-type semiconductor layer 21′, a second n-type semiconductor layer 23, a p-type semiconductor layer 24, and a third n-type semiconductor layer 25′, wherein the first n-type semiconductor layer 21′, the second n-type semiconductor layer 23, the p-type semiconductor layer 24, and the third n-type semiconductor layer 25′ are laminated at the upper side of the substrate 1 in this order. The drain electrode 13 is in ohmic-contact with the first n-type semiconductor layer 21′ and the source electrode 12 is in ohmic-contact with the third n-type semiconductor layer 25′. A gate electrode 14 is arranged so as to fill an opening portion to be filled that extends from the third n-type semiconductor layer 25′ to the second n-type semiconductor layer 23, and the gate electrode 14 is in contact with the upper surface of the second n-type semiconductor layer 23, the side surfaces of the p-type semiconductor layer 24, and the side surfaces of the third n-type semiconductor layer 25′. The second n-type semiconductor layer 23 has composition that changes from the drain electrode 13 side toward the source electrode 12 side in the direction perpendicular to the plane of the substrate 1 and contains donor impurity.
摘要:
A heterojunction filed effect transistor with a low access resistance, a low on resistance, and the like, a method for producing a heterojunction filed effect transistor and an electron device are provided. In the heterojunction field effect transistor, an electron transit layer 11 formed of a III-nitride semiconductor is formed on a substrate 10, an electron supply layer 12 formed of a III-nitride semiconductor forms a heterojunction with an upper surface of the electron transit layer 11, a gate electrode 14, a source electrode 15A, and a drain electrode 15B are arranged on the electron supply layer 12, n-type conductive layer regions 13A and 13B each extended from an upper part of the electron transit layer 11 to an upper surface of the electron supply layer 12 are provided in at least a part below the source electrode 15A and a part below the drain electrode 15B, and an n-type impurity concentration at a heterojunction interface of an electron transit layer 11 part of each of the n-type conductive layer regions 13A and 13B with the electron supply layer 12 is 1×1020 cm−3 or more.
摘要:
Provided is a semiconductor device in which the trade-off between the withstand voltage and the on-resistance is improved and the performance is increased.A semiconductor device comprises a substrate 1, a first n-type semiconductor layer 21′, a second n-type semiconductor layer 23, a p-type semiconductor layer 24, and a third n-type semiconductor layer 25′, wherein the first n-type semiconductor layer 21′, the second n-type semiconductor layer 23, the p-type semiconductor layer 24, and the third n-type semiconductor layer 25′ are laminated at the upper side of the substrate 1 in this order. The drain electrode 13 is in ohmic-contact with the first n-type semiconductor layer 21′ and the source electrode 12 is in ohmic-contact with the third n-type semiconductor layer 25′. A gate electrode 14 is arranged so as to fill an opening portion to be filled that extends from the third n-type semiconductor layer 25′ to the second n-type semiconductor layer 23, and the gate electrode 14 is in contact with the upper surface of the second n-type semiconductor layer 23, the side surfaces of the p-type semiconductor layer 24, and the side surfaces of the third n-type semiconductor layer 25′. The second n-type semiconductor layer 23 has composition that changes from the drain electrode 13 side toward the source electrode 12 side in the direction perpendicular to the plane of the substrate 1 and contains donor impurity.
摘要:
A bipolar transistor is provided with an emitter layer, a base layer and a collector layer. The emitter layer is formed above a substrate and is an n-type conductive layer including a first nitride semiconductor. The base layer is formed on the emitter layer and is a p-type conductive including a second nitride semiconductor. The collector layer is formed on the base layer and includes a third nitride semiconductor. The collector layer, the base layer and the emitter layer are formed such that a crystal growth direction to the substrate surface is parallel to a substrate direction of [000-1]. The third nitride semiconductor contains InycAlxcGa1-xc-ycN (0•xc•1, 0•yc•1, 0
摘要:
A semiconductor device includes a lower barrier layer 12 composed of a layer of AlxGa1-xN (0≦x≦1) in a state of strain relaxation, and a channel layer 13, which is composed of a layer of InyGa1-yN (0≦y≦1) disposed on the lower barrier layer 12, has band gap that is smaller than band gap of the lower barrier layer 12, and exhibits compressive strain. A gate electrode 1G is formed over the channel layer 13 via an insulating film 15 and a source electrode 1S and a drain electrode 1D serving as ohmic electrodes are formed over the channel layer 13. The insulating film 15 is constituted of polycrystalline or amorphous member.
