Class / Patent application number | Description | Number of patent applications / Date published |
327178000 | Rectangular (e.g., clock, etc.) or pulse waveform amplitude control | 22 |
20080246525 | LEVEL-RESTORED FOR SUPPLY-REGULATED PLL - The present disclosure provides for a processor that can include digital processing circuitry that receives a digital clock signal from a supply regulated phase locked loop. The supply regulated phase locked loop can include a voltage controlled oscillator that can output an analog signal and a level restorer that can receive the analog signal from the voltage controlled oscillator and can translate the analog output into a digital signal that corresponds to an analog output of the voltage controlled oscillator. The supply regulated phase locked loop can receive an analog input having an input voltage that is within a range of acceptable input voltages. The supply regulated phase locked loop can also be configured to generate the digital output signal, such that the range of acceptable input voltages includes voltage values that are greater than and less than the output voltage. | 10-09-2008 |
20100007395 | PULSE GENERATOR - At an occasion of a level transition when a second periodic voltage becomes equal to a main reference voltage a first periodic voltage generating circuit starts a first monotonically changing time-period in which a voltage value of a first periodic voltage increases monotonically from 0, which is an initial value, towards a voltage value of the main reference voltage. At an occasion of a level transition of a first main switching signal when the first periodic voltage becomes equal to the main reference voltage, a second periodic voltage generating circuit starts a second monotonically changing time-period in which a voltage value of the second periodic voltage increases monotonically from 0, which is an initial value, towards a voltage value of the main reference voltage. | 01-14-2010 |
20100207676 | SIGNAL CONVERTING DEVICE - The invention discloses a signal converting device, and more particularly, to a signal converting device that improves the signal quality. The signal converting device comprises a first input end, a second input end, an output end, a first circuit and a second circuit. The first circuit is coupled between the first input end and the output end. The first circuit determines whether to charge up the output end to generate an output signal or not according to a first differential input signal. The second circuit is coupled between the second input end and the output end. The second circuit determines whether to discharge the output end to generate the output signal or not according to a second differential input signal. | 08-19-2010 |
20100264971 | Square Waveform Shaping Device - A data signal generation device comprising a microprocessor and a digital potential divider, in which the microprocessor is adapted to generate a square wave output signal, and in which the digital potential divider is adapted to receive said square wave output signal, and to ramp up and down an output signal voltage and/or current according to state transitions in said square wave output signal. | 10-21-2010 |
20100283523 | CONTROLLER AND DRIVER COMMUNICATION FOR SWITCHING REGULATORS - Pulse width modulation (PWM) controllers and output stage driver circuits and related methods of communicating switching regulator mode information. The controller includes circuitry that recognizes intervals when the load driven by the regulator is in a low power mode. Responsive to recognizing the low power mode, the controller generates a PWM mode signal having at least three ( | 11-11-2010 |
20110057700 | DIGITAL CIRCUITS WITH ADAPTIVE RESISTANCE TO SINGLE EVENT UPSET - A digital circuit with adaptive resistance to single event upset. A novel transient filter is placed within the feedback loop of each latch in the digital circuit to reject pulses having a width less than T, where T is the longest anticipated duration of transients. The transient filter includes a first logic element having a controllable inertial delay and a second logic element coupled to an output of the first logic element. A first controller provides a control voltage VcR to each first logic element to control a rise time of the first logic element to be equal to T. A second controller provides a control voltage VcF to each first logic element to control a fall time of the first logic element to be equal to T. | 03-10-2011 |
20110095798 | High Speed Fully Differential Resistor-Based Level Formatter - A level formatter is provided that has differentially coupled closed loop current sources, each configured to precisely establish a current proportional to a reference voltage. A bridge circuit is differentially coupled to two supplementary current sources and controlled to rapidly switch the current from the supplementary current sources to produce output voltages at respective outputs that are approximately equal to respective ones of two reference voltages. | 04-28-2011 |
