Patent application number | Description | Published |
20090112499 | DEVICE FOR JITTER MEASUREMENT AND METHOD THEREOF - The device for jitter measurement and a method thereof are provided. The device for jitter measure includes a signal retrieving module, a signal amplifying module, an edge detecting module, and a time-to-digital converting module. The signal retrieving module receives a signal-under-test, and retrieves a first pulse signal having a pulse width equal to a period of the signal-under-test. The signal amplifying module amplifies the pulse width of the first pulse signal and thereby generates a second pulse signal. The edge detecting module detects a rising edge and a falling edge of the second pulse signal, and generates a first indication signal and a second indication signal according to the respective detected results. The time-to-digital converting module converts the pulse width of the second pulse signal existed in time domain to a digital signal according to the first indication signal and the second indication signal. | 04-30-2009 |
20100085225 | SUCCESSIVE APPROXIMATION ADC WITH BINARY ERROR TOLERANCE MECHANISM - A successive approximation ADC is disclosed. A comparator receives and compares a sampled input signal and an output of a DAC. Non-binary successive approximation register (SAR) control logic controls sampling of the input signal and controls a sequence of comparisons based on comparison result of the comparator. The SAR control logic controls each comparison when signal or charge in the DAC has not been completely settled. A binary-error-tolerant corrector is then used to compensate the sampling error. | 04-08-2010 |
20100085227 | Stage-Resolution Scalable Opamp-Sharing Technique for Pipelined/Cyclic ADC - An analog-to-digital converter (ADC) for pipelined ADCs or cyclic ADCs is disclosed. The ADC includes at least one pair of two stages connected in series, and the two stages have different bits of resolution. An amplifier is shared by the pair of two stages such that the two stages operate in an interleaved manner. Accordingly, this stage-resolution scalable opamp-sharing technique is adaptable for pipelined ADC or cyclic ADC, which substantially reduces power consumption and increases operating speed. | 04-08-2010 |
20100134173 | INTEGRATOR-BASED COMMON-MODE STABILIZATION TECHNIQUE FOR PSEUDO-DIFFERENTIAL SWITCHED-CAPACITOR CIRCUITS - A pseudo-differential switched-capacitor circuit using integrator-based common-mode stabilization technique is disclosed. A pseudo-differential switched-capacitor circuit with the differential floating sampling (DFS) technique has a common-mode gain value of one (1). An integrator is electrically coupled to the differential positive/negative outputs of the DFS circuit, and the integrator feeds back integrator output to the DFS circuit by detecting common-mode voltage disturbance at the differential positive output (V | 06-03-2010 |
20110261604 | MEMORY CELL AND AN ASSOCIATED MEMORY DEVICE - A memory cell includes a pair of sub-cells, each including an access transistor, a storage transistor, and an isolation transistor that are serially coupled in sequence with their source/drain connected. The isolation transistor is shared with a sub-cell of an adjacent memory cell and always turned off, wherein the storage transistor is always turned on. A wordline is coupled to a gate of the access transistor of each sub-cell, and complementary bit lines are respectively coupled to sources/drains of the access transistors of the pair of sub-cells, such that data bit may be accessed between the bit line and the corresponding storage transistor through the corresponding access transistor. | 10-27-2011 |
20120112944 | MULTIPLYING DAC AND A METHOD THEREOF - The present invention is directed to a multiplying digital-to-analog converter (MDAC) and its method. First ends of capacitors are electrically coupled to an inverting input node of an amplifier, wherein two of the capacitors are alternatively configured as a feedback capacitor. Each capacitor is composed of at least two sub-capacitors. Second ends of capacitors are electrically coupled to an input signal via a number of sampling switches, and the second ends of the capacitors are electrically coupled to DAC voltages respectively via a number of amplifying switches. A sorting circuit is configured to sort the sub-capacitors, wherein the sorted sub-capacitors are then paired in a manner such that variance of mismatch among the sub-capacitors is thus averaged. | 05-10-2012 |
20120274489 | SUCCESSIVE APPROXIMATION REGISTER ADC WITH A WINDOW PREDICTIVE FUNCTION - A successive approximation register (SAR) analog-to-digital converter (ADC) is disclosed. A first and second capacitor DACs receive a first and second input signals respectively. A first coarse comparator compares an output of the first capacitor DAC with a window reference voltage, a second coarse comparator compares an output of the second capacitor DAC with the window reference voltage, and a fine comparator compares the output of the first capacitor DAC with the output of the second capacitor DAC. A SAR controller receives outputs of the first and second coarse comparators to determine whether the outputs of the first and second capacitor DACs are within a predictive window determined by the window reference voltage. The SAR controller bypasses at least one phase of analog-to-digital conversion of the SAR ADC when the outputs of the first capacitor DAC and the second capacitor DAC are determined to be within the predictive window. The SAR controller decodes the outputs of the first and second coarse comparators and the fine comparator to obtain a converted output of the SAR ADC. | 11-01-2012 |
20130093609 | SUCCESSIVE APPROXIMATION ANALOG TO DIGITAL CONVERTER WITH A DIRECT SWITCHING TECHNIQUE FOR CAPACITOR ARRAY THROUGH COMPARATOR OUTPUT AND METHOD THEREOF - A method for a successive approximation register ADC which includes at least one capacitor array and a plurality of switches is provided, in which the capacitors of the capacitor array are one-to-one corresponding to the switches. The method includes the following steps: firstly, at least one multiplexer is configured. Then, a first comparison voltage is outputted based on the terminal voltages on the terminals of the capacitor array, and a comparison result is outputted according to the first comparison voltage and a second comparison voltage. Afterwards, a sequence of comparisons is controlled based on the comparison result to enter into a sequence of comparison phases. Finally, the switches are orderly selected, by the multiplexer based on the comparison phases, to switch directly according to the comparison result. | 04-18-2013 |
20130108001 | CLOCK AND DATA RECOVERY (CDR) ARCHITECTURE AND PHASE DETECTOR THEREOF | 05-02-2013 |