An electrostatic discharge protection device including a substrate, a first PNP element, a second PNP element, and an isolation region is provided. The substrate has a P-type conductivity. The first and second PNP elements are formed in the substrate. The isolation region isolates the first and second PNP elements.

A semiconductor structure for a DRAM is described having multiple layers of arrays of thyristor memory cells and associated peripheral circuitry. Memory cells in a vertical string extending through the layers have an electrical connection to one terminal of the memory cells in that string. Word lines couple the strings together. Each layer of the array also includes bit line connections to memory cells on that layer. Methods of fabricating the array are described.

A silicon controlled rectifier is provided. The silicon controlled rectifier comprises a substrate and a first n-well in the substrate. A p+ anode region may be arranged in the first n-well in the substrate. A first p-well may be arranged in the first n-well in the substrate. An n+ cathode region may be arranged in the first p-well in the substrate. A field oxide layer may be arranged over a first portion of the first p-well. A first gate electrode layer may extend over a second portion of the first p-well and over a portion of the field oxide layer.

An ESD protection device may be provided, including: a substrate including a first conductivity region and a second conductivity region arranged therein. The first conductivity region may include a first terminal region and a second terminal region electrically coupled with each other. The second conductivity region may include a third terminal region and a fourth terminal region electrically coupled with each other. The second conductivity region may further include a fifth terminal region electrically coupled with the first and second terminal regions. The fifth terminal region may be arranged laterally between the third terminal region and the fourth terminal region. The first conductivity region, the first terminal region, the third terminal region, and the fifth terminal region may have a first conductivity type. The second conductivity region, the second terminal region, and the fourth terminal region may have a second conductivity type different from the first conductivity type.

A semiconductor structure for a DRAM is described having multiple layers of arrays of thyristor memory cells with silicon-germanium base regions. Memory cells in a vertical string extending through the layers have an electrical connection to one terminal of the memory cells in that string. Word lines couple the strings together. Each layer of the array also includes bit line connections to memory cells on that layer. Select transistors enable the use of folded bit lines. Methods of fabricating the array are described.

An electrostatic discharge protection device including a substrate, a first PNP element, a second PNP element, and an isolation region is provided. The substrate has a P-type conductivity. The first and second PNP elements are formed in the substrate. The isolation region isolates the first and second PNP elements.

The present disclosure provides a silicon controlled rectifier and a manufacturing method thereof. The silicon controlled rectifier comprises: an N-type well 60, an upper portion of which is provided with a P-type heavily doped region 20 and an N-type heavily doped region 28; an N-type well 62, an upper portion of which is provided with a P-type heavily doped region 22 and an N-type heavily doped region 26; and a P-type well 70 connecting the N-type well 60 and 62, an upper portion of which is provided with a P-type heavily doped region 24; wherein a first electrode structure is in mirror symmetry with a second electrode structure with respect to the P-type heavily doped region 24, and active regions of the N-type well 60 and 62 are respectively provided between the P-type heavily doped region 24 and each of the N-type heavily doped region 28 and 26.

A semiconductor device including a protected element, a contact region, wiring, and a channel stopper region. The protected element is configured including a p-n junction diode between an anode region and a cathode region, and is arranged in an active layer of a substrate. The periphery of the diode is surrounded by an element isolation region. The contact region is arranged at a portion on a main face of the anode region, and is set with a same conductivity type as the anode region, and set with a higher impurity concentration than the anode region. The wiring is arranged over the diode. One end portion of the wiring is connected to the contact region and another end portion extends over a passivation film. The channel stopper region is arranged at a portion on the main face of the anode region under the wiring between the contact region and the element isolation region, and is set with an opposite conductivity type to the contact region.

A semiconductor structure for a DRAM is described having multiple layers of arrays of thyristor memory cells with silicon-germanium base regions. Memory cells in a vertical string extending through the layers have an electrical connection to one terminal of the memory cells in that string. Word lines couple the strings together. Each layer of the array also includes bit line connections to memory cells on that layer. Select transistors enable the use of folded bit lines. Methods of fabricating the array are described.

An electronic device includes a silicon-on-insulator (SOI) structure, and an electrostatic discharge (ESD) protection device, with an isolation layer having a thickness and extending in a trench from a first implanted region. The ESD protection device includes a conductive field plate that extends over a portion of the first implanted region and past the first implanted region and over a portion of the isolation layer by an overlap distance that is 3.5 to 5.0 times the thickness of the isolation layer. In one example, the ESD protection device has a finger or racetrack shape, and the first implanted region and a second implanted region extend around first and second turn portions of the finger shape.