Patent application number | Description | Published |
20100119011 | SYSTEM AND METHOD FOR TUNING FM SYNTHESIZER - A device is provided for dividing a clock signal by even and odd integers. The device includes a divider, a delay portion and a duty cycle corrector. The divider is arranged to receive the clock signal and can divide the clock signal and output a divided clock signal. The delay portion can output a delayed signal based on the divided clock signal. The duty cycle corrector can output a first signal based on the delayed signal and the divided clock signal. | 05-13-2010 |
20110053537 | FREQUENCY MODULATION RECEIVER WITH A LOW POWER FREQUENCY SYNTHESIZER - A frequency modulation (FM) receiver with a low power frequency synthesizer. A FM receiver includes a low noise amplifier for processing a received input signal, a frequency synthesizer having an oscillator for generating a local oscillator signal by supplying a bias current to the oscillator, and a mixer for generating an intermediate frequency signal by mixing the received input signal with the local oscillator signal. The FM receiver further includes an analog to digital converter for converting the intermediate frequency signal to a digital signal and a bias current control module for measuring a signal strength of the received input signal based on the digital signal and for controlling the bias current. | 03-03-2011 |
20110084771 | Low Phase Noise Frequency Synthesizer - Various apparatuses and methods for a low phase noise frequency synthesizer are disclosed herein. For example, some embodiments provide an oscillator that may be used in a low phase noise frequency synthesizer. The oscillator includes a tank circuit, a plurality of cross-coupled transistor pairs connected to the tank circuit, a current source connected to the plurality of cross-coupled transistor pairs, and at least one switch connected to the plurality of cross-coupled transistor pairs. The switch is adapted to activate a subset of the plurality of cross-coupled transistor pairs and to deactivate another subset of the plurality of cross-coupled transistor pairs to operate the tank circuit in the oscillator using the activated subset of the plurality of cross-coupled transistor pairs. | 04-14-2011 |
20110273210 | LOW POWER DIGITAL PHASE LOCK LOOP CIRCUIT - A digital phase lock loop circuit, where under certain conditions the phase error is derived from phase comparison between a reference clock edge and the next oscillator clock edge rather than a feedback clock edge. This technique can be used to significantly reduce digital phase lock loop circuit power by disabling feedback divider and sync FF once initial frequency lock is established, provided phase jitter of digital phase lock loop circuit is low enough so that there is no cycle slip. This technique can also be used to multiply the effective reference clock frequency of digital phase lock loop circuits to increases the loop bandwidth, thus reducing the phase noise. Both the applications of this technique can be combined in some circuits. | 11-10-2011 |
20120319734 | SYSTEM AND METHOD FOR REDUCING POWER CONSUMPTION IN A PHASED-LOCKED LOOP CIRCUIT - A phased-locked loop (PLL) circuit which comprises a phase-frequency detector (PFD) configured to receive a reference signal, a voltage-controlled oscillator (VCO) configured to produce a VCO signal, and a divider configured to divide the VCO signal thereby producing a feedback signal based on the feedback signal not being locked to the reference signal. Based on the feedback signal not being locked to the reference signal, the PFD is configured to compare an edge of the reference signal with an edge of the feedback signal to produce an error signal. Based on the feedback signal being locked to the reference signal, the PFD is configured to compare the edge of the reference signal to an edge of the VCO signal to produce an error signal and the divider is configured to be disabled. | 12-20-2012 |
20120319886 | HIGH SPEED RESISTOR-DAC FOR SAR DAC - A singled-ended, successive approximation register analog-to-digital converter convert an analog input voltage to a digital representation comprising m upper order bits and a number of lower order bits. The SAR ADC comprises SAR logic, a resistive network, multiple switches, and first and second LSB capacitors. The switches also comprises two sets of switches coupled to the resistive network, each set of switches is configured to couple a selected tap to each of the first and second LSB capacitors. When determining the lower order bits, the SAR logic is configured to control the sets of switches to change the first and second taps from one cycle in which one of the lower order bits is determined to a next cycle in which the next of the lower order bits is determined so that the voltage of both taps changes by a decreasing amount with each succeeding bit being determined. | 12-20-2012 |
20130120170 | PIPELINED ADC WITH A VCO-BASED STAGE - A method for converting an analog signal to a digital signal is provided. Initially, a digital representation of a portion of an analog signal is generated. Residue of the analog signal is then sampled at a sampling instant so as to generate a residue sample. A signal having a frequency that is proportional to the voltage of the residue sample is generated, and the signal is measured to generate coarse and fine measurements of the frequency. A digital representation of the residue sample from the coarse and fine measurements is then generated. | 05-16-2013 |
20130211758 | REFERENCE CLOCK RE-TIMING SCHEME IN ELECTRONIC CIRCUITS - A phase detector includes a counter to generate the integer portion of a number of complete cycles of an output clock at each active edge of a reference clock. A time to digital converter in the phase detector generates the fractional portion of the number of complete cycles of the output clock at each active edge of the reference clock. The sum of the fractional portion and the integer portion is subtracted from an accumulated value obtained by accumulating a pre-determined number to generate an error signal as the output of the phase detector. The counter is read at an active edge of one of two re-timed clocks derived from the reference clock. Each of the two re-timed clocks is generated based on a comparison of the fractional portion with a pair of thresholds. Errors due to metastability in reading the counter are thereby avoided. | 08-15-2013 |
20140239977 | CAPACITIVE SENSING - A capacitive sensing system includes a controller, a node connected to one side of a capacitance, the controller configured to measure the capacitance by measuring a time for a voltage across the capacitance to reach a predetermined reference voltage, a noise measurement circuit configured to measure electrical noise on the node, and the controller receiving the measurement of noise from the noise measurement circuit. | 08-28-2014 |
20140239983 | CAPACITIVE SENSING - A capacitive sensing system includes a controller, a node connected to one side of a capacitance, the controller configured to measure the capacitance by measuring a time for a voltage across the capacitance to reach a predetermined reference voltage, and the controller causing the time period for capacitance measurements to vary even when the capacitance is constant. | 08-28-2014 |