| Entries |
| Document | Title | Date |
|---|
| 20090134806 | LED BACKLIGHT CIRCUIT SYSTEM - An improved electrical circuit design and method to drive a plurality of LEDs in an LCD backlight in order to produce a uniform color distribution across the entire viewable surface of the display. The embodiments disclosed have features that permit a predetermined reduction in the amount of current provided to the LEDs positioned along the edge of the display region. This results in color uniformity, and consequently, an improved picture quality. | 05-28-2009 |
| 20090140655 | SIMPLE PROTECTION CIRCUIT AND ADAPTIVE FREQUENCY SWEEPING METHOD FOR CCFL INVERTER - A CCFL inverter circuit integrates a feedback circuit and protection circuit together. For both in-phase and out-of-phase applications, sensed lamp voltages can be used for open lamp and short lamp detection and sensed currents can be used for open lamp detection. The driving circuit adjusts the open lamp frequency by using a duty cycle control signal so that the driving circuit can always achieve the desired lamp voltage gain. | 06-04-2009 |
| 20090267521 | BALANCING TRANSFORMERS FOR MULTI-LAMP OPERATION - A ring balancer comprising a plurality of balancing transformers facilitates current sharing in a multi-lamp backlight system. The balancing transformers have respective primary windings separately coupled in series with designated lamps and have respective secondary windings coupled together in a closed loop. The secondary windings conduct a common current and the respective primary windings conduct proportional currents to balance currents among the lamps. The ring balancer facilitates automatic lamp striking and the lamps can be advantageously driven by a common voltage source. | 10-29-2009 |
| 20090273285 | PROTECTION FOR EXTERNAL ELECTRODE FLUORESCENT LAMP SYSTEM - The present invention provides a protection means for a driving circuit which drives a set of external electrode fluorescent lamps (EEFL). The driving circuit with protection function for driving a set of EEFLs consistent with the present invention includes: a transformer connected to the set of EEFLs; a switching network connected to the transformer which delivers power to the transformer; a sensing circuit connected to the set of EEFLs which detects disconnection if one light source is disconnected; and a controller connected to the switching network which controls the switching network to reduce the total current supplied to the EEFLs which remain connected, if the sensing circuit detects that one EEFL is disconnected. Appropriate protection can therefore be implemented when the EEFL is disconnected on one end or both ends. | 11-05-2009 |
| 20090289556 | Discharge lamp lighting apparatus for lighting multiple discharge lamps - A discharge lamp lighting apparatus for lighting multiple discharge lamps is provided in which two step-up transformers to apply AC voltages to two discharge lamp groups are mounted on a circuit board, and an antenna pattern is disposed on the circuit board so as to extend under both secondary windings of the step-up transformers and has its one end electrically connected to a tank circuit of a protection circuit, wherein the resonance frequency of the tank circuit is set to a frequency corresponding to five times the driving frequency of the step-up transformers, and the fifth-order high harmonic component is extracted from a signal induced in the antenna pattern, and when the signal extracted by the tank circuit exceeds a predetermined value, the output side of the step-up transformers is determined to be in an open state and the step-up transformers are stopped from being driven. | 11-26-2009 |
| 20090315464 | TRANSFORMER AND BACKLIGHT APPARATUS - The invention discloses a transformer for a backlight apparatus including a lamp and a detecting unit. The transformer includes a bobbin, a first winding and a second winding. The bobbin has a low-voltage winding region and a high-voltage winding region. The first winding is wound on the high-voltage winding region and is coupled to the lamp. The low-voltage winding region has a first pin, a second pin and a third pin. Firstly, the second winding is wound on the first pin and then wound on the low-voltage winding region for M turns. Next, the second winding is drawn out from the low-voltage winding region, then wound on the second pin, and then drawn back to be wound on the low-voltage winding region for N turns again. Afterwards, the second winding is drawn out again and wound on the third pin, where each of M and N is a nature number. In addition, the third pin is coupled to the detecting unit. | 12-24-2009 |
| 20100001651 | Backlight protection circuit - A backlight protection circuit includes a driving circuit, two lamps, a pulse modulator, and a feedback circuit. The pulse modulator controlling the operating state of the driving circuit includes an over-voltage sampling end. Each of the two lamps includes a high voltage end connected to the driving circuit, and a low voltage end connected to the over-voltage sampling end through the feedback circuit. The pulse modulator stops the operation of the driving circuit when the voltage of the low voltage end exceeds a reference voltage. | 01-07-2010 |
| 20100148673 | LED Replacement Light For Fluorescent Lighting Fixtures - An LED replacement light for a fluorescent lighting fixture. The replacement light assembly includes a metal housing for heat dissipation and structural support. A standard plug for mating with the original lighting fixture connector is provided to allow direct replacement of an existing fluorescent light bulb. A control circuit having a power supply, a current controller, and a current sensor converts the fluorescent lamp power supply output to an output sufficient to drive the LEDs. The current controller generates a variable pulse width waveform for powering the LEDs, and a current sensor circuit regulates the flow of current through the LEDs. High-brightness LEDs are utilized and are spaced sufficiently apart to provide fewer point-sources of light while retaining overall equivalent luminance. A glare shield controls the light pattern emanating from the LEDs to direct the pattern illumination. | 06-17-2010 |
| 20100164385 | DISCHARGE LAMP LIGHTING DEVICE - A discharge lamp lighting device is provided to comprise tube current detecting circuits | 07-01-2010 |
| 20100181919 | Led drive circuit - A retained and a removable circuit connect together to form a closed circuit. A switching mechanism is connected between the retained and removable circuits and to a circuit break load. Upon disconnection of the circuit break load and/or the removable circuit, the switching mechanism automatically switches from an open circuit to a closed circuit to form a closed circuit with the retained circuit. | 07-22-2010 |
| 20100181920 | BACKLIGHT DRIVING SYSTEM - A backlight driving system comprises an inverter module, a current balance module, a feedback module and an open-lamp protection detection module. The inverter module provides electrical signals to a plurality of lamps. The current balance module balances currents flowing through the plurality of lamps. The feedback module detects the current of the backlight and generates a feedback signal to the invert module accordingly. The open-lamp protection detection module detects voltage variations of the feedback transformer and generates a detection signal to the inverter module accordingly. The inverter module regulates the currents flowing through the plurality of lamps according to the feedback signal and determines one or more of the plurality of lamps are faulty according to the detection signal generated by the open-lamp protection detection module, and stops providing the electrical signals to the plurality of lamps. | 07-22-2010 |
| 20100301754 | Electronic Ballast Control Circuit - A control circuit for use in a ballast configured for powering a first lamp set and a second lamp set. The second lamp set is operated via a controller and a second lamp driver circuit. The controller enables the second lamp driver circuit as a function of a monitored value corresponding to a current through a lamp of the second lamp set. The control circuit includes first and second input terminals for selectively connecting to the power supply. The control circuit reduces the monitored value as a function of a connection state of the first and second input terminals of the control circuit to the power supply. Thus, the control circuit causes the controller to selectively operate the second lamp driver circuit in order to energize the second lamp set in combination with the first lamp set. | 12-02-2010 |
| 20110006689 | APPARATUS AND METHOD FOR BYPASSING FAILED LEDS IN LIGHTING ARRAYS - An apparatus, method and system for controlling one or multiple lighting sources such as those powered by driver circuits or voltage splitting methods, to provide an alternative current path around a failed lighting source when one or more individual lighting sources fail. | 01-13-2011 |
| 20110050105 | CURRENT BALANCE CIRCUIT HAVING PROTECTION FUNCTION, AND POWER SUPPLY - There are provided a current balance circuit having a protection function that prevents the current balance circuit from being damaged during a preset time period by maintaining a constant level of power being supplied to the lamp, and a power supply. The current balance circuit having the protection function includes a current balance unit maintaining current balance of lamp driving power supplied to a lamp unit including a plurality of lamps, and a protection unit detecting the lamp driving power supplied to the lamp unit from the current balance unit, cutting-off the lamp driving power after a preset time period when the lamp operates abnormally, and controlling a voltage level of the lamp driving power to a preset reference voltage level or lower during the preset time period. | 03-03-2011 |
