Entries |
Document | Title | Date |
20080252222 | SYSTEMS AND METHODS FOR DRIVING LIGHT-EMITTING DIODES - At least some embodiments include a LED driver system. The system includes multiple branches of series-coupled LEDs, multiple current sources, and control logic. Each of the current sources is coupled to a separate branch of series-coupled LEDs. The control logic is coupled to the current sources, and is configured to regulate current through each branch based at least in part on a feedback voltage measured at a node in one of the branches. | 10-16-2008 |
20090015167 | DECORATIVE LIGHT DISPLAY - A decorative light display includes a plurality of light source assemblies, each respective light source assembly of the plurality of light source assemblies having a known power requirement and at least one power supply operably coupled to each respective light source assembly of the plurality of light source assemblies for supplying power from an external power source to each respective light source assembly of the plurality of light source assemblies, the at least one power supply providing power to each respective light source assembly, which power satisfies the known power requirement thereof. A method of displaying decorative lighting is further included. | 01-15-2009 |
20090026968 | PLASMA SUPPLY DEVICE - A plasma supply device generates an output power greater than 500 W at an essentially constant basic frequency greater than 3 MHz and powers a plasma process to which is supplied the generated output power, and from which reflected power is returned to the plasma supply device. The plasma supply device includes at least one inverter connected to a DC power supply, which inverter has at least one switching element, and an output network. The output network is arranged on a printed circuit board. The output network can therefore be designed low priced and accurately. | 01-29-2009 |
20090189531 | Backlight Module - Backlight module is disclosed. The backlight module includes a first lamp, a first voltage source, a second lamp, a second voltage source, a first external electrode, and a second external electrode. Both the first and the second voltage sources have a first terminal and a second terminal. The first voltage source is used to output a first voltage signal and electrically couples to the first terminal of the first lamp. The second voltage source is used to output a second voltage signal and electrically couples to the first terminal of the second lamp. Both the first external electrode and the second external electrode have a first terminal and a second terminal. The first terminal of the first external electrode electrically couples to the second voltage source and the first terminal of the second external electrode electrically couples to the first voltage source, wherein the first voltage signal and the second voltage signal are inverted. | 07-30-2009 |
20100066257 | High efficiency power system for a LED display system - A LED display system includes multiple LEDs, a power converter to produce a supply voltage for the LEDs, and multiple drivers to drive the LEDs. According to the maximum one of the forward voltages of the LEDs, the drivers provides a feedback signal for the supply voltage control, and the feedback signal is amplified or digitized to reduce the voltage drop in the global power line. | 03-18-2010 |
20100072902 | LIGHT ELEMENT ARRAY WITH CONTROLLABLE CURRENT SOURCES AND METHOD OF OPERATION - A light element array ( | 03-25-2010 |
20100090606 | Light Emitting Diode Packages - Lighting packages are described for light emitting diode (LED) lighting solutions having a wide variety of applications which seek to balance criteria such as heat dissipation, brightness, and color uniformity. The present approach includes a backing of thermally conductive material and two or more arrays of LEDs attached to a printed circuit board (PCB). The PCB is attached to the top surface of the backing and the two or more arrays of LEDs are separated by a selected distance to balance heat dissipation and color uniformity of the LEDs. | 04-15-2010 |
20100102732 | DRIVING LIGHT EMITTING DIODES - The present invention relates to a driver for a string (STi) of series arranged light emitting diodes (D | 04-29-2010 |
20100194294 | DRIVING CIRCUIT FOR LIGHT EMITTING ELEMENT, AND ELECTRONIC DEVICE - Multiple LED terminals are provided to multiple LEDs, respectively. Each of these LED terminals is connected to the anode of the corresponding LED. A booster circuit boosts an input voltage. Multiple constant current sources are provided to the multiple LEDs, respectively. One terminal of each of the constant current sources is connected to the corresponding one of the LEDs via the corresponding one of the LED terminals. Multiple switches are provided to the multiple constant current sources, respectively, each of which selectively outputs a voltage selected from the input voltage and the output voltage of the booster circuit to the corresponding constant current source. A control circuit monitors each of the voltages at the multiple LED terminals, and controls the connection state of each of the switches based upon the corresponding voltage. | 08-05-2010 |
20100225237 | Circuit and Method for Matching Current Channels - The present invention discloses a current-matching method comprising steps of: providing a plurality of current channels; grouping the plurality of current channels into W sets, each of which has Q channels; and matching the channels of the same set in current, where both W and Q are integers greater than or equal to 2. | 09-09-2010 |
20100231132 | Sigma Delta Current Source and LED Driver - A circuit arrangement includes a first light emitting diode and a second light emitting diode emitting light of different colors arranged adjacent to each other for additive color mixing. A first and second controllable current sources are connected to the first and second light emitting diode, respectively, such that the load currents of the light emitting diodes depend on respective control signals received by the current sources. First and second sigma-delta modulators are connected to the first and second light emitting diodes, respectively, and provide bit-streams as control signals to the current sources. The mean value of each bit-stream corresponds to the value of an input signal of the respective sigma-delta modulator. | 09-16-2010 |
20110043117 | POWER SAVING LIGHT EMITTING DIODE DISPLAY BOARD SYSTEM - In a power saving LED (Light Emitting Diode) display board system, each pixel is formed by combining at least one red LED, at least one blue LED and at least one green LED. The power saving LED display board system includes a power converter; a red LED power supply; a green LED power supply; a blue LED power supply; and a DSP (Digital Signal Processor) for controlling the red LED power supply to convert an electric power supplied from the power converter into a red LED operation power, controlling the green LED power supply to convert the electric power supplied from the power converter into a green LED operation power and controlling the blue LED power supply to convert the electric power supplied from the power converter into a blue LED operation power. | 02-24-2011 |