20110109363 | POWER SUPPLY CONTROLLER AND METHOD - A power supply controller and method for improving the transient response of the power supply controller. The power supply controller includes a pulse width modulation control module connected to a feedback network. The feedback network is composed of an amplifier having an inverting input terminal, a non-inverting input terminal, and an output terminal. A compensation network is coupled between the inverting input terminal and the output terminal of the amplifier and a reference voltage is coupled to the non-inverting input terminal of the amplifier. A switch is coupled between the output terminal of the amplifier and an input terminal of the compensation network. The transient response of the controller is improved by operating the controller in a closed loop compensation configuration during a continuously pulsing operating mode and in an open loop compensation configuration during a pulse skip operating mode. | 05-12-2011 |
20110133802 | INTEGRATED CIRCUIT DEVICE, ELECTRONIC EQUIPMENT AND CONTROL METHOD - An integrated circuit device includes a first rectangular wave signal generation section that outputs a first rectangular wave signal when an amplitude of an oscillation signal inputted is greater than a first amplitude, and a second rectangular wave signal generation section that outputs a second rectangular wave signal when the amplitude of the oscillation signal is greater than a second amplitude that is greater than the first amplitude, and that controls the power supply voltage of an oscillation circuit by the first and second rectangular wave signals so as to maintain an appropriate potential difference with respect to a stop voltage against changes in the oscillation stop voltage associated with changes in a temperature condition. | 06-09-2011 |
20110148494 | SIGNAL DRIVER WITH FIRST PULSE BOOST - A driver boost signaling circuit provides a pulse boost to the first cycle of an output pulse wave applied to an associated load. The circuit includes a signal generator circuit generating a signal including a series of pulses, a determining circuit determining a high impedance state of a signal load line and a first one or more cycles of the series of pulses applied to the load line following the high impedance condition, and a receiving circuit receiving a control signal. A logic circuit generates first and second logical signals responsive to the control signal and to the determining circuit determining the first one or more cycles and other cycles of the series of pulses. A switchable impedance circuit coupling the signal generator with the associated load line is responsive to the first logical signal to provide a low impedance level between the signal generator circuit and the associated signal load line, and to the second logical signal to provide a high impedance level between the signal generator circuit and the associated signal load line. | 06-23-2011 |
20130093485 | REDUCED VOLTAGE SWING CLOCK DISTRIBUTION - A system and method for reducing power consumption within clock distribution on a semiconductor chip. A 4-phase clock generator within a clock distribution network provides 4 non-overlapping clock signals dependent upon a received input clock. A reduced voltage swing clock generator receives the non-overlapping clock signals and charges and discharges a second set of clock lines in a manner sequenced by the non-overlapping clock signals. The sequencing prevents a voltage range from reaching a magnitude equal to a power supply voltage for each of the second set of clock lines. In one embodiment, the magnitude reaches half of the power supply voltage. The reduced voltage swing latch receives the second set of clock lines. The reduced voltage swing latch updates and maintains logical state based at least upon the received second set of clock lines. | 04-18-2013 |
20140184295 | CONTROLLED RESONANT POWER TRANSFER - Recycling energy in a clock distribution network is provided. A circuit includes a clock driver associated with a clock signal and having an output connected to a first load capacitance. The circuit also includes a second load capacitance connected in parallel with the first load capacitance. The circuit further includes a power transfer circuit including an inductor and a transmission gate connected in series between the first load capacitance and the second load capacitance. The power transfer circuit controls a flow of energy between the first load capacitance and the second load capacitance based on the clock signal. | 07-03-2014 |
20140266363 | Method, Apparatus and System for Sensing a Signal with Automatic Adjustments for Changing Signal Levels - The present specification provides a method, apparatus and system for sensing a signal with automatic adjustments for changing signal levels. A novel fractional peak discriminator circuit is provided which can be incorporated into a system for measuring periodic signals from moving elements. The circuit can be used regardless of whether the periodic signals are detected using optics, magnetic detector or other methods. | 09-18-2014 |