| 20110057568 | Light Adjustment Circuit For Alternating-Current Light Emitting Diodes (AC-LED's) - A light adjustment circuit for alternating-current light emitting diodes (AC-LED's) connected to an AC power supply and a plurality of AC-LED's comprises: a light adjustment unit, being capable of modulating AC power from the AC power supply while providing the plurality of AC-LED's with the modulated AC power; and a pulse width modulation (PWM) control circuit, being capable of modulating an external voltage signal in correspondence to variation in input AC power to enable each of the AC-LED's to achieve a predetermined brightness; wherein the AC-LED's are turned off by modulating the external voltage signal to prevent the AC-LED's from being burnt out when the input AC power is too high. | 03-10-2011 |
| 20110062871 | AC-LED PROTECTION CIRCUIT - An AC-LED protection circuit comprises an AC-LED with a first terminal and a second terminal, and a circuit protection unit electrically connects with the first and second terminals of the AC-LED. When a voltage between two terminals of the circuit protection unit exceeds a voltage threshold, the circuit protection unit substantially forms a short circuit. Also, when a current through the circuit protection units exceeds a current threshold, the circuit protection unit forms a substantial open circuit. | 03-17-2011 |
| 20110101865 | MULTI-LAMP DRIVING SYSTEM - A multi-lamp driving system includes a power supply and at least one balance transformer. Each balance transformer includes two cores, two primary windings, two secondary windings and two protection windings. Each primary winding is wrapped around a core and serially connected to a lamp to form a first circuit branch in parallel connection with each other. The first circuit branches are powered by the power supply. The Each secondary winding is wrapped around a core and connected to a primary winding. The two secondary windings are connected in series to form a short circuit loop. Each of the protection windings is wrapped around a core and connected to a primary winding. The protection windings are wrapped in opposite directions and connected in series to form a second circuit branch. The second circuit branch outputs voltage signals to the power supply when induced voltages crossing the protection windings are unequal. | 05-05-2011 |
| 20110254450 | PROCESS AND APPARATUS FOR REPLACING LEDs ON TRAFFIC SIGNS - A traffic sign having one or more easily replaceable LED assemblies that can easily be removed or replaced and that make reliable water resistant electrical connection with one or more suitably-designed LED holders, which are installed in various locations as desired on the traffic sign or structure, is disclosed. A control circuit that supplies direct current at suitable levels of DC voltage and DC current to the one or more LED holders that are connected together using series, parallel or combination series and parallel wiring connections in order to provide electrical power to the one or more LED assemblies is provided. Wherein the one or more LED holders also include compensation circuits that enable any failed LED assembly to be electrically bypassed so that the control circuit then automatically adjusts the DC current or DC voltage levels supplied to the remaining traffic sign LEDs so that the remaining LED Assemblies continue to operate properly. | 10-20-2011 |
| 20110273096 | DETECTOR CIRCUIT AND METHOD FOR ACTUATING A FLUORESCENT LAMP - A detector circuit for actuating at least one fluorescent lamp may be configured such that the actuation of at least one fluorescent lamp occurs as a function of a first signal at a first input and as a function of a second signal at a second input if the first signal and the second signal are each greater than a first prescribed voltage and less than a second prescribed voltage during a start-up phase. | 11-10-2011 |
| 20110298377 | LED Circuit and Operation Method of the Same - A LED circuit is provided. The LED circuit comprises: a plurality of LED channels, a driving module and a feedback-selecting module. The driving module supplies a driving voltage to the plurality of LED channels according to a feedback voltage. The feedback-selecting module comprises an open detection unit and a minimum-selecting unit. The open detection unit performs an open detection mechanism to separate the plurality of LED channels into a plurality of open LED channels and a plurality of non-open LED channels having an output voltage respectively. The minimum-selecting unit performs a selection mechanism to select a minimum output voltage as the feedback voltage from the output voltage of each of the plurality of non-open LED channels. A LED circuit operation method adapted in the LED circuit is provided herein as well. | 12-08-2011 |
| 20110316424 | BACKLIGHT CONTROL CIRCUIT - The present invention discloses a backlight control circuit, comprising: a voltage supply circuit for receiving an input voltage and generating an output voltage under control by a control signal; at least one voltage comparison path respectively coupled to at least one light emission device path; a voltage operative amplifier circuit for generating the control signal according to a lowest voltage on the at least one voltage comparison path; and at least one under current detection circuit for detecting whether a corresponding one of the at least one light emission device path is in an under current status, whereby when anyone of the under current detection circuits detects the under current status, it sends an exclusion signal excluding a corresponding one of the at least one voltage comparison path from being an effective input of the voltage operative amplifier. | 12-29-2011 |
| 20120019146 | Detector circuit and method for controlling a fluorescent lamp - A detector circuit for controlling at least one fluorescent lamp is provided, wherein the detector circuit is configured such that an inactive fluorescent lamp can be detected if a first signal is present at least one of a first input and a second signal is present at a second input in a detection interval after a start-up phase. | 01-26-2012 |
| 20120025712 | BACKLIGHT MODULE OF LIQUID CRYSTAL DISPLAY DEVICE - The disclosure provides a backlight module applied to a liquid crystal display device. The backlight module includes: a control circuit for outputting a driving signal according to an analog adjustment signal or a digital adjustment signal; a driving circuit for outputting a lamp voltage according to the driving signal; a fluorescent lamp set, including a plurality of lamps, for receiving the lamp voltage and thereby generating a lamp current; a lamp feedback circuit c for outputting a feedback signal according to the lamp voltage; and a dynamic protection circuit, for dynamically adjusting a protection command signal according to the analog dimming signal or the digital dimming signal, comparing the protection command signal and the feedback signal and thereby outputting a comparing result signal to the control circuit. | 02-02-2012 |
| 20120032598 | PROJECTION-TYPE DISPLAY DEVICE AND METHOD OF CONTROLLING THEREOF - A projection-type display device according to an embodiment of the invention modulates light emitted from a solid-state light source array and projects the modulated light on a screen. The projection-type display device includes a power source device that generates power used for driving the solid-state light source array using power supplied from a power source, an instant interruption detecting circuit that detects an instant interruption of the power source, and a control device that, in a case where the instant interruption of the power source is detected by the instant interruption detecting circuit, performs control of extinguishing the solid-state light source array during at least a part of an instant interruption period until recovery after the detection of the instant interruption of the power source. | 02-09-2012 |
| 20120043892 | LED TUBE SYSTEM - The invention relates to an LED tube system for driving at least one LED assembly comprising: an LED tube housing for containing the at least one LED assembly, two pairs of mains input terminals (A, B) provided at ends of the LED tube housing for receiving a mains supply voltage (V | 02-23-2012 |
| 20120056544 | APPARATUS FOR DRIVING LIGHT EMITTING DEVICE - An apparatus for driving a light emitting device includes: a current control unit generating a current control signal according to a preset current setting value; a constant current circuit unit varying a current resistance value according to the current control signal of the current control unit, detecting a current flowing in a light emitting unit including a plurality of emitting devices by using the current resistance value, and controlling the current flowing in the light emitting unit based on the detected current; and a voltage control unit varying a voltage resistance value according to a preset voltage setting value, detecting a voltage supplied to the light emitting unit by using the voltage resistance value, and determining whether or not the voltage is in an over-voltage state, based on the detected voltage. | 03-08-2012 |
