Semiconductor device and manufacturing method thereof
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Abstract
By providing appropriate TFT structures arranged in various circuits of the semiconductor device in response to the functions required by the circuits, it is made possible to improve the operating performances and the reliability of a semiconductor device, reduce power consumption as well as realizing reduced manufacturing cost and increase in yield by lessening the number of processing steps. An LDD region of a TFT is formed to have a concentration gradient of an impurity element for controlling conductivity which becomes higher as the distance from a drain region decreases. In order to form such an LDD region having a concentration gradient of an impurity element, the present invention uses a method in which a gate electrode having a taper portion is provided to thereby dope an ionized impurity element for controlling conductivity accelerated in the electric field so that it penetrates through the gate electrode and a gate insulating film into a semiconductor layer.
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Citations
76 Claims
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1-36. -36. (Canceled)
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37. A display device comprising a pixel TFT disposed in a pixel section and a driver circuit comprising a p-channel TFT and an n-channel TFT disposed in a periphery of the pixel section, over a substrate, wherein:
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the n-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
the p-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a third impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to overlap the gate electrode; and
a fourth impurity region which forms a source region or a drain region which is disposed on the outside of the third impurity region;
the pixel TFT comprises a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode and a concentration of an impurity region of the other conductivity type in the third impurity region are set to become higher as the distance from channel forming regions that are in contact increase; and
a pixel electrode that is disposed in the pixel section and has a light reflective surface is formed over a second interlayer insulating film comprising an organic insulating material; and
is connected to the pixel TFT through an opening disposed at least in a first interlayer insulating film comprising an inorganic insulating material which is disposed over the gate electrode of the pixel TFT and in the second interlayer insulating film formed in close contact with the insulating film. - View Dependent Claims (41, 45, 49, 53)
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38. A display device comprising a pixel TFT disposed in a pixel section and a driver circuit comprising a p-channel TFT and an n-channel TFT disposed in a periphery of the pixel section, over a substrate, wherein:
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the n-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
the p-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a third impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to overlap the gate electrode; and
a fourth impurity region which forms a source region or a drain region that is disposed on the outside of the third impurity region;
the pixel TFT comprises a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode and a concentration of an impurity region of the other conductivity type in the third impurity region are set to become higher as the distance from channel forming regions that are in contact increase; and
a pixel electrode that is disposed in the pixel section and has a light transmitting property is formed over a second interlayer insulating film comprising an organic insulating material; and
is connected to a conductive metal wiring which is connected to the pixel TFT, through an opening disposed at least in a first interlayer insulating film comprising an inorganic insulating material that is formed over the gate electrode of the pixel TFT and in the second interlayer insulating film formed in close contact with the insulating film. - View Dependent Claims (42, 46, 50, 54)
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39. A display device which holds liquid crystal between a pair of substrates, wherein:
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one substrate which comprises a pixel TFT disposed in a pixel section and a driver circuit comprising a p-channel TFT and an n-channel TFT in the periphery of the pixel section is characterized in that;
the n-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
the p-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a third impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to overlap the gate electrode; and
a fourth impurity region which forms a source region or a drain region which is disposed on the outside of the third impurity region;
the pixel TFT comprises a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode and a concentration of an impurity region of the other conductivity type in the third impurity region are set to become higher as the distance from channel forming regions that are in contact increase;
a pixel electrode that is disposed in the pixel section and has a light reflective surface is formed over a second interlayer insulating film comprising an organic insulating material; and
is connected to the pixel TFT through an opening disposed at least in a first interlayer insulating film comprising an inorganic insulating material which is disposed over the gate electrode of the pixel TFT and in the second interlayer insulating film formed in close contact with the insulating film; and
it is stuck to the other substrate which is formed with a transparent conductive film, through at least one columnar spacer formed above the opening formed in the second interlayer insulating film. - View Dependent Claims (43, 47, 51, 55)
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40. A display device which holds a liquid crystal between a pair of substrates, wherein:
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one substrate which comprises a pixel TFT disposed in a pixel section and a driver circuit comprising a p-channel TFT and an n-channel TFT in the periphery of the pixel section is characterized in that;
the n-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
the p-channel TFT of the driver circuit comprises;
a gate electrode which has a tapered portion;
a channel forming region;
a third impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to overlap the gate electrode; and
a fourth impurity region which forms a source region or a drain region which is disposed on the outside of the third impurity region;
the pixel TFT comprises a gate electrode which has a tapered portion;
a channel forming region;
a first impurity region which forms an LDD region that is disposed in contact with the channel forming region and so as to partly overlap the gate electrode; and
a second impurity region which forms a source region or a drain region that is disposed on the outside of the first impurity region;
a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode and a concentration of an impurity region of the other conductivity type in the third impurity region are set to become higher as the distance from channel forming regions that are in contact increase;
a pixel electrode that is disposed in the pixel section and has a light transmitting property is formed over a second interlayer insulating film comprising an organic insulating material; and
