Patents Assigned to Topanga Technologies, Inc.
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Publication number: 20140187116Abstract: A plasma lamp apparatus. The apparatus has an arc tube structure having an inner region and an outer region in one or more embodiments. The arc tube structure has a first end comprising an associated first end diameter and a second end comprising a second end diameter according to a specific embodiment. The apparatus also has a center region provided between the first end and the second end in one or more embodiments. The center region has a center diameter, which is less than a first end diameter and/or a second end diameter.Type: ApplicationFiled: December 13, 2013Publication date: July 3, 2014Applicant: TOPANGA TECHNOLOGIES, INC.Inventor: DOUGLAS A. DOUGHTY
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Patent number: 8674603Abstract: An electrodeless plasma lamp includes a bulb containing a gas-fill and light emitter(s) excited to produce light using radio-frequency (RF) energy. Input and output coupling elements separated from each other by a gap couple RF energy from an RF source to the bulb. One end of the input coupling element is electrically connected to an RF source while the other end is connected to ground. One end of the output coupling element is connected to ground while the other end is connected to the bulb.Type: GrantFiled: September 27, 2012Date of Patent: March 18, 2014Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Mehran Matloubian, Timothy J. Brockett, David Schmelzer
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Publication number: 20140062298Abstract: This disclosure is directed to devices and methods for generating light with electrode-less plasma lamps. More particularly, the present invention provides plasma lamps driven by a radio-frequency source without the use of electrodes inside the bulb, and a pulse-width modulation device that provides RF power regulation, and related methods. The bulb comprises gaseous material with metal halides and/or light emitters that, when powered, substantially stays in an arc shape state. The switching pulse-width modulation device is operable at specific modulation frequencies, duty cycles, and durations to stabilize or control the arc state/mode, which enables consistent and high efficiencies.Type: ApplicationFiled: August 31, 2012Publication date: March 6, 2014Applicant: Topanga Technologies, Inc.Inventors: Timothy Brockett, David Schmelzer, Aric Dorschner, Mehran Matloubian
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Patent number: 8629616Abstract: A plasma lamp apparatus. The apparatus has an arc tube structure having an inner region and an outer region in one or more embodiments. The arc tube structure has a first end comprising an associated first end diameter and a second end comprising a second end diameter according to a specific embodiment. The apparatus also has a center region provided between the first end and the second end in one or more embodiments. The center region has a center diameter, which is less than a first end diameter and/or a second end diameter.Type: GrantFiled: January 11, 2011Date of Patent: January 14, 2014Assignee: Topanga Technologies, Inc.Inventor: Douglas A. Doughty
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Patent number: 8545067Abstract: A shock resistant outdoor lamp has a bulb assembly includes a shock resistant gas-filled vessel coupled to an RF source. The vessel has a transparent or translucent body having an inner surface and an outer surface and a cavity formed within the inner surface. The gas-filled vessel comprises a first end region and a second end region. The bulb assembly has a length provided between the first end region and the second end region and ranging from about 0.5 centimeter to about three centimeters characterizing the gas-filled vessel. The bulb assembly at least one or more coupling members operably coupled to the gas-filled vessel such that the outer surface of the gas-filled vessel is substantially free from mechanical damage caused with the one or more coupling members and substantially free from any openings in the thickness.Type: GrantFiled: March 9, 2010Date of Patent: October 1, 2013Assignee: Topanga Technologies, Inc.Inventor: Frederick M. Espiau
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Patent number: 8525430Abstract: A plasma lamp apparatus includes a post structure with a material overlying a surface region of the post structure, which has a first end and a second end. The apparatus also has a helical coil structure configured along the post structure. The apparatus includes a bulb with a fill material capable of emitting electromagnetic radiation. A resonator coupling element configured to feed radio frequency energy to at least the helical coil causes the bulb device to emit electromagnetic radiation.Type: GrantFiled: June 4, 2010Date of Patent: September 3, 2013Assignee: Topanga Technologies, Inc.Inventors: Timothy J. Brockett, David P. Schmelzer, Mehran Matloubian, Frederick M. Espiau
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Patent number: 8525412Abstract: A plasma lamp system is described with the capability to tune the resonant frequency of the resonator of the plasma lamp system after the manufacturing process has been completed. The tuning method developed allows a simple low-cost approach to continuously tune the resonant frequency and set the desired frequency to an ISM (Industrial Scientific Medical) band or set the resonant frequency to optimize the performance of the system. The tuning ability of the resonator relaxes the tolerance required for the dimensions of the resonator reducing the manufacturing cost and improving the manufacturing yield of the plasma lamp.Type: GrantFiled: February 1, 2012Date of Patent: September 3, 2013Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Erik H. M. Lundin
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Publication number: 20130175921Abstract: An electrode-less plasma lamps, comprising generally of a bulb containing a gas-fill that is excited to produce light using radio-frequency (RF) energy. In specific embodiments, the use of grounded coupling-elements with integrated bulb assemblies simplifies manufacturability, improves resonant frequency control, and enables the use of solid, partially filled, and hollow lamp bodies.Type: ApplicationFiled: September 27, 2012Publication date: July 11, 2013Applicant: Topanga Technologies, Inc.Inventor: Topanga Technologies, Inc.