20110127917 | Solid State Lighting Panels with Variable Voltage Boost Current Sources - A lighting panel system includes a lighting panel having a string of solid state lighting devices and a current supply circuit having a voltage input terminal, a control input terminal, and first and second output terminals coupled to the string of solid state lighting devices. The current supply circuit is configured to supply an on-state drive current to the string of solid state lighting devices in response to a control signal. The current supply circuit includes a charging inductor coupled to the voltage input terminal and an output capacitor coupled to the first output terminal. The current supply circuit is configured to operate in continuous conduction mode in which current continuously flows through the charging inductor while the on-state drive current is supplied to the string of solid state light emitting devices. | 06-02-2011 |
20110204797 | LED array control circuit with voltage adjustment function and driver circuit and method for the same - The present invention discloses an LED array control circuit with voltage adjustment function and a driver circuit and a method for the same. The LED array includes multiple LED strings each of which has multiple LED devices connected in series. The LED array control circuit includes: a power supply circuit for providing a supply voltage to the LED array; and an LED driver circuit for controlling current through each LED string, the LED driver circuit including: multiple current sources corresponding to the multiple LED strings respectively, each current source having a first end which is coupled to a corresponding LED string, and a second end; and a voltage adjustment circuit for adjusting a voltage of the second end of a corresponding current source according to a signal indicating a voltage drop across the corresponding LED string. | 08-25-2011 |
20110204798 | SYSTEMS AND METHODS FOR DRIVING LIGHT-EMITTING DIODES - At least some embodiments include a LED driver system. The system includes multiple branches of series-coupled LEDs, multiple current sources, and control logic. Each of the current sources is coupled to a separate branch of series-coupled LEDs. The control logic is coupled to the current sources, and is configured to regulate current through each branch based at least in part on a feedback voltage measured at a node in one of the branches. | 08-25-2011 |
20110254454 | LED DRIVING DEVICE, LIGHT SOURCE DEVICE, AND LIQUID CRYSTAL DISPLAYING DEVICE - A first power supply voltage Vin | 10-20-2011 |
20110316430 | MULTI-TRANSFORMER LLC RESONANT CONVERTER CIRCUITS AND METHODS - In a first aspect, an LLC resonant converter is provided for driving a plurality of output circuits from a DC input signal. The LLC resonant converter includes: (a) an inverter circuit for converting the DC input signal to a square-wave signal; (b) an inductor network coupled to the inverter circuit; and (c) a plurality of transformers, each transformer including a primary winding and a secondary winding. The primary windings of the transformers are coupled in series, and the series-coupled primary windings are coupled in parallel with the inductor network. The secondary winding of each transformer is coupled to and provides a current to a corresponding one of the output circuits. The secondary winding currents are substantially equal, and power is processed by a single transformer between the DC input signal and each output circuit. Numerous other aspects are also provided. | 12-29-2011 |
20120001555 | TUNABLE WHITE COLOR METHODS AND USES THEREOF - A lighting apparatus includes: first, second and third groups of solid state light emitters; a first group of lumiphors; at least first, second and third power lines, the first, second and third group of solid state light emitters each being electrically coupled to at least one of the first, second and third power lines. A current controller controls the relative flux ratios of the first, second and third groups, the controller being programmed to, in response to receipt of a command, retrieve a set of data from a look-up table that contains information of the required flux output of each group of LEDs and generate pulse width modulation (PWM) signals to control current supplied to each group to alter the flux output of each group in order to achieve a desired CCT and total flux output. | 01-05-2012 |
20120038283 | LIGHT EMITTING DIODE DRIVING SYSTEM AND CIRCUIT THEREOF - The present invention relates to a light emitting diode (LED) driving system and a circuit thereof. The LED driving circuit is configured to control a direct voltage converter configured to generate a regulated output voltage to an input terminal of an LED array. The LED array has a plurality of LED sets. The LED driving circuit includes a plurality of current sources, a comparison circuit and a current setup circuit. The plurality of current sources are connected to a plurality of output terminals of the LED array, and are configured to provide a current flowing through the plurality of LED sets. The comparison circuit is connected to a plurality of output terminals of the LED array, and is configured to generate an analog or digital feedback signal representing a status of the supply voltage for the LED array. The current setup circuit is configured to set up the initial current value of the current sources. The direct voltage converter regulates is the output voltage by taking into consideration the feedback signal. | 02-16-2012 |
20120098441 | LED Driving System and Driving Method Thereof - A light emitting diode (LED) driving system drives a plurality of LED strings. A plurality of current sources are respectively connected to the plurality of LED strings. A multi-phase control signal generator generates a plurality of multi-phase control signals that respectively maintain turn on or turn off states of the current sources so as to selectively conduct the corresponding LED strings. | 04-26-2012 |
20120112641 | LED NIGHT LIGHT/LED EMERGENCY LIGHT - An LED fixture is disclosed. The fixture includes an LED array having at least one LED, a first LED driver which is a lower intensity driver and a second LED driver which is a higher intensity driver. The LED drivers and the LED array are electrically connected in parallel to each other and the LED drivers are capable of simultaneously and continuously supplying power to each LED in the LED array. | 05-10-2012 |
