Patent application number | Description | Published |
20100328391 | FIRING SIGNAL FORWARDING IN A FLUID EJECTION DEVICE - A method for forwarding a firing signal within a nozzle group of a fluid ejection device includes receiving warm data and fire data. A firing signal having a firing pulse preceded by a warming pulse is received. The firing signal is conditionally modified according to of the fire data. The conditionally modified firing signal is forwarded to a particular nozzle circuit of the nozzle group. | 12-30-2010 |
20110292131 | FLUID EJECTION DEVICE - A fluid ejection device includes a chamber, and first and second electrodes configured to generate an electric field within the chamber. A related method includes, in a firing chamber, separating whole ink into colloidal particles and ink vehicle such that the firing fluid within the chamber comprises primarily ink vehicle. | 12-01-2011 |
20130162717 | FLUID NOZZLE ARRAY - A method for fabricating a fluid nozzle array includes forming a circuitry layer onto a substrate, the substrate comprising a stopping layer disposed between a membrane layer and a handle layer, forming a fluid feedhole extending from a surface of the membrane layer to the stopping layer, and forming a fluid supply trench extending from a surface of the handle layer to the stopping layer. A fluid nozzle array includes a substrate including a membrane layer, a stopping layer adjacent to the membrane layer, a handle layer adjacent to the stopping layer, and a set of fluid chambers disposed on a surface of the membrane layer above and along a width of a fluid supply trench extending from a surface of the handle layer to the stopping layer. | 06-27-2013 |
20130286105 | Fluid Ejection Assembly and Related Methods - In one embodiment, a fluid ejection device includes a substrate with a fluid slot and a membrane adhered to the substrate that spans the fluid slot. A resistor is disposed on top of the membrane over the fluid slot, and a fluid feed hole next to the resistor extends through the membrane to the slot. A shelf extends from the edge of the resistor to the edge of the feed hole, and a passivation layer covers the resistor and part the shelf. An etch-resistant layer is formed partly on the shelf and in between the fluid feed hole and the resistor. | 10-31-2013 |
Patent application number | Description | Published |
20080208295 | Phototherapy Treatment and Device to Improve the Appearance of Nails and skin - A method and apparatus for using phototherapy to beneficially improve the appearance of nails and skin. Light can be applied to nails and skin that is primarily germicidal to inactivate organisms that cause infections; applied as primarily cleansing light in which case it primarily improves the appearance of the nails and skin; or applied as a combination of the two, namely germicidal and cleansing light, in which case it is termed cleansing light. By applying the light for a set time and intensity to nails can be improved in appearance, whether or not an infection is present. By applying the light to skin with or without the presence of other compounds, skin appearance can be approved. | 08-28-2008 |
20080234786 | Prevention and treatment of skin and nail infections using germicidal light - A method of prevention and treatment of microbial infections that occur on, or just below, the skin and nails of a person consisting of electromagnetic radiation to inactivate the microbes thus rendering them harmless. The treatment consists of irradiating an area of the skin and nails for a period of time long enough to inactivate the organisms. Some additional features which are not integral to the treatment but increase the safety of the treatment include shielding of non-infected areas from irradiation and a cover to prevent damage to sight which may result from viewing the electromagnetic radiation. | 09-25-2008 |
20080319517 | Alteration of the Skin and Nail for the Prevention and Treatment of Skin and Nail Infections - The method of prevention and treatment of microbial infections that occur on, or just below, the skin and nails of a person consisting of applying a means to inactivate the microbes thus rendering them harmless. The treatment consists of applying a means which alters the skin or nail so that the skin or nail will either no longer serve as a food source, will be inhibitory to the organism, will be toxic to the organism, or will be altered in a manner that makes it more responsive to treatment of infections. | 12-25-2008 |
20090143842 | Phototherapy Treatment and Device for Infections, Diseases, and Disorders - A device to treat infections, diseases, and disorders. The device can be used to treat part of a larger organism such as using the device to kill cancerous cells in humans or animals or to kill parasites. The invention can also may be used to treat fungal and bacterial nail infections of the hands and feet which are difficult to treat with oral and topical drugs. | 06-04-2009 |
20090211585 | Coverings for Phototherapy and Topical Treatment - A method to effectively cover parts of the body that should not receive phototherapy treatment. The invention can also be used to cover parts of the body that are not receiving topical treatments and are adjacent to such areas being treated. Three variations of the covering device can be used separately or together in various combinations. An extremity covering device covers a large portion of a hand, foot or other extremity. A digit covering device covers one finger or toe. A skin covering device is used to cover areas not covered by the extremity or digit covering devices, or can be used separately to cover a finite area of the skin, nails, or other portion of a patient. | 08-27-2009 |
20110178510 | Method and Device to Inactivate and Kill Cells and Organisms that are Undesirable - A method, means, and apparatus to prevent and treat infections and disorders using germicidal light to inactivate and/or kill the organisms or cells that cause infections and other disorders. The method of treatment comprises irradiating the area to be treated using electromagnetic radiation of a germicidal nature. The method utilizes a previously unrecognized ability of germicidal light to penetrate the skin, nails, and other membranes sufficiently to successfully treat and prevent disorders. The electromagnetic radiation damages the organisms and cells that cause disorders such as skin and nail infections and renders them substantially incapable of reproducing. Without the ability to replicate the organism cannot continue to infest the skin and nails. The damage inflicted can also be sufficient to kill the organism outright. An infection is thereby prevented (if organisms are present, but infection has not yet begun), and the infection is cured if the infection already exists. | 07-21-2011 |