Spinka
Kristofer Spinka, New York, NY US
Patent application number | Description | Published |
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20150272220 | NICOTINE DOSAGE SENSOR - An electronic nicotine delivery device including a nicotine dosage sensor that determines an amount of nicotine consumed by a user based on the duration of an inhalation. | 10-01-2015 |
20150272222 | INHALATION SENSOR FOR ALTERNATIVE NICOTINE/THC DELIVERY DEVICE - An inhalation sensor for an alternative nicotine or THC delivery device having a diluted nicotine or THC solution. The inhalation sensor includes a processor and memory. The memory includes a solution profile including information indicative of the nicotine or THC concentration of the diluted nicotine or THC solution and a device profile including information indicative of the alternative nicotine or THC delivery device. The inhalation sensor is configured to determine an amount of nicotine or THC consumed by a user of the alternative nicotine or THC delivery device based on the solution profile and the device profile. | 10-01-2015 |
Scott O. Spinka, Pittsboro, NC US
Patent application number | Description | Published |
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20140278467 | HOME PATIENT HOSPITAL CARE COMMUNICATION BRIDGE SYSTEM AND METHOD - The present invention is a data bridge system for coordinating digital data from multiple sources and delivering them on a single data server from a patient to a healthcare provider. | 09-18-2014 |
Thomas M. Spinka, Urbana, IL US
Patent application number | Description | Published |
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20100296978 | MICROCHANNEL LASER HAVING MICROPLASMA GAIN MEDIA - The invention provides microchannel lasers having a microplasma gain medium. Lasers of the invention can be formed in semiconductor materials, and can also be formed in polymer materials. In a microlaser of the invention, high density plasmas are produced in microchannels. The microplasma acts as a gain medium with the electrodes sustaining the plasma in the microchannel. Reflectors are used with the microchannel for obtaining optical feedback to obtain lasing in the microplasma gain medium in devices of the invention for a wide range of atomic and molecular species. Several atomic and molecular gain media will produce sufficiently high gain coefficients that reflectors (mirrors) are not necessary. Microlasers of the invention are based on microplasma generation in channels of various geometries. Preferred embodiment microlaser designs can be fabricated in semiconductor materials, such as Si wafers, by standard photolithographic techniques, or in polymers by replica molding. | 11-25-2010 |
Xabay Spinka, New York, NY US
Patent application number | Description | Published |
---|---|---|
20150272220 | NICOTINE DOSAGE SENSOR - An electronic nicotine delivery device including a nicotine dosage sensor that determines an amount of nicotine consumed by a user based on the duration of an inhalation. | 10-01-2015 |
20150272222 | INHALATION SENSOR FOR ALTERNATIVE NICOTINE/THC DELIVERY DEVICE - An inhalation sensor for an alternative nicotine or THC delivery device having a diluted nicotine or THC solution. The inhalation sensor includes a processor and memory. The memory includes a solution profile including information indicative of the nicotine or THC concentration of the diluted nicotine or THC solution and a device profile including information indicative of the alternative nicotine or THC delivery device. The inhalation sensor is configured to determine an amount of nicotine or THC consumed by a user of the alternative nicotine or THC delivery device based on the solution profile and the device profile. | 10-01-2015 |