20120112642 | ORGANIC ELECTROLUMINESCENT APPARATUS - In a display apparatus, at least three light emitting elements included in each pixel are classified into a light emitting element(s) of which anode(s) is the common electrode and a light emitting element(s) of which cathode(s) is the common electrode. The combination of classification of at least three light emitting elements is a combination that minimizes a difference between the total value of current flowing, during an emission in the maximum luminance, in the light emitting element(s) of which anode(s) is the common electrode and the total value of current flowing, during an emission in the maximum luminance, in the light emitting element(s) of which cathode(s) is the common electrode. | 05-10-2012 |
20120176045 | ORGANIC EL DISPLAY UNIT AND ELECTRONIC APPARATUS - An organic EL display unit applying a bottom-emission structure which takes light emitted from organic EL devices from the reverse side of a substrate on which pixel circuits are formed, includes: a color filter formed on the pixel circuit; and a metal wiring formed so as to surround the periphery of the color filter, wherein the metal wiring is set to an anode potential of the organic EL device. | 07-12-2012 |
20120200228 | LIGHT SOURCE APPARATUS AND DISPLAY APPARATUS - In order to provide an apparatus that is capable of being driven with low power consumption by optimizing efficiency of each light emitting element regardless of which luminance mode is selected, a light source apparatus in accordance with the present invention includes a plurality of LEDs ( | 08-09-2012 |
20120242233 | ILLUMINATION APPARATUS - Disclosed is an illumination apparatus, which is constituted by a plurality of OLED devices and makes it possible to improve an accuracy of a dimming control operation. The apparatus is provided with a driving electric power source including: a pulse generating section; an OLED driving section; a first voltage source; a second voltage source; a current source; a switchover section that conducts a switchover operation between the first voltage source and the current source during the time when the duty ratio of the driving pulses is increasing, and also conducts another switchover operation between the first voltage source and the current source during the time when the duty ratio of the driving pulses is decreasing; and an OLED illumination disabling section that makes the second voltage source supply the second electric power to the OLED unit, only during the time when each of the pulses is the OFF state. | 09-27-2012 |
20120274224 | VOLTAGE DETECTING DEVICE FOR LED DRIVER - A voltage detecting device applied to a driving device of a light-emitting diode device is provided. The detecting device includes a voltage inspecting device, an isolating/connecting control device and a comparing device. The voltage inspecting device is coupled to an output terminal of the driving device to inspect a status of an output voltage of the driving device and outputs an inspecting signal. The isolating/connecting control device, coupled between the voltage inspecting device and the driving device, isolates or connects the output terminal of the driving device according to the inspecting signal. The comparing device, composed of low voltage elements, is coupled to the isolating/connecting control device, and compares the output voltage of the driving device with a reference voltage and generates a detecting signal according to the comparing result. | 11-01-2012 |
20120306385 | LED CAUTION LIGHTING SYSTEM - A lighting indicator system having a controller with an analog output signal and an LED array receiving the analog output signal and lighting a plurality of LEDs in response. The LED array provides a second analog output that echoes the received analog output signal from the controller. | 12-06-2012 |
20130002149 | HIGH VOLTAGE DRIVER USING MEDIUM VOLTAGE DEVICES - A voltage drive circuit is constructed by stacking NMOS and PMOS transistors to provide high voltage levels with an output voltage swing greater than the breakdown voltage of the individual transistors used to build the voltage drive circuit. The voltage drive circuit may include a series stack of capacitors connected between gates of the stacked PMOS and NMOS transistors. The capacitive loading causes the gate signals to change more synchronously. Errors in timing for these gate signals, which would otherwise result in damage from exceeding the breakdown voltage across a pair of terminals of one of the NMOS and PMOS transistors, are mollified. | 01-03-2013 |
20130076250 | LED Driver With Compensation of Thermally Induced Color Drift - A circuit arrangement includes a number of light emitting diodes emitting light of different colors arranged adjacent to each other for additive color mixing to provide a desired color. A temperature sensing circuit is configured to provide a temperature signal representing temperature(s) of the light emitting diodes. Current sources are configured to provide the light emitting diodes with respective load currents in accordance with corresponding control signals received by the current sources. First and second modulator units are configured to generate the control signals which are modulated such that a time average value of each control signal corresponds to the value of a corresponding input signal of the respective sigma-delta modulator. A calibration circuit is configured to provide the input signals dependent on a color signal defining the desired color and dependent on the temperature signal. | 03-28-2013 |
20130093336 | LOW VOLTAGE SYSTEM AND METHOD - Low voltage systems and methods, as well as a light assembly and LED driver are provided. In one aspect, a low voltage system is provided that is capable of drawing power from a power source having a first voltage, the system having at least one low voltage power supply connectable to the power source and having an output providing a second voltage that is lower than the first voltage. The system further has at least one low voltage load and circuit means connecting the output of the power supply to the at least one low voltage load. The at least one load can be a light assembly, and the light assembly can comprise one or more light emitting diodes (LEDs). Also provided is an LED driver that provides for one or more improved dimming characteristics. A light assembly employing the LED driver is also provided. | 04-18-2013 |
20130106296 | DEVICE FOR DRIVING LIGHT EMITTING DIODE | 05-02-2013 |
20130113384 | LIGHTING SYSTEM HAVING INTERLACED DRIVING MECHANISM - A lighting system includes a first lighting unit for generating output light according to a first current, a second lighting unit for generating output light according to a second current, a third lighting unit for generating output light according to a third current, a fourth lighting unit for generating output light according to a fourth current, a first power driving unit electrically connected to the first and third lighting units, and a second power driving unit electrically connected to the second and fourth lighting units. The second lighting unit is disposed between the first and third lighting units. The third lighting unit is disposed between the second and fourth lighting units. The first power driving unit is employed to drive the first and third currents. The second power driving unit is employed to drive the second and fourth currents. | 05-09-2013 |
