Alini
Eric Alini, Harrison, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20100164863 | Systems, Software, Apparatus and Methods for Managing Out-of -Home Displays - Systems, methods, apparatus, and software for monitoring and managing out-of-home (“OOH”) displays are provided. In one aspect, a system for monitoring an OOH display includes an OOH display device configure to display content to at least one subject. An interaction detector is configured to detect at least one interaction between the OOH display device and a subject, and provide data about such interaction. An input mechanism accepts input signals from the subject, and a display controller device accepts signals from the subject and OOH display device. A data processing and routing mechanism processes and exchanges the data. | 07-01-2010 |
Mauro Alini, Davos Platz CH
| Patent application number | Description | Published |
|---|---|---|
| 20090304652 | IDENTIFICATION AND SELECTION OF STEM CELLS BEING COMMITTED TO DIFFERENTIATE TO A SPECIFIC TYPE FOR OBTAINING A HOMOGENEOUS POPULATION OF STEM CELLS - The stem cell ( | 12-10-2009 |
| 20110040388 | BIOCOMPATIBLE IMPLANT - A biocompatible implant for bone repair comprising a flexible membrane fitted around a bone defect and a platelet-rich plasma gel composition contained within the void space created by the membrane, its application and kit of parts thereof are described. | 02-17-2011 |
Roberto Alini, Dublin, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110169509 | ELECTROSTATIC MEMS DRIVER WITH ON-CHIP CAPACITANCE MEASUREMENT FOR AUTOFOCUS APPLICATIONS - A driver and capacitance measuring circuit includes a voltage source that selectively generates an output voltage at a first node during a driver mode to alter a capacitance of a device that is connected to the first node and that has a variable capacitance. A current source selectively provides one of a charging and discharging current at the first node during a measurement mode. A capacitance calculating circuit samples a voltage at the first node during the measurement node, determines a voltage change rate of the first node during the measurement mode and calculates the capacitance of the device based on the voltage change rate and a value of the one of the charging and discharging current. | 07-14-2011 |
| 20120326773 | SYSTEMS AND METHODS FOR POWER TRANSFER BASED ON RESONANCE COUPLING OF INDUCTORS - An integrated circuit (IC) includes first and second resonator circuits and an isolation barrier. The first resonator circuit includes first and second inductors, wherein the first resonator circuit is connected to a supply voltage. The second resonator circuit includes third and fourth inductors, wherein the second resonator circuit is matched to the first resonator circuit. The isolation barrier separates the first and second resonator circuits. The first and second inductors are inductively coupled to the third and fourth inductors, respectively, thereby providing for transfer of power from the first resonator circuit across the isolation barrier to the second resonator circuit. | 12-27-2012 |
| 20130033791 | FAILSAFE GALVANIC ISOLATION BARRIER - A system includes a transmitter, a receiver, a isolation barrier, and a fuse. The isolation barrier is connected to the transmitter. The fuse is connected between the isolation barrier and the receiver. The isolation barrier prevents current flow from the transmitter to the receiver when a voltage across the isolation barrier is less than a first breakdown voltage. The isolation barrier short circuits when the voltage across the isolation barrier is greater than or equal to the first breakdown voltage. The fuse opens when the isolation barrier short circuits. When open, the fuse has a second breakdown voltage that is greater than the first breakdown voltage. | 02-07-2013 |
| 20150035380 | SYSTEMS AND METHODS FOR POWER TRANSFER BASED ON RESONANCE COUPLING OF INDUCTORS - An integrated circuit (IC) includes a first resonator circuit that includes: a first switching device that connects and disconnects a supply voltage to and from a first node; a first inductor that is connected between the first node and a first ground potential; and a second inductor that is connected between the first node and the first ground potential. The IC also includes a second resonator circuit that includes: a third inductor that is inductively coupled to the first inductor across an isolation barrier and that is connected between a second node and a second ground potential; a fourth inductor that is inductively coupled to the second inductor across the isolation barrier and that is connected between the second node and the second ground potential; and a second switching device that connects and disconnects the second node to and from a load. The second ground potential is different than the first ground potential. | 02-05-2015 |
Roberto Alini, Dublin City, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20120250462 | TRANSMIT/RECEIVE SYSTEMS FOR IMAGING DEVICES - A transceiver for an ultrasonic imaging device includes a transmit circuit and a receive circuit. The transmit circuit outputs test pulses to a probe including a transducer to generate an image of a test object. A composite signal including the test pulses and a reflected signal is output by the transducer. The receive circuit receives the composite signal including the test pulses and the reflected signal and includes a filter circuit. The filter circuit filters the test pulses from the composite signal and passes the reflected signal. An impedance of the filter circuit is equal to substantially zero when the reflected signal is within a predetermined frequency range. | 10-04-2012 |
| 20140347955 | TRANSMIT/RECEIVE SYSTEMS FOR IMAGING DEVICES - A transmit circuit outputs test pulses to a probe including a transducer to generate an image of a test object. A composite signal including the test pulses and a reflected signal is output by the transducer. A receive circuit receives the composite signal including the test pulses and the reflected signal and includes a filter circuit that filters the test pulses from the composite signal and passes the reflected signal. An impedance of the filter circuit is equal to substantially zero when the reflected signal is within a predetermined frequency range. A clipper circuit limits a magnitude of an output of the filter circuit. An amplifier amplifies the output of the filter circuit and that outputs an amplified voltage. A processing module generates a signal for displaying the image of the test object based on the amplified voltage. | 11-27-2014 |
Stefano Alini, Cava Manara IT
| Patent application number | Description | Published |
|---|---|---|
| 20140024859 | PROCESS FOR THE PRODUCTION OF HEXAMETHLENEDIAMINE - It is described a process for the production of hexamethylenediamine by hydrogenation of adiponitrile, comprising an improved step of regeneration of the catalyst. Also described are an equipment for the production of hexamethylenediamine, and a washing apparatus ( | 01-23-2014 |