Patent application number | Description | Published |
20090316505 | Soft Error Robust Static Random Access Memory Cell Storage Configuration - A Static Random Access Memory (SRAM) cell storage configuration is provided with an improved robustness to radiation induced soft errors. The SRAM cell storage configuration comprises the following elements. First and second storage nodes are configured to store complementary voltages. Drive transistors are configured to selectively couple one of the first and second storage nodes to ground. Load transistors are configured to selectively couple the other one of the first and second storage nodes to a power supply. At least one stabilizer transistor is configured to provide a corresponding redundant storage node and limit feedback between the first and second storage nodes, the redundant storage node being capable of restoring the first or second storage nodes in case of a soft error. | 12-24-2009 |
20100110773 | SRAM CELL WITHOUT DEDICATED ACCESS TRANSISTORS - A Static Random Access Memory (SRAM) cell without dedicated access transistors is described. The SRAM cell comprises a plurality of transistors configured to provide at least a pair of storage nodes for storing complementary logic values represented by corresponding voltages. The transistors comprise at least one bitline transistor, at least on wordline transistor and at least two supply transistors. The bitline transistor is configured to selectively couple one of the storage nodes to at least one corresponding bitline, the bitline for being shared by SRAM cells in one of a common row or column. The wordline transistor is configured to selectively couple another of the storage nodes to at least one corresponding wordline, the wordline for being shared by SRAM cells in the other of the common row or column. The supply transistors are configured to selectively couple corresponding ones of the storage nodes to a supply voltage. | 05-06-2010 |
20100195374 | Eight Transistor Soft Error Robust Storage Cell - A storage cell is provided with improved robustness to soft errors. The storage cell comprises complementary core storage nodes and complementary outer storage nodes. The outer storage nodes act to limit feedback between the core storage nodes and are capable of restoring the logical state of the core storage nodes in the event of a soft error. Similarly the core storage nodes act to limit feedback between the outer storage nodes with the same effect. This cell has advantages compared with other robust storage cells in that there are only two paths between the supply voltage and ground which limits the leakage power. An SRAM cell utilizing the proposed storage cell can be realized with two access transistors configured to selectively couple complementary storage nodes to a corresponding bitline. A flip-flop can be realized with a variety of transfer gates which selectively couple data into the proposed storage cell. | 08-05-2010 |
20100246242 | Soft Error Robust Storage SRAM Cells and Flip-Flops - A storage cell is provided with improved robustness to soft errors. The storage cell comprises complementary lower storage nodes and complementary upper storage nodes. The upper storage nodes act to limit feedback between the lower storage nodes and are capable of restoring the logical state of the core storage nodes in the event of a soft error. Similarly the lower storage nodes act to limit feedback between the upper storage nodes with the same effect. An SRAM cell utilizing the proposed storage cell can be realized with two access transistors configured to selectively couple complementary storage nodes to a corresponding bitline. A flip-flop can be realized with a variety of transfer gates which selectively couple data into the proposed storage cell. | 09-30-2010 |
20110133247 | Zener-Triggered SCR-Based Electrostatic Discharge Protection Devices For CDM And HBM Stress Conditions - SCR device is modified to improve turn-on speed for CDM stress conditions. A zener diode is integrated inside SCR device to create an internal feedback and improve turn-on speed. The zener diode is designed as a p | 06-09-2011 |
20110255359 | Sense-Amplification With Offset Cancellation For Static Random Access Memories - An offset cancellation scheme for sense amplification is described. The scheme consists of group of transistors which are selectively coupled to high and low voltage levels via multi-phase timing. This results in a voltage level on nodes of interest which are a function of transistor mismatch. The resulting voltage levels act to compensates for the transistor mismatch, thereby improving the reliability of the sense amplifier in the presence of process non-idealities. The offset cancellation scheme is applicable to numerous types of sense amplifiers. | 10-20-2011 |
20110298496 | SRAM SENSE AMPLIIFER - A sense amplifier for use in a memory array having a plurality of memory cells is provided. The sense amplifier provides low power dissipation, rapid sensing and high yield sensing operation. The inputs to the sense amplifier are the differential bitlines of an SRAM column, which are coupled to the sense amplifier via the sources of two PMOS transistors. A CMOS latching element comprised of two NMOS transistors and the aforementioned PMOS transistors act to amplify any difference between the differential bitline voltages and resolve the output nodes of the sense amplifier to a full swing value. The latching element is gated with two additional PMOS transistors which act to block the latching operation until the sense amplifier is enabled. One or more equalization transistors ensure the latch remains in the metastable state until it is enabled. Once the latch has resolved it consumes no DC power, aside from leakage. | 12-08-2011 |
20130265819 | EIGHT TRANSISTOR SOFT ERROR ROBUST STORAGE CELL - A storage cell is provided with improved robustness to soft errors. The storage cell comprises complementary core storage nodes and complementary outer storage nodes. The outer storage nodes act to limit feedback between the core storage nodes and are capable of restoring the logical state of the core storage nodes in the event of a soft error. Similarly the core storage nodes act to limit feedback between the outer storage nodes with the same effect. This cell has advantages compared with other robust storage cells in that there are only two paths between the supply voltage and ground which limits the leakage power. An SRAM cell utilizing the proposed storage cell can be realized with two access transistors configured to selectively couple complementary storage nodes to a corresponding bitline. A flip-flop can be realized with a variety of transfer gates which selectively couple data into the proposed storage cell. | 10-10-2013 |
20140307503 | EIGHT TRANSISTOR SOFT ERROR ROBUST STORAGE CELL - A storage cell is provided with improved robustness to soft errors. The storage cell comprises complementary core storage nodes and complementary outer storage nodes. The outer storage nodes act to limit feedback between the core storage nodes and are capable of restoring the logical state of the core storage nodes in the event of a soft error. Similarly the core storage nodes act to limit feedback between the outer storage nodes with the same effect. This cell has advantages compared with other robust storage cells in that there are only two paths between the supply voltage and ground which limits the leakage power. An SRAM cell utilizing the proposed storage cell can be realized with two access transistors configured to selectively couple complementary storage nodes to a corresponding bitline. A flip-flop can be realized with a variety of transfer gates which selectively couple data into the proposed storage cell. | 10-16-2014 |