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Gas-discharge lamps are a family of artificial light sources that generate light by sending an electric discharge through an ionized gas, a plasma. Typically, such lamps use a noble gas (argon, neon, krypton, and xenon) or a mixture of these gases. Some include additional substances, like mercury, sodium, and metal halides, which are vaporized during startup to become part of the gas mixture. In operation, some of the electrons are forced to leave the atoms of the gas near the anode by the electric field applied between the two electrodes, leaving these atoms positively ionized. The free electrons thus released flow onto the anode, while the cations thus formed are accelerated by the electric field and flow towards the cathode. Typically, after traveling a very short distance, the ions collide with neutral gas atoms, which transfer their electrons to the ions. The atoms, having lost an electron during the collisions, ionize and speed toward the cathode while the ions, having gained an electron during the collisions, return to a lower energy state while releasing energy in the form of photons. Light of a characteristic frequency is thus emitted. In this way, electrons are relayed through the gas from the cathode to the anode. The color of the light produced depends on the emission spectra of the atoms making up the gas, as well as the pressure of the gas, current density, and other variables. Gas discharge lamps can produce a wide range of colors. Some lamps produce ultraviolet radiation which is converted to visible light by a fluorescent coating on the inside of the lamp's glass surface. The fluorescent lamp is perhaps the best known gas-discharge lamp.
Color variations in a dimmable lighting device with stable color temperature light sources
ActiveUS7288902B1Electroluminescent light sourcesPower supply linesDriving currentGas-discharge lamp
A method and system allow a lighting device having light sources with multiple color temperatures to vary a color temperature of the lighting device in response to changing dimming levels. The light sources are non-incandescent light sources, such as light emitting diodes and/or gas-discharge lights. A dimmer circuit provides a dimming signal that indicates a selected dimming level. The lighting device includes a light source driver and a light source driver controller that cooperate to vary drive currents to the light sources in response to the selected dimming level. By varying the drive currents in different relative amounts, the color temperature of the lighting device changes in response to dimming level changes. In at least one embodiment, changes in the color temperature of the lighting device in response to the dimming level changes simulates the color temperature changes of an incandescent light source.
Owner:SIGNIFY HLDG BV
Discharge lamp
InactiveUS20100259152A1Irradiation of becomes intensiveImprove reliabilityIncadescent screens/filtersSolid cathode detailsCapacitanceGas-discharge lamp
The object of this invention is to prevent surface discharge even when a high voltage is applied in a dielectric-barrier discharge lamp or a capacitively coupled high frequency discharge lamp with no electrodes in a discharge space. Ribbon foil electrodes 3 are embedded in the wall of a quartz discharge vessel 1. The discharge vessel 1 is disposed such that the foil electrodes 3 face each other on both sides of the axis of the quartz discharge vessel 1. It may be disposed such that the foil electrodes 3 have a truncated V-shaped cross-section. The single tube quartz discharge vessel 1 is filled with discharge gas to form excimer molecules by dielectric barrier discharge or capacitively coupled high-frequency discharge.
Owner:ORC MFG
Closed-loop, daylight-sensing, automatic window-covering system insensitive to radiant spectrum produced by gaseous-discharge lamps
InactiveUS6084231AMaximized ratioOptical radiation measurementLight dependant control systemsSpectral responseLow-pass filter
A system for automatic regulation of daylight admitted by a window in the presence of artificial illumination produced by a high-efficiency (e.g., fluorescent-type) electric lamp. A preferred embodiment, adaptive window covering system 10, consists of an illuminance sensor 11, a conventional control apparatus 12, and a conventional shading means 13. System 10 is used in conjunction with a conventional, high-efficiency, electric lamp 14 and a conventional window 18, in a room 19. Sensor 11 produces a signal dependent on power contained in a portion of the daylight spectrum, but substantially insensitive to power contained in the spectrum of artificial illumination produced by lamp 14. In a preferred embodiment, sensor 11 includes a silicon photodiode and optical low-pass filter to provide a spectral response which extends from approximately 800 to 1200 nanometers, which falls outside the spectrum produced by typical fluorescent lamps (e.g, 300 to 750 nanometers). Sensor 11 is oriented to sample the ambient illumination in room 19, which includes both daylight and artificial components. Control apparatus 12 produces an actuating signal dependent on the output of sensor 11. Shading means 13 varies the amount of daylight admitted by window 18 as a function of the actuating signal produced by control apparatus 12. Thus, system 10 varies the amount of daylight admitted by window 18 as a function of the power contained in a portion of the daylight spectrum, but independent of the power contained in the spectrum produced by lamp 14.
