Snively, US
Christopher Snively, Clarks Summit, PA US
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20140127500 | DELAMINATION-AND ABRASION-RESISTANT GLASS WINDOW - The transparent window is suitable for use in applications that require a host of very demanding performance criteria. In the window, a transparent polymer is chemically bonded to an adhesive at an interface between the two, which enables the window to resist delamination. The window also has a polymer or plastic strike face with a coating that enables it to endure rigorous field conditions and still pass critical rock strike tests. The window also has a bulk layer with at least one layer of a glass, glass-ceramic, or transparent ceramic material. | 05-08-2014 |
20140262020 | PRIMER COMPOSITIONS FOR IMPROVED ADHESION OF POLYMER SHEETS - Primer compositions for adhering two sheets of polymer material to one another are provided. The primer compositions include polyurethanes that are the reaction product of an isocyanate, and at least one of a polyol, a chain extender, and a diamine. The polyurethanes may include pure polyurethanes, or commercially available varieties that may include other additives. The premier compositions are well-suited for adhering polycarbonate and polyurethane sheets together for use in transparent armor applications, as they help to ensure a very strong bond between the two sheets, and resist delamination. | 09-18-2014 |
Christopher M. Snively, Clarks Summit, PA US
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20120219749 | TRANSPARENT LAMINATE STRUCTURES - A transparent laminate structure is provided that includes two transparent layers, a transparent interlayer, and an inorganic barrier layer. The two transparent layers each have an inner face and a side edge. The transparent interlayer is between and laminates the inner faces of the two transparent layers to one another. The transparent interlayer also extends over the side edges of the two transparent layers and laminates the inorganic barrier layer to at least the side edges of the two transparent layers. | 08-30-2012 |
20120269995 | LIGHT WEIGHT TEMPERATURE RESISTANT TRANSPARENT LAMINATE STRUCTURE - A transparent laminate structure is provided that includes a front section, a rear section, and a middle section securing the front and rear sections to one another with a gap therebetween. The front section has a strike face formed of an impact resistant layer and a polymer backing layer bonded to the impact resistant layer by an interlayer. The rear section has a forward face comprising at least one polymer layer. The front and middle sections can form an integral subassembly. | 10-25-2012 |
Christopher T. Snively, Mckinney, TX US
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20100255312 | X-Ray Opaque Coating - The disclosure relates to an X-ray opaque coating containing an epoxy resin including an iodinated phenol covalently bonded to a glycidyl ether. Iodinated phenol covalently bonded to a glycidyl ether may include iodinated bisphenol A, such as tetraiodobisphenol A, a glycidyl ether of mono-iodophenol, bis-iodophenol, tri-iodophenol, or combinations thereof. The coating may include an X-ray opaque inorganic filler. The disclosure also relates to an electronic component including a substrate and at least one device coupled to the substrate with an obfuscation layer disposed over the substrate for obscuring the device from an X-ray source. The obfuscation layer may include an X-ray opaque coating. The disclosure additionally relates to a method of obscuring at least a portion of an electronic component by depositing an obfuscation layer that may include an X-ray opaque coating and a method of forming an X-ray opaque coating. | 10-07-2010 |
20130165546 | X-RAY OPAQUE COATING - The disclosure relates to an X-ray opaque coating containing an epoxy resin including an iodinated phenol covalently bonded to a glycidyl ether. Iodinated phenol covalently bonded to a glycidyl ether may include iodinated bisphenol A, such as tetraiodobisphenol A, a glycidyl ether of mono-iodophenol, bis-iodephenol, tri-iodophenol, or combinations thereof. The coating may include an X-ray opaque inorganic filler. The disclosure also relates to an electronic component including a substrate and at last one device coupled to the substrate with an obfuscation layer disposed over the substrate for obscuring the device from an X-ray source. The obfuscation layer may include an X-ray opaque coating. The disclosure additionally relates to- a method of obscuring at least a portion of an electronic component by depositing an obfuscation layer that may includes m X-ray opaque coating and a method of forming an X-ray opaque coating. | 06-27-2013 |
David M. Snively, Cincinnati, OH US
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20080285129 | COLOR LIGHT COMBINING SYSTEM FOR OPTICAL PROJECTOR - A color light combining system comprises a polarizing beam splitter that includes a reflective polarizer film, a first prism face that receives a first unpolarized color light, a second prism face that receives a second unpolarized color light, and a third prism face that provides a first combined light output that includes combined first color light polarized in a first direction and second color light polarized in a second direction. The polarizing beam splitter includes a reflector at a fourth prism face. A color-selective stacked retardation polarization filter faces the third prism face. The first color selective stacked retardation polarization filter provides a second combined light output that includes the first and second color lights that are combined and have the same polarization direction. | 11-20-2008 |