20130113385 | DRIVER CIRCUIT FOR LIGHT-EMITTING DIODES AND METHOD - Driving circuit comprises a first input, at which a first supply voltage is present, a second input, at which a second supply voltage is present, a first current supply unit selectively coupled to first or second input as function of at least one first control signal, at least one second current supply unit selectively coupled to first or second input as function of at least one second control signal, a control unit connected to first current supply unit and to at least one second current supply unit for respective control thereof and designed to provide at least one first and second control signal, and a first output coupled to first current supply unit to provide a first current for at least one first light-emitting diode, at least one second output coupled to at least one second current supply unit to provide second current for at least one second light-emitting diode. | 05-09-2013 |
20130187553 | OPTICAL PACING SYSTEM AND METHOD - A system and method for optically setting a pace for an athlete is presented. The method sequentially places a first group of lights and a second group along a path travelled by the athlete. The first group of lights are sequentially lit one after another one at a time with a first predetermined delay between the lighting of each of the lights. After all the first group of lights have been lit, the second group of lights are similarly sequentially lit in sequence with a second predetermined delay between each of the lights. The first and second predetermined delays can be the same if the athlete desires to run several consistent laps of the same speed. However, the athlete may desire to run one part of the laps fast and the another part slower by setting one predetermined delay longer than the other predetermined delay. | 07-25-2013 |
20130285562 | Color-Temperature-Tunable Device - A method of operating a color-temperature-tunable device is described. The method drives a first light emitting diode (LED) chip with a first driving current from a first power source. The first LED chip is configured to emit a first light having a first peak wavelength. The method also drives a second LED chip with a second driving current from a second power source. The second LED chip is configured to emit a second light having a second peak wavelength. The method further maintains a total driving current, which includes the first driving current and the second driving current, approximately constant. The second peak wavelength is different from the first peak wavelength. | 10-31-2013 |
20130313980 | EMBODIMENTS OF A FIELD EMISSION DEVICE - In one embodiment, the trajectory of one or more electrons is controlled in a field emission device. In another embodiment, the field emission device is configured analogously to a klystron. In another embodiment, the field emission device is configured with electrical circuitry selected to control the input and output of the device. | 11-28-2013 |
20130328489 | REMOTELY DISTRIBUTED POWER NETWORK FOR AN LED LIGHTING SYSTEM - The present disclosure is directed to a light emitting diode (LED) lighting system. In one embodiment, the LED lighting system includes an LED light source deployed in a first location and a power supply for powering the LED light source, wherein the power supply is remotely located from the LED light source in a second location and designed to power the LED light source to minimize a power loss along a length of an electrical connection coupled between the LED light source and the power supply. | 12-12-2013 |
20140001966 | DISPLAY PANEL FOR PREVENTING STATIC ELECTRICITY, METHOD FOR MANUFACTURING THE SAME, AND DISPLAY DEVICE INCLUDING THE DISPLAY PANEL FOR PREVENTING STATIC ELECTRICITY | 01-02-2014 |
20140015423 | LIGHTING DEVICE - A lighting device has one or more light sources; a primary input power connection; and electronic circuitry for controlling delivery of power from the primary input power connection to the one or more light sources. The electronic circuitry determines an indication of an external electrical loading on a primary power supply network coupled, in use, with the primary input power connection the circuitry varies the power drawn from the primary input power connection in dependence upon the determined indication of the external electrical loading on the primary power supply network. In this way, during times of high demand on the primary supply network, the lighting device can reduce the amount of power drawn from the primary supply. | 01-16-2014 |
20140021870 | ORGANIC LIGHT EMITTING DISPLAY AND METHOD OF DRIVING THE SAME - There is provided an organic light emitting display capable of displaying an image of uniform brightness. The organic light emitting display includes a panel including pixels, the pixels including driving transistors, the gate electrodes of the driving transistors being configured to be initialized by voltages supplied from an initializing power supply, and an initializing power supply generator for supplying the initializing power supply. The initializing power supply generator is configured to set a voltage value of the initializing power supply to vary to correspond to a position of the panel. | 01-23-2014 |
20140035469 | LIGHT EMITTING DEVICE - A light emitting device is electrically connected to a three-phase AC power source and comprises three light emitting modules. The light emitting modules respectively receives three phase power sources of the three-phase AC power source. Each of the light emitting modules includes a light emitting unit and a control circuit electrically connected to the light emitting unit. Each of the control circuits controls the light output power of the corresponding light emitting unit according to the voltage variation or phase variation of the received phase power source, and the three light emitting modules are collectively kept a stable gross light output power. | 02-06-2014 |
20140049168 | CONFORMAL POWER ADAPTER FOR LIGHTED ARTIFICIAL TREE - A dual-output power adapter for a lighted artificial tree having a plurality of tree portions with light strings having lighting elements. The dual-output power adapter includes a power cord including a first power conductor and a second power conductor, the power cord configured to transmit an input electrical power; a housing configured to receive the first power conductor and a second power conductor; power-converting circuitry in electrical connection with the first power conductor and the second power conductor, the power-converting circuitry configured to convert the input electrical power to a first output electrical power; a first pair of conductors for transmitting the first output electrical power; and a second pair of conductors for transmitting a second output electrical power. | 02-20-2014 |