Owner:POPAT PRADEEP P
Full color holographic image combiner system
InactiveUS6906836B2High resolutionCathode-ray tube indicatorsOptical elementsHead-up displayGas-discharge lamp
A device, such as a heads up display, includes equipment for generating a virtual image in the field of view of an observer. The equipment includes at least one light source having a wavelength range less than 2 nm. The light source can be a low pressure gas discharge lamp. The device also includes a holographic optical element that provides a virtual image. The device also includes an image source, such as a mask or an LCD. In one embodiment the holographic optical element combines an image on a display with an ambient image. The holographic element provides multiple colors undistorted in a virtual image appearing to the observer as converging from the same distance.
Owner:MARSUPIAL HLDG
Lamp driver using solar cells
InactiveCN1930925AElectrical apparatusElectric light circuit arrangementSnubber capacitorGas-discharge lamp
A solar energy powered lamp driver (100; 200) capable of driving a gas discharge lamp (L) comprises: - a half-bridge inverter (130), comprising: a first branch of two controllable switches (131, 132) coupled in series between a first reference node (VI) and a second reference node (mass); a second branch of two buffer capacitors (133, 134) coupled in series between said first reference node (VI) and said second reference node (mass); an output branch (DE) connected between on the one hand a first node (D) between said two controllable switches (131, 132) and on the other hand a second node (E) between said two buffer capacitors (133, 134); a boost converter (110), having an output (115) connected directly to said first node (D) between said two controllable switches (131, 132).
Owner:KONINK PHILIPS ELECTRONICS NV
Gas-discharge lamp replacement with passive cooling
An illumination device comprises a solid-state lighting device and a heat sink. The heat sink is configured to be attachable to a fixture for a gas-discharge lamp to retrofit existing gas-discharge fixtures. The heat sink is conductively thermally coupled to the solid-state lighting device to dissipate heat generated by the solid-state lighting device.
Owner:EXPRESS IMAGING SYST
Color variations in a dimmable lighting device with stable color temperature light sources
InactiveUS20080224631A1Electrical apparatusElectroluminescent light sourcesGas-discharge lampDriving current
A method and system allow a lighting device having light sources with multiple color temperatures to vary a color temperature of the lighting device in response to changing dimming levels. The light sources are non-incandescent light sources, such as light emitting diodes and/or gas-discharge lights. A dimmer circuit provides a dimming signal that indicates a selected dimming level. The lighting device includes a light source driver and a light source driver controller that cooperate to vary drive currents to the light sources in response to the selected dimming level. By varying the drive currents in different relative amounts, the color temperature of the lighting device changes in response to dimming level changes. In at least one embodiment, changes in the color temperature of the lighting device in response to the dimming level changes simulates the color temperature changes of an incandescent light source.
Owner:MELANSON JOHN L
Systems and methods for fault protection in a balancing transformer
InactiveUS20050093484A1None provide any indicationImprove balanceElectrical apparatusElectric light circuit arrangementPower inverterGas-discharge lamp
An apparatus and methods for balancing current in multiple negative impedance gas discharge lamp loads. Embodiments advantageously include balancing transformer configurations that are relatively cost-effective, reliable, efficient, and good performing. Embodiments include configurations that are applicable to any number of gas discharge tubes, such as cold cathode fluorescent lamps. The balancing transformer configuration techniques permit a relatively small number of power inverters, such as one power inverter, to power multiple lamps in parallel. One embodiment of a balancing transformer includes a safety winding which can be used to protect the balancing transformer in the event of a lamp failure and can be used to provide an indication of a failed lamp.