20160013775 | LOW POWER ARCHITECTURES | 01-14-2016 |
327179000 | Gain | 5 |
20090072874 | Adjusting a Filter of a Time-Continuous Sigma-Delta Converter - This invention relates to adjusting a filter of a time-continuous Sigma-Delta converter arranged to convert an analog input signal (S | 03-19-2009 |
20090153209 | Programmable high-speed cable with printed circuit board and boost device - An HDMI cable carries high speed encoded data which are transmitted differentially over data channels, along with a clock. High-frequency loss and differential skew within a differential signal may be compensated by analog circuits embedded in the cable. These embedded circuits are tuned at production for best performance by observing the quality of the recovered analog signal. The embedded circuits are powered by a combination of power sources, both carried within the cable, and harvested from the high-speed signals themselves. Methods are provided for deskewing, equalizing, and boosting the differential signals in the embedded circuits that are mounted on a PCB. | 06-18-2009 |
20090174450 | Programmable high-speed cable with boost device - An HDMI cable carries high speed encoded data which are transmitted differentially over data channels, along with a clock. High-frequency loss and differential skew within a differential signal may be compensated by analog circuits embedded in the cable. These embedded circuits are tuned at production for best performance by observing the quality of the recovered analog signal. The embedded circuits are powered by a combination of power sources, both carried within the cable, and harvested from the high-speed signals themselves. | 07-09-2009 |
20090289681 | High-speed cable with embedded power control - A High-Definition Multimedia Interface (HDMI) cable carries high speed encoded data which are transmitted differentially over data channels, along with a clock. High-frequency loss and differential skew within a differential signal may be compensated by analog circuits embedded in the cable. These embedded circuits are tuned at production for best performance by observing the quality of the recovered analog signal. The embedded circuits are powered by a combination of power sources, both carried within the cable, and harvested from the high-speed signals themselves. | 11-26-2009 |
20130154705 | ELECTRONIC DEVICE - An electronic device according to one or more embodiments of the present invention comprises an output line, a current mirror circuit and a comparator. Current signals from a plurality of signal sources are output to the output line. The current mirror circuit is electrically connected to the output line. The comparator is configured to compare a mirrored current signal from the current mirror circuit with a reference current signal. The comparator is configured to output a signal representing a comparison result of amplitudes of the mirrored current signal and the reference current signal. | 06-20-2013 |
327180000 | Limiting, clipping, or clamping | 3 |
20080197904 | Circuit Arrangement for Switching a Load - A circuit arrangement for switching a load includes at least one at least partially inductive load, at least one high side switch with a controlled path connected in series with the load and between supply terminals for a supply voltage. At least one freewheeling diode is connected with a first tap between the high side switch and the load. At least one clamp circuit is connected to a control terminal of the high side switch and is used to limit the control potential applied to the control terminal to a first pre-determined voltage value when the high side switch is switched off. | 08-21-2008 |
20090289682 | Potential Converter Circuit - Embodiments of a potential converter circuit include a converter for converting a bipolar input signal to a unipolar output signal that only consumes current at a change of potential of the input signal. | 11-26-2009 |
20140103982 | POWER MANAGEMENT DEVICE AND POWER MANAGEMENT METHOD OF TOUCHABLE CONTROL SYSTEM - A power management device of a touchable control system includes a boost circuit boosting an output voltage according to an input voltage, a controlling signal for ballasting charging, and a controlling signal for boosting charging, a detection circuit detecting a predetermined value of the output voltage, a modulation circuit, and a loading circuit. The modulation circuit separately modulates the output voltage by the controlling signal for ballasting charging after the output voltage reaches the predetermined value and by the controlling signal for boosting charging before the output voltage reaches the predetermined value according to the detecting of the detection circuit. The loading circuit receives the reached predetermined value of the output voltage according to the modulation of the modulation circuit, wherein the controlling signal for boosting charging modulating the output voltage is more rapid than the controlling signal for ballasting charging modulating the output voltage. | 04-17-2014 |