STMICROELECTRONICS DESIGN AND APPLICATION S.R.O. Patent applications |
Patent application number | Title | Published |
20130154595 | VOLTAGE-TO-CURRENT SENSING CIRCUIT AND RELATED DC-DC CONVERTER - The present disclosure is directed to a voltage-to-current sensing circuit having a bias terminal configured to receive a reference voltage, an offset terminal configured to receive an offset current, and an operational amplifier configured to output a low voltage signal. The device includes a first amplifier having first and second high voltage inputs configured to receive a first voltage difference across a sense component on a high voltage line and to generate a first current, a second amplifier having first and second low voltage inputs configured to receive a second voltage difference between the bias terminal and the offset terminal and to generate a second current, a summing circuit configured to provide an intermediate voltage corresponding to a sum of the first and the second currents, and a low-voltage transistor coupled to an output of the amplifier and controlled by the intermediate voltage to generate the output current. | 06-20-2013 |
20120181998 | ENHANCED EFFICIENCY LOW-DROPOUT LINEAR REGULATOR AND CORRESPONDING METHOD - A low-dropout linear regulator includes an error amplifier which includes a cascaded arrangement of a differential amplifier and a gain stage. The gain stage includes a transistor driven by the differential amplifier to produce at a drive signal for an output stage of the regulator. The transistor is interposed over its source-drain line between a first resistive load included in a RC network creating a zero in the open loop gain of the regulator, and a second resistive load to produce a drive signal for the output stage of the regulator. The second resistive load is a non-linear compensation element to render current consumption linearly proportional to the load current to the regulator. The first resistive load is a non-linear element causing the frequency of said zero created by the RC network to decrease as the load current of the regulator decreases. | 07-19-2012 |
20120176057 | CONTROL APPARATUS FOR LED DIODES - A control apparatus for LED diodes includes a dimmer TRIAC electrically connected in series between a power supply and a LED lighting converter. The converter comprises a transformer, with a primary winding coupled with an input terminal and a secondary winding coupled with an output terminal, and a switch coupled to the primary winding to regulate the current through the primary winding and regulate the output voltage. The apparatus comprises a control device adapted to control said switch determining the on period and the off period of the switch to maintain constant the output current to supply said LED diodes. The apparatus comprises a detector connected to the secondary winding of the transformer and adapted to detect the conduction angle of the TRIAC; the control device is adapted to regulate the output current to supply said LED diodes in response to the TRIAC conduction angle detected by the detector. | 07-12-2012 |
20110150245 | CAPACITIVE LOAD DRIVING AMPLIFIER - An electronic amplifier for driving a capacitive load may include first and second differential input terminals to receive an input signal, and first and second differential output terminals to provide a differential output signal. The amplifier may further include a first operational device having first and second differential inputs connected to the first and second differential input terminals, respectively, and an output connected to the first differential output terminal, and a second operational device having first and second differential inputs connected to the first and second differential input terminals, respectively, and an output connected to the second differential output terminal. The first and second operational devices may be operatively configured so that both the first and the second output terminals are at a same reference potential during periods in which a module of differential output signal amplitude decrease. | 06-23-2011 |
20110148483 | INTEGRATED ELECTRONIC DEVICE WITH REFERENCE VOLTAGE SIGNAL GENERATION MODULE AND UVLO LOGIC SIGNAL GENERATION MODULE - An electronic integrated device may include a signal generation stage arranged to generate a first signal representative of an under voltage lockout logic signal. The signal generation stage may include a voltage divider block arranged to provide an internal reference voltage signal to a bandgap core group based upon a reference signal. The bandgap core group may generate the first signal based upon the internal reference voltage signal. The bandgap core group may further include a first generation module arranged to generate a output regulated reference voltage signal based upon the internal reference voltage signal, and a second generation module arranged to generate the first signal based upon the internal reference voltage signal and a driving signal obtained by a preliminary processing of the internal reference voltage signal by a bandgap core module included within the band gap core group. | 06-23-2011 |
