Thin-film semiconductor device and method of manufacturing the same
First Claim
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1. A thin-film semiconductor device comprising:
- a substrate;
a gate electrode formed above the substrate;
a gate insulating film formed above the gate electrode and above the substrate extending beyond both ends of the gate electrode in a channel length direction, the gate insulating film including a flat portion disposed over the gate electrode and a step portion which is formed in each of parts of the gate insulating film corresponding to respective both ends of the gate electrode;
a semiconductor layer formed above the gate insulating film, and having a channel region and a bandgap energy of 1.6 eV or less;
an insulating layer formed above the semiconductor layer, having a first contact opening and a second contact opening that are placed apart from each other, and including a first insulating layer region, a second insulating layer region, and a third insulating layer region that is rectangular, the first insulating layer region being placed outside of the first contact opening in the channel length direction and above one end of the gate electrode, the second insulating layer region being placed outside of the second contact opening in the channel length direction and above the other end of the gate electrode which opposes the one end, and the third insulating layer region being placed between the first contact opening and the second contact opening; and
a source electrode and a drain electrode both formed above the insulating layer, the source electrode being electrically connected to the channel region with the first contact opening therebetween, and the drain electrode opposing the source electrode and being electrically connected to the channel region with the second contact opening therebetween,wherein each of the source electrode and the drain electrode has a size in a channel width direction greater than a size of the third insulating layer region in the channel width direction, and the third insulating layer region has corners each of which is below a corresponding one of the source electrode and the drain electrode, the channel width direction being orthogonal to the channel length direction, andthe gate insulating film at the step portion has a film thickness less than a film thickness of the gate insulating film at the flat portion.
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Abstract
In a thin-film semiconductor device, a semiconductor layer has a bandgap energy of 1.6 eV or less, an insulating layer formed above the semiconductor layer includes: a first insulating layer region placed outside of a first contact opening and above one end of a gate electrode; a second insulating layer region placed outside of a second contact opening and above the other end of the gate electrode which opposes the one end; and a third insulating layer region being rectangular and placed between the first contact opening and the second contact opening.
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Citations
5 Claims
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1. A thin-film semiconductor device comprising:
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a substrate; a gate electrode formed above the substrate; a gate insulating film formed above the gate electrode and above the substrate extending beyond both ends of the gate electrode in a channel length direction, the gate insulating film including a flat portion disposed over the gate electrode and a step portion which is formed in each of parts of the gate insulating film corresponding to respective both ends of the gate electrode; a semiconductor layer formed above the gate insulating film, and having a channel region and a bandgap energy of 1.6 eV or less; an insulating layer formed above the semiconductor layer, having a first contact opening and a second contact opening that are placed apart from each other, and including a first insulating layer region, a second insulating layer region, and a third insulating layer region that is rectangular, the first insulating layer region being placed outside of the first contact opening in the channel length direction and above one end of the gate electrode, the second insulating layer region being placed outside of the second contact opening in the channel length direction and above the other end of the gate electrode which opposes the one end, and the third insulating layer region being placed between the first contact opening and the second contact opening; and a source electrode and a drain electrode both formed above the insulating layer, the source electrode being electrically connected to the channel region with the first contact opening therebetween, and the drain electrode opposing the source electrode and being electrically connected to the channel region with the second contact opening therebetween, wherein each of the source electrode and the drain electrode has a size in a channel width direction greater than a size of the third insulating layer region in the channel width direction, and the third insulating layer region has corners each of which is below a corresponding one of the source electrode and the drain electrode, the channel width direction being orthogonal to the channel length direction, and the gate insulating film at the step portion has a film thickness less than a film thickness of the gate insulating film at the flat portion. - View Dependent Claims (2, 3, 4)
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5. A thin-film semiconductor device comprising:
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a substrate; a gate electrode formed above the substrate; a gate insulating film formed above the gate electrode and above the substrate extending beyond both ends of the gate electrode in a channel length direction; a semiconductor layer formed above the gate insulating film, and having a channel region and a bandgap energy of 1.6 eV or less; an insulating layer formed above the semiconductor layer, having a first contact opening and a second contact opening that are placed apart from each other, and including a first insulating layer region, a second insulating layer region, and a third insulating layer region that is rectangular, the first insulating layer region being placed outside of the first contact opening in the channel length direction and above one end of the gate electrode, the second insulating layer region being placed outside of the second contact opening in the channel length direction and above the other end of the gate electrode which opposes the one end, and the third insulating layer region being placed between the first contact opening and the second contact opening; and a source electrode and a drain electrode both formed above the insulating layer, the source electrode being electrically connected to the channel region with the first contact opening therebetween, and the drain electrode opposing the source electrode and being electrically connected to the channel region with the second contact opening therebetween, wherein each of the source electrode and the drain electrode has a size in a channel width direction greater than a size of the third insulating layer region in the channel width direction, and the third insulating layer region has corners each of which is below a corresponding one of the source electrode and the drain electrode, the channel width direction being orthogonal to the channel length direction.
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Specification