Owner:MICROSEMI
Ultraviolet Discharge Lamp Apparatuses Having Optical Filters Which Attenuate Visible Light
InactiveUS20120313532A1Electric light circuit arrangementEnergy based chemical/physical/physico-chemical processesGas-discharge lampTransmittance
The apparatuses disclosed herein include a discharge lamp configured to emit ultraviolet and visible light, an optical filter configured to attenuate visible light, and a power circuit configured to operate the discharge lamp. Some embodiments of the apparatuses are configured such that ultraviolet light emitted from the discharge lamp and passed through the optical filter encircles an exterior surface of the apparatus. Some cases of the apparatuses include a sensor system configured to monitor a first parameter associated with the operation of the discharge lamp and a second parameter associated with the transmittance of the optical filter. Some of the apparatuses include a means for moving the optical filter while the apparatus is in operation. In some cases, the apparatuses may be configured such that the optical filter may be arranged in and out of alignment with the discharge lamp. In some embodiments, the optical filter may be a multifaceted.
Owner:XENEX DISINFECTION SERVICES
Gas-discharge lamp replacement
ActiveUS20090284155A1Reduce reflection lossReduce lightPoint-like light sourceElectric circuit arrangementsGas-discharge lampColor rendering index
An illumination device comprising a housing fixture, a light source, and an active heat transfer device is provided. The housing fixture includes a base adapted to be receivable in a light fixture receptacle configured to receive a gas-discharge lamp. The light source emits light with a color rendering index higher than a respective color rendering index of at least a type of gas-discharge lamp. The active heat transfer device is physically coupled to the light source and mounted to the housing fixture. The active heat transfer device receives power from a power supply to remove thermal energy from the light source.
Owner:EXPRESS IMAGING SYST
Reduction of vertical segregation in a discharge lamp
InactiveUS6184633B1Promote degradationIncrease temperatureElectrical apparatusElectric light circuit arrangementGas-discharge lampConstant frequency
An apparatus for reducing vertical segregation of a discharge lamp. A current / voltage input sweeps through a frequency range between the first azimuthal acoustic resonance mode and a first radial acoustic resonance mode of the discharge lamp. The current / voltage input is subsequently amplitude modulated. Alternatively, without amplitude modulation, the current / voltage input sweeps through the frequency range for a first portion of the period, and then for a second portion of the period drops to a relatively constant frequency.
Owner:PHILIPS ELECTRONICS NORTH AMERICA
Systems and methods for a transformer configuration with a tree topology for current balancing in gas discharge lamps
InactiveUS20050093482A1None provide any indicationImprove balanceEmergency protective circuit arrangementsElectric light circuit arrangementPower inverterGas-discharge lamp
An apparatus and methods for balancing current in multiple negative impedance gas discharge lamp loads. Embodiments advantageously include balancing transformer configurations that are relatively cost-effective, reliable, efficient, and good performing. Embodiments include configurations that are applicable to any number of gas discharge tubes, such as cold cathode fluorescent lamps. The balancing transformer configuration techniques permit a relatively small number of power inverters, such as one power inverter, to power multiple lamps in parallel. One embodiment of a balancing transformer includes a safety winding which can be used to protect the balancing transformer in the event of a lamp failure and can be used to provide an indication of a failed lamp.
Owner:MICROSEMI CORP
Ballast for a discharge lamp
InactiveUS6288501B1Increase output powerImprove luminosityElectrical apparatusElectric light circuit arrangementGas-discharge lampVoltage converter
A ballast includes a voltage converter providing a DC power from a DC source voltage. The converter includes a switching element and an energy storing element having an inductance. The switching element is controlled to operate for repetitively switching the DC source voltage in order to store energy into the energy storing element. A power converter is included in the ballast to receive the energy and convert it into an operating power for driving the discharge lamp. A controller provides a command value and turns on and off the switching element for variable periods, respectively in accordance with the command value for generating a necessary power to the lamp. The controller gives a variable OFF-period and a variable ON-period to the switching element. The controller gives a minimum OFF-end limit and a forced maximum OFF-end limit for terminating the OFF-period, and also gives a minimum ON-end limit and a forced maximum ON-end limit for terminating the variable ON-period. The minimum OFF-end limit is defined at a timing when a secondary current flowing from the inductance decreases to zero, while the minimum ON-end limit is defined at a timing when a primary current flowing through the switching element reaches the command value. The controller terminates the OFF-period at the minimum OFF-end limit or at the forced maximum OFF-end limit, whichever comes earlier, and terminates the ON-period at the minimum ON-end limit or at said forced maximum ON-end limit, whichever comes earlier.
