| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 327129000 | Generating sinusoidal output | 12 |
| 20090033379 | Generation of a Digital Controlled Precise Analog Sine Function - This disclosure relates to semiconductor device having a trapezoid shaped resistive strip with a plurality of legs coupled along one strip edge to produce an analog sine wave. | 02-05-2009 |
| 20090295437 | SIGNAL WAVEFORM GENERATING CIRCUIT AND METHOD - A signal waveform generating circuit includes a first part storing waveform data of a signal to be generated, a second part storing additional data for adjusting the waveform data, and a third part adjusting the waveform data read from the first part by the additional data read from the second part. | 12-03-2009 |
| 20100013527 | APPARATUS, SYSTEM, AND METHOD FOR INTEGRATED PHASE SHIFTING AND AMPLITUDE CONTROL OF PHASED ARRAY SIGNALS - An apparatus, system, and method are disclosed for phase shifting and amplitude control. A two-phase local oscillator generates an in-phase sinusoidal signal of a fixed frequency and a quadrature sinusoidal signal of the fixed frequency having a ninety degree phase shift from the in-phase sinusoidal signal. A signal generator receives the in-phase sinusoidal signal and the quadrature sinusoidal signal and generates a controllable sinusoidal signal of the fixed frequency. The controllable sinusoidal signal has a variable amplitude and a shiftable phase. A mixer varies the amplitude and shifts the phase of an input signal by mixing the input signal with the controllable sinusoidal signal to generate an output signal. The input signal and the output signal carry phase and amplitude information required for phased array signal processing. Either a receiver or a transmitter may be implemented using the present invention. | 01-21-2010 |
| 20100019809 | Switch Controller, Switch Control Method, And Converter Using The Same - Disclosed are a switch controller, a switch control method, and a converter based thereon. The switch controller generates an input sensing voltage corresponding to the input voltage of the converter, and compares the input sensing voltage with a predetermined first reference value. The switch controller generates a zero cross detection signal with a first level or a second level depending upon the comparison result, and generates a reference clock signal varying in frequency in accordance with one cycle of the zero cross detection signal. The switch controller generates digital signals by using the reference clock signal and the zero cross detection signal. The digital signals synchronize with the zero cross detection signal, and increase in accordance with the reference clock signal during a half of one cycle of the zero cross detection signal, while decreasing in accordance with the reference clock signal during the other half cycle of the zero cross detection signal. The switch controller generates a reference signal with a voltage level corresponding to the digital signal. | 01-28-2010 |
| 20100026349 | SQUARE TO PSEUDO-SINUSOIDAL CLOCK CONVERSION CIRCUIT AND METHOD - A square wave to pseudo-sinusoidal clock conversion circuit comprises first and second stages. The first stage includes a cross-coupled differential pairs input gain stage having positive and negative input sides. Responsive to a differential square wave clock input, the first stage provides a first pass balanced differential clock with pull-up and pull-down symmetry. The second stage comprises positive and negative output side push-pull with low pass filter circuits, wherein the positive and negative output side push-pull with low pass filter circuits are responsive to the first pass balanced differential clock from the first stage for producing an output pseudo-sinusoidal clock that comprises a nearly sinusoidal output with slew rate controlled and clock waveform pull-up and pull-down symmetry for each of a respective one of the positive and negative output sides. | 02-04-2010 |
| 20100244910 | Sinusoidal waveform generation circuit - A sinusoidal waveform generation circuit is configured to continuously control a voltage applied to a gate of a MOSFET to change an output current in the form of a sinusoidal wave by utilizing, as an electric characteristic specific to the MOSFET, a characteristic between a voltage applied to a gate of a MOSFET and an output current. The waveform of the sinusoidal wave generated by the sinusoidal waveform generation circuit is not a combination of a plurality of linear lines but is continuous and smooth. As a result, noises generated by the sinusoidal waveform generation circuit can be reduced. | 09-30-2010 |
| 20100277208 | METHOD AND APPARATUS FOR GENERATING RF WAVEFORMS HAVING AGGREGATE ENERGY WITH DESIRED SPECTRAL CHARACTERISTICS - The present invention relates to a method and system that emulates a desired waveform by producing a time profile of the desired waveform, which is characterized by a plurality of sample values, and generating a plurality of RF waveforms, each RF waveform of the plurality of RF waveforms having a polarity and scaled energy based on a corresponding one of the plurality of sample values, to produce an aggregate RF energy having spectral characteristics that approximate the spectral characteristics of the desired waveform. | 11-04-2010 |