| 20120133284 | SYSTEM FOR REPROGRAMMING POWER PARAMETERS FOR LIGHT EMITTING DIODES - According to an embodiment of the present disclosure, a plurality of light-emitting diode (LED) modules in series are monitored. When an LED module is detected as failing or operating inadequately, a bypass switch removes the particular LED module from the series and the voltage provided to the series is modified. When the LED modules are detected as having too high of a temperature, the current provided to the LED modules is limited. | 05-31-2012 |
| 20120133285 | METHOD AND CIRCUIT FOR POWER FACTOR CORRECTION - A method and circuit for correcting a power factor in an alternating current/direct current power transformer. The circuit has an inductance fed by a rectified AC voltage, and a switch by which the inductance can be charged and discharged by closing and opening the switch, and further has a diode by which the discharge current of the inductance is fed to the output of the circuit. During the discharge phase, a voltage V | 05-31-2012 |
| 20120153831 | LIGHTING DEVICE, MANUFACTURING METHOD THEREOF, AND ELECTRONIC APPARATUS - A lighting unit includes, a plurality of light emitting elements which has a first substrate, a supporting electrode, light emitting functional layers, first electrodes, and a second electrode; a plurality of fuse units,; an insulating first partitioning wall which separates each of the light emitting functional layers from each other, and each of the first electrodes from each other; and an insulating second partitioning wall which separates each of fuse units from each other. One of the plurality of fuse units electrically connects one of the first electrodes and the supporting electrode. | 06-21-2012 |
| 20120153832 | LED LIGHTING DEVICE AND ILLUMINATION APPARATUS INCLUDING SAME - An LED lighting device includes a step-up chopper which includes a first switching element and increases an output voltage applied from a DC power supply, a step-down chopper which includes a second switching element and decreases the output voltage from the step-up chopper to apply the decreased output voltage to a light source unit having light emitting diodes, a controller which controls operations of the first and the second switching element, a current limiter which includes a current limiting element and a switch; and a voltage detection unit. The controller stops an operation of the first switching element when the voltage detection unit detects the voltage applied to the light source unit exceeding a predetermined voltage value, and the switch allows a current to flow through the path passing through the current limiting element when the operation of the first switching element is stopped. | 06-21-2012 |
| 20120161636 | OCCUPANCY SENSOR FOR TASK LIGHTING APPLICATION - A method for saving energy in locations using a plurality of luminaires situated in close proximity to each other, the method including providing each luminaire with a sensor for detecting presence of a person in proximity to the luminaire, a component for enabling passage of current through to the luminaire when the presence is detected and disabling the passage of the current through to the luminaire after a predetermined timeout, and a switch coupled between the component and the luminaire for enabling powering of the luminaire ON, wherein passage of power to each luminaire is enabled by the component when the presence is detected and the luminaire is powered ON by the switch. | 06-28-2012 |
| 20120181933 | OLED LIGHTING DEVICE WITH SHORT TOLERANT STRUCTURE - A first device that may include a short tolerant structure, and methods for fabricating embodiments of the first device, are provided. A first device may include a substrate and a plurality of OLED circuit elements disposed on the substrate. Each OLED circuit element may include a fuse that is adapted to open an electrical connection in response to an electrical short in the pixel. Each OLED circuit element may comprise a pixel that may include a first electrode, a second electrode, and an organic electroluminescent (EL) material disposed between the first and the second electrodes. Each of the OLED circuit elements may not be electrically connected in series with any other of the OLED circuit elements. | 07-19-2012 |
| 20120187846 | LIGHT-EMITTING DIODE AND METHOD FOR PRODUCING A LIGHT-EMITTING DIODE - A light-emitting diode includes at least one light-emitting diode chip, at least one control device, wherein each of the light-emitting diode chips is electrically connected to one of the at least one control devices, each of the at least one control devices including a data storage device in which brightness data for each light-emitting diode chip which is connected to the control device is stored, and the control device drives the connected light-emitting diode chip with a current which is selected according to stored brightness data for the light emitting-diode chip. | 07-26-2012 |
| 20120194077 | LIGHT-EMITTING-DIODE (LED) PROTECTION CIRCUIT - A light-emitting-diode (LED) protection circuit, comprising: a light-emitting-diode module; two fuse elements, connected respectively to said LED module; and a discharge protection element, connected to said LED module and said two fuse elements. When current flowing through said fuse element exceeds a current protection value, said fuse element will turn into an open circuit state, to cut off an over current and prevent it from flowing to said LED module to avoid damages. In addition, when instantaneous high voltage occurs, such as incurred by a spike or a lightning, said discharge protection element can be used as an over current discharge route, to provide said LED module with a current bypass route. | 08-02-2012 |
| 20120235570 | LED DRIVING CIRCUIT AND LED DRIVING CONTROLLER - The present invention discloses an LED driving circuit and controller, capable of maintaining an average value of a current flowing through an LED module at a predetermined current value. The LED driving circuit and controller compensates influences of any factors deviating the average value of the current flowing through the LED module by modulating a period of constant on time or constant off time, or by modulating the determining value(s) of current peak value and/or current valley value according to a difference between an actual average value and the preset current value. | 09-20-2012 |
| 20120242230 | BRIGHTNESS CONTROL FOR LED LIGHTING - A driving arrangement for light emitting diode (LED) based illumination constituted of: a comparison circuitry arranged to compare an integral of a target current over a target illumination time for at least one LED based luminaire with an integral of an illumination current over an illumination time for the at least one LED based luminaire, the comparison circuitry arranged to output a comparison signal; and a control circuitry in communication with the comparison circuitry and arranged to alternately: allow the flow of electrical current through the at least one LED based luminaire responsive to a first condition of the comparison signal; and prevent the flow of electrical current through the at least one LED based luminaire responsive to a second condition of the comparison signal, the second condition different from the first condition. | 09-27-2012 |
| 20120268011 | LED DRIVING CIRCUIT - An LED driving circuit includes a first and a second LED modules, a first and a second switching converters, an extreme voltage detecting and selecting circuit, a current balance circuit and a controller. The first switching converter transforms electric power of an input power supply into a first output voltage for lighting the first LED module. The second switching converter transforms electric power of the input power supply into a second output voltage for lighting the second LED module. The current balance circuit balances the currents flowing through the first and the second LED modules. The extreme voltage detecting and selecting circuit detects the first and the second LED modules and selects to output one of detecting results. The controller controls the transforming of the first switching converter and the second switching converter to light the first and the second LED modules in response to the outputted detecting result. | 10-25-2012 |
| 20120293072 | FREQUENCY-VARIABLE DIMMING CONTROL APPARATUS FOR LIGHT-EMITTING DIODES AND METHOD FOR OPERATING THE SAME - A frequency-variable dimming control apparatus for a plurality of light-emitting diodes (LEDs) and a method for operating the same are disclosed. The frequency-variable dimming control apparatus is provided for dimming the LEDs. The frequency-variable dimming control apparatus includes a DC/AC converter, a resonance circuit, a transformer, a current-sensing unit, and a control unit. The DC/AC converter receives and converts a DC input voltage into an AC voltage. The resonance circuit is electrically connected to the DC/AC converter to receive and converter the AC voltage into a resonance voltage. The transformer receives the resonance voltage and outputs an AC driven voltage. The current-sensing unit is electrically connected to a secondary-side winding of the transformer to output a current frequency signal. The control unit is electrically connected to the current-sensing unit and the DC/AC converter to receive a dimming control signal for dimming the LEDs. | 11-22-2012 |
