Patent application number | Description | Published |
20110309807 | ELECTRONIC DEVICE FOR SWITCHED DC-DC CONVERSIONAND METHOD FOR OPERATING THE SAME - An electronic device for switched DC-DC conversion of an input voltage level into an output voltage level, comprising a first power switch and a second power switch, being connected in parallel and having a different gate width, and a driving stage that is configured to selectively drive the first power switch and/or second power switch depending on a load current output. | 12-22-2011 |
20130063113 | LOAD CURRENT SENSING CIRCUIT AND METHOD - A load current sensing circuit for sensing a DC-DC converter load current in a DC-DC converter comprising a high-side power transistor and a low-side power transistor connected in series between supply terminals and having a converter switching node therebetween coupled to an inductor to which a load is to be coupled. A first averaging stage determines a DC voltage component of the PWM signal and a second averaging stage determines a DC component of the voltage signal at the converter switching node. A comparison stage determines a difference voltage between the first averaging stage and the second averaging stage. An impedance replica stage forms a resistance which is proportional to the resistance of the series-connected power transistors. A measuring stage measures a current flowing through the impedance replica stage with the determined difference voltage applied. | 03-14-2013 |
20130335156 | OSCILLATOR COMPRISING AN RC-CIRCUIT AND A PUSH-PULL STAGE AND ELECTRONIC DEVICE COMPRISING THE OSCILLATOR - Oscillator and electronic device comprising an oscillator, wherein the oscillator has an RC-circuit and a push-pull stage. A tapping point of the RC-circuit is coupled to an input of the push-pull stage and an output of the push-pull stage is fed back to a switching transistor which is coupled to the tapping point of the RC-circuit. | 12-19-2013 |
20140111179 | PHASE CURRENT BALANCING FOR MULTIPHASE CONVERTERS - A DC-DC converter includes a first differential voltage sensor to detect a first inductor current by sensing a first differential voltage across a first power stage of the DC-DC converter. A second differential voltage sensor detects a second inductor current by sensing a second differential voltage across a second power stage of the DC-DC converter. An integrator stage combines the first differential voltage from the first power stage and the second differential voltage from the second power stage to generate a compensation signal to adjust current balancing for the DC-DC converter. | 04-24-2014 |