Patent application number | Description | Published |
20140070718 | METHOD AND APPARATUS FOR LED FORWARD VOLTAGE MEASUREMENT FOR OPTIMUM SYSTEM EFFICIENCY - A method and apparatus for optimizing a light emitting diode (LED) operation range is provided. The method comprises the steps of: turning on at least one LED; and then measuring an anode voltage of the at least one LED; then measuring a cathode voltage of the at least one LED. Once the measurements are completed, a forward voltage of the at least one LED is calculated. After the calculation, the at least one LED is turned off and a power multiplier switch threshold is set for that LED based on the measured anode and cathode voltages. | 03-13-2014 |
20140253080 | METHOD AND APPARATUS FOR ADVANCED PULSE SKIPPING CONTROL IN BUCK REGULATORS - A method and apparatus for determining the entry and exit from a pulse skipping mode in a power supply is provided. The power supply may incorporate a buck regulator. The method begins when current is sensed at an inductor of a power supply. This sensed current is then compared with a predetermined threshold current value. If the comparison reveals that the current is below the predetermined threshold current value, a pulse skipping mode is entered. If the current is found to be above the predetermined threshold the pulse skipping mode is not entered and normal operation continues. The apparatus includes a transconductance amplifier, an offset voltage source, a reference power supply reference voltage source, first and second voltage comparators, and a processor. | 09-11-2014 |
20150263614 | AVERAGE CURRENT MODE CONTROL OF MULTI-PHASE SWITCHING POWER CONVERTERS - Exemplary embodiments are related to switching power converters. A switching power converter may comprise a plurality of control unit configured for average current mode control, wherein each control unit of the plurality comprises a dedicated proportional control unit. The switching power converter may further comprise an integrator coupled to each control unit of the plurality of control unit and configured to convey a signal to each control unit. | 09-17-2015 |
20150311783 | CHARGE-RECYCLING CIRCUITS - In one embodiment, a circuit comprises a first load circuit coupled to a first input voltage. A current sinking circuit is coupled to an output of the first load circuit. A second load circuit is coupled to ground. A current sourcing circuit is coupled between a second input voltage and an output of the second load circuit. A charge-recycling circuit is coupled between the output of the first load circuit and the output of the second load circuit to provide current from the current sinking circuit to the output of the current sourcing circuit to reduce current through the current sourcing circuit. The charge-recycling circuit can be a charge pump. | 10-29-2015 |
20150311784 | CHARGE PUMPS HAVING VARIABLE GAIN AND VARIABLE FREQUENCY - In one embodiment, a circuit comprises a charge pump. A gain control circuit is configured to detect an input voltage and generate a gain control signal to change a gain of the charge pump to maintain the output voltage of the charge pump in a voltage range. A voltage to frequency converter is configured to detect the input voltage and change a frequency of a frequency control signal applied to the charge pump based in the detected input voltage to maintain the frequency in a frequency range so that the output voltage of the charge pump is maintained in the voltage range. | 10-29-2015 |
20150311884 | CHARGE-RECYCLING CIRCUITS INCLUDING SWITCHING POWER STAGES WITH FLOATING RAILS - In one embodiment, a circuit comprises a first switching transistor and a second switching transistor. The first switching transistor and the second switching transistor are coupled in series between an input voltage and ground and having a common node therebetween to provide a switching output. A first switching circuit selective couples a gate of the first switching transistor to the input voltage and a first mid-level voltage supply. A second switching circuit selectively couples a gate of the second switching transistor to a second mid-level voltage supply and ground. A charge-recycling circuit is coupled to the gate of the first switching transistor, the gate of the second switching transistor, the first mid-level voltage supply, and the second mid-level voltage supply to selectively recycle charge between the first mid-level voltage supply and the second mid-level voltage supply. | 10-29-2015 |
20160036313 | PROGRAMMABLE SNUBBER CIRCUIT - The present disclosure includes programmable snubber circuits and methods. In one embodiment, a circuit is configured between first and second power supply terminals. A programmable snubber circuit may be configured between the first and second power supplies to reduce ringing on the power supplies. In one embodiment, the circuit is a switching regulator and the power supply terminals are internal power supply terminals. The snubber circuit may be programmed to reduce ringing caused by switching currents through parasitic inductances in a package. | 02-04-2016 |
20160133614 | SEMICONDUCTOR PACKAGE WITH INCORPORATED INDUCTANCE ELEMENT - The present disclosure provides semiconductor packages and methods for fabricating semiconductor packages. The semiconductor package may comprise a semiconductor device mounted to a first substrate, a voltage regulator mounted to the first substrate and coupled to the semiconductor device, and an inductive element located on a perimeter of the semiconductor device and coupled to the voltage regulator, wherein the inductive element is formed by a plurality of interconnected conductive elements extending vertically from the first substrate. | 05-12-2016 |