20140091717 | APPARATUS FOR DRIVING LIGHT EMITTING DIODE - There is provided an apparatus for driving a light emitting diode (LED), capable of distributing current stress applied to the LED. The apparatus includes an LED part including a plurality of LED units respectively including at least one LED, the plurality of LED units being connected in parallel to a power input terminal to which rectified power in sine wave form is supplied, and, among the plurality of LED units connected in parallel, a termination end of the LED unit in a front end being connected to a middle of an adjacent LED unit; and a current source unit including a plurality of current sources respectively connected to termination ends of the plurality of LED units and allowing corresponding current to flow through the plurality of LED units. | 04-03-2014 |
20140111100 | CONTROL CIRCUIT FOR LIGHT-EMITTING DIODES - A circuit includes a number of LEDs connected in series, and first and second electronic switches. An anode of a first one of the LEDs is connected to a first power supply. A control terminal of the first electronic switch receives a control signal. A first terminal of the first electronic switch is connected to a second power supply. A second terminal of the first electronic switch is grounded through a first resistor. A control terminal of the second electronic switch is connected to the second terminal of the first electronic switch. A first terminal of the second electronic switch is connected to a cathode of a last one of the LEDs. A second terminal of the second electronic switch is grounded through a second resistor. | 04-24-2014 |
20140132161 | Method for Using Constant Current Driving Chip to Generate Different Currents to Drive Light Bar and Driving Circuit Thereof - The present invention provides a method for using a constant current driving chip to generate different currents to drive light bars and a driving circuit thereof. The method includes ( | 05-15-2014 |
20140132162 | DISPLAY DEVICE AND EMITTING DRIVER FOR THE SAME - A light emitting driving apparatus includes light emitting driving blocks respectively having a first node applied with a second light emitting power source voltage, a second node applied with the first light emitting power source voltage, the second node being coupled to a relay signal output terminal outputting a relay signal, a third node applied with the first light emitting power source voltage, and applied with a third light emitting power source voltage, the third node being coupled to a reverse light emitting signal output terminal outputting a reverse light emitting signal, a first transistor turned on by a voltage of the first node to transmit the second light emitting power source voltage to a light emitting signal output terminal, and a second transistor turned on by a voltage of the second node to transmit the first light emitting power source voltage to the light emitting signal output terminal. | 05-15-2014 |
20140167626 | ORGANIC LIGHT-EMITTING DIODE, ORGANIC LIGHT-EMITTING DISPLAY DEVICE INCLUDING THE SAME, AND METHOD OF CONTROLLING DUAL EMISSION OF ORGANIC LIGHT-EMITTING DIODE - An organic light-emitting diode, an organic light-emitting display device including the same, and a method of controlling dual emission of the organic light-emitting diode. The organic light-emitting diode includes: a first electrode and a second electrode facing each other; a common electrode interposed between the first electrode and the second electrode; a first organic layer interposed between the first electrode and the common electrode; and a second organic layer that is interposed between the second electrode and the common electrode and is reverse-symmetric to the first organic layer with respect to the common electrode. | 06-19-2014 |
20140167627 | Lighting Display - A display where lights may be programmed to randomly flash is described. The randomness may be changed by changing the mode of flashing. The lights may extend along strings that are powered by a power supply that may itself be plugged into a socket that had previously served as a light socket. The display may be added to existing displays to enhance existing visual effects. The display may be submerged and the lights may remain upright because of their buoyancy. | 06-19-2014 |
20140232275 | ORGANIC LIGHT EMITTING DISPLAY - An organic light emitting display that includes a display panel, a power supply and a coupling member. The display panel includes scan lines, data lines, first power lines and a plurality of pixels. The power supply is positioned at the outside of the display panel, and supplies first power to the display panel through a coupling member. The coupling member includes first and second coupling portions respectively coupled to the power lines, first and second coupling lines transmitting the first power supplied from the power supply to the respective first and second coupling portions, and a feedback line transmitting the voltage of the second coupling portion to the power supply. Accordingly, it is possible to provide an organic light emitting display capable of precisely controlling the voltage of output power and preventing the deterioration of the luminance of a display panel. | 08-21-2014 |
20140239823 | ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device includes a substrate including a display area on which a plurality of pixels are formed and a non-display area surrounding the display area; a first power line positioned on a lower non-display area; an auxiliary power line positioned on an upper non-display area; a first power supply supplying a first voltage to the first power line; and an auxiliary power supply supplying an auxiliary voltage to the auxiliary power line. Accordingly, it is possible to provide an organic light emitting display device capable of equalizing luminance by minimizing a variation in power supplied to each pixel. | 08-28-2014 |
20140252964 | DISPLAY DEVICE AND COMMON VOLTAGE GENERATOR THEREOF - A voltage generator includes a latch and a first voltage adjustment circuit. The latch includes a latch input terminal, a trigger terminal, a positive latch output terminal and a negative latch output terminal. The latch is configured to have the latch input terminal thereof for receiving an input signal, the trigger terminal thereof for receiving a trigger signal, the positive latch output terminal thereof for outputting a first latch output signal having a phase same as that of the input signal, and the negative latch output terminal thereof for outputting a second latch output signal having a phase opposite to that of the input signal. The first voltage adjustment circuit is electrically coupled to the latch and configured to output a first common voltage signal. A display device using the aforementioned voltage generator is also provided. | 09-11-2014 |
