Patent application number | Description | Published |
20110127927 | Buck-Store and Boost-Restore Converter - A buck-store and boost-restore converter is to be electrically connected to a pre-stage circuit, which provides a pre-stage output direct current (DC) voltage to a first capacitive load. The converter has an inductance element and is to be electrically connected to a second capacitive load. When the pre-stage output DC voltage is reduced from a first DC voltage to a second DC voltage, the inductance element outputs a current to the second capacitive load so as to transfer electric energy, which is stored in the first capacitive load, to the second capacitive load. When the pre-stage output DC voltage is raised from the second DC voltage to the first DC voltage, the inductance element outputs a current to the first capacitive load so as to transfer electric energy, which is stored in the second capacitive load, to the first capacitive load. | 06-02-2011 |
20110260643 | ENERGY-SAVING MECHANISMS - Some embodiments regard a method comprising: using an input voltage to generate an output voltage having a first voltage level; in a first period, when the output voltage changes from the first voltage level to a second voltage level, storing electrical charges resulted from the output voltage changing from the first voltage level to the second voltage level; and in a second period subsequent to the first period when the output voltage demands energy, using a voltage generated from the stored electrical charges in place of the input voltage to generate the output voltage. | 10-27-2011 |
20130257306 | CIRCUIT INCLUDING POWER CONVERTER - In at least one embedment, a circuit includes an input node, an energy node, a reference node, an output node, a first capacitive device, a first diode device, and a power converter. The first capacitive device is coupled between the energy node and the reference node. The first diode device has an anode coupled to the input node and a cathode coupled to the energy node. The power converter is coupled between the energy node and the output node. | 10-03-2013 |
20140111103 | Buck-Store and Boost-Restore Converter - A system includes: a first converter for receiving a pre-stage input DC voltage from a power source, and providing a pre-stage output DC voltage including a first DC voltage or a second DC voltage; a modulator the modulator controlling the first converter; a second converter, coupled to the first converter; and a controller, the controller controlling an operation mode of the second converter and notifying the modulator about the operation mode of the second converter. The modulator and the controller receive an external voltage indication signal indicating whether the pre-stage output DC voltage is the first DC voltage or the second DC voltage. The modulator controls the first converter to output the pre-stage output DC voltage based on the voltage indication signal. The modulator notifies the controller about whether the pre-stage output DC voltage reaches a target level. | 04-24-2014 |
Patent application number | Description | Published |
20120081008 | CONTROL CIRCUIT MODULE OF LIGHT-EMITTING DIODE LAMP - The present invention relates to a control circuit module of light-emitting diode (LED) lamp, which comprises: a AC to DC element, for transferring mains AC power to DC power; a plurality of groups of LED; a plurality of switches, corresponding to the number of the groups of LED, for controlling to turn on/off the each group; a linear voltage regulator, for cutting the DC power from the AC to DC element to a plurality of voltage sections; a switch selector, for selecting to open/close the switches according to the voltage sections from the linear voltage regulator; a current selector, for capturing available current sections from the voltage sections of the linear voltage regulator; and a LED current setup device, for controlling the current sections to open/close the plurality of switches by a user according to the LED current setup device and the current selector. | 04-05-2012 |
20120205778 | PACKAGE STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a package structure and method for manufacturing the same. The package structure can minimize the area of the circuit board used for packaging, by stacking a passive element directly on a chip. The disclosed package structure comprises: a circuit board having a first surface, where a plurality of first connecting pads being disposed thereon; a chip unit having an active surface, a non-active surface and a plurality of conductive vias, while a plurality of second connecting pads and a plurality of electric pads being disposed on the active surface, and a plurality of third connecting pads being disposed on the non-active surface; a plurality of solder balls electrically connected with the first connecting pads and the second connecting pads; and a passive element being electrically connected with the third connecting pads. The passive element and the chip unit both electrically connect to the chip unit. | 08-16-2012 |
20120212147 | Flyback Energy Converter - The present invention is to provide a flyback energy converter comprising a transformer having a primary winding, a secondary winding and an auxiliary winding, a load electrically connected with the secondary winding, a switch serially connected with the primary winding and a primary controlling circuit. The primary controlling circuit comprises a voltage measurement terminal and a switch controlling terminal. The voltage measurement terminal measures an output voltage wave provided from the auxiliary winding to get a part of times in the part of the output voltage wave, so as to enlarge the part of times to a total time. According to a predetermined timing transferred from the total time, the switch controlling terminal controls the switch. | 08-23-2012 |
20120235653 | Zero Current Detecting Circuit and Related Synchronous Switching Power Converter - A zero current detecting circuit is disclosed. The zero current detecting circuit includes a first zero current comparator for determining current variation on an inductor of a synchronous switching power converter so as to accordingly turn off a down-bridge transistor of the synchronous power converter; a second zero current comparator for determining whether the first zero current comparator turns off the down-bridge transistor too early or too late and outputting a comparison result, and a counter coupled to the second zero current comparator for ascending or descending a control bit according to the comparison result. | 09-20-2012 |
20120274295 | CURRENT MODE BUCK-BOOST CONVERTER - A current mode buck-boost converter has an input terminal, an output terminal, and an output capacitor coupled to the output terminal. The input terminal is used to receive an input voltage, and the output terminal is for producing the output voltage. The current mode buck-boost converter comprises a voltage converter and a control circuit. The voltage converter comprises an inductor. The control circuit is for detecting the current passing through the inductor to determine the electric energy transmitted to the output terminal by the voltage converter. Accordingly, the current mode buck-boost converter has fast response, and the electrical energy can be recycled and stored to the voltage source when the current mode buck-boost converter operates in down-tracking process. | 11-01-2012 |
20130293203 | Current Balance Circuit and Multiphase DC-DC Converter and Current Balance Method Thereof - The present invention discloses a current balance circuit for a multiphase DC-DC converter. The current balance circuit comprises a current error calculation circuit, for generating a plurality of current balance signals indicating imbalance levels of a plurality of inductor currents of a plurality of channels of the multiphase DC-DC converter according to a plurality of current sensing signals of the plurality of channels, a time shift circuit, for adjusting pulse widths of a plurality of clock signals according to the plurality of current balance signals, and a ramp generator, for deciding shift levels of a plurality of ramp signals according to the plurality of clock signals. | 11-07-2013 |