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Publication number: 20130113374Abstract: An electrodeless plasma lamp includes a bulb containing a gas-fill and light emitter(s) excited to produce light using radio-frequency (RF) energy. Input and output coupling elements separated from each other by a gap couple RF energy from an RF source to the bulb. One end of the input coupling element is electrically connected to an RF source while the other end is connected to ground. One end of the output coupling element is connected to ground while the other end is connected to the bulb.Type: ApplicationFiled: September 27, 2012Publication date: May 9, 2013Applicant: Topanga Technologies, Inc.Inventors: FREDERICK M. ESPIAU, Mehran Matloubian, Timothy J. Brockett, David Schmelzer
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Patent number: 8427067Abstract: Described is an electrode-less plasma lamp comprising a gas-fill vessel, a gas-fill contained within the gas-fill vessel, an RF electromagnetic radiation source, an RF electromagnetic resonator, an output probe that couples RF energy from the RF electromagnetic resonator to the gas-fill vessel, an input probe that couples RF energy from the RF electromagnetic radiation source to the resonator, and a grounding strap that holds a metal veneer surrounding the resonator and a portion of the gas-fill vessel at RF ground. Also described are many variations of the electrode-less plasma lamp; non-limiting examples of which include embodiments that employ other probes in a Dielectric Resonant Oscillator to drive the lamp, and many methods of improving light-harvesting, including raising the gas-fill vessel away from the resonator via a coaxial type transmission line, and collecting light with an optical reflector.Type: GrantFiled: December 16, 2011Date of Patent: April 23, 2013Assignee: Topanga Technologies, Inc.Inventors: Frederick Matthew Espiau, Mehran Matloubian
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Patent number: 8421325Abstract: An RF electrodeless plasma lamp with improved efficiency in higher lumens per watt includes a waveguide body, in which an RF signal drives the entire structure at the resonant frequency of the structure. The resonant frequency of the structure is lowered by increasing the overall capacitance of the waveguide body by adding at least two layers of dielectric material between the input feed and the bulb of the lamp. The layered structure can include an air cavity disposed between a dielectric layer and the input feed. In lowering the resonant frequency of the lamp, the device is capable of using RF amplifiers that have higher efficiency, and thus has a higher lumens per watt ratio.Type: GrantFiled: June 18, 2010Date of Patent: April 16, 2013Assignee: Topanga Technologies, Inc.Inventors: Mehran Matloubian, Frederick M. Espiau
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Patent number: 8384300Abstract: An RF electrode-less plasma lighting device has a base member, which includes an outer region capable of being coupled to first AC potential and an inner region capable of being coupled to a second AC potential. In a preferred embodiment, the device has an RF module mechanically and integrally coupled to the base member. The RF module has an RF source, which has an output. The RF module has a first DC input and a second DC input. The first DC input of the RF module is coupled to a first DC potential and the second DC input of the RF module is coupled to a second DC potential. In a specific embodiment, the present device has an RF electrodeless plasma lighting assembly integrally coupled to the base member. The RF plasma lighting assembly has an RF input, which is coupled to the output of the RF source.Type: GrantFiled: August 31, 2010Date of Patent: February 26, 2013Assignee: Topanga Technologies, Inc.Inventors: Mehran Matloubian, Frederick M. Espiau
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Patent number: 8373352Abstract: An electrodeless plasma lamp array structure uses multiple plasma lamps to produce large amounts of electromagnetic radiation (visible, IR, UV, or a combination of visible, IR, and UV). An M by N array configuration is powered by either a single RF power source or multiple RF power sources. The array incorporates controllers to adjust the power delivered from the RF power source to each lamp within the array. By adjusting the delivered RF power, the intensity of electromagnetic radiation that is emitted from each lamp is controlled independently allowing for the creation of an array of lamps that emit electromagnetic radiation of varying intensity levels at different places within the array. Using lamps with different color temperatures as part of the array allows the color temperature and the color rendering index of the illumination to achieve different lighting conditions.Type: GrantFiled: June 11, 2010Date of Patent: February 12, 2013Assignee: Topanga Technologies, Inc.Inventors: Douglas A. Doughty, Mehran Matloubian, Frederick M. Espiau
