| Patent application number | Description | Published |
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| 20100039173 | SINGLE-ENDED SENSE AMPLIFIER USING DYNAMIC REFERENCE VOLTAGE AND OPERATION METHOD THEREOF - A single-ended differential sense amplifier comprises a dynamic reference voltage generation circuit and a differential sense amplifier circuit. Input data with an input data line voltage is provided to the differential sense amplifier circuit. The input data line voltage also feeds back to the dynamic reference voltage generation circuit, which then generates a dynamic reference voltage based on the input data line voltage. The differential sense amplifier circuit is coupled to the dynamic reference voltage generation circuit and receives the dynamic reference voltage for determining the input data. The dynamic reference voltage increases and the input data line voltage decreases when reading the input data of a logic state, e.g., logic “0.” | 02-18-2010 |
| 20110007568 | NAND TYPE ROM - The invention discloses a NAND type ROM. The NAND type ROM comprises a plurality of bit lines, a plurality of word lines, a first source line, a second source line, and a plurality of NAND strings. The bit lines comprise a plurality of upper bit lines, first lower and second lower bit lines. The first lower and second lower bit lines are alternately arranged in parallel, and the plurality of word lines are vertically arranged to each bit lines. The first and second source line are respectively connected to the plurality of first and second lower bit lines. The plurality of NAND strings comprise a plurality of first and second NAND strings. The first NAND strings are connected to the upper bit lines, word lines, and first lower bit lines. The second NAND strings are connected to the upper bit lines, word lines, and second lower bit lines. | 01-13-2011 |
| 20110110140 | REFERENCE CURRENT GENERATOR FOR RESISTANCE TYPE MEMORY AND METHOD THEREOF - A reference current generator for a resistance type memory and a method thereof is disclosed. The reference current generator comprises N parallel circuit sets. Each of the N parallel circuit sets is formed with at least one first reference element and second reference elements connected in parallel. The number of the first reference elements plus the number of the second reference elements is N. The resistance value of first reference elements (a first resistance value) is not equal to the resistance value of the second reference elements (a second resistance value). An equivalent resistance provided with a equivalent resistance value between the first and second resistance value is formed by connecting the N parallel circuit sets in series between an input terminal and output terminal. A reference current is outputted from the output terminal by applying an operation voltage to the input terminal. | 05-12-2011 |
| 20110110175 | MEMORY REFRESH SYSTEM AND OPERATING METHOD THEREOF - A memory refresh system includes a comparative detection circuit, a logic circuit, and a timing circuit. The comparative detection circuit detects a voltage of the storage capacitor of a memory cell of the memory and generates a corresponding digital code by comparing the voltage with a reference voltage. Each memory cell has a corresponding digital code. The combination of the digital codes of the memory cells forms a first state. After a specific period of time, the voltages of the storage capacitors of the memory cells are once detected by the comparative detection circuit, and corresponding digital codes are generated and combined to form a second state. The logic circuit compares the first state and the second state to determining whether or not to change the refresh period of a refresh period detecting process. The timing circuit changes the refresh period according to the determination result of the logic circuit. | 05-12-2011 |
| 20110270555 | PROCESS VARIATION DETECTION APPARATUS AND PROCESS VARIATION DETECTION METHOD - A process variation detection apparatus and a process variation detection method are provided. The process variation detection apparatus includes a process variation detector and a compensation signal generator. The process variation detector includes a first process variation detection component, a second process variation detection component and a current comparator. The channel of the first process variation detection component is a first conductive type, and the channel of the second process variation detection component is a second conductive type, wherein the above-mentioned first conductive type is different from the second conductive type. The current comparator is connected to the first process variation detection component and the second process variation detection component for comparing the current difference between the two components and outputting a current comparison result. The compensation signal generator is connected to the process variation detector, and produces a corresponding compensation signal according to the current comparison result. | 11-03-2011 |
| 20110280073 | NON-VOLATILE STATIC RANDOM ACCESS MEMORY AND OPERATION METHOD THEREOF - A non-volatile static random access memory (NV-SRAM) including a latch unit, a first switch, a second switch, a first non-volatile memory (NVM), and a second NVM and an operation method thereof are provided. First terminals of the first and the second switch are respectively connected to a first and a second terminal of the latch unit. Second terminals of the first and the second switch are respectively connected to a first and a second bit line. Control terminals of the first and the second switch are connected to a word line. First terminals of the first and the second NVM are respectively connected to the first and the second terminal of the latch unit. Second terminals of the first and the second NVM are respectively connected to the first and the second bit line. Enable terminals of the first and the second NVM are connected to an enable line. | 11-17-2011 |
| 20110309843 | Discontinuous Type Layer-ID Detector For 3D-IC And Method of The Same - A 3D-IC detector for each layer of a stacked device with N layer, includes a dividing-two circuit coupled to a (N−1) signal; a first comparator is coupled to the dividing-two circuit, wherein an input A is coupled to an initial layer number signal, an input B of the first comparator is coupled to an output of the dividing-two circuit; a second comparator is coupled to the initial layer number by an input A of the second comparator, and a num is coupled to an input B of the second comparator; a first Add/sub circuit is coupled to the num via an input A of the first Add/sub circuit, and coupled to the first comparator via an input B of the first Add/sub circuit, to the second comparator via an input +/−signal of the first Add/sub circuit; and a second Add/sub circuit coupled to the first comparator via an input A of the second Add/sub circuit, to the num via an input B of the second Add/sub circuit. | 12-22-2011 |
| 20110311018 | PULSE TYPE LAYER-ID DETECTOR FOR 3D-IC AND METHOD OF THE SAME - A 3D-IC detector for each layer of a stacked device comprises a pulse generator to receive an initial signal and generate a pulse-in signal to a next stage detector. A latch is coupled to the pulse generator to receive an output signal from the pulse generator and generate a layer identifying signal. A counter is coupled to previous stage detector and the initial signal to perform a counting operation; and an adder coupled to the counter to add a number to a counting output from the counter and input added signal to the pulse generator. | 12-22-2011 |
