A memory array having memory cells comprising a diode and a phase change material is reliably programmed by maintaining all unselected memory cells in a reverse biased state. Thus leakage is low and assurance is high that no unselected memory cells are disturbed. In order to avoid disturbing unselected memory cells during sequential writing, previously selected word and bit lines are brought to their unselected voltages before new bit lines and word lines are selected. A modified current mirror ...

A memory element which stably performs operations such as data recording and which has a stable structure with respect to heat is provided.A memory element 10 includes a memory layer 4 and an ion source layer 3 positioned between the first electrode 2 and second electrode 6, in which the ion source layer 3 contains any of elements selected from Cu, Ag and Zn, and any of elements selected from Te, S and Se, and the memory layer 4 is made of any of tantalum oxide, niobium oxide, aluminum oxide, ha...

A phase change memory device is provided which is constituted by memory cells using memory elements and select transistors and having high heat resistance to be capable of an operation at 140 degrees or higher. As a device configuration, a recording layer of which, of Zn--Ge--Te, content of Zn, Cd or the like is 20 atom percent or more, content of at least one element selected from the group consisting of Ge and Sb is less than 40 atom percent, and content of Te is 40 atom percent or more is use...

Disclosed are non-volatile memory devices that incorporate a series of single or double memory cells. The single memory cells are essentially "U" shaped. The double memory cells comprise two essentially "U" shaped memory cells. Each memory cell comprises a memory element having a bi-stable layer sandwiched between two conductive layers. A temporary conductor may be applied to a series of cells and used to bulk condition the bi-stable layers of the cells. Also, due to the "U" shape of the cells, ...

A carbon containing layer may be formed between a pair of chalcogenide containing layers of a phase change memory. When the lower chalcogenide layer allows current to pass, a filament may be formed therein. The filament then localizes the electrical heating of the carbon containing layer, converting a relatively localized region to a lower conductivity region. This region then causes the localization of heating and current flow through the upper phase change material layer. In some embodiments, ...

A nonvolatile memory element is formed by layering a lower electrode, a variable resistor and an upper electrode in sequence. The variable resistor is formed in which crystallinity and amorphism are mixed. Thus, the nonvolatile memory element is formed. More preferably, the variable resistor is a praseodymium-calcium-manganese oxide represented by a general formula, Pr.sub.1-xCa.sub.xMnO.sub.3, that has been formed at a film forming temperature from 350.degree. C. to 500.degree. C. Alternatively...

In one embodiment, a phase-change memory device has an oxidation barrier layer to protect against memory cell contamination or oxidation and a method of manufacturing the same. In one embodiment, a semiconductor memory device comprises a molding layer overlying a semiconductor substrate. The molding layer has a protrusion portion vertically extending from a top surface thereof. The device further includes a phase-changeable material pattern adjacent the protrusion portion and a lower electrode e...

A solid state, directly overwritable, electronic, non-volatile, high density, low cost, low energy, high speed, readily manufacturable, multibit single cell memory based upon phenomenologically novel electrical switching characteristics provided by a unique class of semiconductor materials in unique configurations, which memory exhibits orders of magnitude higher switching speeds at remarkably reduced energy levels. The novel memory of the instant invention is characterized, inter alia, by numer...

An electrically operated, directly overwritable, multibit, single-cell memory element. The memory element includes a volume of memory material which defines the single cell memory element. The memory material is characterized by: (1) a large dynamic range of electrical resistance values; and (2) the ability to be set at one of a plurality of resistance values within the dynamic range in response to selected electrical input signals so as to provide the single cell with multibit storage capabilit...

Disclosed herein is a solid state, directly overwritable, non-volatile, high density, low cost, low energy, high speed, readily manufacturable, single cell memory element having reduced switching current requirements and an increased thermal stability of data retention. The memory element includes a volume of memory material which is a transition metal modified chalcogen. The transition metal may be selected from the group consisting of Nb, Pd, Pt and mixtures or alloys thereof. The memory mater...