Mariner
Brian Mariner, Palo Alto, CA US
Patent application number | Description | Published |
---|---|---|
20140315592 | Wireless Device With Dynamically Adjusted Maximum Transmit Powers - An electronic device may be provided with antenna structures. Proximity sensors and other sensors may be used in determining how the electronic device is being operated. Wireless circuitry such as a radio-frequency transmitter associated with a cellular telephone communications band, a wireless local area network band, or other communications band may be used in transmitting radio-frequency signals through the antenna structures at a transmit power. Control circuitry may adjust the wireless circuitry to ensure that the transmit power is capped at a maximum transmit power. The maximum transmit power may be adjusted dynamically by the control circuitry based on data from the proximity sensors, data from a magnetic sensor that detects whether a cover is present on the device, a connector sensor that detects whether the device is coupled to a dock or other accessory, and other sensors. | 10-23-2014 |
Gerhard Mariner, Bidingen DE
Patent application number | Description | Published |
---|---|---|
20110284308 | Exhaust Systems for Vehicles - An exhaust system for an agricultural and/or industrial tractor ( | 11-24-2011 |
20120217082 | TRACTOR - A tractor has a chassis ( | 08-30-2012 |
John Mariner, Avon Lake, OH US
Patent application number | Description | Published |
---|---|---|
20100040780 | Large volume evaporation source - A containment vessel for evaporating materials for use in applying film coatings to a substrate includes a body fabricated from a refractory material. In one embodiment the body includes end portions capable of being connected to other bodies in an end to end fashion. In another embodiment, the body includes an integral patterned conductor incorporated into the outer surface portion of the body to facilitate association with an electrical power source for heating. | 02-18-2010 |
20100071614 | Fluid distribution apparatus and method of forming the same - A fluid distribution apparatus and method of forming such an apparatus is provided. A fluid distribution apparatus includes a body, a plenum, an inlet, and an outlet. The body is formed from at least one of a nitride, carbide, carbonitride, oxynitride of elements comprising boron, aluminum, silicon, gallium, refractory hard metals, transition metals, and rare earth metals, or complexes or combinations thereof. The plenum is positioned within the body. The inlet passes through a first portion of the body and is in fluid communication with the plenum, and the outlet passes through a second portion of the body and is also in fluid communication with the plenum. | 03-25-2010 |
20100326645 | THERMAL PYROLYTIC GRAPHITE LAMINATES WITH VIAS - A thermally conductive laminate comprising a first substrate, a second substrate, and a performance layer disposed between the first substrate and the second substrate. The performance layer comprising thermal pyrolytic graphite (TPG) and vias. The TPG board surface and the vias may be at least partially filled with a material comprising at least one of thermally conductive epoxy, soldering metal/alloy or brazing metal/alloy. In addition, the thermally conductive laminate may not contain a framing structure surrounding the performance layer. | 12-30-2010 |
20120234524 | HIGH THERMAL CONDUCTIVITY/LOW COEFFICIENT OF THERMAL EXPANSION COMPOSITES - A high thermal conductivity/low coefficient of thermal expansion thermally conductive composite material for heat sinks and an electronic apparatus comprising a heat sink formed from such composites. The thermally conductive composite comprises a high thermal conductivity layer disposed between two substrates having a low coefficient of thermal expansion. The substrates have a low coefficient of thermal expansion and a relatively high modulus of elasticity, and the composite exhibits high thermal conductivity and low coefficient of thermal expansion even for composites with high loadings of the thermally conductive material. | 09-20-2012 |
20120315405 | HOT WIRE CHEMICAL VAPOR DEPOSTION (HWCVD) WITH CARBIDE FILAMENTS - A hot wire chemical vapor deposition apparatus for use in depositing thin films such as amorphous or epitaxial silicon upon a surface of a wafer or substrate by cracking a source or precursor gas such as silane. The apparatus includes a vacuum chamber and a source of precursor gas operable to inject the precursor gas into the chamber. The HWCVD apparatus also includes a heater with a support surface exposed to the deposition chamber, and the heater is operable to heat a substrate positioned upon the support surface. The apparatus includes a catalytic decomposition assembly with a filament positioned between the heater and the precursor gas inlet for selectively passing a current through the filament to resistively heat material of the filament. The filament material may be carbide such as tantalum carbide, which may be coated on a graphite core. | 12-13-2012 |
