Patent application number | Description | Published |
20110048488 | Combined thermoelectric/photovoltaic device and method of making the same - A combined thermoelectric/photovoltaic device features a photovoltaic cell with a common electrode, an electrically insulative, thermally conductive layer applied to the common electrode, and an array of thermoelectric couples each including a p-type semiconductor element and an n-type semiconductor element. There is an electrically conductive bridge for each thermoelectric couple formed on the electrically insulative thermally conductive layer. Methods of making such a hybrid device also including a heat sink are also disclosed. | 03-03-2011 |
20110048489 | Combined thermoelectric/photovoltaic device for high heat flux applications and method of making the same - A combined thermoelectric/photovoltaic device features a photovoltaic cell with a common electrode, an electrically insulative, thermally conductive layer applied to the common electrode, and an array of thermoelectric couples each including a p-type semiconductor element and an n-type semiconductor element. There is an electrically conductive bridge for each thermoelectric couple formed on the electrically insulative thermally conductive layer. Methods of making such a hybrid device also including a heat sink are also disclosed. | 03-03-2011 |
20110199281 | Metamaterial radome/isolator - A metamaterial radome/isolator system includes a radiation source for providing a radiation beam through the radome/isolator having a frequency beyond the bandgap region where the metamaterial permittivity and permeability are both positive and the metamaterial medium has a low, matched relative permittivity and relative permeability. | 08-18-2011 |
20120153294 | Semiconductor Structures Having Directly Bonded Diamond Heat Sinks and Methods for Making Such Structures - A semiconductor structure is bonded directly to a diamond substrate by Van der Waal forces. The diamond substrate is formed by polishing a surface of diamond to a first degree of smoothness; forming a material, such as diamond, BeO, GaN, MgO, or SiO | 06-21-2012 |
20120225536 | SEMICONDUCTOR STRUCTURES HAVING DIRECTLY BONDED DIAMOND HEAT SINKS AND METHODS FOR MAKING SUCH STRUCTURES - A semiconductor structure is bonded directly to a diamond substrate by Van der Waal forces. The diamond substrate is formed by polishing a surface of diamond to a first degree of smoothness; forming a material, such as diamond, BeO, GaN, MgO, or SiO | 09-06-2012 |
20130264907 | BETAVOLTAIC BATTERY WITH DIAMOND MODERATOR AND RELATED SYSTEM AND METHOD - An apparatus includes a beta particle source configured to provide beta particles. The apparatus also includes a diamond moderator configured to convert at least some of the beta particles into lower-energy electrons. The apparatus further includes a PN junction configured to receive the electrons and to provide electrical power to a load. The diamond moderator is located between the beta particle source and the PN junction. The apparatus could also include an electron amplifier configured to bias the diamond moderator. For example, the electron amplifier could be configured to receive some of the beta particles and to generate additional electrons that bias the diamond moderator. Also, the diamond moderator can be configured to receive the beta particles having energies that are spread out over a wider range including higher energies, and the diamond moderator can be configured to provide the electrons concentrated in a narrower range at lower energies. | 10-10-2013 |
20140097996 | TUNABLE ELECTROMAGNETIC DEVICE WITH MULTIPLE METAMATERIAL LAYERS, AND METHOD - A tunable electromagnetic device includes at least two overlapping metamaterial layers, wherein the metamaterial layers are selectively tunable by patterned conductive structures that are parts of the metamaterial layers. By selectively altering the properties of the metamaterial layers with the patterned conductive structures, the frequency response of the electromagnetic device can be controlled, to selectively let electromagnetic energy of certain frequencies pass through, or alternatively to prevent pass-through of substantially all frequencies of electromagnetic energy. In addition the frequencies for which electromagnetic energy passes through may be altered by controlling one or more of the tunable metamaterial layers. The tunable electromagnetic device may be used to selectively shield radar or other types of sensors, for example being used as all or part of the skin of a vehicle or other object. | 04-10-2014 |
Patent application number | Description | Published |
20080275378 | METHOD AND APPARATUS FOR THE FORMATION OF MULTIPLE MICROCONDUITS - Disclosed is an apparatus that creates a number of microconduits, i.e., small holes in the stratum corneum, the outermost layer of human skin tissue, to provide a pathway therethrough, which can be used, for example, for transdermal drug delivery. | 11-06-2008 |