| 20120299483 | APPARATUS AND SYSTEM FOR PROVIDING POWER TO SOLID STATE LIGHTING - An apparatus and computer readable storage medium are disclosed for supplying power to a load such as a plurality of light emitting diodes. A representative apparatus comprises a primary module, a first secondary module couplable to a first load, and a second secondary module couplable to a second load. The primary module comprises a transformer having a transformer primary. The first secondary module comprises a first transformer secondary magnetically coupled to the transformer primary, and the second secondary module comprises a second transformer secondary magnetically coupled to the transformer primary, with the second secondary module couplable through the first or second load to the first secondary module. | 11-29-2012 |
| 20120306374 | DRIVING CIRCUIT FOR DUAL ORGANIC LIGHT EMITTING DIODES, AND DUAL-PIXEL CIRCUIT INCORPORATING THE SAME - A dual-pixel circuit includes first and second OLEDs, and a driving circuit that includes first and second driving transistors, a capacitor, and a switching module operable between first and second modes based on a data voltage, first and second scan voltages, and first and second bias signals. When the switching module is operated in the first mode, the first OLED is forward-biased to emit light, and the second OLED is reverse-biased. When the switching module is operated in the second mode, the first OLED is reverse-biased, and the second OLED is forward-biased to emit light. | 12-06-2012 |
| 20120313528 | MULTIPLE CHANNEL LIGHT SOURCE POWER SUPPLY WITH OUTPUT PROTECTION - Multiple output channel light source power supply circuits, and methods for protecting the output channels, are provided. A front end circuit receivess an input voltage and provides a regulated front end DC voltage. A plurality of voltage converter circuits are each configured to receive the regulated front end DC voltage and provide a separate associated DC output for an associated one of the multiple output channels. A protection switch is coupled therebetween, and includes a conducting state, to couple the front end DC voltage to the plurality of voltage converter circuits, and a non-conducting state, to decouple the front end DC voltage. A current sense circuit is coupled to the voltage converter circuits, and provides a current sense output representative of current through at least one voltage converter circuit. A controller circuit places the protection switch in the non-conducting state in response to the current sense output. | 12-13-2012 |
| 20120313529 | MULTIPLE CHANNEL LIGHT SOURCE POWER SUPPLY WITH OUTPUT PROTECTION - Multiple output channel light source power supply circuits, and methods for protecting, are provided. A front end circuit receives an input voltage and provides a regulated front end DC voltage (FEDC). Voltage converter circuits (VCCs) receive the FEDC and provide a separate associated DC output for each associated output channel. A protection switch is coupled between. In its conducting state, the FEDC is coupled to the VCCs. In its non-conducting state, the FEDC is decoupled. A current sense circuit of a current sensor in parallel with a bypass switch is coupled to the VCCs to provide a current sense output representing current through at least one VCC. A controller circuit places the protection switch in the non-conducting state in response to the current sense output. The bypass switch may be placed in a conducting state to shunt current around the current sensor during normal operation to reduce or eliminate inefficiency. | 12-13-2012 |
| 20120319586 | LED LAMP WITH INTEGRATED LIGHT DETECTOR - Operation of an LED as a light source may be temporarily interrupted to facilitate measurement of the ambient light level, as well as control of the operation of the LED(s) based thereon. | 12-20-2012 |
| 20130002139 | SEMICONDUCTOR LIGHT EMITTING DEVICE PACKAGE - There is provided a semiconductor light emitting device package including: a semiconductor substrate having a first principal surface and a second principal surface opposed thereto; a light source disposed on a first principal surface side of the semiconductor substrate; a plurality of electrode pads disposed on a second principal side of the semiconductor substrate; a conductive via extended from the plurality of electrode pads and penetrating the semiconductor substrate; and a driving circuit unit including a plurality of diodes obtained through a pn junction formed by a p-type region and an n-type region, and electrically connected to the conductive via and the light source. | 01-03-2013 |
| 20130020944 | LIGHT-EMITTING SYSTEM - A light-emitting system includes: a driver device operable to generate a driving signal that alternates between a first state, where voltage of the driving signal is higher than a predetermined threshold voltage, and a second state, where voltage of the driving signal is lower than the predetermined threshold voltage; and a light-emitting device connected electrically to the driver device for receiving the driving signal therefrom, and operable to enter a light-emitting state when the driving signal is in one of the first and second states, and to enter a non-light-emitting state when the driving signal is in the other of the first and second states. The light-emitting device includes at least one light-emitting diode. | 01-24-2013 |
| 20130057155 | Method for Supplying Power to Light Sources, Corresponding Power Supply Unit and Light Source - A method for supplying power to a plurality of light generators (CH | 03-07-2013 |
| 20130063033 | DRIVING MODES FOR LIGHT CIRCUITS - Driver circuits ( | 03-14-2013 |
| 20130069535 | SOLID-STATE LIGHTING APPARATUS AND METHODS USING ENERGY STORAGE - An apparatus includes a current control circuit configured to selectively provide current responsive to a varying voltage to at least one LED coupled in series with the first current control circuit and to at least one capacitor coupled to the at least one LED and the first current control circuit. The current control circuit may be configured to cause the at least one capacitor to be selectively charged from a current source and to be discharged via the at least one LED responsive to a varying input, such as a varying current from the current source or a varying voltage applied to the current source. For example, the current control circuit may be configured to limit current through the at least one LED to less than a current provided by the current source. | 03-21-2013 |
| 20130076245 | LED DRIVER CIRCUITS - A driver circuit for one or more LEDs includes a power circuit having an output terminal, a capacitor coupled to the output terminal and a switch, and a control circuit coupled to the power circuit for controlling the power circuit. The control circuit is configured to operate the switch for coupling a resistance in series with the capacitor in response to detecting an open circuit condition at the output terminal. Additionally, or alternatively, the driver circuit may include a switched mode power supply, and the control circuit may be configured to switch operation of the switched mode power supply from a current control mode to a voltage control mode, and reduce a current setting for the current control mode, in response to detecting an open circuit condition at the output terminal. | 03-28-2013 |
| 20130076246 | LIGHTING CIRCUIT FOR LIGHT EMITTING ELEMENT AND ILLUMINATION APPARATUS INCLUDING SAME - A light-emitting-element lighting circuit for dimming a light emitting element having a diode characteristic by a PWM dimming signal is provided. The lighting circuit includes a dimming signal conversion unit configured to generate the PWM dimming signal having a duty ratio corresponding to an emission level specified by an input dimming signal. The lighting circuit further includes a minimum current generating circuit configured to flow a minimum current during an OFF period of the PWM dimming signal generated by the dimming signal conversion unit such that a voltage greater than a threshold voltage designed to allow the light emitting element to emit a light is applied to the light emitting element, and the light emitting element emits a light of a brightness equal to or less than a lowest emission level specified by the dimming signal. | 03-28-2013 |
| 20130093326 | DEVICE AND METHOD FOR DETECTING A SHORT-CIRCUIT DURING A START-UP ROUTINE - A device and method for detecting a short circuit in an electrical component during a start-up routine. In an embodiment, a device may have a problematic display having a short circuit that may result in damage to other components of the device if the device were allowed to fully startup during a normal start-up routine. Thus, power supplied to the panel may be initiated in stages so as to monitor any current that may be flowing through the panel, which in turn, may be indicative of a short circuit in the panel. If enough “leakage” current is detected through the panel during this staged startup routine, then a short-circuit detection circuit may interrupt the startup routine and lock out the operation of the device until the detected short circuit in the panel can be addressed. | 04-18-2013 |
| 20130106289 | SAFETY HARNESS | 05-02-2013 |
| 20130106290 | ILLUMINATING APPARATUS CAPABLE OF MINIMIZING OCCURRENCE OF FLICKS AND METHOD USING THE SAME | 05-02-2013 |
| 20130113379 | STREET LAMP SYSTEM - A public lighting system includes at least one street lamp ( | 05-09-2013 |
