Patent application number | Description | Published |
20100254163 | RESONANT POWER CONVERTER WITH CURRENT DOUBLER RECTIFIER AND RELATED METHOD - A power converter is provided, which may include_a transformer having primary and secondary windings; a primary side switching bridge arrangement including at least two switches switcheable at a switching frequency to drive the primary winding of said transformer, said primary side switching bridge arrangement including at least one decoupling capacitor; and a secondary side rectifying and filtering stage coupled to the secondary winding of said transformer, wherein said secondary side rectifying and filtering stage includes a current doubler with at least one inductor, wherein said at least one decoupling capacitor and said at least one inductor in said current doubler comprise a resonant tank circuit having a resonant frequency range encompassing said switching frequency, whereby said converter exhibits a gain defined by the position of said switching frequency within said resonant frequency range. | 10-07-2010 |
20100254167 | CONVERTER DEVICE AND CORRESPONDING METHOD - A converter circuit to produce a dc output signal from a stabilized input voltage may include a flyback inductor and a drive arrangement to drive said flyback inductor. A control unit is provided sensitive to the demagnetisation of said flyback inductor, said control unit configured to act on a first, a second and a third switch to effect in a cyclical manner the sequence including: a) producing a ramp-like increase of a magnetising current in said flyback inductor following activation of said first switch and said second switch; b) de-activating said first and second switch when the magnetising current in said flyback inductor reaches a predetermined peak value, c) activating said third switch thus producing energy transfer in said flyback inductor, and d) activating said first switch and de-activating said third switch when the voltage on said first electronic switch has reached zero. | 10-07-2010 |
20110001439 | DRIVER ARRANGEMENT FOR LIGHT EMITTING DIODES - A driver arrangement for LEDs may include a PWM controller to deliver a feed voltage between an output line and a ground output line, said controller having a pin, a current regulator to regulate the feed current, a switch to connect said pin to a scaled-down version of the voltage on the first output line, and a control line to receive a signal to produce dimming, said control line coupled to said regulator and said switch to couple said regulator to a reference voltage and control switching, whereby: in one of the levels of a PWM control signal, said regulator interrupts said feed current, the voltage on said ground output line is floating, and in the other levels, said regulator is coupled to said reference voltage, said switch disconnects said pin from said voltage on the output line and the voltage on said ground output line is regulated. | 01-06-2011 |
20110002070 | Method of Protection From Over-Temperature and Corresponding Arrangement - A method of protecting from over-temperature a device associated with an electronic converter including a feedback path for regulating the output signal of said electronic converter may include providing a thermal sensitive component sensitive to the temperature of said device, and including said thermal sensitive component in said feedback path of said electronic converter, whereby said output signal of said electronic converter is reduced as a function of the temperature of said device as sensed by said thermal sensitive component. | 01-06-2011 |
20110006696 | MULTIFUNCTIONAL OUTPUT STAGE FOR DRIVING DIMMED LIGHT SOURCES AND RELATED METHOD - A drive arrangement for light sources may include: a connection line to feed a light source, a switch element coupled to said line to apply on/off signals to said line, and a controller to control operation of said switch, said controller being sensitive to at least one of a dimming signal representative of a desired dimming level for said light source and an information-carrying digital signal, wherein said controller is configured to control operation of said switch to: a) PWM modulate an on/off signal applied to said line as a function of said dimming signal, whereby the average current conveyed towards said light source and determined by said PWM modulated on/off signal controls the brightness of said light source, b) transmit said information-carrying digital signal as an on/off information signal applied to said line, whereby the information carried by said information-carrying digital signal is transmitted over said line. | 01-13-2011 |
20110260640 | POWER SUPPLY CIRCUIT FOR LIGHT SOURCES, SUCH AS LIGHTING LED SYSTEMS - In various embodiments, a power supply circuit for light sources is provided. The power supply circuit may include a ground line and a current feed line towards said light source, wherein said circuit includes an output inductor interposed in said current feed line, the circuit including an electronic switch interposed in said feed line switchable between an on condition, wherein said electronic switch is configured to ensure continuity of said feed line, and an off condition, wherein said electronic switch is configured to interrupt said current feed line, the circuit further including a rectifier set interposed between said output inductor and said electronic switch to rectify the voltage across said output inductor, the voltage produced by said rectifier set constituting a drive voltage to maintain said electronic switch in said on condition. | 10-27-2011 |
20110260650 | DEVICE FOR CONTROLLING POWER SUPPLY TOWARDS LIGHT SOURCES AND RELATED METHOD - In various embodiments, a device for controlling power supply towards at least one light source comprising a load having a value variable as a result of switching of at least one switch coupled thereto, is provided. The device may include: a power supply set controllable to determine the intensity of the current fed towards said load; a current feedback loop sensitive to the intensity of the current fed towards said load, said current feedback loop connected to said power supply set to maintain the intensity of the current fed towards said load upon variation of said load; and a voltage control sensitive to the voltage across said load, said voltage control likewise connected to said power supply set to maintain the intensity of the current fed towards said load upon variation of said load. | 10-27-2011 |
20120176058 | POWER SUPPLY DEVICE - An electrical supply device may include a transformer with a secondary winding to feed a current to a load; control circuitry for the device; an auxiliary supply source for said control circuitry. The auxiliary supply source may include an output capacitor across which a supply voltage is provided for said control circuitry; at least one charge accumulation capacitor to be traversed by the current fed to said load; a comparator sensitive to the voltage on said at least one charge accumulation capacitor; and a switch interposed between said at least one charge accumulation capacitor and said output capacitor, said switch coupled to said comparator, whereby when the voltage on said at least one charge accumulation capacitor reaches a reference level, said switch couples said at least one charge accumulation capacitor to said output capacitor by transferring onto said output capacitor the charge on said at least one charge accumulation capacitor. | 07-12-2012 |
20130015777 | METHOD FOR FEEDING LIGHT SOURCES AND RELATED DEVICEAANM De Anna; PaoloAACI Valla di Riese Pio X (Treviso)AACO ITAAGP De Anna; Paolo Valla di Riese Pio X (Treviso) ITAANM D'Inca; IlanAACI Feltre (Belluno)AACO ITAAGP D'Inca; Ilan Feltre (Belluno) IT - In various embodiments, a method for powering light sources from a input power supply through a converter circuit is provided including a primary side and a secondary side separated by a galvanic barrier, wherein the primary side includes a power factor control block with an output capacitor. The method may include providing save circuitry on said secondary side for saving operational data of the converter upon failure of said input power supply; and powering said save circuitry during saving said operational data with energy derived from said output capacitor of said power factor control block. | 01-17-2013 |
20140361693 | LIGHTING MODULE AND CORRESPONDING LIGHTING SYSTEM - A lighting module may include at least one light source, and an identification element that identifies the supply current required by the light source, wherein the identification element includes a first terminal and a second terminal for connection to an electronic converter. | 12-11-2014 |