20090221893 | Unitized Painfree Blood Glucose Measuring Device - A blood glucose measuring device is equipped with a drill device, attachment assembly, and disposable sensing and measurement assembly. The attachment assembly contains an attachment ring that connects to the drill device and is used to hold the disposable sensing and measurement assembly. A detach actuating cam and output shaft are attached to the drill device. Spring tongs are attached to the output shaft by a compression ring further clamp to an end cap. A skin penetrator is attached to the end cap. The disposable sensing and measurement assembly is enclosed in a disposable case. An outer telescoping anti-bend tube is attached to the end cap. An inner anti-bend capillary sensor tube contains analyte sensors and is attached to the disposable case. The electrical conductors for the analyte sensor electrodes are attached to the capillary sensor tube and thus to the disposable case. An impedance sensing electrode on the bottom of the case provides electrical contacts to the skin. The electrical conductor to the impedance sensing electrode is attached to the bottom of the disposable case. | 09-03-2009 |
20100100119 | MECHANICAL VEIN LIFTER - Devices for applying an intermittent pressure to a skin surface are provided. The device includes a housing, a drive mechanism at least partially disposed within the housing, and a pressing portion operatively coupled to the drive mechanism. The pressing portion may include at least one pressing element configured for applying pressure to the surface. The pressing portion is configured to be driven by the drive mechanism between a first configuration having a maximum extension and a second configuration having a minimum extension. The difference between the maximum and minimum extensions is greater than or equal to 0.025 inches. The pressing portion may include a series of rollers to press and squeeze the skin and underlying vein, to create a pumping action, thus pressurizing the vein. The vein expands and presses upward against the skin, thus becoming more visible. | 04-22-2010 |
20110040237 | DRILL DEVICE AND METHOD FOR FORMING MICROCONDUITS - The present invention relates to methods and devices for formation of microconduits in tissue, particularly using an impedance sensing drill to form microconduits. One embodiment of the invention is an impedance sensing drill comprising a drilling assembly, a control module, mechanically connected to the drilling assembly for controlling the depth of drilling by the drilling assembly; and a sensor, electrically connected to the drilling assembly and control module for detecting a change in an electrical impedance of a material being drilled. Another embodiment is a method of forming a microconduit in a material, which comprises the steps of drilling into the material, monitoring an electrical impedance of the material, and stopping the drilling into the material when a change in the impedance is detected, thereby forming microconduit. | 02-17-2011 |
20110046507 | DRILL DEVICE AND METHOD FOR FORMING MICROCONDUITS - The present invention relates to methods and devices for formation of microconduits in tissue, particularly using an impedance sensing drill to form microconduits. One embodiment of the invention is an impedance sensing drill comprising a drilling assembly, a control module, mechanically connected to the drilling assembly for controlling the depth of drilling by the drilling assembly; and a sensor, electrically connected to the drilling assembly and control module for detecting a change in an electrical impedance of a material being drilled. Another embodiment is a method of forming a microconduit in a material, which comprises the steps of drilling into the material, monitoring an electrical impedance of the material, and stopping the drilling into the material when a change in the impedance is detected, thereby forming microconduit. | 02-24-2011 |
20110046626 | DRILL DEVICE AND METHOD FOR FORMING MICROCONDUITS - The present invention relates to methods and devices for formation of microconduits in tissue, particularly using an impedance sensing drill to form microconduits. One embodiment of the invention is an impedance sensing drill comprising a drilling assembly, a control module, mechanically connected to the drilling assembly for controlling the depth of drilling by the drilling assembly; and a sensor, electrically connected to the drilling assembly and control module for detecting a change in an electrical impedance of a material being drilled. Another embodiment is a method of forming a microconduit in a material, which comprises the steps of drilling into the material, monitoring an electrical impedance of the material, and stopping the drilling into the material when a change in the impedance is detected, thereby forming microconduit. | 02-24-2011 |
20140094808 | Drill Device and Method for Forming Microconduits - The present invention relates to methods and devices for formation of microconduits in tissue, particularly using an impedance sensing drill to form microconduits. One embodiment of the invention is an impedance sensing drill comprising a drilling assembly, a control module, mechanically connected to the drilling assembly for controlling the depth of drilling by the drilling assembly; and a sensor, electrically connected to the drilling assembly and control module for detecting a change in an electrical impedance of a material being drilled. Another embodiment is a method of forming a microconduit in a material, which comprises the steps of drilling into the material, monitoring an electrical impedance of the material, and stopping the drilling into the material when a change in the impedance is detected, thereby forming microconduit. | 04-03-2014 |