20140292211 | Power System for an LED Module Including Multiple LEDs - A power system for a group of LED modules each of which includes a plurality of LEDs or series-connected LEDs, utilizes a plurality of polarized direct current power supplies with one electrical polarity separated, and the other electrical polarity commonly connected. Each individual LED, or each set of series-connected individual LEDs, in each of the LED modules, are connected in series to each of the direct power supplies and then to an opposite polarity to complete an electrical circuit. | 10-02-2014 |
20140300281 | Pixel Circuits For Amoled Displays - A system for controlling a display in which each pixel circuit comprises a light-emitting device, a drive transistor, a storage capacitor, a reference voltage source, and a programming voltage source. The storage capacitor stores a voltage equal to the difference between the reference voltage and the programming voltage, and a controller supplies a programming voltage that is a calibrated voltage for a known target current, reads the actual current passing through the drive transistor to a monitor line, turns off the light emitting device while modifying the calibrated voltage to make the current supplied through the drive transistor substantially the same as the target current, modifies the calibrated voltage to make the current supplied through the drive transistor substantially the same as the target current, and determines a current corresponding to the modified calibrated voltage based on predetermined current-voltage characteristics of the drive transistor. | 10-09-2014 |
20140320029 | POWER CONVERTER CIRCUIT AND SOLAR POWER SYSTEM HAVING SAME - A power converter circuit includes: a first transistor being connected with a positive node and a negative node of a photovoltaic panel; a second transistor being connected with the first transistor and the negative node of the photovoltaic panel; a first controller circuit being configured to measure the voltage at a reference node and adjust the gate voltage of the first and second transistors respectively; a third transistor being connected with the reference node and an output node; and a second controller circuit being configured to control the gate voltage of the third transistor. The reference node is connected to the second transistor through a LC network. The first controller circuit is configured to turn off the first and second transistors when the voltage at the reference node exceeds a threshold. The second controller circuit is configured to prevent current from being fed back through the LC network. | 10-30-2014 |
20140339990 | LIGHT-EMITTING DIODE LIGHTING DEVICE HAVING MULTIPLE DRIVING STAGES - An LED lighting device includes multiple driving stages. A first driving stage includes a first luminescent device driven by a first current and a first current controller coupled in parallel with the first luminescent device. The first current controller is configured to conduct a second current according to a voltage established across the first current controller and regulate the second current so that a sum of the first current and the second current does not exceed a first value. The second driving stage includes a second luminescent device driven by a third current and a second current controller coupled in series to the second luminescent device. The second current controller is configured to conduct a fourth current according to a voltage established across the second current controller and regulate the fourth current so that a sum of the third current and the fourth current does not exceed a second value. | 11-20-2014 |
20140354162 | LED LIGHTING DEVICE AND LED CONTROL SYSTEM - LED lighting device and LED control system are provided. An LED lighting device includes an LED power supply unit, a controller unit, a microphone module, a wireless communication module, and an LED light source assembly. An LED control system includes at least one LED lighting device, at least one of a smart terminal and a cloud server, and at least one smart home appliance. When a user sends a voice command to the LED lighting device, the LED lighting device captures and processes signal data from the voice command to provide control data to the smart terminal or cloud server, which then recognizes and processes the control data to provide processed control data. The processed control data are then sent to a corresponding smart home appliance communicated with the smart terminal or the cloud server to control an operation of the smart home appliance. | 12-04-2014 |
20150008832 | LED light strings with remote controlling device for growing plants - A LED lighting apparatus for growing plants includes a remote controlling device for sending wireless signals; and at least one lighting device each including a receiver and transmitter for receiving the wireless signals sent from the remote controlling device, a first power source electrically connected to the receiver and transmitter and being capable of supplying electricity to four downstream first LED groups connected in series, and a second power source electrically connected to the first power source via the first LED groups and being capable of supplying electricity to four downstream second LED groups connected in series. | 01-08-2015 |
20150008833 | Lighting Control Module - A lighting control module provides an enclosure for a circuit board, with the circuit board being mounted to and grounded to the enclosure. A primary power system is provided to receive and transmit voltage to lighting circuits, utilizing a terminal bus bar, a main switch, a voltage selection switch, and a transformer. An auxiliary power system draws energy from portable power sources in the event of a main power source failure. The auxiliary power system includes an associated terminal bus bar and an auxiliary switch. The primary and auxiliary power systems are connected to the lighting circuits through a circuit protection unit, e.g. fuse. The lighting circuits have both positive and negative terminals, LED indicators, switches, and individual fuses. The lighting circuits can be turned on and off individually by virtue of the switches for each lighting circuit. Status indicators and ground terminals are also provided. | 01-08-2015 |
