ESD protection circuit
DCFirst Claim
1. An output driver circuit comprising:
- a plurality of pullup transistors each comprising a source, a drain, and a channel region controlled by a gate, each source, drain, and gate having a length parallel to the direction of current flow and a width perpendicular to the direction of current flow, said width of each region being greater than said length;
said source, drain, and channel regions of said pullup transistors being surrounded by a diffusion region above which are conductive contact regions connected to said diffusion region along at least most of its width, whereby current flow through said pullup transistors during an ESD event is spread over most of the width of said pullup transistors.
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Abstract
An ESD protection circuit combines a split bipolar transistor with a transistor layout which exhibits very high tolerance to ESD events. The split bipolar transistor divides current among many segments and prevents the current hogging which often causes an ESD failure. Several splitting structures are disclosed, each combining a resistor in series with each segment to distribute current evenly. The transistor takes advantage of the snap-back effect to increase current carrying capacity. Layout positions metal contacts away from regions of highest energy dissipation. Layout also allows high currents to be dissipated through ESD protection structures and not through circuit devices such as output drivers or through parasitic bipolar transistors not designed for high current. Sharp changes in electron density are avoided by the use of high-diffusing phosphorus in N-regions implanted to both lightly and heavily doped levels. Critical corners are rounded rather than sharp. Certain P-type channel stop implants are positioned away from nearby N-regions to increase breakdown voltage.
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5 Claims
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1. An output driver circuit comprising:
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a plurality of pullup transistors each comprising a source, a drain, and a channel region controlled by a gate, each source, drain, and gate having a length parallel to the direction of current flow and a width perpendicular to the direction of current flow, said width of each region being greater than said length; said source, drain, and channel regions of said pullup transistors being surrounded by a diffusion region above which are conductive contact regions connected to said diffusion region along at least most of its width, whereby current flow through said pullup transistors during an ESD event is spread over most of the width of said pullup transistors. - View Dependent Claims (2, 3, 4, 5)
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Specification