is connected to a conductive metal wiring which is connected to the pixel TFT, through an opening disposed at least in a first interlayer insulating film comprising an inorganic insulating material that is formed over the gate electrode of the pixel TFT and in the second interlayer insulating film formed in close contact with the insulating film; and
it is stuck to the other substrate which is formed with a transparent conductive film, through at least one columnar spacer formed above the opening formed in the second interlayer insulating film. - View Dependent Claims (44, 48, 52, 56)
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57. A display device comprising:
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a pixel section comprising at least one pixel TFT over a substrate;
a driver circuit comprising at least one n-channel TFT and at least one p-channel TFT over the substrate;
a first interlayer insulating film comprising an inorganic insulating material over the pixel TFT;
a second interlayer insulating film comprising an organic insulating material over the first interlayer insulating film; and
at least one pixel electrode having a light reflective surface over the second interlayer insulating film, and connected to the pixel TFT through an opening disposed in the first interlayer insulating film and the second interlayer insulating film, wherein each of the pixel TFT and the n-channel TFT comprises a gate electrode having a tapered portion, a channel forming region, a first impurity region forming an LDD region disposed in contact with the channel forming region and so as to partly overlap the gate electrode, and a second impurity region forming a source region or a drain region disposed on the outside of the first impurity region, wherein a concentration of an impurity element of one conductivity type in a region oft he first impurity region that overlaps the gate electrode is set to become higher as the distance from channel forming regions that are in contact increase. - View Dependent Claims (61, 65, 69, 73)
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58. A display device comprising:
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a pixel section comprising at least one pixel TFT over a substrate;
a driver circuit comprising at least one n-channel TFT and at least one p-channel TFT over the substrate;
a first interlayer insulating film comprising an inorganic insulating material over the pixel TFT;
a second interlayer insulating film comprising an organic insulating material over the first interlayer insulating film; and
at least one pixel electrode having a light transmitting property over the second interlayer insulating film, and connected to a conductive metal wiring connected to the pixel TFT through an opening disposed in the first interlayer insulating film and the second interlayer insulating film, wherein each of the pixel TFT and the n-channel TFT comprises a gate electrode having a tapered portion, a channel forming region, a first impurity region forming an LDD region disposed in contact with the channel forming region and so as to partly overlap the gate electrode, and a second impurity region forming a source region or a drain region disposed on the outside of the first impurity region, wherein a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode is set to become higher as the distance from channel forming regions that are in contact increase. - View Dependent Claims (62, 66, 70, 74)
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59. A display device holding a liquid crystal between a first substrate and a second substrate comprising:
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a pixel section comprising at least one pixel TFT over the first substrate;
a driver circuit comprising at least one n-channel TFT and at least one p-channel TFT over the first substrate;
a first interlayer insulating film comprising an inorganic insulating material over the pixel TFT;
a second interlayer insulating film comprising an organic insulating material over the first interlayer insulating film; and
at least one pixel electrode having a light reflective surface over the second interlayer insulating film, and connected to the pixel TFT through an opening disposed in the first interlayer insulating film and the second interlayer insulating film, wherein each of the pixel TFT and the n-channel TFT comprises a gate electrode having a tapered portion, a channel forming region, a first impurity region forming an LDD region disposed in contact with the channel forming region and so as to partly overlap the gate electrode, and a second impurity region forming a source region or a drain region disposed on the outside of the first impurity region, wherein a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode is set to become higher as the distance from channel forming regions that are in contact increase, wherein the first substrate is stuck to the second substrate formed on a transparent conductive film, through at least one columnar spacer formed above the opening. - View Dependent Claims (63, 67, 71, 75)
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60. A display device holding a liquid crystal between a first substrate and a second substrate comprising:
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a pixel section comprising at least one pixel TFT, over the first substrate;
a driver circuit comprising at least one n-channel TFT and at least one p-channel TFT over the first substrate;
a first interlayer insulating film comprising an inorganic insulating material over the pixel TFT;
a second interlayer insulating film comprising an organic insulating material over the first interlayer insulating film; and
at least one pixel electrode having a light transmitting property over the second interlayer insulating film, and connected to a conductive metal wiring connected to the pixel TFT through an opening disposed in the first interlayer insulating film and the second interlayer insulating film, wherein each of the pixel TFT and the n-channel TFT comprises a gate electrode having a tapered portion, a channel forming region, a first impurity region forming an LDD region disposed in contact with the channel forming region and so as to partly overlap the gate electrode, and a second impurity region forming a source region or a drain region disposed on the outside of the first impurity region, wherein a concentration of an impurity element of one conductivity type in a region of the first impurity region that overlaps the gate electrode is set to become higher as the distance from channel forming regions that are in contact increase, wherein the first substrate is stuck to the second substrate formed on a transparent conductive film, through at least one columnar spacer formed above the opening. - View Dependent Claims (64, 68, 72, 76)
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Specification
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Current AssigneeSemiconductor Energy Laboratory Co., Ltd.
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Original AssigneeSemiconductor Energy Laboratory Co., Ltd.
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InventorsArai, Yasuyuki, Suzawa, Hideomi, Ono, Koji, Yamazaki, Shunpei
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current438/321
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CPC Class CodesG02F 1/13454 Drivers integrated on the a...H01L 2029/7863 with an LDD consisting of m...H01L 21/32136 using plasmasH01L 27/1222 with a particular compositi...H01L 27/1237 with a different compositio...H01L 27/124 with a particular compositi...H01L 27/127 with a particular formation...H01L 27/1277 using a crystallisation pro...H01L 29/42384 for thin film field effect ...H01L 29/4908 for thin film semiconductor...H01L 29/66757 Lateral single gate single ...H01L 29/78621 with LDD structure or an ex...H01L 29/78627 with a significant overlap ...H01L 29/78645 with multiple gate