| 20130113380 | LED DRIVING APPARATUS, LED DRIVING METHOD AND DISPLAY APPARATUS USING THE SAME - A display apparatus is provided. The display apparatus includes a display panel configured to display an image, an LED module configured to provide backlight to the display panel, an LED driving unit configured to apply a driving voltage to the LED module using an external power, an exterior unit configured to support the LED driving unit and the LED module and include a ground terminal provided separately from the external power, and an LED driving control unit which causes an operation of the LED driving unit to be stopped based on a current flowing in from the ground terminal. | 05-09-2013 |
| 20130127343 | POWER SUPPLY CIRCUIT FOR MULTI-PATH LIGHT-EMITTING DIODE (LED) LOADS - The present invention discloses a power supply circuit for multi-path light-emitting diode (LED) loads. The two ports of the second diode are connected in parallel with the first switch tube, and the two ports of the forth diode are connected in parallel with the second switch tube. The conduction mode of the second and forth diodes is controlled by controlling the switch status of the first and second switch tubes. When the system is on a normal state, the first and second switch tubes are both switched off. When the load output of any path needs to be turned off, the corresponding switch tube should be controlled to switch on, which makes the diode connected in parallel with the switch tube short-circuited. The present invention can avoid a strong impulse current produced in filtering capacitor when the load of any path is directly short-circuited. Therefore, the present invention can reduce the current stress in circuits, improve the reliability of circuits, and reduce the cost. | 05-23-2013 |
| 20130140991 | DIRECTION INDICATION LAMP CONTROL DEVICE, DIRECTION INDICATION DEVICE AND WIRE DISCONNECTION DETECTION METHOD OF THE DIRECTION INDICATION DEVICE - A direction indication lamp control device includes: a current control element including an end which outputs a drive current having a magnitude corresponding to amplitude of a pulse signal; a current clamp unit which limits the drive current to a current upper limit value; a voltage clamp unit which limits a reference voltage to a voltage upper limit value; and a wire disconnection detection unit which outputs a wire disconnection detection signal in a case where the drive current corresponding to the pulse wave of the pulse signal is equal to or less than a wire disconnection detection value, or in a case where the reference voltage is equal to the voltage upper limit value. The current upper limit value is smaller than the drive current flowing through a direction indication lamp when the reference voltage is the voltage upper limit value. | 06-06-2013 |
| 20130147355 | DETECTING CIRCUIT FOR OPEN OF LED ARRAY AND LED DRIVER APPARATUS USING THE SAME - A detecting circuit and method thereof are configured to detect whether an LED array is open is described. The detecting circuit includes a resistance unit, a first switching unit, and an output unit. The resistance unit is operatively connected in series to the LED array. The switching unit is configured to be turned on when a voltage of the resistance unit is greater than or equal to a predetermined voltage level. The output unit is configured to produce an output indicative of whether the LED array is open, based whether the first switching unit is turned on. | 06-13-2013 |
| 20130147356 | LIGHTING APPARATUS - The lighting apparatus in accordance with the present invention includes a dimming control unit configured to control, in accordance with a dimming ratio, a light source including a plurality of light emitting elements designed to emit light in response to DC power. The dimming control unit is configured to, when the dimming ratio falls within a first dimming range, vary supply power to the light source in accordance with the dimming ratio. The dimming control unit is configured to, when the dimming ratio falls within a second dimming range different from the first dimming range, vary, in accordance with the dimming ratio, a lighting number defined as the number of the light emitting elements to be lit. | 06-13-2013 |
| 20130147357 | SYSTEMS AND METHODS FOR CONTROLLING BRIGHTNESS OF COLD-CATHODE FLUORESCENT LAMPS WITH WIDE DIMMING RANGE AND ADJUSTABLE MINIMUM BRIGHTNESS - System and method for adjusting brightness of one or more cold-cathode fluorescent lamps. The system includes a voltage selector configured to receive a dimming voltage and a first threshold voltage and generate an output voltage. The output voltage is selected from a group consisting of the dimming voltage and the first threshold voltage. Additionally, the system includes an oscillator coupled to a first capacitor and configured to generate a ramp signal with the first capacitor, and a signal generator configured to receive the ramp signal and the output voltage and generate a first signal. The first signal corresponds to a lamp brightness level. Moreover, the system includes a brightness detector configured to receive the first signal and output a second signal. The second signal indicates whether the lamp brightness level is higher than a threshold brightness level. | 06-13-2013 |
| 20130154482 | OPEN-CIRCUIT PROTECTION CIRCUIT OF CONSTANT CURRENT DRIVING CIRCUIT FOR LIGHT EMITTING DIODES - A open-circuit protection circuit of a constant current driving circuit for light emitting diodes is disclosed, which includes that: a transformer (Ta | 06-20-2013 |
| 20130169158 | LIGHT EMITTING UNIT DRIVING CIRCUIT AND LIGHT EMITTING DEVICE - A light emitting unit driving circuit may include: an operating voltage supplying unit configured to supply a voltage input for the driving circuit; a driving unit coupled to the operating voltage supplying unit and configured to drive the light emitting unit to make the light emitting unit turn on or turn off; and a feedback control unit coupled between the driving unit and the light emitting unit, and configured to form a feedback loop together with the driving circuit and the light emitting unit to stabilize an operating current of the light emitting unit. | 07-04-2013 |
| 20130187549 | LED AC DRIVING CIRCUIT CAPABLE OF ADJUSTING OPERATING VOLTAGE - An LED AC driving circuit capable of adjusting operating voltage has a rectifying unit, an LED unit, a voltage-controlled transistor, a current detecting unit and a current regulating unit to form a power loop. Further, a resistance adjusting unit is connected to the voltage-controlled transistor in parallel. The current regulating unit detects the operating power of the voltage-controlled transistor. When the detected operating power is zero, the resistance of the resistance adjusting unit is increased for increasing the current flowing through the voltage-controlled transistor. When the detected operating power becomes larger than a maximum rated power, the resistance of the resistance adjusting unit is decreased to reduce the current. Thus, the operating power is maintained between zero and the maximum rated power. | 07-25-2013 |
| 20130193851 | Integrated Circuit Element and Electronic Circuit for Light Emitting Diode Applications - A system, method and circuit for providing constant current to an LED array are described herein. These include a resistor coupled to the LED array and a thermistor coupled to the LED array and the resistor. The resistor and the thermistor limit the current at a given temperature and compensate for the forward voltage shift of the LED array as a function of temperature. The system, method and integrated circuit may also include a fuse coupled to the thermistor. The fuse allows the system to continue to operate if a single LED within the LED array fails to short-circuit. | 08-01-2013 |
| 20130200799 | High-Voltage AC LED Driver Circuit - A high-voltage AC LED driver circuit has a rectifier unit, an LED unit, a voltage-controlled transistor, a current detection unit, a control unit and a shunt unit. The shunt unit has a current limiting transistor for limiting a current flowing through the shunt unit to be lower than the working current. The current flowing through the voltage-controlled transistor will be higher than 0 (A) although an AC voltage is boosted. In addition, the voltage-controlled transistor can extend its working voltage and is prevented from being over heated. | 08-08-2013 |
| 20130200800 | CIRCUIT ARRANGEMENT AND METHOD FOR OPERATING LIGHT-EMITTING DIODES - A circuit arrangement ( | 08-08-2013 |
| 20130207548 | LIGHT EMITTING DIODE AND INTEGRATED PACKAGE THEREFOR - An improved LED provides power efficient lighting while accepting a wide range of input voltages. The improved LED may comprise a controller that may measure a voltage, current, or other characteristics of input power and modify operation of the improved LED accordingly, such as to accept significantly more voltage or significantly less voltage while providing consistent light output. This allows light bulbs or other lighting to be easily manufactured with the improved LED. The improved LED may comprise the controller and one or more LED dies enclosed by a substrate and lens structure. Depending on the configuration of the controller, the improved LED may also provide time, temperature, and other measurement/response functions to help ensure consistent light output. | 08-15-2013 |