20100277796 | LIGHT COMBINER - Light combiners and light splitters, and methods of using light combiners and light splitters are described. In particular, the description relates to light combiners and splitters that combine and split, respectively, light of different wavelength spectrums using polarizing beam splitters. The light combiners include arrangements of four polarizing beam splitters, such that three different wavelength spectrums of light can be directed into three of the polarizing beam splitters, and a combined light can be received from the fourth polarizing beam splitter. The light splitters can be the same configuration as the light combiners, but the direction of light travel is reversed to split, rather than combine, light. Polychromatic light can be directed into one of the polarizing beam splitters, and light having three different wavelength spectrums can be received from the other three polarizing beam splitters. The three different wavelength spectrums of light, the combined light, and the polychromatic light can be unpolarized light. The light combiners can be useful as unpolarized white light sources, such as in digital micro-mirror display projection systems. | 11-04-2010 |
20110007392 | LIGHT COMBINER - Light combiners and light splitters, and methods of using light combiners and light splitters are described. In particular, the description relates to light combiners and splitters that combine and split, respectively, light of different wavelength spectrums using polarizing beam splitters. The polarizing beam splitters include a reflective polarizer to efficiently split incident light into transmitted and reflected beams having different polarization directions. Reflectors and quarter-wave retarders are positioned facing selected prism faces of the polarizing beam splitters, to affect the polarization state of light passing through the prism faces. The reflectors can be dichroic filters adapted to reflect light that is outside a selected wavelength range, so that light of different wavelength spectrums can be affected at different prism faces. The surfaces of each polarizing beam splitter can be polished so that the light utilization efficiency is increased due to total internal reflection within the polarizing beam splitter. The light combiners can combine up to five unpolarized different color lights to produce an unpolarized polychromatic light output, which may be white light useful for a projection display. The light splitters can split unpolarized polychromatic light to produce up to five unpolarized different color light outputs. | 01-13-2011 |
Leslie O. Snively, Castle Rock, CO US
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20080231484 | Variable sized aperture window of an analog-to-digital converter - An improvement in sampling a high frequency input analog signal and converting it to a digital output signal is disclosed. This is accomplished by using a multitude of analog-to-digital converters in conjunction with a distributed sampling system. This combination of multiple converters and a distributed sampling system allows use of conventional device processing, such as that of 0.18 micron silicon, and also provides accurate sampling of very high frequency input signals. The distributed sampling system provides multiple samplings of the input signal by using multiple ADCs for multiple samplings, wherein each sampling is sequentially offset a fixed amount of time from the most recent preceding sampling. Each ADC has a designated central processing unit (CPU) to obtain sufficient data transfer capabilities. The samplings from the multitude of ADCs are a series of sequential digital output values. The digital output values could be the result of samplings all at the same frequency, or at different frequencies. Types of distributed sampling systems include a multitude of elongated trace patterns interconnected in series, a multitude of inverter pairs interconnected in series, a specific permittivity material device, and a sequencer or multiplier. A second enhanced sampling system includes a variable sized aperture window, wherein a width of a sample pulse is narrowed through a variable clock mechanism to produce a faster sampling rate. This variable sized aperture window system can be used by itself, or in combination with any of the presently described multiple ADC distributed sampling systems. | 09-25-2008 |
20080231489 | Analog-to-digital converter system with increased sampling frequency - The present invention is an improvement in sampling a high frequency input analog signal and converting it to a digital output signal. This is accomplished by using a multitude of analog-to-digital converters in conjunction with a distributed sampling system. This combination of multiple converters and a distributed sampling system allows use of conventional device processing, such as that of 0.18 micron silicon, and also provides accurate sampling of very high frequency input signals. The distributed sampling system provides multiple samplings of the input signal by using a different ADC for each sampling, wherein each sampling is sequentially offset a certain amount of time from the most recent preceding sampling. The samplings from the multitude of ADCs are combined to form a single contiguous digital output signal. Types of distributed sampling systems include a multitude of elongated trace patterns interconnected in series, a specified permittivity material device, and a sequencer or multiplier. | 09-25-2008 |
20090132794 | Method and apparatus for performing complex calculations in a multiprocessor array - A method and apparatus for performing complex mathematical calculations. The apparatus includes a multicore processor | 05-21-2009 |
