MIS-FETs isolated on common substrate
First Claim
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1. A semiconductor device comprising:
- a. a semiconductor substrate of p-conductivity type having at least one planar surface;
b. a first n-channel insulated-gate field effect transistor disposed on the planar surface of said semiconductor substrate, and having spaced first source and first drain regions of n-conductivity type in the surface of said substrate, a first channel portion of said substrate intermediate said first source and first drain regions, a first gate insulator layer on said first channel portion and a first gate electrode on said first gate insulator layer, the first gate insulator layer being of a film which has a thickness less than 2000 A and is selected from the group consisting of an SiO2 film and a composite film of an SiO2 layer and a phosphosilicate glass layer, so that said first transistor is of depletion type; and
c. a second n-channel insulated-gate field effect transistor disposed on the planar surface of said semiconductor substrate in spaced relation from said first transistor, said second transistor having spaced second source and second drain regions of n-conductivity type in the surface of said substrate, a second channel portion of said substrate intermediate said second source and second drain regions, a second gate insulator layer on said second channel portion and a second gate electrode on said second gate insulator layer, the second gate insulator layer including a first film which has a thickness less 2000 A and is selected from the group consisting of an SiO2 film and a composite film of an SiO2 layer and a phosphosilicate glass layer and a second film Al2 O3 which has an effective oxide thickness one-half to five times that of said first film, said second gate insulator layer being capable of inducing holes in the second channel portion, so that said second transistor is of enhancement type;
wherein the improvement comprisesisolating film means disposed on a planar surface portion of said semiconductor substrate intermediate said first source and first drain regions of said first transistor and said second source and second drain regions of said second transistor for inducing holes in the surface portion of said substrate, the total effective oxide thickness of said isolating film means being more than two times that of the second gate insulator layer of said second transistor, thereby electrically isolating said first insulated-gate field effect transistor from said second insulated-gate field effect transistor, in which said isolating film means comprises a first film disposed on the surface portion of said substrate and selected from the group consisting of a film of Al2 O3 and a film of silicon dioxide formed through thermal decomposition of tetraethoxy silane and a second film disposed on the first film and selected from the group consisting of a film of SiO2 and a double-layer film consisting of a layer of SiO2 and a layer of phosphosilicate glass.
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Abstract
An enhancement-type and a depletion-type metal-insulator-semiconductor field effect transistor are formed on a common substrate of silicon and are electrically isolated from each other by a plurality of layers including, for example, a first layer of SiO2, a second layer of Al2 O3 capable of inducing holes in the surface portion of the substrate, and a third layer of SiO2, and the relation between the thicknesses of these layers is suitably selected for attaining the satisfactory isolation between these transistors.
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Citations
4 Claims
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1. A semiconductor device comprising:
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a. a semiconductor substrate of p-conductivity type having at least one planar surface; b. a first n-channel insulated-gate field effect transistor disposed on the planar surface of said semiconductor substrate, and having spaced first source and first drain regions of n-conductivity type in the surface of said substrate, a first channel portion of said substrate intermediate said first source and first drain regions, a first gate insulator layer on said first channel portion and a first gate electrode on said first gate insulator layer, the first gate insulator layer being of a film which has a thickness less than 2000 A and is selected from the group consisting of an SiO2 film and a composite film of an SiO2 layer and a phosphosilicate glass layer, so that said first transistor is of depletion type; and c. a second n-channel insulated-gate field effect transistor disposed on the planar surface of said semiconductor substrate in spaced relation from said first transistor, said second transistor having spaced second source and second drain regions of n-conductivity type in the surface of said substrate, a second channel portion of said substrate intermediate said second source and second drain regions, a second gate insulator layer on said second channel portion and a second gate electrode on said second gate insulator layer, the second gate insulator layer including a first film which has a thickness less 2000 A and is selected from the group consisting of an SiO2 film and a composite film of an SiO2 layer and a phosphosilicate glass layer and a second film Al2 O3 which has an effective oxide thickness one-half to five times that of said first film, said second gate insulator layer being capable of inducing holes in the second channel portion, so that said second transistor is of enhancement type; wherein the improvement comprises isolating film means disposed on a planar surface portion of said semiconductor substrate intermediate said first source and first drain regions of said first transistor and said second source and second drain regions of said second transistor for inducing holes in the surface portion of said substrate, the total effective oxide thickness of said isolating film means being more than two times that of the second gate insulator layer of said second transistor, thereby electrically isolating said first insulated-gate field effect transistor from said second insulated-gate field effect transistor, in which said isolating film means comprises a first film disposed on the surface portion of said substrate and selected from the group consisting of a film of Al2 O3 and a film of silicon dioxide formed through thermal decomposition of tetraethoxy silane and a second film disposed on the first film and selected from the group consisting of a film of SiO2 and a double-layer film consisting of a layer of SiO2 and a layer of phosphosilicate glass.