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Patent number: 8344624Abstract: An electrodeless plasma lamp apparatus includes a waveguide body having at least a first material and a second material. At least one of the materials has a dielectric constant of less than two. In a specific embodiment, the apparatus also includes an RF power source coupled to the waveguide body to provide RF power to the waveguide body at least one frequency that resonates within the waveguide body. A bulb containing a fill which forms a plasma to cause emission of light when the RF power is provided to the waveguide body.Type: GrantFiled: June 10, 2010Date of Patent: January 1, 2013Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Mehran Matloubian
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Patent number: 8344625Abstract: A plasma lamp apparatus that includes an improved bulb support assembly to increase the lumens per watt output of the apparatus. The bulb support assembly includes a support structure that forms a cavity for receiving the bulb. The bulb is supported within the cavity though a protrusion that extends out from the support structure in a curved manner. By created a curved protrusion, the electric field within the resonating structure of the lamp apparatus is lowered. Lowering the electric field leads to lower resonating frequencies of the resonating structure. In lowering the resonating frequency, the resonating structure is driven to resonate at lower power levels, thereby increasing the lumens per watt output of the lamp apparatus.Type: GrantFiled: June 28, 2010Date of Patent: January 1, 2013Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Mehran Matloubian
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Publication number: 20120286664Abstract: A plasma lamp system is described with the capability to tune the resonant frequency of the resonator of the plasma lamp system after the manufacturing process has been completed. The tuning method developed allows a simple low-cost approach to continuously tune the resonant frequency and set the desired frequency to an ISM (Industrial Scientific Medical) band or set the resonant frequency to optimize the performance of the system. The tuning ability of the resonator relaxes the tolerance required for the dimensions of the resonator reducing the manufacturing cost and improving the manufacturing yield of the plasma lamp.Type: ApplicationFiled: February 1, 2012Publication date: November 15, 2012Applicant: Topanga Technologies, Inc.Inventors: FREDERICK M. ESPIAU, Erik H.M. Lundin
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Patent number: 8294368Abstract: An electrodeless plasma lamp includes a bulb containing a gas-fill and light emitter(s) excited to produce light using radio-frequency (RF) energy. Input and output coupling elements separated from each other by a gap couple RF energy from an RF source to the bulb. One end of the input coupling element is electrically connected to an RF source while the other end is connected to ground. One end of the output coupling element is connected to ground while the other end is connected to the bulb.Type: GrantFiled: June 18, 2010Date of Patent: October 23, 2012Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Mehran Matloubian, Timothy J. Brockett, David Schmelzer
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Patent number: 8292483Abstract: An optical waveguide system with an electrodeless plasma lamp as the electromagnetic radiation source. The system includes an optic source coupling element that receives the electromagnetic radiation that is emitted from at least one electrodeless plasma lamp. The optic source coupling element is coupled to at least one optical waveguide element. The optical waveguide element includes at least one fiber optic cable that is capable of transmitting the emitted electromagnetic radiation. The fiber optic cable can be positioned such that the electromagnetic radiation is transmitted at a desired position away from the electrodeless plasma lamp source.Type: GrantFiled: August 31, 2010Date of Patent: October 23, 2012Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Mehran Matloubian
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Patent number: 8283866Abstract: An electrode-less plasma lamps comprises generally of a bulb containing a gas-fill that is excited to produce light using radio-frequency (RF) energy. In specific embodiments, the use of grounded coupling-elements with integrated bulb assemblies simplifies manufacturability, improves resonant frequency control, and enables the use of solid, partially filled, and hollow lamp bodies. In some embodiments, a method of operating an electrodeless plasma lamp device includes transferring RF energy from the RF source to an input coupling-element and illuminating electromagnetic energy substantially from the length of a gas-filled vessel from discharge of the gas-filled vessel.Type: GrantFiled: October 13, 2010Date of Patent: October 9, 2012Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Timothy J. Brockett, Mehran Matloubian
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Patent number: D671662Type: GrantFiled: December 22, 2011Date of Patent: November 27, 2012Assignee: Topanga Technologies, Inc.Inventors: Frederick M. Espiau, Mehran Matloubian