| SOUTHEAST UNIVERSITY Patent applications |
| Patent application number | Title | Published |
|---|
| 20120069650 | SUB-THRESHOLD MEMORY CELL CIRCUIT WITH HIGH DENSITY AND HIGH ROBUSTNESS - A high-density and high-robustness sub-threshold memory cell circuit, having two PMOS transistors P | 03-22-2012 |
| 20120069635 | CAPACITY AND DENSITY ENHANCEMENT CIRCUIT FOR SUB-THRESHOLD MEMORY UNIT ARRAY - A capacity and density enhancement circuit for a sub-threshold memory unit array which can decrease the drain current in the bit lines and enhance the pull-up capability of memory cells. The capacity and density enhancement circuit is composed of a first enhancement transistor, a second enhancement transistor, a first mask transmission gate, a second mask transmission gate, a first logic memory capacitor and a second logic memory capacitor. | 03-22-2012 |
| 20110274390 | SURFACE-PLASMON-POLARITONS TUNABLE OPTICAL RESONANT RING FILTER - A surface-plasmon-polaritons (SPPs) tunable optical resonant ring filter that includes an SPPs waveguide, an SPPs tunable directional coupler, and an SPPs tunable resonant ring. The tunabilities of the resonant frequency, the resonant depth, and the filtering bandwidth are achieved by tuning the loss and transmission phase of the resonant ring and the coupling ratio of the directional coupler. Since the metal core layer of the SPPs waveguide is capable of multiplexing electro-optical signals, the SPPs tunable optical resonant ring filter can be used not only in an integrated optics system, but also in an integrated electro-optics hybrid system. | 11-10-2011 |
| 20090112286 | NEURAL CHANNEL BRIDGE AIDED BY A MICRO-ELECTRONIC SYSTEM - Methods and equipment used to regenerate sensory, motorial, or visceral signals of injured, broken or diseased nerves of mammalia, such as humans, are provided. In some embodiments, a lineup of downward and upward channels to bridge injured neural channels is disclosed. The downward or upward channels can be connected to electrodes which are in contact with upper or lower nerve stumps. The channels can be used to detect, amplify, and recognize the motorial or sensory signals, to generate related Functional Electrical Stimulation (FES) signals, and to supply the FES signals to the electrodes on the lower or upper nerve stumps. Neural signals can thus be regenerated and the injured motorial or sensory channels can be bridged. | 04-30-2009 |