Owner:MATSUSHITA ELECTRIC WORKS LTD
Arrangement for generating extreme ultraviolet (EUV) radiation based on a gas discharge
InactiveUS6894298B2Stable generationProlong lifeOptical radiation measurementElectric lighting sourcesHigh energyPulsed DC
The invention is directed to a method and an arrangement for generating extreme ultraviolet (EUV) radiation, i.e., radiation of high-energy photons in the wavelength range from 11 to 14 nm, based on a gas discharge. The object of the invention, to find a novel possibility for generating EUV radiation in which an extended life of the system is achieved with stable generation of a dense, hot plasma column, is met according to the invention in that a preionization discharge is ignited between two parallel disk-shaped flat electrodes prior to the main discharge by a surface discharge along the superficies surface of a cylindrical insulator with a plasma column generated through the gas discharge with pulsed direct voltage, which preionization discharge carries out an ionization of the working gas in the discharge chamber by means of fast charged particles. The preionization discharge is triggered within a first electrode housing and the main discharge takes place between a narrowed output of the first electrode housing and a part of the second electrode housing close to the outlet opening of the discharge chamber. The plasma develops in a part of the second electrode housing covered by a tubular insulator and, as a result of the current-induced magnetic field, contracts to form a dense, hot plasma column, one end of which is located in the vicinity of the outlet opening of the second electrode housing.
Owner:USHIO DENKI KK
Lighting ballast having boost converter with on/off control and method of ballast operation
ActiveUS7075254B2Save energyLess powerElectric light circuit arrangementGas discharge lamp usageControl signalAlternating current
A ballast for driving a gas discharge lamp comprising a rectifier stage having an alternating current (AC) input and providing a rectified output voltage, a boost converter stage receiving the rectified output voltage as an input and providing a boosted direct current (DC) output voltage across a DC bus, an inverter output stage for converting the DC bus voltage to a high-frequency AC output voltage to drive the lamp, further comprising a control stage receiving a desired light level signal controlling the desired light level of the lamp and providing an output control signal for turning the boost converter stage on or off in dependency on the desired light level signal. The ballast thereby has reduced power consumption at low light levels for greater energy efficiency.
Owner:LUTRON TECH CO LLC
Electronic ballast
InactiveUS7061189B2Total current dropImprove power factorElectrical apparatusElectric light circuit arrangementGas-discharge lampEngineering
An electronic ballast for driving a gas discharge lamp includes a rectifier, a valley-fill circuit, an inverter having first and second series-connected controllably conductive switches having complementary duty cycles, a control circuit for controlling the controllably conductive switches, and an independent cat ear power supply to provide power to the ballast control circuits. The result is a ballast having substantially improved power factor, THD, and current crest factor. In a preferred embodiment, the valley-fill circuit includes an energy storage device that stores energy in response to a controllably conductive switch. In an especially preferred embodiment, the controllably conductive switch of the valley-fill circuit is also one of the switches of the inverter.
