An integrated circuit includes a first semiconductor well contained in a semiconductor substrate and a second semiconductor well contained in the first semiconductor well. A capacitive element for the integrated circuit includes a first electrode and a second electrode, where the first electrode includes at least one vertical conductive structure filling a trench extending vertically into the first semiconductor well. The vertical conductive structure is electrically isolated from the first semiconductor well by a dielectric envelope covering a base and the sides of the trench. The vertical conductive structure penetrates into the second semiconductor well at least at one longitudinal end of the trench. The second electrode includes the first semiconductor well and the second semiconductor well.

In an integrated circuit supporting complementary metal oxide semiconductor (CMOS) integrated circuits, latch-up immunity is supported by surrounding a hot n-well with an n-well strap spaced from the hot n-well by a specified distance in accordance with design rules. The n-well strap is positioned between the hot n-well and other n-well or n-type diffusion structures.

An integrated circuit structure includes a first well, a second well, a third well, a first set of implants and a second set of implants. The first well includes a first dopant type, a first portion extending in a first direction and having a first width, and a second portion adjacent to the first portion of the first well, extending in the first direction and having a second width. The second well has a second dopant type and is adjacent to the first well. The third well has the second dopant type, and is adjacent to the first well. The first portion of the first well is between the second well and the third well. The first set of implants is in the first portion of the first well, the second well and the third well. The second set of implants is in the second portion of the first well.

An integrated circuit (IC) device includes a plurality of first TAP cells of a first semiconductor type, and a plurality of second TAP cells of a second semiconductor type different from the first semiconductor type. The plurality of first TAP cells is arranged in at least two columns, the at least two columns adjacent each other in a first direction and extending in a second direction transverse to the first direction. Each of the plurality of first TAP cells has a first length in the first direction. The plurality of second TAP cells includes at least one second TAP cell extending in the first direction between the at least two columns over a second length greater than the first length of each of the plurality of first TAP cells in the first direction.

A method includes forming, over a substrate, a plurality of well taps arranged at intervals in a first direction and a second direction transverse to the first direction. The plurality of well taps is arranged at intervals in a first direction and a second direction transverse to the first direction. The plurality of well taps includes at least one first well tap. The forming the plurality of well taps comprises forming the first well tap by forming a first well region of a first type. The first well region comprises two first end areas and a first middle area arranged consecutively between the two first end areas in the second direction. The forming the first well tap further comprises implanting, in the first middle area, a first dopant of a first type, and implanting, in the first end areas, a second dopant of a second type different from the first type.

An integrated circuit including first and second macroblocks arranged in a first direction, and a plurality of cells between the first macroblock and the second macroblock, the plurality of cells including at least one first ending cell adjacent to the first macroblock and having a first width in the first direction, at least one second ending cell adjacent to the second macroblock and having a second width different from the first width in the first direction, and at least one standard cell between the at least one first ending cell and the at least one second ending cell may be provided.

A well potential supply region is provided in an N-type well region of a cell array. Adjacent gates disposed in both sides of the well potential supply region in the horizontal direction and adjacent gates disposed in further both sides thereof are disposed at the same pitch. In addition, an adjacent cell array includes four gates each of which is opposed to the adjacent gates in the vertical direction. In other words, regularity in the shape of the gate patterns in the periphery of the well potential supply region is maintained.

An integrated circuit (IC) device includes a plurality of TAP cells arranged at intervals in a first direction and a second direction transverse to the first direction. The plurality of TAP cells includes at least one first TAP cell. The first TAP cell includes two first end areas and a first middle area arranged consecutively in the second direction. The first middle area includes a first dopant of a first type implanted in a first well region of the first type. The first end areas are arranged on opposite sides of the first middle area in the second direction. Each of the first end areas includes a second dopant of a second type implanted in the first well region, the second type different from the first type.

An integrated circuit (IC) device includes a plurality of first doped regions of a first semiconductor type over at least one first well region of the first semiconductor type, and a second doped region of a second semiconductor type over a second well region of the second semiconductor type. The second semiconductor type is different from the first semiconductor type. The plurality of first doped regions is arranged along a first direction. Each of the plurality of first doped regions has a first length in the first direction. The second doped region extends in the first direction between at least two first doped regions among the plurality of first doped regions over a second length greater than the first length.

Systems, apparatuses, and methods for placing cells in an integrated circuit are described. In various embodiments, an integrated circuit is divided into many partitions. In a first set of partitions susceptible to transistor latch-up, the many transistor gate stripes are connected to one of the power rails rather than left floating. The lengths of the transistor gate stripes are shortened for well tap cells in the first partition, but increased in a second partition susceptible for poor signal integrity. One or more implant layers are formed underneath the transistor gate stripes in each of the first and second partitions to adjust an amount of protection against transistor latch-up and poor signal integrity. An electrostatic discharge transistor is included with at least one source region of multiple source regions formed in a well with a same doping polarity as the at least one source region.