摘要翻译:半导体器件包括在应变松弛的状态下由Al x Ga 1-x N(0& nlE; x≦̸ 1)层构成的下阻挡层12,以及由In y Ga 1-y N(0< nlE; 1)层组成的沟道层13。 y); 1)设置在下阻挡层12上,具有小于下阻挡层12的带隙的带隙,并且表现出压缩应变。 在沟道层13上经由绝缘膜15形成栅极电极1G,在沟道层13上形成有用作欧姆电极的源电极1S和漏电极1D。绝缘膜15由多晶或非晶构成。
摘要:
A semiconductor device capable of suppressing the occurrence of a punch-through phenomenon is provided. A first n-type conductive layer (2′) is formed on a substrate (1′). A p-type conductive layer (3′) is formed thereon. A second n-type conductive layer (4′) is formed thereon. On the under surface of the substrate (1′), there is a drain electrode (13′) connected to the first n-type conductive layer (2′). On the upper surface of the substrate (1′), there is a source electrode (11′) in ohmic contact with the second n-type conductive layer (4′), and a gate electrode (12′) in contact with the first n-type conductive layer (2′), p-type conductive layer (3′), the second n-type conductive layer (4′) through an insulation film (21′). The gate electrode (12′) and the source electrode (11′) are alternately arranged. The p-type conductive layer (3′) includes In.
摘要:
A semiconductor device includes a lower barrier layer 12 composed of a layer of AlxGa1-xN (0≦x≦1) in a state of strain relaxation, and a channel layer 13, which is composed of a layer of InyGa1-yN (0≦y≦1) disposed on the lower barrier layer 12, has band gap that is smaller than band gap of the lower barrier layer 12, and exhibits compressive strain. A gate electrode 1G is formed over the channel layer 13 via an insulating film 15 and a source electrode 1S and a drain electrode 1D serving as ohmic electrodes are formed over the channel layer 13. The insulating film 15 is constituted of polycrystalline or amorphous member.
摘要翻译:半导体器件包括在应变松弛的状态下由Al x Ga 1-x N(0& nlE; x≦̸ 1)层构成的下阻挡层12,以及由In y Ga 1-y N(0< nlE; 1)层组成的沟道层13。 y); 1)设置在下阻挡层12上,具有小于下阻挡层12的带隙的带隙,并且表现出压缩应变。 在沟道层13上经由绝缘膜15形成栅极电极1G,在沟道层13上形成有用作欧姆电极的源电极1S和漏电极1D。绝缘膜15由多晶或非晶构成。
摘要:
Provided is a semiconductor device capable of suppressing an occurrence of a punch-through phenomenon.A semiconductor device includes a substrate 1, a first n-type semiconductor layer 2, a p-type semiconductor layer 3, a second n-type semiconductor layer 4, a drain electrode 13, a source electrode 11, a gate electrode 12, and a gate insulation film 21, wherein the first n-type semiconductor layer 2, the p-type semiconductor layer 3, and the second n-type semiconductor layer 4 are laminated on the substrate 1 in this order. The drain electrode 13 is in ohmic-contact with the first n-type semiconductor layer 2. The source electrode 11 is in ohmic-contact with the second n-type semiconductor layer 4. An opening portion to be filled or a notched portion that extends from an upper surface of the second n-type semiconductor layer 4 to an upper part of the first n-type semiconductor layer 2 is formed at a part of the p-type semiconductor layer 3 and a part of the second n-type semiconductor layer 4. The gate electrode 12 is in contact with an upper surface of the first n-type semiconductor layer 2, side surfaces of the p-type semiconductor layer 3, and side surfaces of the second n-type semiconductor layer 4 at inner surfaces of the opening portion to be filled or a surface of the notched portion via the gate insulation film 21. The p-type semiconductor layer 3 has a positive polarization charge at a first n-type semiconductor layer 2 side in a state where a voltage is applied to none of the electrodes.