20100117880 | Variable sized aperture window of an analog-to-digital converter - An improvement in sampling a high frequency input analog signal and converting it to a digital output signal is disclosed. This is accomplished by using a multitude of analog-to-digital converters in conjunction with a distributed sampling system. This combination of multiple converters and a distributed sampling system allows use of conventional device processing, such as that of 0.18 micron silicon, and also provides accurate sampling of very high frequency input signals. The distributed sampling system provides multiple samplings of the input signal by using multiple ADCs for multiple samplings, wherein each sampling is sequentially offset a fixed amount of time from the most recent preceding sampling. Each ADC has a designated central processing unit (CPU) to obtain sufficient data transfer capabilities. The samplings from the multitude of ADCs are a series of sequential digital output values. The digital output values could be the result of samplings all at the same frequency, or at different frequencies. Types of distributed sampling systems include a multitude of elongated trace patterns interconnected in series, a multitude of inverter pairs interconnected in series, a specific permittivity material device, and a sequencer or multiplier. A second enhanced sampling system includes a variable sized aperture window, wherein a width of a sample pulse is narrowed through a variable clock mechanism to produce a faster sampling rate. This variable sized aperture window system can be used by itself, or in combination with any of the presently described multiple ADC distributed sampling systems. | 05-13-2010 |
Robert Snively, Morgan Hill, CA US
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20090132701 | DUPLICATE ADDRESS DISCOVERY AND ACTION - A duplicate address discovery process detects duplicate MAC addresses or duplicate unique port identifiers within the network, alerts attached devices of the duplicates, and takes action to avoid data corruption that might be caused by such duplicate addresses. | 05-21-2009 |
Robert Norman Snively, Morgan Hill, CA US
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20090292813 | Address Assignment in Fibre Channel Over Ethernet Environments - A method of initializing a Fibre Channel over Ethernet (FCoE) link between a Fibre Channel over Ethernet node (ENode) and Fibre Channel Forwarders (FCFs) in a network by discovering the presence of FCFs available to the ENode and other FCFs, assigning second MAC addresses to the ENode corresponding to each available FCF, and converting from a management and initialization process using the first MAC address to normal Fibre Channel operation using the second MAC addresses. The implementations described herein may additionally distinguish management and initialization processes from normal Fibre Channel operation using separate Ethertypes. | 11-26-2009 |
20090296726 | ACCESS CONTROL LIST MANAGEMENT IN AN FCoE ENVIRONMENT - A Fibre Channel Forwarder (FCF) suspends a fabric session with a virtual machine (VM) in response to receipt of a deregister message from the virtual machine through an Ethernet bridge and transmits a deregister acceptance message to the VM. The Ethernet bridge detects the messages and updates its Access Control List (ACL) to remove the MAC address of the VM. While the fabric session is suspended, a virtual machine may migrate to another physical machine without terminating its connection to the fabric. After migration, the FCF resumes its fabric session with the VM in response to receipt of a register message from the VM through a second Ethernet bridge. The FCF responds to the register message with a register acceptance message. The Ethernet bridge detects the messages and updates its Access Control List (ACL) to add the MAC address of the VM. | 12-03-2009 |
Sandra Snively, Morgan Hill, CA US
Patent application number | Description | Published |
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20090292813 | Address Assignment in Fibre Channel Over Ethernet Environments - A method of initializing a Fibre Channel over Ethernet (FCoE) link between a Fibre Channel over Ethernet node (ENode) and Fibre Channel Forwarders (FCFs) in a network by discovering the presence of FCFs available to the ENode and other FCFs, assigning second MAC addresses to the ENode corresponding to each available FCF, and converting from a management and initialization process using the first MAC address to normal Fibre Channel operation using the second MAC addresses. The implementations described herein may additionally distinguish management and initialization processes from normal Fibre Channel operation using separate Ethertypes. | 11-26-2009 |
20090296726 | ACCESS CONTROL LIST MANAGEMENT IN AN FCoE ENVIRONMENT - A Fibre Channel Forwarder (FCF) suspends a fabric session with a virtual machine (VM) in response to receipt of a deregister message from the virtual machine through an Ethernet bridge and transmits a deregister acceptance message to the VM. The Ethernet bridge detects the messages and updates its Access Control List (ACL) to remove the MAC address of the VM. While the fabric session is suspended, a virtual machine may migrate to another physical machine without terminating its connection to the fabric. After migration, the FCF resumes its fabric session with the VM in response to receipt of a register message from the VM through a second Ethernet bridge. The FCF responds to the register message with a register acceptance message. The Ethernet bridge detects the messages and updates its Access Control List (ACL) to add the MAC address of the VM. | 12-03-2009 |