Patent application number | Description | Published |
20080198676 | SEMICONDUCTOR MEMORY DEVICE AND METHOD WITH A CHANGEABLE SUBSTRATE POTENTIAL - A semiconductor memory device and method with a changeable substrate potential. One embodiment provides for operating a semiconductor memory device having at least one read or write/sense amplifier. The method includes changing the substrate potential of the read or write/sense amplifier. | 08-21-2008 |
20080217655 | INTEGRATED CIRCUIT WITH BURIED CONTROL LINE STRUCTURES - An integrated circuit with buried control line structures. In one embodiment, the control lines are subdivided into sections, wherein regions free of switching transistors are provided at intervals along the control lines. Connections for feeding the control potentials into the sections of the control lines are provided at least in a subset of the regions free of switching transistors. The isolations lines are connected to one another by an interconnect running transversely with respect to the control lines. | 09-11-2008 |
20090039915 | Integrated Circuit, Chip Stack and Data Processing System - An integrated circuit includes a first connection and a memory circuit. The integrated circuit is switchable between a master mode of operation, in which a buffer between the first connection and the memory circuit is activated, and a slave mode of operation, in which the buffer between the first connection and the memory circuit is deactivated. | 02-12-2009 |
20090122628 | DEVICE WITH PRECHARGE/HOMOGENIZE CIRCUIT - A device with a precharge/homogenize circuit. One embodiment provides at least one switching element is acting as a homogenizer, and at least one switching element is acting as a precharger. The diffusion region of the switching element acting as a homogenizer is separated from the diffusion region of the switching element acting as a precharger. | 05-14-2009 |
20090268539 | Chip, Multi-Chip System in a Method for Performing a Refresh of a Memory Array - A chip includes a memory array and a refresh counter. The refresh counter is configured to receive refresh trigger signals. The refresh counter is configured or configurable to initiate a refresh of the memory array only once per i of the received refresh trigger signals where i is a number greater than 1. | 10-29-2009 |
20100074038 | Memory Dies for Flexible Use and Method for Configuring Memory Dies - A memory die, including a memory array, a memory array data terminal and a data bus that includes a first sub bus and a second sub bus is disclosed. A first bi-directional buffer arranged between the memory array data terminal and the first sub bus and a second bi-directional buffer arranged between the memory array data terminal and the second sub bus is also disclosed. The first and second bi-directional buffers are adapted to couple the first sub bus or the second sub bus to the memory array data terminal at a time. | 03-25-2010 |
20100266939 | Lithographic Mask and Method of Forming a Lithographic Mask - A lithographic mask comprises a first layer including grooves, a second layer including regions, sections and a groove-like structure that encloses the sections. The first and second layers are formed so as to reduce electrical potential differences within the second layer. A method of forming a lithographic mask includes forming first and second layers to dispose the second layer over the first layer, patterning the second layer to comprise sections, a region, and a groove-like structure enclosing the sections, and forming grooves in the first layer at portions not covered by the second layer. The first and second layers are formed to reduce potential differences within the second layers during the step of forming the grooves in the first layer. | 10-21-2010 |
20130028026 | Memory and Method for Programming Memory Cells - A memory includes a memory cell including a first terminal, a second terminal and a channel extending between the first terminal and the second terminal. The memory further includes an energy storage element configured to support a programming of the memory cell, the energy storage element being coupled to the first terminal, an energy supply coupled to the energy storage element, and a controller. The controller is configured to activate the energy supply and to bring the channel of the memory cell into a non-conductive state for energizing the energy storage element, and to subsequently bring the channel of the memory cell into a conductive state for programming the memory cell based on the energy stored in the energy storage element. | 01-31-2013 |