A semiconductor memory device includes a conducting layer and an insulating layer that are disposed above a semiconductor substrate, a plurality of pillars that extend in a direction which crosses a surface of the semiconductor substrate, and a plate that is disposed between the plurality of pillars and extends in the same direction as the pillars. A surface of the plate, which faces the pillars, has convex portions and non-convex portions.

An electrode having an embedded charge contains a substrate, a first electronic charge trap defined at the interface of a first insulating layer and a second insulating layer; and a first conductive layer disposed on the first electronic charge trap; wherein the first conductive layer contains a conductive material configured to permit an external electric field to penetrate the electrode from the first electronic charge trap; and wherein the first insulating layer is not the same as the second insulating layer.

A method of fabricating a semiconductor device includes forming a memory gate and a hard mask layer on the memory gate, forming a select gate on a sidewall of the memory gate and the hard mask layer, performing a selective oxidation process to form an oxide layer on the hard mask layer and the select gate, wherein a portion of the oxide layer on the select gate is thicker than a portion of the oxide layer on the hard mask layer, and removing the oxide layer on the hard mask layer and the hard mask layer to expose a top surface of the memory gate.

A semiconductor device includes a substrate, a conductive pad region electrically coupled to the substrate, a first dielectric layer over the conductive pad region, and a passivation layer over the first dielectric layer, wherein the passivation layer includes a laterally-extending portion covering the first dielectric layer and a vertically-extending portion on a sidewall of the first dielectric layer. The laterally-extending portion and the vertically-extending portion of the passivation layer are joined along a vertically-extending boundary.

Semiconductor devices and methods of manufacturing the same are provided. The semiconductor devices may have a memory array having two transistor (2T) memory cells, each including a non-volatile memory (NVM) transistor and a high voltage (HV) field-effect transistor (FET) as a select transistor. The devices further include a logic area in which HV FETs, input/output (I/) FETs, and low voltage (LV)/core FETs are formed thereon. Other embodiments are also described.

The semiconductor device includes a semiconductor layer having a main surface, a first semiconductor region of a first conductivity type formed in a surface layer portion of the main surface of the semiconductor layer, a second semiconductor region of a second conductivity type formed in a surface layer portion of the first semiconductor region and forming a zener diode with the first semiconductor region, a third semiconductor region of the first conductivity type formed in the surface layer portion of the first semiconductor region separated from the second semiconductor region, a fourth semiconductor region of the second conductivity type formed in a region between the second semiconductor region and the third semiconductor region in the surface layer portion of the first semiconductor region and having a second conductivity type impurity concentration less than a second conductivity type impurity concentration of the second semiconductor region, and an insulating layer formed on the main surface of the semiconductor layer and covering the second semiconductor region, the third semiconductor region and the fourth semiconductor region.

A semiconductor memory device includes a conducting layer and an insulating layer that are disposed above a semiconductor substrate, a plurality of pillars that extend in a direction which crosses a surface of the semiconductor substrate, and a plate that is disposed between the plurality of pillars and extends in the same direction as the pillars. A surface of the plate, which faces the pillars, has convex portions and non-convex portions.

An electrode having an embedded charge contains a substrate, a first electronic charge trap defined at the interface of a first insulating layer and a second insulating layer; and a first conductive layer disposed on the first electronic charge trap; wherein the first conductive layer contains a conductive material configured to permit an external electric field to penetrate the electrode from the first electronic charge trap; and wherein the first insulating layer is not the same as the second insulating layer.

A nonvolatile semiconductor storage device including a number of memory cells formed on a semiconductor substrate, each of the memory cells has a tunnel insulating film, a charge storage layer, a block insulating film, and a gate electrode which are formed in sequence on the substrate. The gate electrode is structured such that at least first and second gate electrode layers are stacked. The dimension in the direction of gate length of the second gate electrode layer, which is formed on the first gate electrode layer, is smaller than the dimension in the direction of gate length of the first gate electrode layer.

A semiconductor device and method of manufacturing the same are provided. In one embodiment, method includes forming a first oxide layer over a substrate, forming a silicon-rich, oxygen-rich, oxynitride layer on the first oxide layer, forming a silicon-rich, nitrogen-rich, and oxygen-lean nitride layer over the oxynitride layer, and forming a second oxide layer on the nitride layer. Generally, the nitride layer includes a majority of charge traps distributed in the oxynitride layer and the nitride layer. Optionally, the method further includes forming a middle oxide layer between the oxynitride layer and the nitride layer. Other embodiments are also described.