Semiconductor device
First Claim
1. A semiconductor device, comprising:
- a semiconductor substrate on which are formed a plurality of semiconductor devices;
a wiring that is formed on the semiconductor substrate and makes electrical connection between the semiconductor devices;
at least two first fuse elements formed on an insulating surface of the semiconductor substrate that covers the semiconductor devices, each of said first elements having two sides and being connected to the wiring; and
at least a second fuse element formed on the insulating surface, said second element being positioned to be blown away when at least one of the first fuse elements is blown away, said second fuse element being not connected to the wiring.
1 Assignment
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Accused Products
Abstract
A semiconductor device has a semiconductor substrate on which are formed semiconductor devices. A wiring is provided to make electrical connection between the devices. First fuse elements are formed on the substrate and connected to the wiring. A second fuse element is also formed on the same plane as the first fuse elements on the substrate and provided in proximity to a portion of each first fuse element to be blown. Both the first and second fuse elements may be formed by a composite layer of titanium nitride film and a titanium film formed over the titanium nitride film, and a tungsten or aluminium film formed over the composite layer. The first and second fuse elements may have the same width. The first fuse elements may be linearly arranged and two of the first fuse elements adjacent to each other may share the second fuse element, or a flow catchment, provided in proximity to both fuse elements.
55 Citations
28 Claims
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1. A semiconductor device, comprising:
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a semiconductor substrate on which are formed a plurality of semiconductor devices; a wiring that is formed on the semiconductor substrate and makes electrical connection between the semiconductor devices; at least two first fuse elements formed on an insulating surface of the semiconductor substrate that covers the semiconductor devices, each of said first elements having two sides and being connected to the wiring; and at least a second fuse element formed on the insulating surface, said second element being positioned to be blown away when at least one of the first fuse elements is blown away, said second fuse element being not connected to the wiring. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A semiconductor device, comprising:
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a semiconductor substrate on which are formed a plurality of semiconductor devices; wiring on the semiconductor substrate electrically connecting the semiconductor devices; at least a first fuse element on a supporting surface supported by the semiconductor substrate and connected to the wiring, the first fuse element having a portion to be blown and having a width narrower than a width of a remaining portion of the first fuse element not to be blown; and second fuse elements to be blown away when the first fuse element is blown away, each of said second fuse elements having a uniform width and not connected to the wiring, the second fuse elements being provided on the supporting surface in proximity to the first fuse element such that the second fuse elements face each other via the first fuse element, and being made of the same material as that of the first fuse element.
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9. A semiconductor device comprising:
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a semiconductor substrate on which are formed a plurality of semiconductor devices; wiring on the semiconductor substrate electrically connecting the semiconductor devices; a plurality of fuse elements on a supporting surface supported by the semiconductor substrate and connected to the wiring; and an insulating film formed on the semiconductor substrate and covering at least the fuse elements, the insulating film being provided with a groove to catch fluid flow when at least one of the first fuse elements is blown away located in proximity to at least one side of a portion of at least one of the fuse elements, the groove having a bottom surface lower than an adjacent bottom surface of said one of the fuse elements, the fuse elements being arranged in a row on the semiconductor substrate, and two of the fuse elements adjacent to each other, including said one of the fuse elements, share proximity to the groove of the insulating film.
