Semiconductor device
First Claim
1. A semiconductor device having a field effect transistor, comprising:
- a semiconductor layer;
a first trench formed in the semiconductor layer;
a gate electrode provided within the first trench via a gate insulating film intervening therebetween;
a second trench formed in the semiconductor layer;
a first insulating film provided in an interior of the second trench;
a protection element provided in the second trench via the first insulating film, the protection element having a first node and a second node;
a second insulating film provided inside the second trench and covering the protection element, the second insulating film having a first via corresponding to the first node and a second via corresponding to the second node;
a source region provided in the semiconductor layer;
a source electrode connected to the source region; and
a drain electrode provided on a back surface of the semiconductor layer,wherein a bottom surface of the second trench is positioned to be lower than a bottom surface of the first trench, andwherein the first node of the protection element is electrically connected to the gate electrode via the first via of the second insulating film and the second node of the protection element is connected to the source electrode via the second via of the second insulating film.
2 Assignments
0 Petitions
Accused Products
Abstract
The leakage current generated due to the extension of the depleted layer to the end of the chip is reduced. In MOSFET 100, the depths of the trenches 112 in the gate pad portion 50 and the circumference portion 70 are larger than the depths of the trenches 111 in the cell region 60. Therefore, the depleted layer extending from the cell region 60 along the direction toward the gate pad portion 50 or the direction toward the circumference portion 70 is blocked by the presence of the trench 112. In other words, an extending of the depleted layer can be terminated by disposing the trench 112, so as to avoid reaching the depleted layer to the end of the semiconductor chip. Accordingly, a leakage current generated from the cell region 60 along the direction toward the end of the semiconductor chip can be reduced.
87 Citations
10 Claims
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1. A semiconductor device having a field effect transistor, comprising:
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a semiconductor layer; a first trench formed in the semiconductor layer; a gate electrode provided within the first trench via a gate insulating film intervening therebetween; a second trench formed in the semiconductor layer; a first insulating film provided in an interior of the second trench; a protection element provided in the second trench via the first insulating film, the protection element having a first node and a second node; a second insulating film provided inside the second trench and covering the protection element, the second insulating film having a first via corresponding to the first node and a second via corresponding to the second node; a source region provided in the semiconductor layer; a source electrode connected to the source region; and a drain electrode provided on a back surface of the semiconductor layer, wherein a bottom surface of the second trench is positioned to be lower than a bottom surface of the first trench, and wherein the first node of the protection element is electrically connected to the gate electrode via the first via of the second insulating film and the second node of the protection element is connected to the source electrode via the second via of the second insulating film. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification