Patent application number | Description | Published |
20120056767 | SIGNAL PROCESSING APPARATUS WITH SIGMA-DELTA MODULATING BLOCK COLLABORATING WITH NOTCH FILTERING BLOCK AND RELATED SIGNAL PROCESSING METHOD THEREOF - One signal processing apparatus includes a sigma-delta modulating block and a notch filtering block. The sigma-delta modulating block is arranged to perform a sigma-delta modulation upon a signal input and accordingly generate a signal output. The notch filtering block is arranged to perform a notch filtering operation upon the signal output for generating a filtered signal output. Another signal processing apparatus includes a sigma-delta modulating block and a notch filtering block. The sigma-delta modulating block is arranged to perform a sigma-delta modulation upon a signal input and accordingly generate a signal output. The notch filtering block is enabled for performing a notch filtering operation upon the signal output when the signal processing apparatus operates in a first operational mode, and the notch filtering block is disabled when the signal processing apparatus operates in a second operational mode. | 03-08-2012 |
20130141153 | ELECTRONIC DEVICE AND TRANSMITTER DC OFFSET CALIBRATION METHOD THEREOF - An embodiment of the invention provides an electronic device. The electronic device includes a digital-to-analog converter (DAC), a transmitter front-end (TX FE), an amplifier, an analog-to-digital converter (ADC), and a swap circuitry. The TX FE has a first and a second input end coupled to a first and a second output end of the DAC, respectively. The ADC has a first and a second input end coupled to a first and a second output end of the amplifier, respectively. The swap circuitry is configured to couple the first and second output ends of the DAC to a first and a second input end of the amplifier in a normal state, respectively, and couple the first and second output ends of the DAC to the second and first input ends of the amplifier in a swapped state, respectively. | 06-06-2013 |
20140086360 | TRANSMITTER SUPPORTING TWO MODES - A transmitter includes a first channel and a second channel. The first channel includes a first mixer, and is used for processing a first input signal to generate a first output signal; the second channel includes a second mixer, where the second channel does not receive any input signal. When the transmitter is operated under a first mode, both the first mixer and the second mixer receive oscillation signals. | 03-27-2014 |
20140178758 | DEVICE FOR PRODUCING AN ELECTRIC CURRENT AND METHOD FOR MAKING THE SAME - Disclosed is a device for producing an electric current and a method for making the same. The device for producing an electric current, comprising: an anode comprising a stack formed by alternately stacking of at least one Si layer and at least one carbon material layer, and a LiPON layer on the stack; a cathode; and an electrolyte between the anode and the cathode. | 06-26-2014 |
20140348269 | DATA CONVERTING DEVICE, DIGITAL TRANSMITTING APPARATUS USING THE DATA CONVERTING DEVICE, AND RALATED DATA CONVERTING METHOD - A data converting device includes: a data sampling circuit arranged to up-sample a digital signal to generate an up-sampling signal according to a clock signal; a voltage level generating circuit arranged to generate an adjustable voltage; and a signal converting circuit arranged to generate a converting signal according to the adjustable voltage and the up-sampling signal. | 11-27-2014 |
20150200693 | TRANSMITTER HAVING INTEGRATED DESIGN OF MULTIPLE WIRELESS COMMUNICATION MODULES - A transmitter includes a first wireless communication module, a second wireless communication module, a multiplexer, a digital-to-analog converter and a filter. The multiplexer selectively outputs a first digital signal derived from a digital output of the first wireless communication module or a second digital signal derived from a digital output of the second wireless communication module as a selected output. The digital-to-analog converter converts the selected output into an analog signal. The filter processes the analog signal and includes an adjustable resistive element. When the multiplexer selects the first digital signal as the selected output, the adjustable resistive element is adjusted to have a first resistance value such that the filter has a first bandwidth. When the multiplexer selects the second digital signal as the selected output, the adjustable resistive element is adjusted to have a second resistance value such that the filter has a second bandwidth. | 07-16-2015 |
20150303880 | LOW PASS FILTER WITH COMMON-MODE NOISE REDUCTION - A low pass filter includes a first amplifier stage and a second amplifier stage. The first amplifier stage includes a differential operational amplifier, wherein the first amplifier stage is arranged to process a differential input signal to generate a differential intermediate signal, the differential input signal having a first input signal and a second input signal, and the differential intermediate signal having a first intermediate signal and a second intermediate signal. The second amplifier stage has no common-mode feedback and is arranged to process the differential intermediate signal to generate a differential output signal, wherein the differential output signal has a first output signal corresponding to the first input signal and a second output signal corresponding to the second input signal. Since the noisy common-mode feedback is removed from the second amplifier stage, the overall common-mode noise of the low pass filter can be decreased. | 10-22-2015 |
20160118996 | DIGITAL-TO-ANALOG CONVERSION APPARATUS FOR GENERATING COMBINED ANALOG OUTPUT BY COMBINING ANALOG OUTPUTS DERIVED FROM USING DIFFERENT SAMPLING CLOCKS AND RELATED METHOD THEREOF - A digital-to-analog conversion apparatus has a first digital-to-analog converter, at least one second digital-to-analog converter, and a combining circuit. The first digital-to-analog converter is arranged to receive a first sampling clock and a digital input, and convert the digital input into a first analog output according to the first sampling clock. The at least one second digital-to-analog converter is arranged to receive the digital input and at least one second sampling clock different from the first sampling clock, and convert the digital input into at least one second analog output according to the at least one second sampling clock. The combining circuit is arranged to combine the first analog output and the at least one second analog output into a combined analog output of the digital input. | 04-28-2016 |