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10. A random access memory comprising:
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at least one memory section provided in a semiconductor substrate; at least one decoder section having at least a first and a second decoder and a first and a second spare decoder, the decoder section being provided in an area surrounding the memory section and being electrically connected to the memory section; at least a first and a second fuse element provided adjacent to the decoder section and electrically connected to the first decoder and the first spare decoder, and to the second decoder and the second spare decoder, respectively, so that upon blowing at least either the first or the second fuse element, the first or the second decoder is electrically replaced; and a fuse section to be blown away when at least either of the first or the second fuse element is blown away, the fuse section being provided near a portion of the first and second fuse elements to be blown, the fuse section not being connected to the first and second decoders and the first and second spare decoders. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A semiconductor apparatus comprising:
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a semiconductor substrate; a plurality of semiconductor devices on the semiconductor substrate, including first and second groups of said semiconductor devices; and means for interconnecting said plurality of semiconductor devices;
includinga plurality of fuse elements formed on an insulating surface of the semiconductor substrate to be used to substitute a semiconductor device of the second group for a semiconductor device of the first group whenever one of said fuse elements is blown, each one of the fuse elements comprising, a first fuse element portion interconnected with said first and second groups of semiconductor devices, with the first fuse element portion to be blown by focused radiant energy, and a second fuse element portion to be blown away when at least one of the first fuse elements is blown away, the second fuse element portion being not interconnected with said first and second groups of semiconductor devices. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24)
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25. A semiconductor device, comprising:
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a semiconductor substrate on which are formed a plurality of semiconductor devices; a wiring on the semiconductor substrate and making electrical connection between the semiconductor devices; a plurality of fuse elements on a supporting surface supported by the semiconductor substrate and connected to the wiring; and an insulating film formed on the semiconductor substrate and covering at least the fuse elements, the insulating film being provided with a depression located in proximity to at least one side of a portion of at least one of the fuse elements, the depression having a bottom surface lower than an adjacent bottom surface of said one of the fuse elements, the fuse elements being arranged in a row on the semiconductor substrate, and two of the fuse elements adjacent to each other, including said one of the fuse elements, sharing proximity to the depression of the insulating film.
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26. A semiconductor device, comprising:
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a semiconductor substrate on which are formed a plurality of semiconductor devices; wiring on the semiconductor substrate electrically connecting the semiconductor devices; a plurality of fuse elements on a supporting surface supported by the semiconductor substrate and connected to the wiring; and an insulating film formed on the semiconductor substrate and covering at least the fuses, wherein the insulating film is provided with a groove to catch fluid flow when at least one of the first fuse elements is blown away located in proximity to at least one side of a portion of at least one of the fuse elements, the groove has a bottom surface lower than an adjacent bottom surface of said one of the fuse elements, the fuse elements are arranged in a row on the semiconductor substrate, and two of the fuse elements adjacent to each other, including said one of the fuse elements, share proximity to the groove of the insulating film, and the groove is separated from each of the two fuse elements by a distance shorter than a distance between the two fuse elements.
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27. A random access memory comprising:
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at least one memory section provided in a semiconductor substrate; at least one decoder section having at least a first and a second decoder and a first and a second spare decoder, the decoder section being provided in an area surrounding the memory section and electrically connected to the memory section; at least a first and a second fuse element provided adjacent to the decoder section and electrically connected to the first decoder and the first spare decoder, and the second decoder and the second spare decoder, respectively, so that upon blowing at least either the first or the second fuse element, the first or the second decoder is electrically replaced with the first or the second spare decoder, respectively, the first and second fuse elements being separated from each other by a first distance; and an insulating film formed on the semiconductor substrate and covering at least the first and second fuse elements, the insulating film is provided with a depression to catch fluid flow when at least one of the fuse elements is blown away provided near a portion of the first and second fuse elements to be blown, for ensuring that disconnection by the blown fuse is complete, the depression being separated from each of the first and second fuse elements by a second distance shorter than the first distance.
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28. A semiconductor device, comprising:
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a semiconductor substrate on which are formed a plurality of semiconductor devices; wiring on the semiconductor substrate electrically connecting the semiconductor devices; a plurality of fuse elements on a supporting surface supported by the semiconductor substrate and connected to the wiring; and an insulating film formed on the semiconductor substrate and covering at least the fuses, the insulating film being provided with a depression to catch fluid flow when at least one of the fuse elements is blown away located in proximity to at least one side of a portion of at least one of the fuse elements, the depression having a bottom surface lower than an adjacent bottom surface of said one of the fuse elements, the fuse elements being arranged in a row on the semiconductor substrate, and two of the fuse elements adjacent to each other, including said one of the fuse elements, sharing proximity to the depression of the insulating film, the depression being separated from each of the two fuse elements by a distance shorter than a distance between the two fuse elements.
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Specification