20110006691 | VOLTAGE CONVERTER FOR SUPPLYING A SEMICONDUCTOR LIGHT SOURCE, IN PARTICULAR A LED LAMP - An embodiment of the invention relates to a voltage converter for supplying a semiconductor light source and having at least an input terminal connected to a power supply reference, namely an AC mains voltage reference, and an output terminal providing a current signal to said semiconductor light source, the converter being also connected to a voltage reference and comprising at least a step-down block inserted between a switching node and to the output terminal and connected to the voltage reference and an input block connected to the input terminal, as well as to a first input node and to a first output node of a control circuit, in turn connected to the switching node and to the voltage reference. The input block is a pre-regulator input block and comprises at least a switching component connected to the input terminal and to a capacitive block, in turn inserted between a second input node of the control circuit and the voltage reference, such a switching component having a control terminal connected to the first output node. | 01-13-2011 |
20100301909 | STARTUP CIRCUITRY AND CORRESPONDING METHOD FOR PROVIDING A STARTUP CORRECTION TO A MAIN CIRCUIT CONNECTED TO A STARTUP CIRCUITRY - A startup circuitry connected to a main circuit which has at least an output terminal connected to its feedback terminal by a feedback loop. The startup circuitry is connected to the main circuit in such a manner to break the feedback loop, by having a first circuit node connected to said output terminal of said main circuit and a second circuit node connected to its feedback terminal, said startup circuitry providing a correct output voltage value during the startup phase of said main circuit. | 12-02-2010 |
20100156499 | LOGIC LEVEL CONVERTER - A logic level converter includes two first electronic switches coupled in a bi-stable flip-flop arrangement having at least one output line, and a forcing circuitry including two second electronic switches to force switching of the first electronic switches in the flip-flop arrangement. The forcing circuitry has an input terminal to receive a logic input signal having a given level to produce switching of the flip-flop arrangement and generate at the output line(s) of the flip-flop arrangement, a logic output signal(s) whose voltage level is converted with respect to the level of the logic input signal. The converter includes, interposed between each of the two first electronic switches in the flip-flop arrangement and a respective one of the second electronic switches in the forcing circuitry, at least one respective cascode electronic switch to limit the voltage across the two first electronic switches in the flip-flop arrangement. | 06-24-2010 |
20100148736 | LOW-DROPOUT LINEAR REGULATOR AND CORRESPONDING METHOD - A low-dropout linear regulator includes an error amplifier comprising a cascaded arrangement of a differential amplifier and a gain stage having interposed therebetween a frequency compensation network for a loading current to flow therethrough. The regulator includes a current limiter inserted the flow-path of the loading current for the compensation network to increase the slew rate of the output of the differential amplifier by dispensing with the capacitive load in the frequency compensation network during load transients in the regulator. | 06-17-2010 |
20090166683 | FLEXIBLE LAYOUT FOR INTEGRATED MASK-PROGRAMMABLE LOGIC DEVICES AND MANUFACTURING PROCESS THEREOF - Integrated mask-programmable device, having a plurality of metal levels including a top metal level, a bottom metal level and a first intermediate metal level formed between the top and bottom metal levels, and a plurality of via levels arranged between the bottom and the first intermediate metal levels and between the first intermediate and the top metal levels and connecting each metal level to adjacent metal levels. The plurality of metal levels forms a first, a second and at least a third terminal, the top and bottom metal levels having at least two metal regions, and the first intermediate metal level having at least three metal regions. The first terminal is connected to third terminal or the second terminal is connected to the third terminal by modifying a single metal or via level. | 07-02-2009 |
20090102561 | AMPLIFIER HAVING AN OUTPUT PROTECTION, IN PARTICULAR OPERATIONAL AMPLIFIER FOR AUDIO APPLICATION - An amplifier with an output protection having an input stage defining a feedback node, an output stage connected to the feedback node and defining an output node supplying an output voltage, and a feedback stage connected between the output and the feedback nodes. A mirror stage is connected to the feedback node and has the same structure as the output stage, the mirror stage defining a reference node connected to the feedback stage for generating a reference voltage to be compared to the output voltage by the feedback stage. The feedback stage generates a current limitation signal fed to the feedback node when a difference between the output and the reference voltages is higher than a threshold. | 04-23-2009 |
20080211473 | SYNCHRONOUS RECTIFIER HAVING PRECISE ON/OFF SWITCHING TIME - A synchronous rectifier, including an energy storage element having a terminal; a power supply input, connected to the terminal of the storage element in a first time interval; a reference line connected to the terminal of the storage element in a second time interval; and a zero comparator, coupled to the terminal of the storage element to detect a current flowing in the energy storage element and disconnect the terminal of the storage element from the reference line upon detecting a zero current, the zero comparator having an offset and a propagation time; the zero comparator further having an offset control input and an output. An offset regulating loop is coupled between the output of the zero comparator and the offset control input and regulates the offset of the zero comparator to compensate the propagation time. | 09-04-2008 |