| 20130271006 | LED Driving Circuit - An LED driving circuit comprises a converting circuit, a current regulator, a converting controller and a low dimming protection blocking circuit, is disclosed. The converting circuit is adapted to perform a power conversion to provide a driving voltage for lighting an LED module. The current regulator is coupled to the LED module for regulating a current flowing through the LED module. The current regulator conducts and stops conducting the current flowing through the LED module according to a dimming signal, and executes a protection process when the LED module operates abnormal. The converting controller controls the power conversion of the converting circuit according to a voltage level of at least one connection node of the current regulator and the LED module. The low dimming protection blocking circuit stops the protection process of the current regulator when the driving voltage is lower than a predetermined value. | 10-17-2013 |
| 20130271007 | DRIVING DEVICE FOR LIGHTING FIXTURE - Disclosed is a driving device for driving a plurality of lighting fixtures, including a power converter for converting an input voltage into a DC output voltage; a plurality of lighting fixture bases connected in series with each other and each connected to a corresponding lighting fixture for outputting an operating voltage and an operating current to the lighting fixture. The operating voltage is derived by dividing the DC output voltage, and each operating current is identical with each other. The driving device further includes a plurality of output protection circuits respectively connected in parallel with a lighting fixture base for selectively bypass the lighting fixture base to stop the lighting fixture base from outputting current, and a control circuit connected to the output protection circuits for manipulating the output protection circuit to bypass the lighting fixture bases, thereby regulating the number of the lighting fixtures that illuminate. | 10-17-2013 |
| 20130278144 | OLED Panel With Fuses - Embodiments may provide a first device that may comprise a substrate, a plurality of conductive bus lines disposed over the substrate, and a plurality of OLED circuit elements disposed on the substrate, where each of the OLED circuit elements comprises one and only one pixel electrically connected in series with a fuse. Each pixel may further comprise a first electrode, a second electrode, and an organic electroluminescent (EL) material disposed between the first and the second electrodes. The fuse of each of the plurality of OLED circuit elements may electrically connect each of the OLED circuit elements to at least one of the plurality of bus lines. Each of the plurality of bus lines may be electrically connected to a plurality of OLED circuit elements that are commonly addressable and at least two of the bus lines may be separately addressable. | 10-24-2013 |
| 20130300292 | LIGHTING SYSTEM HAVING A DIMMING COLOR SIMULATING AN INCANDESCENT LIGHT - A lighting system has a lighting fixture with a white light source and a color light source, a control circuit pulses the white and color light sources and changes relative duty cycles of the light sources to alter a color output of the lighting fixture, in response to a change in a control signal from a controller. A comparator compares a reference voltage relating to an aggregate current driving the light sources to a signal voltage relating to the periodic signal from a signal generator. The comparator controls a switch that controls one of the light sources. A duty cycle of the color light source can be vary inversely to a duty cycle of the white light source. | 11-14-2013 |
| 20130334967 | LAMP DRIVER HAVING A SHUTDOWN INTERFACE CIRCUIT - A lamp driver responsive to a control signal that is variable in a predetermined control range includes a circuit operable in response to a value of the control signal within the predetermined control range to develop a first current and a lamp control voltage dependent upon the value of the control signal. A shutdown interface is operable in response to a value of the control signal outside of the predetermined control range to develop a second current to turn off a lamp. | 12-19-2013 |
| 20130342108 | Backlight Driving Circuit, LCD module, and Manufacturing Method Thereof - The invention provides a backlight driving circuit, an LCD device, and a manufacturing method thereof. The backlight driving circuit includes at least two LED lightbars arranged in parallel connection, the output end of each of the LED lightbars is coupled with a variable current circuit, and the variable current circuit is provided with adjustable variable resistors used for balancing the voltage difference between the LED lightbars. In the invention, because the adjustable variable resistors are arranged in the variable current circuit which is connected in series with the LED lightbars, the resistance of the adjustable variable resistors can be adjusted according to the resistance of different LED lightbars before being used; thus, the total voltage of each LED lightbar and the variable resistor connected with ed LED lightbars in series can keep consistent. Therefore, the voltages of all the pins of the control IC coupled into the driver converter can be consistent, and no additional current can be generated in the control IC because no voltage differences exist between pins basically; thus, the power consumption of the control IC is reduced, and the heat productivity of the control IC is reduced, thereby reducing the temperature of the control IC. | 12-26-2013 |
| 20140028192 | Field Emission Devices and Methods of Making Thereof - In one embodiment of the present invention, an electronic device includes a first emitter/collector region and a second emitter/collector region disposed in a substrate. The first emitter/collector region has a first edge/tip, and the second emitter/collector region has a second edge/tip. A gap separates the first edge/tip from the second edge/tip. The first emitter/collector region, the second emitter/collector region, and the gap form a field emission device. | 01-30-2014 |
| 20140070704 | ELECTRONIC BALLAST FOR OPERATING AT LEAST ONE FIRST CASCADE OF LEDS AND ONE SECOND CASCADE OF LEDS - An electronic ballast may include: a rectifier; a first unit including a first cascade of LEDs and a first storage capacitor connected in parallel with the first cascade; a second unit including at least a second cascade of LEDs and a second storage capacitor connected in parallel with the second cascade; wherein the second unit includes a diode coupled in series with the parallel circuit including the second cascade; wherein the electronic ballast includes: a current controller with an actual value input and a setpoint value input, a setpoint value presetting apparatus for the current through the cascades, wherein the setpoint value presetting apparatus is designed to provide a setpoint value at the setpoint value input which is proportional to the voltage at the output of the rectifier; a first actuating element; wherein the controller includes a drive output coupled to the first actuating element and a second actuating element. | 03-13-2014 |
| 20140070705 | LED DRIVING APPARATUS AND OPERATING METHOD THEREOF - A LED driving apparatus and an operating method thereof are disclosed. The LED driving apparatus includes an output stage, a reference voltage regulator, a first input resistor, a second input resistor, and a controller. The output stage includes at least one LED. The reference voltage regulator is coupled to an input voltage and used to receive the input voltage and output a reference voltage signal. One end of the first input resistor is coupled to a node. One end of the second input resistor is coupled to the node, and the other end of the second input resistor is coupled to ground. The controller receives the reference voltage signal from the reference voltage regulator and receives a divided voltage signal from the node respectively, and outputs a setting voltage signal to the output stage. | 03-13-2014 |
| 20140077704 | FAULT CONDITION OF DETECTION CIRCUIT - A ballast comprises an inverter having a transformer comprising a core, a primary winding, and a secondary winding for connecting to a lamp and providing voltage thereto. The ballast includes a fault condition detection circuit connected to the inverter for disabling the inverter to discontinue energization of the lamp when a fault condition occurs. The fault condition detection circuit comprises an other primary winding wound on the core of the transformer for receiving a voltage signal proportional to a voltage across the secondary winding, a voltage blocking circuit connected to the other primary winding for receiving the voltage signal from the other primary winding, and a capacitor connected between the voltage blocking circuit and ground potential. The voltage blocking circuit is configured to selectively conduct and block the received voltage signal as a function of the frequency of the received voltage signal. | 03-20-2014 |
| 20140111089 | LATCHING CIRCUIT FOR BALLAST - A ballast including a latching circuit is provided. The ballast includes an inverter circuit for providing an oscillating voltage signal to energize a lamp set, a control circuit for controlling operation of the inverter circuit, and a voltage supply circuit for providing a supply voltage to the control circuit. The ballast also includes a fault detection circuit for detecting a fault condition and a latching circuit connected to the fault detection circuit. The latching circuit is configured to drain the supply voltage and thereby disable the control circuit so that operation of the inverter circuit is discontinued during a fault condition. | 04-24-2014 |