20150022098 | Illumination Devices and Related Systems and Methods - Illumination devices and related systems and methods are disclosed that can be used for LCD (Liquid Crystal Display) backlights, LED lamps, or other applications. The illumination devices can include a photo detector, such as a photodiode or an LED or other light detecting device, and one or more LEDs of different colors. A related method can be implemented using these illumination devices to maintain precise color produced by the blended emissions from such LEDs. One application for the illumination devices is backlighting for FSC (Field Sequential Color) LCDs (Liquid Crystal Displays). FSC LCDs temporally mix the colors in an image by sequentially loading the red, green, and blue pixel data of an image in the panel and flashing the different colors of an RGB backlight. Precise and uniform color temperature across such a display can be advantageously maintained by continually monitoring ratios of photodiode currents induced by the different colored LEDs in each illumination device as each color is flashed. | 01-22-2015 |
20150022099 | TOUCH ACTIVATED LOW ENERGY APPARATUS FOR ILLUMINATING PERSONAL PORTABLE CARRYING UNITS - Embodiments of the present invention are directed to a touch or close proximity activated low energy illumination apparatus. The illumination apparatus are configured to be positioned within personal portable carrying units such as purses, handbags, backpack, shoulder bags, computer bags, bags for communication devices or other container. The illumination apparatus is configured to illuminate inner compartments of such personal portable carrying units. In preferred embodiments, the apparatus is removably attachable to a personal portable carrying unit and can be oriented for the illumination of external objects such as a door lock of a car or building, or the immediate vicinity of a dark space. Certain embodiments may be affixed to or integrated into a personal portable carrying unit. Embodiments of the present invention may comprise a circuit assembly, a power source, at least one semiconductor illuminating device such as a light emitting diode and a plain or decorative pocket. Preferred embodiments provide a pre-programmed timed illumination occurring once the apparatus is touched at the designated touch area; on retouch thereon during the timed period, the illumination immediately switches off giving further battery energy conservation. | 01-22-2015 |
20150048743 | POWER CIRCUIT HAVING MULTIPLE STAGES OF CHARGE PUMPS - The present invention discloses a power circuit having multiple stages of charge pumps. The power circuit comprises a first charge pump, a second charge pump, a voltage stabilizing capacitor, and an output capacitor. The first charge pump adjusts an input voltage and produces a first output voltage. The second charge pump adjusts the first output voltage, produces a second output voltage, and outputs the second output voltage for driving a loading. The voltage stabilizing capacitor is coupled between the first and second charge pumps and connected externally to the output of the first charge pump. The output capacitor is coupled to the second charge pump for providing the second output voltage. According to the present invention, the effect of supplying large transient currents to the loading can be achieved by connecting externally the voltage stabilizing capacitor to the output of the first charge pump. | 02-19-2015 |
20150076997 | DC-DC CONVERTER AND ORGANIC LIGHT EMITTING DISPLAY DEVICE INCLUDING THE SAME - A DC-DC converter includes a voltage conversion circuit unit, a control unit, and a capacitor check unit. The voltage conversion circuit unit converts an input voltage to a first voltage. The control unit controls the voltage conversion circuit unit based on a feedback voltage and a reference voltage. The capacitor check unit determines whether a capacitor is coupled to a capacitor coupling terminal based on sensing a voltage of the capacitor coupling terminal, which is selectively coupled to the first control unit. | 03-19-2015 |
20150091452 | Converter Circuit Arrangement and Conversion Method - A converter circuit arrangement is provided, including a converter switch controller, a converter switch, a load circuit interface and an inductor. The converter switch controller may include a control input. The converter switch may be coupled between a first power supply potential and the control input. The inductor may be coupled between a second power supply potential and the load circuit interface. The load circuit interface may be coupled between the control input and the inductor. | 04-02-2015 |
20150102735 | GATE DRIVING CIRCUIT, AND ARRAY SUBSTRATE AND DISPLAY PANEL USING THE SAME - The present invention relates to a gate driving circuit, and a array substrate and a display using the same. The gate driving circuit comprises multiple-stage gate driving units, and each gate driving unit includes: an actuating unit configured to transmit an actuation signal; an energy storage unit configured to execute a charging process under the action of the actuation signal to output a driving voltage; a pull-up unit, a first pull-down unit, a second pull-down unit and a third pull-down unit operating under the action of the driving voltage, wherein a third pull-down unit pulls the driving voltage down to a second reference voltage to apply a reverse bias voltage to the gate-source and/or the gate-drain of transistors in the gate driving circuit, such that the threshold voltage of respective transistors under positive offset can offset reversely, thus effectively eliminating adverse effects of a threshold voltage offset phenomenon of the transistors on the gate driving circuit and improving the operation reliability of the gate driving circuit as well as the array substrate and the display panel thereof. | 04-16-2015 |
20150115808 | HIGH EFFICIENCY LEDS AND LED LAMPS - In various embodiments, lighting systems include an electrically insulating carrier having a plurality of conductive elements disposed thereon, a light-emitting array, and at least one power source. The light-emitting array is disposed over the carrier and includes a plurality of light-emitting strings, each light-emitting string comprising a plurality of electrically connected light-emitting diodes (LEDs). Each LED has at least two electrical contacts, and each electrical contact is electrically connected to a conductive element by a conductive adhesive and/or a solder. The power source provides power to the light-emitting strings. | 04-30-2015 |
20150145422 | LIGHTING DEVICE AND ILLUMINATION APPARATUS INCLUDING SAME - A lighting device includes: a plurality of DC power supply circuits. A plurality of light sources and switching units are connected to each of the DC power supply circuits, the switching units being configured to respectively switch electrical connection between the light sources and said each of the DC power supply circuits. A difference in rated voltage between any two light sources connected to one of the plurality of DC power supply circuits in common is smaller than a difference in rated voltage between two light sources respectively connected to different DC power supply circuits of the plurality of DC power supply circuits. | 05-28-2015 |
