Senk
David Senk, San Jose, CA US
Patent application number | Description | Published |
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20140119703 | Printed Circuit Board Comprising Both Conductive Metal and Optical Elements - A printed circuit board (PCB) may be provided. The PCB may comprise a first electrically conductive layer comprising a first signal layer. Also, the PCB may comprise a second electrically conductive layer comprising a second signal layer or a plane layer associated with the first signal layer. The PCB may further comprise a waveguide layer disposed between the first electrically conductive layer and adjacent the second electrically conductive layer. The waveguide layer may transmit optical signals and function as a dielectric between the first electrically conductive layer and the second electrically conductive layer. | 05-01-2014 |
David Senk, San Ramon, CA US
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20130098671 | MULTIPLE LAYER PRINTED CIRCUIT BOARD - A printed circuit board (PCB) stack-up has a signal via configured to transmit a signal through at least two different layers of the PCB stack-up, a reference structure that is at least a portion of a return path for the signal; and an unplated via disposed in an area surrounding the signal via. The unplated via is disposed in the area surrounding the signal via to improve the characteristic impedance of the signal via. | 04-25-2013 |
20130108118 | METHOD AND APPARATUS FOR DETERMINING SURFACE ROUGHNESS OF METAL FOIL WITHIN PRINTED CIRCUITS | 05-02-2013 |
David D. Senk, San Ramon, CA US
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20090188710 | SYSTEM AND METHOD FOR FORMING FILLED VIAS AND PLATED THROUGH HOLES - Methods and apparatus for creating a filled, backdrilled plated through hole in a printed circuit board are disclosed. According to one aspect of the present invention, a method includes defining a hole in a printed circuit board panel. The hole has a first surface, and includes at least a first portion and a second portion. The method also includes plating the first surface with a conductive material, to create a plated surface, and removing at least a first area of the plated surface. The first area of the plated surface is associated with the second portion, and removing the first area of the plated surface includes expanding a size of the hole associated with the second portion. Finally, the method includes filling the hole with a non-conductive material. | 07-30-2009 |
Dieter Georg Senk, Aachen DE
Patent application number | Description | Published |
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20080237944 | Method For Operating a Shaft Furnace, and Shaft Furnance Operable By That Method - Method for operating a shaft furnace, whereby an upper section of the shaft furnace is charged with raw materials which due to gravity descend inside the furnace while the atmosphere prevailing within the shaft furnace causes part of the raw materials to melt and/or to be reduced, and in a lower section of the shaft furnace a process gas is injected so as to at least partly modify the atmosphere prevailing in the shaft furnace. The pressure and/or volume flow of the injected process gas is dynamically modulated within a time span of 40 s. Also, a shaft furnace operable by said method, thus achieving improved through-gassing. | 10-02-2008 |
20100251855 | SHAFT FURNACE AND METHOD FOR OPERATING A FURNACE - The invention relates to a method for operating a shaft furnace ( | 10-07-2010 |
20120217684 | METHOD FOR OPERATING A SHAFT FURNACE, AND SHAFT FURNACE OPERABLE BY THAT METHOD - Method for operating a shaft furnace, whereby an upper section of the shaft furnace is charged with raw materials which due to gravity descend inside the furnace while the atmosphere prevailing within the shaft furnace causes part of the raw materials to melt and/or to be reduced, and in a lower section of the shaft furnace a process gas is injected so as to at least partly modify the atmosphere prevailing in the shaft furnace. The pressure and/or volume flow of the injected process gas is dynamically modulated within a time span of 40 s. Also, a shaft furnace operable by said method, thus achieving improved through-gassing. | 08-30-2012 |
Gerald B. Senk, Lagrange, OH US
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20100252221 | SAND-FORMING APPARATUS - A sand-forming apparatus ( | 10-07-2010 |
Joseph M. Senk, Cortland, OH US
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20090250235 | Shielded electric cable assembly - An electric cable assembly may include an electric cable and a conductive contact. The electric cable has a conductive core, an inner insulation jacket surrounding the conductive core, a conductive layer surrounding the inner insulation jacket, and an outer insulation jacket surrounding the conductive layer. The conductive contact is injection molded around the conductive layer at a prepared section of the electric cable so that the conductive contact can conduct electric current from the conductive layer. | 10-08-2009 |
Joseph Matthew Senk, Cortland, OH US
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20100038133 | Electrical center with vertical power bus bar - An electrical assembly comprises a mounting bracket lift assembly and an electrical center. The electrical center is attached to the mounting bracket lift assembly for plugging wiring harness end connectors into the electrical center. The electrical center comprises a lower housing, a circuit board sub-assembly, an upper housing, electrical components such as fuses and relays that plug into the upper housing and a cover. The circuit board sub-assembly includes a power bus bar that provides a power path for the various electrical circuits of the vehicle via the circuit components carried on the circuit board. Three power bus bars that are configured, oriented and located to reduce the foot print of the electrical center and/or to improve the dissipation of heat generated by the electrical center are disclosed. | 02-18-2010 |
20100041510 | Connector engage mechanism - An electrical assembly comprises an upper electrical center assembly and a lower mounting bracket lift assembly that is adapted for being secured to a support panel such as a support panel in an automobile. After the lower mounting bracket lift assembly is secured to the support panel, the upper electrical center assembly is attached to the lower mounting bracket lift assembly. The lower mounting bracket lift assembly is then operated to plug wiring harness end connectors in the lower mounting bracket lift assembly into lower sockets of the upper electrical center assembly. | 02-18-2010 |
