Patent application number | Description | Published |
20090108766 | CIRCUIT WITH IMPROVED EFFICIENCY AND CREST FACTOR FOR CURRENT FED BIPOLAR JUNCTION TRANSISTOR (BJT) BASED ELECTRONIC BALLAST - A current fed bipolar junction transistor (BJT) based inverter ballast includes base drive circuits configured to drive respective BJT switches, and high-speed drive reverse peak current limiting circuits, configured to operate in conjunction with the respective base drive circuits. | 04-30-2009 |
20090115340 | METHOD AND SYSTEM FOR ELIMINATING DC BIAS ON ELECTROLYTIC CAPACITORS AND SHUTDOWN DETECTING CIRCUIT FOR CURRENT FED BALLAST - A system and method is provided that eliminates DC bias on at least one of a first electrolytic capacitor and a second electrolytic capacitor of a bipolar junction transistor (BJT) based inverter ballast having a shutdown control circuit in association with only one of at least two BJT switches. A duty cycle dependent capacitor is connected in a series with a bus of the ballast, and a resonant circuit, including primary winding of the output transformer and a resonant capacitor. A balancing/charging resistor is connected at one end between the first electrolytic capacitor and the second electrolytic capacitor, and at another end to the duty cycle dependent capacitor and the resonant circuit. | 05-07-2009 |
20090200955 | COMBINED BALLAST FOR FLUORESCENT LAMP AND LIGHT EMITTING DIODE AND METHOD OF DRIVING SAME - A circuit or combined ballast for driving a fluorescent lamp and at least one light emitting diode (LED) includes an integrated driver circuit having an alternating current (AC) circuit that includes at least one ballast coil for driving the fluorescent lamp and a direct current circuit for driving the LED having a secondary winding inductively coupled with the fluorescent lamp ballast coil for driving the LED. A method of driving a lamp assembly includes at least one fluorescent lamp and at least one light emitting diode (LED) and a combined driver circuit for supplying both the fluorescent lamp and the LED. The combined driver circuit supplies high voltage AC supply to a first portion of the driver circuit to the fluorescent lamp, supplies low voltage DC supply in a second portion of the driver circuit to the LED, and provides a secondary winding in the second portion of the driver circuit that is inductively coupled with a ballast coil in the first portion of the driver circuit that drives the fluorescent lamp. | 08-13-2009 |
20100097000 | LOW COST COMPACT SIZE SINGLE STAGE HIGH POWER FACTOR CIRCUIT FOR DISCHARGE LAMPS - The present application claims a compact low cost topology solution of a ballast for a discharge lamp that can provide both high power factor and low total harmonic distortion with fewer components than prior art. The topology provides the feature of a low crest factor and quick start that increase both the lamp life and the number of starts for the product. By using Bipolar Junction Transistor instead of Field Effect Transistor as the main switches and also a lower value electrolytic, the cost and size are considerably reduced. | 04-22-2010 |
20100097010 | PARALLEL TRANSFORMER WITH OUTPUT SIDE ELECTRICAL DECOUPLING - A higher power package is provided in a smaller package by providing at least first and second magnetics in parallel in first and second transformers. To limit degrading performance associated with circulating current between the two transformers, the transformers are electrically decoupled. In a preferred embodiment, the circuit includes parallel primary and secondary windings of the transformer that are decoupled electrically on an output side. Particularly, diodes are provided in a preheat portion of the circuit so that once the preheat phase is terminated, the diodes prevent current flow in one direction through the preheat portion of the circuit. | 04-22-2010 |
20100123404 | LED DRIVER WITH SINGLE INVERTER CIRCUIT WITH ISOLATED MULTI-CHANNEL OUTPUTS - A single-converter circuit-based LED driver circuit ( | 05-20-2010 |
20120086351 | METHOD TO ENSURE BALLAST STARTING REGARDLESS OF HALF CYCLE INPUT - A ballast circuit ( | 04-12-2012 |
20130187557 | MULTI-LEVEL ADAPTIVE CONTROL CIRCUITRY FOR DEEP PHASE-CUT DIMMING COMPACT FLUORESCENT LAMP - An electronic ballast has a rectifying circuit for rectifying an input voltage controlled by a phase dimmer. The electronic ballast has an averaging circuit for averaging current received from the rectifying circuit to produce a reference voltage. The electronic ballast has a control integrated circuit for providing an output current to a compact fluorescent lamp by performing a linear to logarithmic conversion of the reference current, according to a predefined conversion function. | 07-25-2013 |
20130294088 | SELF-LOCKING TRIM RING AND CHANNEL FOR OPTIC LENS - A lamp comprises an optical lens. The lamp further comprises a self-locking trim ring including a plurality of teeth. The self-locking trim ring is disposed over the optical lens. The lamp further comprises a heat sink. The heat sink has an inner chamber wherein the optical lens is disposed in the inner chamber. The heat sink also has an outer chamber disposed radially outwardly from the inner chamber. The outer chamber has a recess that engages the plurality of teeth. The self-locking trim ring secures the optical lens to the heat sink. | 11-07-2013 |