| 20140132156 | LED DEVICE WITH VOLTAGE-LIMITING UNIT AND SHUNT CURRENT-LIMITING RESISTANCE - A LED device with a voltage-limiting unit and a shunt current-limiting resistance where the voltage-limiting unit is connected in series with the current-limiting resistance then connected in parallel with two ends of a LED, so as to constitute the light-emitting unit, thereby when plural of the light-emitting units are connected in series (including connected in series and parallel), the current of LED loaded with higher end voltage passing through the voltage-limiting unit is prevented to be high when subject to abnormal high voltage. | 05-15-2014 |
| 20140139109 | AC/DC CONVERSION BYPASS POWER DELIVERY - An LED lamp control circuit directly drives an array of series or parallel connected LEDs with current directly derived from the rectified AC voltage. Electrolytic capacitors are eliminated, and the circuit is independent of forward bias voltage of the LEDs, which vary by lot and manufacturer. For example, in an embodiment, an light-emitting diode (LED) lamp control circuit includes a transistor, an LED load comprising one or more LEDs, a power storage device configured to provide power to the LED load, and a controller circuit configured to control the transistor to charge and discharge the power storage device based on sensed voltages of a first node and a second node and a current passing through the power storage device. The power storage device and the LED load are arranged in parallel between the first node and the second node. A voltage source is coupled to the first node and a first terminal of the transistor is coupled to the second node. A second terminal of the transistor is coupled to ground. | 05-22-2014 |
| 20140184076 | LOW INTENSITY DIMMING CIRCUIT FOR AN LED LAMP AND METHOD OF CONTROLLING AN LED - A driver is connectable to an external power supply and configured to output a variable driving current for one or more loads, such as LEDs. A low intensity dimming module is operable to divert some or all of the driving current away from the LEDs when a user selects a very low level of light intensity so that the driver has a constant minimum load. The low intensity dimming module prevents performance issues that commonly affect drivers under light load conditions. | 07-03-2014 |
| 20140217898 | ELECTRICAL WIRING DEVICE - The present invention is directed to an electrical wiring device that includes at least one circuit configured to provide an output signal in response to at least one external input signal. The device further comprises a light emission and detection assembly that includes: a lamp sub-assembly coupled to the at least one circuit, the lamp subassembly including at least one light emitting element configured to emit light in response to the output signal; and an ambient light sensor sub-assembly coupled to the at least one circuit and including an ambient light sensor and a sensor housing assembly, the ambient light sensor being configured to generate the at least one external input signal in response to sensing an ambient light level in the space, the sensor housing assembly being configured to substantially isolate the ambient light sensor from the light emitted by the lamp sub-assembly. | 08-07-2014 |
| 20140252956 | CIRCUIT ARRANGEMENT AND METHOD FOR OPERATING AT LEAST ONE LUMINOUS MEANS - A circuit arrangement may include: an inverter comprising first electronic and second electronic switches coupled in series between a first and second input connections to form a bridge center point; a drive apparatus for the first electronic switch and the second electronic switch; a current-measuring apparatus which is designed and arranged to measure the current through the inverter; a short-circuiting apparatus which is designed to short-circuit the output when the output voltage exceeds a first predefinable threshold value; and an evaluation apparatus which is coupled to the current-measuring apparatus and is designed to determine the mean value of the current through the inverter and, when the mean value undershoots a second predefinable threshold value, to drive the drive apparatus in such a manner that the latter influences the operation of the inverter, by driving the electronic switches in such a manner that the current in the short-circuiting apparatus is reduced. | 09-11-2014 |
| 20140265859 | Half- Or Quarter-Cycle Current Regulator For Non-Isolated, Line Voltage L.E.D. Ballast Circuits - A current regulator for non-isolated, line voltage LED Driver circuits solves the problem of LED flicker caused by line noise in the visible frequency range. In one aspect of the invention, LED flicker frequency may be increased beyond the line frequency. In another aspect, line voltages in excess of LED voltage ratings may be tolerated. The driver may be implemented using discrete circuit elements or in software and utilizes separate current regulation for different segments of an AC line voltage cycle. | 09-18-2014 |
| 20140265860 | Apparatus and System for Providing Power to Solid State Lighting - An apparatus and computer readable storage medium are disclosed for supplying power to a load such as a plurality of light emitting diodes. A representative apparatus comprises a primary module, a first secondary module couplable to a first load, and a second secondary module couplable to a second load. The primary module comprises a transformer having a transformer primary. The first secondary module comprises a first transformer secondary magnetically coupled to the transformer primary, and the second secondary module comprises a second transformer secondary magnetically coupled to the transformer primary, with the second secondary module couplable through the first or second load to the first secondary module. | 09-18-2014 |
| 20140312774 | LIGHT-EMITTING DIODE AND METHOD OF PRODUCING A LIGHT-EMITTING DIODE - A light-emitting diode includes at least one light-emitting diode chip, a carrier for the at least one light-emitting diode chip, and at least one control device integrated into the carrier, wherein each of the light-emitting diode chips is electrically connected to one of the at least one control devices, each of the at least one control devices includes a data storage device in which brightness data for each light-emitting diode chip which is connected to the control device is stored, and the control device drives the connected light-emitting diode chip with a current which is selected according to stored brightness data for the light-emitting diode chip. | 10-23-2014 |
| 20140346953 | DRIVING CIRCUIT OF LIGHT-EMITTING DIODE AND DRIVING METHOD THEREOF - The present invention relates to a driving circuit of LED and a driving method thereof, which comprise a converting circuit and a driving unit. The converting circuit receives a pulse-width modulation (PWM) signal and generates an adjusting current according to the PWM signal. The driving unit receives the adjusting current and generates at least a driving current according to the adjusting current for driving a plurality of LEDs coupled to the driving unit. The magnitude of the driving current is adjusted according to the adjusting current. In addition, the driving unit has a bright-controlling pin used for receiving a control signal having a fixed level. | 11-27-2014 |
| 20140346954 | WHITE LED LIGHT EMITTING DEVICE DRIVEN DIRECTLY BY CONSTANT ALTERNATING CURRENT - The present invention discloses a white LED light emitting device driven directly by constant current in manner of being supplied with alternating current. N parallel branches, consisting of LED modules and constant current units which are in series connection with the LED modules, are connected to an output terminal of a rectification circuit, and by setting the current value, the turning-off voltage, and the turning-on voltage of the constant current unit of each branch, the periodic flickers generated due to changes in the voltage of the alternating current can be avoided. Because the current of each branch is constant, the changes in junction temperatures do not result in the current changing in LED, and the reliability is improved. Along with the increase of the number of the branches, the driving current waveform approximates a sine wave, and the power factor and the efficiency of the light emitting device are improved. | 11-27-2014 |
| 20150091443 | LOAD DRIVING APPARATUS WITH CURRENT BALANCE FUNCTION - A load driving apparatus including a power conversion circuit, a current balance circuit, a protection unit and a control chip is provided. The power conversion circuit is configured to receive a DC input voltage, and provide a DC output voltage to a plurality of light emitting units in response to a control signal. The current balance circuit has a plurality of switch elements corresponding to the light emitting units, and is configured to balance currents flowing through the light emitting units. The protection unit detects statuses of the switch elements and/or the DC output voltage. The control chip generates the control signal to control operations of the power conversion circuit; and stops generating the control signal and enters into a shutdown status when any one of the switch elements is open-circuit and/or the DC output voltage is over-voltage, thereby protecting the load driving apparatus and/or the switch elements from damaging. | 04-02-2015 |
