Patent ID: 8178897

Claim:
A method of operating a semiconductor device, the method comprising: providing a protection device at a protected node, the protected node being coupled to circuitry in a semiconductor substrate, wherein the protected node is coupled to a first node of an ESD device, the ESD device comprising an ESD device region disposed within a semiconductor body; a plurality of first device regions of a first conductivity type disposed on a second device region of a second conductivity type, the second conductivity type opposite the first conductivity type, wherein the second device region is disposed within the ESD region; a plurality of third device regions disposed on the second device region, wherein the third device regions comprise a sub-region of the first conductivity type and a sub-region of the second conductivity type, and the plurality of first device regions and third device regions are distributed on the second device region such that third device regions are not directly adjacent to each other; a fourth device region of the first conductivity type adjacent to the second device region, the fourth device region disposed within the ESD region; and a fifth device region of the second conductivity type disposed within the fourth device region, wherein the first device regions; the sub-regions of the first conductivity type of the third device region, the second device region, the fourth device region and the fifth device region comprise a silicon controlled rectifier (SCR), and the first node is coupled to the first device regions and the sub-regions of the first conductivity type; and protecting the circuitry from a high voltage, wherein when the high voltage reaches a level that is greater than an operating level, the protection circuitry will cause a current to flow from a trigger device coupled to the sub-region of the second conductivity type, wherein when the current from the trigger device flows into the sub-region of the second conductivity type, the ESD device latches, causing a high current to flow from the first node to the fifth device region.