20130294097 | LAMP HEAT SINK - A lamp heat sink includes a plurality of heat dissipating fins disposed around a body and extending away from the body. The lamp heat sink further comprises a heat dissipating circumferent skirt surrounding the body and disposed between the plurality of heat dissipating fins. The lamp heat sink further comprises a plurality of channels disposed around the body, formed by the plurality of heat dissipating fins and the heat dissipating circumferent skirt. The plurality of channels each include an intake opening configured to receive cold air and an exhaust opening configured to release warm air. | 11-07-2013 |
20130307417 | HIGH POWER DIRECT DRIVE CIRCUIT - A driver circuit for driving an LED includes a rectifier circuit to receive AC voltage and to convert the AC voltage to DC voltage. The driver circuit further includes a filter circuit for filtering the DC voltage. The driver circuit further includes a detection circuit for determining a change in the filtered DC voltage over a predetermined time interval. The driver circuit further includes a dampening circuit for dampening the filtered DC voltage responsive to the detection circuit determining that the change in filtered DC voltage over the predetermined time interval exceeds a predetermined threshold. | 11-21-2013 |
20140312794 | THREE-WAY OMNI-DIRECTIONAL LED LAMP DRIVER CIRCUIT - An LED driver circuit has a rectifier circuit including a first input terminal coupled to a first AC voltage line and a second input terminal coupled to a second AC voltage line. The rectifier circuit is configured to convert a first AC voltage on the first AC voltage line and a second AC voltage on the second AC voltage line to a DC voltage. The driver circuit has a switching circuit coupled to the first AC voltage line and to the second AC voltage line and configured to generate a reference AC voltage based on the first AC voltage and the second AC voltage. The driver circuit has a power management circuit configured to provide a current or power to an LED lamp based on the generated AC reference voltage. The driver circuit has a power supply circuit configured to provide a constant current or power to the power management circuit. | 10-23-2014 |
20140313729 | OMNI-DIRECTIONAL LED LAMP - A lamp includes an LED assembly and a heat sink in thermal communication with the LED assembly. The heat sink includes a plurality of fins disposed around a body and extending away from the body. The lamp includes a plurality of lenses disposed around the body, in between the plurality of fins. A lens includes a slot disposed at the top of the lens and a protruding pin configured to engage with a hole on the heat sink. The lamp also includes a cap disposed at the top of the lamp. The cap includes a plurality of ridges configured to align with and interlock with the grooves of the plurality of lenses. | 10-23-2014 |
20140313748 | FILAMENT LED LAMP - An LED lamp includes a thermally conductive base including an appendage protruding from a center of a first end and an opening to cavity on a second end. The appendage includes a channel coupled to the cavity. The LED lamp further includes an LED assembly disposed at an end of the protruding appendage and in thermal communication with the base. The LED assembly further includes a bulb disposed on the first end, wherein the appendage protrudes in a direction towards the center of the bulb, and wherein the LED assembly is proximate to the center of the bulb. The LED assembly further includes an electrical housing, configured to house an electrical module, disposed inside the cavity of the base. An electrical wire disposed inside the channel electrically couples the LED assembly to the electrical module. | 10-23-2014 |
20140327355 | LED PAR LAMP IN A WIRELESS NETWORK ENVIRONMENT - A flat LED PAR lamp having an antenna secured to the exterior parabolic wall of the glass reflector for use in a wireless network. The interior wall is coated with an aluminized reflective coating that shields the antenna from the internally radiated noise. The aluminized parabolic reflector, together with its companion flat clear lens, is made using a lead-free glass to improve the lumen preservation over the life of the lamp. An efficient LED lamp array is used as the primary source of illumination within the parabolic reflector. Mounted in the base of the LED PAR lamp is the wireless communication and control. | 11-06-2014 |
20140334158 | LED LAMP WITH CONTROLLED DISTRIBUTION - An LED lamp includes a heat dissipating base. The LED lamp further includes an LED assembly, including a plurality if LEDs. The LED assembly is in thermal communication with the heat dissipating base. The LED lamp further includes a bulb disposed over the LED assembly and coupled to the heat dissipating base. The LED lamp further includes a reflective insert disposed inside the bulb and configured to reflect a portion of light generated by the LED assembly in a substantially downward direction. | 11-13-2014 |