Owner:LUTRON TECH CO LLC
System and method for reducing flicker of compact gas discharge lamps at low lamp light output level
InactiveUS7061191B2Electric light circuit arrangementElectric discharge lampsGas-discharge lampEngineering
A lamp lighting system allows dimming of a compact gas discharge lamp to a low light output level without perceptible flicker. When the system receives a request to dim the lamp to the low level, the lamp is operated at an intermediate output level prior to operating the lamp is then requested low level. When the lamp cools to below a threshold temperature, the lamp is then operated at the requested low level. In one embodiment, the lamp is dimmed from its full rated output level to 1% of its full rated output level. The intermediate level is approximately 2% to 5% of this full rated level. No flicker is perceived when the lamp level is reduced from the full rated level to the low level. Upon cooling, no flicker and no change in output level are perceived when the lamp is subsequently reduced from the intermediate level to the low level.
Owner:LUTRON TECH CO LLC
Hybrid Power Supply System
InactiveUS20080272706A1Improve power efficiencyReduce EMI noiseDc network circuit arrangementsConversion with intermediate conversion to dcElectricityGas-discharge lamp
A hybrid power supply system including piezoelectric and ferrite transformers for driving a discharge lamp is provided. Specifically, the hybrid power supply system includes a rectifier/filter, a piezoelectric inverter, and a ferrite converter. The rectifier/filter has an input terminal connected to an external AC voltage to convert the external AC voltage to a DC voltage. The piezoelectric inverter is connected to the rectifier/filter to step up and convert the DC voltage to an AC voltage for driving the discharge lamp. The ferrite transformer is connected to the rectifier/filter to step down the DC voltage to a rated DC voltage for driving discharge lamp circuits other than the discharge lamp. The piezoelectric inverter and the ferrite converter are integrated by connecting a primary side of the piezoelectric step-up transformer and a primary side of the ferrite step-down transformer in series or in parallel with an output terminal of switching circuits.
Owner:KWON OH YOUNG +1
Zigzag topology for balancing current among paralleled gas discharge lamps
InactiveUS7061183B1Minimized unevenness in brightnessImprove balanceElectric lighting sourcesEmergency protective circuit arrangementsPower inverterGas-discharge lamp
An apparatus and methods for balancing current in multiple negative impedance gas discharge lamp loads. Embodiments advantageously include balancing transformer configurations that are relatively cost-effective, reliable, and efficient. Embodiments include configurations that are applicable to an unrestrained number of gas discharge tubes, such as cold cathode fluorescent lamps. The balancing transformer configuration techniques permit a relatively small number of power inverters, such as one power inverter, to power multiple paralleled lamps or paralleled groups of lamps with balancing transformers coupling the lamps or groups of lamps in a zigzag topology. One embodiment of a balancing transformer includes a safety winding which can be used to protect the balancing transformer in the event of a lamp failure and can be used to provide an indication of a failed lamp.
Owner:MICROSEMI
Phase Control Dimming Compatible Lighting Systems
InactiveUS20110074302A1Electrical apparatusElectric light circuit arrangementGas-discharge lampCombined use
A power control / lighting system includes a controller to provide compatibility between a lamp ballast configured to receive a dedicated dimmer signal and a phase control dimmer. In at least one embodiment, the controller converts a phase control dimming signal into dimming information useable by a lamp ballast of a gas discharge lamp based lighting system. Additionally, in at least one embodiment, the controller also controls power factor correction of the power control / lighting system. In at least one embodiment, the controller provides dimming information based on the phase control dimming signal that allows the lamp ballast to be used in conjunction with a phase control dimmer.
Owner:SIGNIFY HLDG BV
Systems and methods for a transformer configuration for driving multiple gas discharge tubes in parallel
InactiveUS7141933B2None provide any indicationImprove balanceElectric light circuit arrangementSolid cathode detailsGas-discharge lampPower inverter
An apparatus and methods for balancing current in multiple negative impedance gas discharge lamp loads. Embodiments advantageously include balancing transformer configurations that are relatively cost-effective, reliable, efficient, and good performing. Embodiments include configurations that are applicable to any number of gas discharge tubes, such as cold cathode fluorescent lamps. The balancing transformer configuration techniques permit a relatively small number of power inverters, such as one power inverter, to power multiple lamps in parallel. One embodiment of a balancing transformer includes a safety winding which can be used to protect the balancing transformer in the event of a lamp failure and can be used to provide an indication of a failed lamp.