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2. A semiconductor device comprising:
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a. a semiconductor substrate of p-conductivity type having at least one planar surface; b. a first n-channel insulated-gate field effect transistor disposed on the planar surface of said semiconductor substrate, and having spaced first source and first drain regions of n-conductivity type in the surface of said substrate, a first channel portion of said substrate intermediate said first source and first drain regions, a first gate insulator layer on said first channel portion and a first gate electrode on said first gate insulator layer, the first gate insulator layer being of a film which has a thickness less than 2000 a and is selected from the group consisting of an SiO2 film and a composite film of an SiO2 layer and a phosphosilicate glass layer, so that said first transistor is of depletion type; and c. a second n-channel insulated-gate field effect transistor disposed on the planar surface of said semiconductor substrate in spaced relation from said first transistor, said second transistor having spaced second source and second drain regions of n-conductivity type in the surface of said substrate, a second channel portion of said substrate intermediate said second source and second drain regions, a second gate insulator layer on said second channel portion and a second gate electrode on said second gate insulator layer, the second gate insulator layer including a first film which has a thickness less 2000 A and is selected from the group consisting of an SiO2 film and a composite film of an SiO2 layer and a phosphosilicate glass layer and a second film Al2 O3 which has an effective oxide thickness one-half to five times that of said first film, said second gate insulator layer being capable of inducing holes in the second channel portion, so that said second transistor is of enhancement type; wherein the improvement comprises isolating film means disposed on a planar surface portion of said semiconductor substrate intermediate said first source and first drain regions of said first transistor and said second source and second drain regions of said second transistor for inducing holes in the surface portion of said substrate, the total effective oxide thickness of said isolating film means being more than two times that of the second gate insulator layer of said second transistor, thereby electrically isolating said first insulated-gate field effect transistor from said second insulated-gate field effect transistor, in which said isolating film means is composed of a double-layer of Al2 O3 and SiO2, said layer of Al2 O3 being directly disposed on the surface porton of said substrate, said layer of SiO2 being disposed on the layer of Al2 O3.
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3. A semiconductor device having:
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a semiconductor substrate of p-conductivity type having one planar surface, and a plurality of n-channel insulated-gate field effect transistors disposed on the planar surface of said substrate in spaced relation from each other, each of said transistors having spaced source and drain regions of n-conductivity type in the planar surface of said substrate, a channel portion of said substrate intermediate said source and drain regions, a gate insulator layer on said channel portion and a gate electrode on said insulator layer, the gate insulator layer of one of said transistors having a property capable of inducing holes in the channel portion thereof, so that said one transistor is of enhancement type, wherein the improvement comprises; isolating film means disposed on an isolating surface portion of said substrate intermediate any two of said transistors for inducing holes in the isolating surface portion of said substrate thereunder, said isolating film means having an effective oxide thickness more than two times that of said gate insulator layer of said one transistor, to thereby electrically isolate any two of said transistors from each other, wherein said isolating film means comprises a layer of Al2 O3 formed directly on said substrate and an SiO2 layer formed thereon. - View Dependent Claims (4)
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Specification