| 20110095793 | BIAS POTENTIAL GENERATING CIRCUIT - The present invention provides a bias potential generating circuit including: a clock supply circuit that generates a clock signal having a predetermined frequency; a rising sine wave generating circuit that generates a rising wave form signal having a wave form of a rising portion of a sine wave; a ΔΣ conversion circuit that generates a pulse width modulation signal by pulse width modulating the rising wave form signal; a first resistor, one end connected to a reference potential input terminal of an operational amplifier; a second resistor, one end connected to the first resistor and to the reference potential input terminal of the operational amplifier, and the other end being grounded; and a switch connected to a power supply and to the other end of the first resistor, the switch being turned ON and OFF by the pulse width modulation signal. | 04-28-2011 |
| 20110210768 | Vertical Transistor and Method of Enabling a Vertical Transistor to Generate an Alternating Current Output - A vertical transistor includes a gate isolating layer flanking a stack of a source layer, a resilient active unit and a drain layer, and a gate layer formed on the gate isolating layer. The active unit includes an active layer formed between first and second barrier layers each having a thickness ranging from 4 nm to 40 nm. When an input voltage including a DC component and a ripple component is applied to the source layer, the active unit periodically vibrates as a result of the ripple component of the input voltage such that an induced AC current is generated based on a control voltage applied to the gate layer to flow to the drain layer. The induced AC current flowing to the drain layer serves as an AC output generated by the vertical transistor based on the input voltage. A method of enabling a vertical transistor to generate an AC output is also disclosed. | 09-01-2011 |
| 20130181753 | High Accuracy Sin-Cos Wave and Frequency Generators, and Related Systems and Methods - High accuracy sin-cos wave and frequency generators, and related systems and methods. In non-limiting embodiments disclosed herein, the sin-cos wave generators can provide highly accurate sin-cos values for sin-cos wave generation with low hardware costs and small lookup table requirements. The embodiments disclosed herein may include a circuit to conduct an arithmetic approximation of a sin-cos curve based on a phase input. The circuit may be in communication with a point lookup table and a correction lookup table. The tables may receive the phase input and match the phase input to main sin-cos endpoints associated with the phase, and to a correction value for the phase. These values which are selected based on the phase input, may be communicated to a converter circuit where the arithmetic functions are applied to the values resulting in a sin-cos curve value. | 07-18-2013 |
| 20140043070 | CLASS RESONANT-H ELECTROSURGICAL GENERATORS - A generator for use with an electrosurgical device is provided. The generator has a gain stage electrically disposed between a first voltage rail and a second voltage rail, wherein the gain stage includes an input and an output. A voltage source operably coupled to the gain stage input and configured to provide an input signal thereto responsive to a drive control signal is also provided. The generator also has one or more sensors configured to sense an operational parameter of the amplifier and to provide a sensor signal corresponding thereto and a controller adapted to receive the sensor signal(s) and in response thereto provide a drive control signal to the voltage source. The generator has an amplifier output configured to supply an output voltage corresponding to the first voltage rail and the second voltage rail when the output of the gain stage falls between a voltage of the first voltage rail and a voltage of the second voltage rail and is configured to supply a peak voltage output when the voltage output is falls greater than the voltage of the first voltage rail or less than the voltage of the second voltage rail. | 02-13-2014 |
| 20140049299 | PROGRAMMABLE ULTRASOUND TRANSMIT BEAMFORMER INTEGRATED CIRCUIT AND METHOD - An electrical waveform generating circuit has a programmable current source-driver. A digital switched current source is coupled to the programmable current source-driver and controlled by waveforms stored in the programmable current source-driver. A plurality of MOSFETs is coupled to the programmable current source driver. A first coupled inductor is connected to the plurality of high voltage MOSFETs. A transducer is coupled to the first coupled inductor. | 02-20-2014 |