| 20150102726 | LIGHT SOURCE CONTROL DEVICE AND LIGHT SOURCE CONTROL METHOD - A microcomputer of a light source control device specifies an LED belonging to LEDs and subjected to a short-circuit failure based on a result of determination by a short-circuit failure detecting circuit and current amounts sensed by current sensing circuits respectively. The microcomputer makes corresponding one of switching elements interrupt supply of a current to the specified LED. The microcomputer makes a constant current circuit supply an LED not specified with a current not exceeding a current responsive to the number of such LEDs not specified. | 04-16-2015 |
| 20150145416 | ELECTRICAL WIRING DEVICE - The present invention is directed to an electrical wiring assembly that includes a wall plate cover, a housing portion and an electro-optical assembly coupled to a plurality of wiring terminations. The assembly includes a circuit configured to provide an output signal in response to an external input signal. The assembly also includes a plurality of lighting elements coupled to the circuit and configured to emit the plurality of light beams in response to the output signal. The electro-optical assembly further includes an ambient light sensor accessible to the ambient space via at least one of the plurality of openings. The ambient light sensor is configured to generate the at least one external input signal in response to an ambient light level in the ambient space, the ambient light sensor being substantially isolated from the plurality of light beams. | 05-28-2015 |
| 20150312996 | SAFETY DEVICE FOR A STREET LAMP SYSTEM - A safety device for use in a street lamp, includes a first connection to a power grid ( | 10-29-2015 |
| 20150319815 | ESD PROTECTION FOR DYNAMIC LIGHTING - A lighting assembly including a circuit is disclosed. The circuit is configured to be disposed in a panel defining a cavity forming an opening. The circuit includes a light source in communication with a controller and an exposed conductive portion conductively connected to an isolation terminal. The exposed conductive portion is oriented proximate the opening and provides a path for an electrical discharge to protect the light source from the electrical discharge. | 11-05-2015 |
| 20150366015 | CIRCUIT ARRANGEMENT AND METHOD FOR OPERATING AND DIMMING AT LEAST ONE LED - Various embodiments may relate to a circuit arrangement and a method for operating and dimming at least one LED. In this case, the LEDs are supplied from a bridge arrangement, wherein, in order to dim the at least one LED, the frequency of the control signals is increased with increasing dimming until a predefinable dimming threshold value. In order to adjust dimming values which are below the predefinable dimming threshold value, the output signal of the bridge arrangement is short-circuited by means of a short-circuit device during predefinable periods. | 12-17-2015 |
| 20150373798 | BACKLIGHT UNIT - A backlight unit includes: a light source configured to emit light based on a driving current; a sensing resistor configured to generate a sensing voltage based on the driving current; a first comparator configured to compare the sensing voltage to a first reference voltage divided from a reference power to thereby produce a first comparison signal; a first switching element controlled by the first comparison signal applied from the first comparator to thereby switch the sensing voltage; a second comparator configured to compare the sensing voltage applied via the first switching element to a first ramp signal to thereby produce a second comparison signal; a current control switching element configured to control an amount of the driving current based on the reference power and a current control signal applied from a current controller; an abnormality detector configured to convert the second comparison signal applied from the second comparator into a DC voltage and to compare the DC voltage to a critical voltage to thereby generate a third comparison signal; and a cut-off controller configured to compare the third comparison signal applied from the abnormality detector to a cut-off voltage to control the reference power based on the comparison result. | 12-24-2015 |
| 20150373801 | LIGHTING DEVICE, LIGHTING ARRANGEMENT COMPRISING LIGHTING DEVICE AND METHOD FOR OPERATING A LIGHTING DEVICE - A lighting device comprising a plurality of components ( | 12-24-2015 |
| 20150382430 | BACKLIGHT UNIT AND DISPLAY DEVICE HAVING THE SAME - A backlight unit includes a DC-DC converter that converts a first voltage to a second voltage in response to a driving pulse signal and a driving controller that outputs the driving pulse signal in response to an over-current control signal to control a reference voltage and a level of the second voltage. The driving controller controls the reference voltage in response to the over-current control signal such that the reference voltage increases prior to the second voltage by a predetermined time when the second voltage needs to be increased. In addition, the driving controller controls the reference voltage in response to the over-current control signal when the second voltage needs to be decreased such that the reference voltage decreases later than the second voltage by the predetermined time. | 12-31-2015 |
| 20160007415 | DETECTION OF A HAZARD CONDITION OF A LOAD - An electrical circuit is described for detection of an electrical hazard condition of a load | 01-07-2016 |
| 20160050732 | LIGHT EMITTING DIODE DRIVING CHIP HAVING EIGHT OR SIX PINS, DRVING SYSTEM USING THE LIGHT EMITTING DIODE DRIVING CHIP, AND RELATED METHOD THEREOF - A light emitting diode driving chip includes: a current regulating circuit arranged to selectively outputting four currents to four pins respectively; a current control circuit coupled to the current regulating circuit and a fifth pin, arranged to receive an adjusting signal at the fifth pin to control the four currents; a feedback voltage control circuit arranged to output a feedback voltage to a sixth pin according to a first specific voltage selected from four voltages corresponding to the four pins; and a protection circuit arranged to determine whether a voltage difference between a second specific voltage selected from the four voltages and the first specific voltage is larger than a threshold value. If the first specific voltage is larger than the threshold value, the protection circuit controls the current regulating circuit to stop conducting current to a specific pin corresponding to the first specific voltage. | 02-18-2016 |
| 20160095194 | LIGHT SOURCE CONTROL APPARATUS AND LIGHT SOURCE CONTROL METHOD - A controller determines whether parallel-connected light sources include a faulty light source. When a faulty light source is included, the controller controls at least one of a current supply unit and a switching unit such that a current is continuously supplied to normal light sources being light sources of the light sources except for the faulty light source. | 03-31-2016 |
| 20160120002 | LED LAMP COMPRISING A SAFETY MODULE FOR SAFE OPERATION ON VARIOUS BALLASTS - The current invention relates to a LED lamp ( | 04-28-2016 |
| 20160143096 | CIRCUITS FOR DRIVING LIGHT SOURCES - A light source driving circuit for powering a first light source and a second light source by a DC voltage includes a first control circuitry and a second control circuitry. If the DC voltage is within a first range, then the first control circuitry controls a first switch and the second control circuitry controls a second switch to turn on the first light source and to regulate a current flowing through the first light source. If the DC voltage is within a second range, then the first control circuitry controls a third switch and the second control circuitry controls a fourth switch to turn on the first light source and the second light source and to regulate a current flowing through the first light source and the second light source. | 05-19-2016 |
| 20160143107 | LED LIGHTING APPARATUS AND CONTROL CIRCUIT THEREOF - Disclosed are an LED lighting apparatus and a control circuit thereof which controls illumination of a lamp including LEDs using a dimmer. The LED lighting apparatus includes a flicker control unit which provides a control signal corresponding to a rectified voltage having a low angle corresponding to a preset low angle region and equal to or less than a preset level or detects an initial abnormal waveform diagram of the rectified voltage and provides a control signal corresponding to the abnormal waveform period, and controls a current path for light emission of the lamp. | 05-19-2016 |
| 20160150606 | SURGE PROTECTION FOR LIGHT-EMITTING DIODES - Described herein is a surge protection device for protecting luminaires from high surge voltages. The surge protection device comprises shunt impedance elements positioned in connections between a driver and a light-emitting diode module to direct current generated by differential mode surges and/or common mode surges to ground so that light-emitting diode elements in the light-emitting diode module are not destroyed. Series impedance elements may also be provided between the driver and the shunt impedance elements. | 05-26-2016 |
| 20160157308 | LED DISPLAY SYSTEM | 06-02-2016 |
| 20160183348 | ELECTRONIC BALLAST HAVING A BI-FUNCTIONAL CONTROL INPUT AND A METHOD FOR OPERATING AT LEAST ONE LIGHTING MEANS | 06-23-2016 |
| 20170238376 | SEGMENTAL DRIVING OF LIGHT EMITTING CIRCUITS | 08-17-2017 |