20120126747 | BATTERY CHARGER HAVING NON-CONTACT ELECTRICAL SWITCH - The handle of a charge coupler includes a mechanical latch that securely mechanically locks the handle to the vehicle passively when the handle is manually attached to the vehicle by a human operator to create an electrical connection between the vehicle and the charger. The handle also has an actuator movable by the operator from a deactivated state to a first and a second position activated state. The mechanical latch operates independently of the state of the actuator when the handle is being manually attached but being mechanically released by the actuator when it is moved to its second activated state. A non-contact electrical switch means associated with the actuator breaks the electrical connection when the actuator is moved to the first position activated state before releasing the mechanical latch at said second activated position. | 05-24-2012 |
20120129378 | BATTERY CHARGER HAVING HANDLE THAT INCLUDES LIGHT SOURCE THAT EMITS LIGHT THROUGH APERTURE IN HANDLE CONNECTOR - An electric vehicle charge coupler for both mechanically and electrically coupling and decoupling a charger to a vehicle includes a handle. The handle includes a handle connector configured for manually coupling and decoupling the handle with an inlet connector disposed on the vehicle. The handle connector further defines an aperture. The handle also includes a light source configured for activation to emit light. When the light source is activated, light emits from the light source and passes through the aperture to illuminate an area directionally out from the aperture away from the handle connector. | 05-24-2012 |
20130241484 | CONNECTOR HANDLE FOR AN ELECTRIC VEHICLE BATTERY CHARGER - A connector handle for an electric vehicle battery charger is provided. The connector handle includes a latch that is operable to a locked position and an unlocked position. The connector handle also includes an electric circuit configured to provide an enable indication and a disable indication. The connector handle also includes an actuator button moveable to a first position where the latch is in the locked position and the electric circuit provides the enable indication, a second position where the latch is in the locked position and the electric circuit provides the disable indication, and a third position where the latch is in the unlocked position and the electric circuit provides the disable indication. | 09-19-2013 |
Rainer Senk, Ludwigshafen DE
Patent application number | Description | Published |
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20080300387 | Organometallic Framework Materials of Transition Group III - The present invention relates to a process for preparing a porous metal organic framework, which comprises the step: | 12-04-2008 |
20110130579 | PROCESS FOR THE PREPARATION OF A TITANIUM ZEOLITE CATALYST - A process for the preparation of a catalyst for the use in a hydrocarbon conversion reaction, said catalyst containing a titanium zeolite and carbonaceous material, the catalyst containing said carbonaceous material in an amount of from 0.01 to 0.5% by weight based on the total weight of titanium zeolite contained in the catalyst, the process comprising (i) preparing a catalyst containing the titanium zeolite and (ii) depositing carbonaceous material on the catalyst according to (i) in an amount of from 0.01 to 0.5% by weight based on the total weight of titanium zeolite contained in the catalyst by contacting said catalyst, prior to using the catalyst in said hydrocarbon conversion reaction, with a fluid containing at least one hydrocarbon in an inert atmosphere, to obtain the carbonaceous material containing catalyst, wherein in (ii), the catalyst is not contacted with an oxygen containing gas. | 06-02-2011 |
Zbigniew Senk, Bayonne, NJ US
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20090252833 | RUMINANT FEEDSTOCK DIETARY SUPPLEMENT - This invention provides a control release formulation or rumen-bypass dietary supplement in compacted form. The formulation or supplement has the capability to transport fatty acid calcium salt and between about 1-75 percent of one or more rumen-protected undegraded biologically active agents to the post-ruminal digestive system of a ruminant. A feedstock containing the formulation or supplement for ruminants beneficially improves feed efficiency and body growth. The feedstock also is adapted to improve the lactational performance of dairy cattle. | 10-08-2009 |
20090252837 | RUMINANT FEEDSTOCK DIETARY SUPPLEMENT - This invention provides a control release formulation or rumen-bypass dietary supplement in compacted form. The formulation or supplement has the capability to transport fatty acid calcium salt and between about 1-75 percent of one or more rumen-protected undegraded biologically active agents to the post-ruminal digestive system of a ruminant. A feedstock containing the formulation or supplement for ruminants beneficially improves feed efficiency and body growth. The feedstock also is adapted to improve the lactational performance of dairy cattle. | 10-08-2009 |
20130199456 | ANIMAL LITTER COMPOSITION - There is provided an absorbent composition for water-based liquids, wherein dusting normally associated with handling of powdered absorbent materials is significantly reduced. The composition can be an animal litter, such as cat litter. The composition is formed by mixing a filler with a de-dusting agent and spraying an aqueous slurry of a deodorizing agent onto the mixture. The mixture is then added to a water absorbing material such as clay to uniformly mix the deodorizing agent with the water absorbing material. | 08-08-2013 |
Zbigniew M. Senk, Bayonne, NJ US
Patent application number | Description | Published |
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20130183526 | BOUNDARY LAYER CARBONATION OF TRONA - A boundary layer carbonation process for producing sodium bicarbonate crystals having specific surface area in the range 0.4 m | 07-18-2013 |
20140322111 | BOUNDARY LAYER CARBONATION OF TRONA - A boundary layer carbonation process for producing sodium bicarbonate crystals having specific surface area in the range 0.4 m | 10-30-2014 |