Class / Patent application number | Description | Number of patent applications / Date published |
327101000 | Converting input current or voltage to output frequency | 11 |
20080204085 | Photodetector - An I/F converter | 08-28-2008 |
20090289666 | Direct digital synthesis frequency synthesizer and associated methods - An acousto-optic system is provided that has an acousto-optic device coupled to a DDS IC controller. The DDS controller provides amplitude modulation to adjust output power synchronously with changes in frequency when activating a different frequency. | 11-26-2009 |
20100164552 | Ratio meter for temperature sensor - In some embodiments, a new DTS implementation, which employs the conventional Vbe/ΔVbe temperature dependent principles but substitutes a voltage-to-frequency (V/F) based ratio meter for the DAC based approach. This new approach can result in a more simplified circuit that may be more variation tolerant and can require less power and area. | 07-01-2010 |
20100283512 | FAST DETECTION OF CONTACT STATUS WITH AC WETTING VOLTAGE USING RATIOMETRIC APPROACH - Fast detection of contact status with an AC wetting voltage using a ratiometric approach is described herein. In one embodiment, a voltage source wets the contact with a wetting voltage. A contact voltage monitor receives voltage obtained from the contact and converts the voltage to a first frequency output. A wetting voltage monitor receives wetting voltage provided from the voltage source to the contact and converts the sensed wetting voltage to a second frequency output. A processor generates a ratio between the first frequency output and the second frequency output and determines the status of the contact and the field wires associated with the contact in accordance with the generated ratio. | 11-11-2010 |
20110074468 | FREQUENCY GENERATOR - A frequency generator is used for generating a frequency within a frequency range. The frequency generator includes a variable current source, a voltage drop generation unit, a voltage source, a detection unit, a conversion unit, and an oscillating circuit. The variable current source is used for outputting a current according to a control signal. The voltage drop generation unit is used for generating a voltage drop according to the current. The voltage source is used for outputting a voltage range. The detection unit is used for outputting the control signal to the variable current source according to a relationship between the voltage drop and the voltage range. The conversion unit is used for outputting a digital code according to the relationship between the voltage drop and the voltage range. The oscillator circuit is used for generating the frequency according to the digital code. | 03-31-2011 |
20110279149 | METHOD, APPARATUS, AND SYSTEM FOR MEASURING ANALOG VOLTAGES ON DIE - An analog-to-digital converter (ADC) suitable for measuring on-die DC or low frequency analog voltages may include a ring oscillator having a group of circuit cells successively and circularly coupled. Under certain circumstances, the ring oscillator may produce an output frequency that corresponds substantially linear to the input voltage. Other embodiments may be disclosed or claimed. | 11-17-2011 |
20120187981 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device having a control signal system for avoiding failure to check an indefinite signal propagation prevention circuit, for facilitating a check included in an automated tool, and for facilitating a power shutdown control inside a chip. In the semiconductor integrated circuit device, power shutdown priorities are provided by independent power domains (Area A to Area I). A method for preventing a power domain having a lower priority from being turned OFF when a circuit having a high priority is turned ON is also provided. | 07-26-2012 |
20120274364 | Method and Apparatus of Using Time-Domain Interpoolators for Sampling Time Adjustment, Sampling Rate Change, and Sampling Misalignment Compensation in Optical Communications - An apparatus comprising an analog-to-digital converter (ADC); a frequency-domain equalizer (FDEQ); a time-domain interpolator positioned between the ADC and the FDEQ, wherein the time domain interpolator is coupled to the ADC and the FDEQ and configured to perform a time-domain interpolation to compensate a signal sample for a plurality of ADC induced changes. | 11-01-2012 |
20130027091 | CONTROL CIRCUIT AND METHOD FOR SENSING AN ELECTRODE ARRAY AND TOUCH CONTROL SENSING SYSTEM USING THE SAME - A control circuit for a sensing electrode array is described. The control circuit for the sensing electrode array includes a signal intensity analyzer, an intensity-to-phase frequency converter, and a phase frequency analyzing unit. The signal intensity analyzer obtains an intensity signal corresponding to a sensing signal of each sensing line of the sensing electrode array, wherein each intensity signal is a direct-current signal. The intensity-to-phase frequency converter generates a phase frequency signal based on the intensity signal. At least the phase or the frequency of the phase frequency signal is related to the level of the corresponding intensity signal. The phase frequency analyzing unit obtains a signal magnitude of the corresponding sensing line according to each phase frequency signal. The control circuit for the sensing electrode array enhances the operating speed and the signal-to-noise ratio of the touch control sensing system without increasing the manufacturing cost. | 01-31-2013 |
20130214819 | Multi-Level Output Comparator - The present document relates to a method and system for determining the voltage level of an input signal compared to a reference voltage, providing a plurality of level indications regarding an input voltage with respect to a reference voltage. The multi-level comparator comprises an input stage converting the input voltage into a first current and converting the reference voltage into a second current; and a plurality of comparator stages, each comprising a first current amplification unit amplifying the first current with a first gain, a second current amplification unit amplifying the second current with a second gain, and an output port providing an indication whether the first comparator current is smaller or larger than the second comparator current; wherein respective ratios of the first gain and the second gain of the plurality of comparator stages are different. | 08-22-2013 |
20150048865 | MULTI-INPUT VOLTAGE-TO-FREQUENCY CONVERSION CIRCUIT - A multi-input voltage-to-frequency conversion circuit includes: a multi-input operational amplifier amplifying one of multiple voltage signals in response to multiple control signals to generate an amplified voltage; a voltage-to-current converter converting the amplified voltage into a sensed current, and generating an oscillation current based on the sensed current and on an offset voltage that is associated with a predetermined frequency range corresponding to the one of the voltage signals; and a current-controlled oscillator generating, based on the oscillation current, a periodic pulse signal that has a frequency linearly proportional to the magnitude of the one of the voltage signals. | 02-19-2015 |