Claims
- 1. An improved input protection network for reducing the damaging effect of an electrostatic discharge into at least one input gate electrode of an MOS semiconductor chip, the MOS device having at least one input circuit pad electrically connected to the gate electrode, the improvement lying in higher ESD voltage or energy damage resistance by reduction of hot spots and the ensuing excessively high current density in the network caused by excessive current flow or thermal rise, the improvement comprising:
- means for providing a series resistance between the at least one input pad and the at least one input gate electrode, said series resistance means further comprising:
- a plurality of accurately round and concentric layers, said plurality of layers including, at least, in an order of layers from top to bottom, an accurately round and concentric metal contact layer and an accurately round and concentric bottom diffusion layer, said accurate concentricity being mutually existent between each of said plurality of layers, said concentricity being within ten percent, said bottom diffusion layer being a portion of said series resistance, each of said plurality of accurately round and concentric layers, from top to bottom, except said bottom diffusion layer, having a contact upon one of said accurately round and concentric layers lying therebelow.
- 2. The improved input protection network according to claim 1 wherein said plurality of accurately round and concentric layers further comprises:
- a single buried contact polycrystalline layer, said buried contact being located between said metal contact layer and said diffusion layer.
- 3. The improved input protection network according to claim 1 wherein at least a portion of said means for providing a series resistance is a multiple diffusion run comprising:
- a first diffusion run having an end and two elongated sides, said first diffusion run lying in a plane; and
- a second diffusion run, said second diffusion run lying in said plane of said first diffusion run, said second diffusion run having generally a "U" shape with two ends, said second diffusion run being evenly spaced away from and enclosing said first diffusion run on said two elongated sides and on said end, said second diffusion run being grounded at each of said two ends.
- 4. The improved input protection network according to claim 2 wherein at least a portion of said means for providing a series resistance is a multiple diffusion run comprising:
- a first diffusion run having an end and two elongated sides, said first diffusion run lying in a plane; and
- a second diffusion run, said second diffusion run lying in said plane of said first diffusion run, said second diffusion run having generally a "U" shape with two ends, said second diffusion run being evenly spaced away from and enclosing said first diffusion run on said two elongated sides and on said end, said second diffusion run being grounded at each of said two ends.
- 5. An improved input protection network for reducing the damaging effect of an electrostatic discharge into at least one input gate electrode of an MOS semiconductor chip, the MOS device having at least one input circuit pad electrically connected to the gate electrode, the improvement lying in higher ESD voltage or energy damage resistance by reduction of hot spots and the ensuing excessively high current density in the network caused by excessive current flow or thermal rise, the improvement comprising:
- means for providing a series resistance between the at least one input pad and the at least one input gate electrode, said series resistance means further comprising:
- a plurality of accurately round and concentric layers, said plurality of layers including, at least, in an order of layers from top to bottom, an accurately round and concentric metal contact layer and an accurately round and concentric bottom diffusion layer, said accurate concentricity being mutually existent between each of said plurality of layers, said concentricity being within ten percent, said bottom diffusion layer being a portion of said series resistance, each of said plurality of accurately round and concentric layers, from top to bottom, except said bottom diffusion layer, having a contact upon one of said accurately round and concentric layers lying therebelow, wherein at least a portion of said means for providing a series resistance is a multiple diffusion run comprising:
- a first diffusion run having an end and two elongated sides, said first diffusion run lying in a plane; and
- a second diffusion run, said second diffusion run lying in said plane of said first diffusion run, said second diffusion run having generally a "U" shape with two ends, said second diffusion run being evenly spaced away from and enclosing said first diffusion run on said two elongated sides and on said end, said second diffusion run being grounded at each of said two ends.
- 6. The improved input protection network according to claim 5 wherein said plurality of accurately round and concentric layers further comprises:
- a single buried contact polycrystalline layer, said buried contact being located between said metal contact layer and said diffusion layer.
Parent Case Info
This application is a continuation of application Ser. No. 720,862 filed Apr. 8, 1985 abandoned.
US Referenced Citations (8)
Non-Patent Literature Citations (2)
Entry |
F. Masuoka et al, "A New Mask ROM Cell Programmed by Through-Hole Using Double Polysilicon Technology", Proceedings of the IEEE International Electron Devices Meeting (1953) pp. 577-579. |
J. K. Keller, "Protection of MOS Integrated Circuits from Destruction by Electrostatic Discharge", Proceedings of the 1980 Electrical Overstress/Electrostatic Discharge Symposium, pp. 73-80. |
Continuations (1)
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Number |
Date |
Country |
Parent |
720862 |
Apr 1985 |
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