Owner:MICROSEMI CORP
Battery pack and portable electronic device
ActiveUS20080220321A1Improved gas dischargeImprove securityPrimary cell to battery groupingCell temperature controlGas-discharge lampEngineering
The present invention includes a plurality of battery cells, each provided with a gas discharge valve. A housing accommodates the battery cells and has a gas opening. The housing does not melt at an inside temperature of the battery pack increased by gas discharged from the gas discharge valve. A blocking member blocks the gas opening and melts at the inside temperature of the battery pack increased by the gas discharged from the gas discharge valve, breaching the gas opening.
Owner:LENOVO PC INT
Method of Striking a Lamp in an Electronic Dimming Ballast Circuit
InactiveUS20110266959A1Electrical apparatusElectric light circuit arrangementGas-discharge lampEngineering
A method of striking a gas discharge lamp involves the steps of generating a high-frequency square-wave voltage having an operating frequency, generating a sinusoidal voltage from the high-frequency square-wave voltage, controlling the operating frequency to a low-end frequency, and increasing the amplitude of the sinusoidal voltage during successive pulse times and then decreasing the amplitude of the sinusoidal voltage towards the low-end amplitude at the end of each of the successive pulse times until the lamp has struck, where the length of each of the successive pulse times being greater than the length of the previous pulse time. A maximum amplitude of the sinusoidal voltage during each pulse time may be greater than a maximum amplitude of the sinusoidal voltage during the previous pulse time.
Owner:LUTRON TECH CO LLC
Ultraviolet germicidal lamp base and socket
ActiveUS7569981B1Avoid possibilityControl electrodesIncorrect coupling preventionGas-discharge lampWater flow
An ultraviolet gas discharge lamp having contact pins extending downward from a base cap toward an opposing end. The lamp is placed within a conduit or duct for disinfecting air or water flowing within the conduit. The reverse contact pins that extend toward the opposing end mate with contact holes in a socket attached to the conduit through which the lamp is inserted. The lamp is only energized when the lamp is fully inserted into the duct and is de-energized upon removing the lamp from the duct. A shield protects the pins. A window may be place in the base cap so as to visually confirm that the lamp is energized and radiating. A key and mating receiver may be used on the base cap and the socket so as to prevent accidental insertion of an inappropriate lamp.
Owner:LIGHT SOURCES INC
Electrodeless discharge lamp lighting device, light bulb type electrodeless fluorescent lamp and discharge lamp lighting device
InactiveUS20040135523A1Improve performanceElectric light circuit arrangementGas discharge lamp usageGas-discharge lampEffect light
A discharge lamp operating apparatus or a compact self-ballasted fluorescent lamp includes: an AC/DC conversion unit 5 for converting an alternating voltage phase-controlled by a dimmer 2 into a direct current voltage; a DC/AC conversion unit 6 for converting an output from the AC/DC conversion unit 5 into a high frequency voltage and applying the high frequency voltage to a discharge lamp, whereby the discharge lamp is intermittently operated; and a dimming control unit 7 which generates a dimming instruction signal for driving the DC/AC conversion unit 6 so that the discharge lamp performs an intermittent operation and outputs the dimming instruction signal to the DC/AC conversion unit via a photocoupler 9, and synchronizes the timings of turn-ON and turn OFF of the phase-controlled voltage with the timings of turn-ON and turn OFF of an operation of the DC/AC conversion unit 6, respectively.
Owner:PANASONIC CORP
Jet apparatus capable of blocking discharging from generating low temperature plasma by atmos medium
InactiveCN101330794ASolve the problem of limited application rangeEasy to modifyPlasma techniquePlasma jetParallel plate
A jetting device for a low-temperature plasma generated by the atmospheric dielectric barrier discharge relates to the technical field of the application of gas discharge plasma. Inert gas and air are used as working gas; the plasma generated in a discharge area is blown out in the form of jet; the problem of limited application range caused by the narrow parallel-plate dielectric barrier discharge area and a high plasma macroscopic temperature can be solved. The device has the structural characteristics that a hollow pipe-shaped connector is connected with a hollow dielectric pipe; an electrode coated with insulation dielectric is fixed at the center of the dielectric pipe; an annular electrode is closely attached to the outer wall of the dielectric pipe; the working gas enters the dielectric pipe from a flow meter and a retaining valve through the connector; the plasma is blown out to form the plasma jetting. The jetting device has the advantages of low plasma macroscopic temperature, large electron energy, wide expanded range, low cost, low energy consumption and high reliability; furthermore, the jetting device can used in the fields of sterilization and disinfection, the surface modification of complex-shaped material, waste gas treatment, ozone synthesis, as well as the physical and chemical fields of the discharge light source plasma.