20150253089 | THERMAL MANAGEMENT ASSEMBLY COMPRISING BULK GRAPHENE MATERIAL - A thermal management assembly comprising a bulk graphene material and a metal-based coating layer disposed on opposing surfaces of the bulk graphene core material comprising an agent that is reactive with the graphene to form a carbide. The metal-based coating layer can serve as an outer layer of the assembly or can serve to bond the graphene to other materials encapsulating the graphene core. The metal-based coating layer with the reactive agent provides an assembly exhibiting excellent thermal conductivity properties and greatly improved thermal interface resistance. | 09-10-2015 |
John T. Mariner, Avon Lake, OH US
Patent application number | Description | Published |
---|---|---|
20090152259 | Electrode tuning method and apparatus for a layered heater structure - A layered heater structure including an electrode layer and a localized tuning method for tuning the electrode layer of a layered heater structure with high precision is provided. The localized tuning method tunes the electrode layer to its proper local resistance to minimize temperature offsets on the heater surface and thus provide a desired thermal profile that is in marked contrast to conventional, non-localized resistance tuning approaches based on thickness trimming practices, such as grinding or blasting, or resistivity adjustment, such as local heat treatment. | 06-18-2009 |
Paul Mariner, Brossard CA
Patent application number | Description | Published |
---|---|---|
20120230310 | WIRELESS COMMUNICATION METHOD AND WLAN FOR SIGNALING DEFERRAL MANAGEMENT MESSAGES - A deferral management method is implemented in a wireless local area network (WLAN) including an access point (AP) and a plurality of wireless transmit/receive units (WTRUs). The AP sends a deferral management capabilities request message to the WTRUs to determine the deferral management capabilities of the WTRUs. In response, each of the WTRUs sends a deferral management capabilities indicator message to the AP. The AP may also send a deferral management parameter set message to the WTRUs to indicate values for setting deferral management parameters. In response, each of the WTRUs may optionally send a deferral management parameter set execution confirmation message to the AP. The WTRUs may also set the values of various deferral management parameters in accordance with a certain rule specified in a deferral management rule message sent by the AP. Optionally, the WTRUs may respond to the AP with a deferral management rule execution confirmation message. | 09-13-2012 |
Peter Mariner, Superior, CO US
Patent application number | Description | Published |
---|---|---|
20100199919 | No-Mess Pet Cafe - The present invention is an animal feeder that allows for continued feeding, over a multitude of days if desired, of a smaller animal and has the ability to exclude other larger animals from its interior. The animal feeder may be constructed from three separate parts and excludes other animals by way of a size-exclusionary opening. | 08-12-2010 |
Peter D. Mariner, Superior, CO US
Patent application number | Description | Published |
---|---|---|
20130243878 | BIOMATERIALS FOR DELIVERY OF BLOOD EXTRACTS AND METHODS OF USING SAME - The disclosure provides biomaterials including scaffolds that include blood products including blood fractions and products including platelets for administration to subjects in need thereof. More specifically, the scaffolds based on step growth polymers are enriched with blood extracts that contain platelet rich plasma (PRP) and/or extracts of platelets. Compositions comprising a biomaterial or precursor thereof and a blood extract are provided, as are methods of making and using the biopolymers or precursors thereof. Kits and articles of manufacture comprising the biopolymers or precursors thereof are also described. | 09-19-2013 |
20140273153 | COVALENT MODIFICATION OF BIOLOGICAL MACROMOLECULES - The present disclosure provides a method of covalently modifying a biological macromolecule, the method comprising subjecting a reaction mixture comprising: (a) a biological macromolecule comprising one or more thiol groups; and (b) a molecule comprising one or more olefin or alkyne moieties to a radical reaction under conditions sufficient to produce the covalently modified biological macromolecule. The present disclosure also provides a method of covalently modifying a biological macromolecule, the method comprising subjecting a reaction mixture comprising: (a) a molecule comprising one or more thiol groups; and (b) a biological macromolecule comprising one or more olefin or alkyne moieties to a radical reaction under conditions sufficient to produce the covalently modified biological macromolecule. The present disclosure further provides a covalently modified biological macromolecule prepared by any of the disclosed methods. The covalently modified biological macromolecules may be further crosslinked to form a scaffold. | 09-18-2014 |
Trevor Mariner, South Brisbane AU
Patent application number | Description | Published |
---|---|---|
20150354652 | BRAKE SENSOR - A brake sensor and method of use, the brake sensor having a housing and a biased displacement member that extends from the housing into a brake pack assembly. Displacement of the displacement member is measured using a sensor which indicates the amount of wear of brake pads within the brake pack assembly. | 12-10-2015 |