Lazatin
Catherine Lazatin, Palatine, IL US
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20090125327 | Systems And Methods For Voice Driven Health Data Tracker - Certain embodiments of the present invention provide a health data tracker system including a schedule component, a voice driven component, a data processor component, and a health data storage component. The schedule component is adapted to prompt a patient to input health data. The voice driven component is adapted to receive the health data from the patient. The data processor component is adapted to process the health data. The health data storage component is adapted to store the health data. | 05-14-2009 |
Catherine Lazatin, Cambridge, MA US
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20140249833 | METHODS, APPARATUSES AND COMPUTER PROGRAM PRODUCTS FOR MANAGING HEALTH CARE WORKFLOW INTERACTIONS WITH A SAVED STATE - An apparatus is provided for managing health care tasks. The apparatus may include at least one memory and at least one processor configured to display a user interface including a workspace area including visible indicia indicating steps of a health care task(s) to be performed on behalf of a patient(s) and a context area arranged adjacent to the workspace area. The context area includes visible information indicating health care data of the patient associated with visible indicia of the workspace area. The processor is also configured to update display of the visible indicia of the workspace area to include different health care data responsive to detecting a change in data of the visible indicia or updating display of the visible information of the context area to include different health care information responsive to detecting changes in information of the visible information. Corresponding computer program products and methods are also provided. | 09-04-2014 |
Patrick Lazatin, Glenville, NY US
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20100187184 | METHODS AND SYSTEMS FOR ENERGY EXCHANGE - Methods and systems for energy recovery in desalination or other systems are provided to transfer the pressure energy from one fluid to anther fluid. A system for energy recovery with a container comprises two sections separated by one or plurality of flexible impermeable diaphragms and pressures of the two fluids in the two sections are transmitted during the cyclical filling and pumping operations, as well as flow control valves. As one embodiment, two flexible impermeable tubes operable to receive two fluids of different pressures respectively connect to flow control valves. The first fluid and the second fluid are separated by the flexible impermeable diaphragm formed by the flexible tubes. Cyclical inflows of the two fluids transmit the higher pressure of one fluid to the other through the diaphragm and transfer the energy from one fluid to the other. | 07-29-2010 |
Patrick J. Lazatin, Woburn, MA US
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20150201789 | BEVERAGE MACHINE CARTRIDGE HOLDER - A method and apparatus for opening and closing a cartridge holder of a beverage forming machine. The cartridge holder may have an opening arranged to receive and hold a cartridge with the cartridge holder. The opening may be adjustable in size and/or shape to allow the cartridge holder to receive and engage with cartridges of different size and/or shape. The cartridge holder may include one or more movable portions that are adjustable in position to effectively adjust a size and/or shape of the opening. | 07-23-2015 |
Patrick Jose Lazatin, Glenville, NY US
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20100315782 | INTEGRAL HEAT SINK WITH SPIRAL MANIFOLDS - A heat sink is provided for directly cooling at least one electronic device package having an upper contact surface and a lower contact surface. The heat sink comprises a cooling piece formed of at least one thermally conductive material, where the cooling piece defines at least one inlet manifold configured to receive a coolant and at least one outlet manifolds configured to exhaust the coolant. The inlet and outlet manifolds are interleaved and are disposed in a spiral arrangement. The cooling piece further defines a number of millichannels disposed in a radial arrangement and configured to receive the coolant from the inlet manifolds and to deliver the coolant to the outlet manifolds. The millichannels and inlet and outlet manifolds are further configured to directly cool one of the upper and lower contact surface of the electronic device package by direct contact with the coolant, such that the heat sink comprises an integral heat sink. | 12-16-2010 |
20110317368 | HEAT SINKS WITH C-SHAPED MANIFOLDS AND MILLICHANNEL COOLING - A heat sink for cooling at least one electronic device package includes a lower lid, an upper lid, and a body formed of at least one thermally conductive material. The body is disposed between and sealed to the lower and upper lids and defines a tapered inlet distribution chamber configured to receive a coolant, C-shaped inlet manifolds configured to receive the coolant from the tapered inlet distribution chamber, inverted C-shaped outlet manifolds configured to exhaust the coolant. The inlet and outlet manifolds are interleaved and disposed in a circular arrangement. The outlet manifolds extend around only a portion of the body and terminate adjacent to opposing sides of the inlet chamber. The body further defines a tapered outlet chamber configured to receive the coolant from the outlet manifolds, where the inlet manifolds extend around only a portion of the body and terminate adjacent to opposing sides of the tapered outlet chamber. Millichannels are formed in the body or are formed in at least one of the lids and are configured to receive the coolant from the inlet manifolds and to deliver the coolant to the outlet manifolds. The millichannels are disposed in a radial arrangement, and the millichannels and the inlet and outlet manifolds are further configured to cool one of the upper and lower contact surfaces of the electronic device package. A lidless heat sink is also provided. | 12-29-2011 |
20110317369 | HEAT SINKS WITH MILLICHANNEL COOLING - A heat sink for cooling at least one electronic device package includes a lower lid, an upper lid and a body formed of at least one thermally conductive material. The body is disposed between and sealed to the lower and upper lids and defines inlet manifolds configured to receive a coolant and outlet manifolds configured to exhaust the coolant. The inlet and outlet manifolds are interleaved and are disposed in a circular or spiral arrangement. Millichannels are formed in the body or in the lids, are disposed in a radial arrangement, and are configured to receive the coolant from the inlet manifolds and to deliver the coolant to the outlet manifolds. The millichannels and inlet and outlet manifolds are further configured to cool one of the upper and lower contact surfaces of the electronic device package. Heat sinks with a single lid are also provided. | 12-29-2011 |