20150145423 | ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device includes a pixel unit, a first voltage supply unit, a second voltage supply unit, and a selection unit. The pixel unit includes a plurality of pixels coupled to power lines. The first voltage supply unit is configured to output a first voltage. The second voltage supply unit is configured to output a second voltage. The selection unit is configured to supply any one of the first and second voltages to the pixels through the power lines. | 05-28-2015 |
20150296586 | LIGHTING DEVICE - In one embodiment of lighting devices and lighting systems, the lighting device has a connection for connecting to a primary power supply and has a secondary power supply, such as a battery. A measuring circuit is operable to measure an impedance of the primary power supply connection and to determine from the measurement if a main power supply has failed, and if so whether to power light sources using power from the secondary power supply. | 10-15-2015 |
20150308640 | ELECTRONIC CIRCUITS TO EXTEND BATTERY LIFE TIME - A low-current battery operated apparatus with a first voltage boosting circuit for operation with depleted batteries and a second circuit for operating with non-depleted batteries, and a circuit selector switch for selectively connecting a low-current component such as an LED with the first circuit or the second circuit. | 10-29-2015 |
20150351170 | METHODS SYSTEMS AND DEVICES FOR MINIMIZING POWER LOSSES IN LIGHT EMITTING DIODE DRIVERS - Devices, systems, and methods for minimizing power losses in light emitting diode drivers are disclosed. In one aspect a system comprises a constant current LED driver comprising a regulation detector configured to detect if the driver is regulating current and send feedback to a controller configured to adjust the output voltage of an adjustable power supply to be substantially equal to the minimum voltage required for the driver to be in regulation. | 12-03-2015 |
20150351202 | MASTER-SLAVE CONTROL ARRANGEMENT FOR A LIGHTING FIXTURE - A lighting fixture is disclosed, and includes a plurality of lighting arrays, a master power module, a data communications link, and at least one slave power module. The master power module provides power and control to one of the plurality of lighting arrays, and transmits a control signal. The data communications link transmits the control signal. The slave power module provides power and control to another one of the plurality of lighting arrays based on the control signal from the master power module. The data communications link connects the master power module to the slave power module. | 12-03-2015 |
20150356918 | SMART PIXEL LIGHTING AND DISPLAY MICROCONTROLLER - A light emitting assembly is described. In one embodiment, one or more light emitting diode (LED) devices and one or more microcontrollers are bonded to a same side of a substrate, with the one or more microcontrollers to switch and drive the one or more LED devices. | 12-10-2015 |
20160029456 | POWER SUPPLY DEVICE AND ELECTRONIC DEVICE - The power supply device includes an AC-DC conversion unit configured to provide a source DC voltage signal; a first DC-DC conversion unit configured to generate a first DC voltage signal and a second DC voltage signal according to the source DC voltage signal, output the first DC voltage signal to the load through a first output interface and output the second DC voltage signal to the load through a second output interface; a reference voltage signal generation unit configured to generate a reference voltage signal by taking the first DC voltage signal and the second DC voltage signal as input signals, output the reference voltage signal to the load; wherein a voltage value of the reference voltage signal is smaller than a voltage value of the first DC voltage signal and is greater than a voltage value of the second DC voltage signal. | 01-28-2016 |
20160037599 | LIGHTING APPARATUS - Provided is a lighting apparatus using an LED as a lighting source. The lighting apparatus may distribute a current corresponding to a rectified voltage to a lighting unit and a secondary current circuit, perform primary light emission at low luminance, and reduce an optical deviation between LED groups through secondary light emission. Thus, the lighting apparatus can reduce an optical deviation corresponding to dimming and one cycle of rectified voltage. | 02-04-2016 |
20160056213 | ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device includes: a display area including a plurality of pixels including organic light emitting diodes, pixel circuits connected to the organic light emitting diodes, and one or more repair circuit units disposed between the pixel circuits of the pixels disposed on adjacent lines, in which the one or more repair circuit units include a plurality of repair circuits arranged to form at least one line within the display area. | 02-25-2016 |
20160094088 | LIGHTING UNIT HAVING ENERGY HARVESTING POWER MANAGEMENT SYSTEM - The present invention relates to a light unit comprising a power management system being capable of delivering electrical power from a power generating unit of the light unit to an associated power distributing system, said power management system comprising a system controller adapted to deliver power to the power distributing system in accordance with a number of inputs to said system controller. | 03-31-2016 |
20160141914 | METHODS AND SYSTEMS FOR EMERGENCY LIGHTING - Methods and systems for emergency lighting are disclosed. Embodiments of the invention provide a solid-state lighting system, light fixture or a collection of light fixtures, with a control input that is used to cause the system to dim to a specific level during an outage in order to conserve power in a building where power is backed up by an emergency inverter or a back-up generator. With embodiments of the invention, there is no need to run a separate power feed, as might otherwise be required for keeping distributed batteries charged or for running specified emergency-only fixtures from back-up power. In some embodiments the solid-state lighting system includes an occupancy sensor wherein the specified light output level is determined at least in part based on the occupancy of a room. In some embodiments, the system can be selectively configured for the specified output level. | 05-19-2016 |
20160165678 | DEVICE FOR SUPPLYING LIGHT SOURCES WITH ENERGY IN A MANNER EXTENDING SERVICE LIFE - A circuit is disclosed for supplying energy to a sequential circuit of typically non-linear loads by a current source. The load is preferably a series circuit of light emitting diodes (LEDs). Said current-operated load, preferably a LED series circuit, consisting of one to N elements is partially short-circuited and thus dimmed. | 06-09-2016 |
20160204652 | EMERGENCY SYSTEM WITH BROWN-OUT DETECTION | 07-14-2016 |
20160255697 | INTELLIGENT LED BULB AND VENT METHOD, APPARATUS AND SYSTEM | 09-01-2016 |