Owner:XI AN JIAOTONG UNIV
Systems and methods for a transformer configuration for driving multiple gas discharge tubes in parallel
InactiveUS20050093483A1None provide any indicationImprove balanceElectric light circuit arrangementSolid cathode detailsPower inverterGas-discharge lamp
An apparatus and methods for balancing current in multiple negative impedance gas discharge lamp loads. Embodiments advantageously include balancing transformer configurations that are relatively cost-effective, reliable, efficient, and good performing. Embodiments include configurations that are applicable to any number of gas discharge tubes, such as cold cathode fluorescent lamps. The balancing transformer configuration techniques permit a relatively small number of power inverters, such as one power inverter, to power multiple lamps in parallel. One embodiment of a balancing transformer includes a safety winding which can be used to protect the balancing transformer in the event of a lamp failure and can be used to provide an indication of a failed lamp.
Owner:MICROSEMI
Mixed mode control for dimmable fluorescent lamp
ActiveUS7420333B1Reducing pulse widthReduce turning timeElectrical apparatusElectric light circuit arrangementGas-discharge lampMixed mode
A mixed mode control for dimmable fluorescent lamp provides a smooth and continuous control of output of the lamp. A load threshold, below which the output of the discharge lamp could not be effectively controlled by the conventional frequency control, is determined. During the dimming of the discharge lamp, when the load is not lower than the load threshold, the conventional frequency control is employed. However, when the load is lower than the load threshold, a complementary duty cycle control is used.
Owner:MARVELL ASIA PTE LTD
Ballast with arc protection circuit
InactiveUS7042161B1Electric light circuit arrangementGas discharge lamp usageGas-discharge lampTimer
FA ballast (20) for powering a gas discharge lamp (70) comprises an inverter (200) and an arc protection circuit (600). Arc protection circuit (600) monitors an electrical signal within the ballast. In response to occurrence of a disturbance in the signal, such as what occurs during output arcing, arc protection circuit (600) disables the inverter (200) for a timed shutdown period. Arc protection circuit (600) provides a timed starting period for igniting the lamp, during which time any disturbance in the electrical signal is essentially ignored and inverter (200) is allowed to continue to operate. Arc protection circuit (600) also provides a restart function for periodically attempting to ignite and operate the lamp. Arc protection circuit (600) is preferably realized using a timer integrated circuit (U1) with associated discrete circuitry, and may be adapted for use with ballasts having self-oscillating or driven type inverters.
Owner:OSRAM SYLVANIA INC
Fluorescent bulb cover
InactiveUS20110242823A1Reduces and eliminates ultraviolet lightEvenly distributedElongate light sourcesLighting heating/cooling arrangementsGas-discharge lampElectric light
Disclosed is a cover for a compact fluorescent light employing a two piece clamshell shape assimilating a conventional incandescent light bulb. The cover is formed from two clamshells hingedly secured along a top end having inter-engaging means for securing one clamshell to a second clamshell tightly securing the cover to the base of a compact fluorescent light. In the preferred embodiment, the housing is made of material to reduce or eliminate ultraviolet light produced from a gas discharge lamp and provide a cover that can be decorative through the emulation of a conventional incandescent light bulb or decorated with colors and materials wherein the fluorescent light provides back lighting or where images are placed upon the housing so as to allow the back lighting to operate as a projection surface placing images on a wall separate from the light bulb.
Owner:TRACY LISA +1
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