Cristiani
Corrado Cristiani, Gaggio In Piano (modena) IT
Patent application number | Description | Published |
---|---|---|
20080223353 | Oven for Cooking Foods - An oven for cooking foods, comprising: a cooking compartment, internally of which a controlled heating cycle can be actuated; one or a plurality of heating elements, predisposed to generate and transmit a determined heat power internally of the cooking compartment; one or a plurality of atomizers, predisposed to controlledly send atomized water onto or in proximity of at least one of the one or the plurality of heating elements; means for control, predisposed to actuate the determined heat cycle internally of the cooking compartment by controlling the one or the plurality of heating elements in a partialisation cycle of the heat power generated and/or transmitted to the cooking compartment by the one or the plurality of heating elements, in which partialisation cycle a temperature of at least one of the heating elements is maintained at a level which is sufficient to cause evaporation of the atomized water. | 09-18-2008 |
Elaine B. Cristiani, Stratford, CT US
Patent application number | Description | Published |
---|---|---|
20080262978 | Mail processing system including dimensional rating with true length support - A mail processing system that includes dimensional rating capability that provides true length support for carrier rates to prevent improper classification of mail pieces. The mail processing system determines a first dimension, parallel to the path of travel, and a second dimension, transverse to the path of travel, of a mail piece. The first dimension and second dimension are compared to each other to determine which is greater. The greater of the two dimensions is assigned to be the length of the mail piece, regardless of the orientation of the mail piece. The format of the mail piece is then determined based on a comparison of the assigned length and assigned width dimensions to maximum dimensions specified by a format table. Based on the determined format of the mail piece, a delivery fee is then calculated, and an indicium can be generated for the mail piece. | 10-23-2008 |
20090020946 | METHOD FOR DETECTING PAPER FEED SHINGLING ERRORS AND SYNCHRONIZING A PRINTER AND A FEEDER - A method of synchronizing the feeding and printing of sheets of media, i.e., paper, envelopes, post cards, etc. even though shingled feeds have occurred in the system. The foregoing is accomplished by utilizing two sensors and counters to monitor two sheets of paper to allow two software tasks to stay in synchronization and release the appropriate print data to the printer even when a sheet of paper was not detected in the feeder appears at the print head. The feeder sensor has a counter for its Lead Edge as does the Start of Print Sensor that is in the system's transport paper path. The feeder sensor counter and the start of print counter are incremented and decremented as the paper approaches the sensor and leaves the sensor. If the lead edge counter of the feeder sensor goes negative, then the feeder has shingled and the data for that sheet of paper must be printed. | 01-22-2009 |
20090046116 | PRINT ARCHITECTURE FOR DRIVING MULTIPLE PRINT HEADS - A system architecture is provided for a fixed-head mailpiece printer. The printer includes at least two laterally and longitudinally-spaced print heads for depositing ink on a face surface of a mailpiece. The print system architecture includes print application software or software program code operative to render print image data into a plurality of logical rectangular bitmap print buffers. Further, a field programmable gate array (FPGA) remaps each of the logical rectangular bitmap print buffers into one of the print heads based upon its spatial position relative to the mailpiece. Furthermore, the FPGA is operative to control the deposition of ink from the print heads based upon the print image data contained in the print buffers. Moreover, the FPGA minimizes processing time associated with print image rendering to achieve enhanced print system throughput. | 02-19-2009 |
20100157327 | METHOD FOR CONTROLLING A FEED RATE OF A PRINTER, AND PRINTER EMPLOYING SAME - A method of controlling a feed rate of a printer, and a printer employing same, wherein the printer includes a feeder motor driving a feeder mechanism and a transport motor driving a transport mechanism. The method includes receiving image data for a first item of print media in a print job, processing the image data to create printable image data, and determining an image preparation time that is a time difference between the time when the printable image data is completed and the time when the start of the image data is first received. The method then further includes determining a current feeder speed based on at least the image preparation time. Following that that determination, the method includes: (i) turning the transport motor on, and (ii) setting a speed of the feeder motor equal to the current feeder speed and thereafter turning the feeder motor on. | 06-24-2010 |
Ilaria Cristiani, Pavia IT
Patent application number | Description | Published |
---|---|---|
20090289180 | Method and optical device for trapping a particle - It is disclosed an optical device for trapping a particle immersed in a fluid. The device of the invention comprises a light source and a probe for guiding and outputting the radiation received from the source. According to the invention, the guided radiation has an intensity distribution having intensity maximum placed at a non-zero distance from the probe longitudinal axis and having rotational symmetry about the longitudinal axis. Further, according to the invention, the intensity maximum is reflected at the interface between probe and fluid, and then it is output by the probe so that it creates a stable equilibrium point wherein the particle is trapped. | 11-26-2009 |
Llaria Cristiani, Pavia IT
Patent application number | Description | Published |
---|---|---|
20100187409 | Method and optical device for manipulating a particle - Is disclosed a device for manipulating a particle immersed in a fluid, comprising a probe having a first end, a second end and a longitudinal axis. The probe receives a radiation from a light source and emits the radiation by means of the second end. The probe comprises: an optical guide structure suitable for receiving the radiation. The optical guide structure is configured so that: at the second end, the radiation has an optical intensity distribution with an intensity maximum placed at a non-zero distance from the longitudinal axis of the probe; and in the region of the intensity maximum, the radiation is reflected at the interface between the second end and the fluid and is emitted by the second end so that it converges in a convergence point, thus creating an equilibrium point. The probe further comprises perturbation optical means for perturbing the equilibrium point. | 07-29-2010 |
Marcello Cristiani, Imola IT
Patent application number | Description | Published |
---|---|---|
20080290194 | Outward opening fuel injector - A fuel injector provided with: an injection valve comprising an injection nozzle; a mobile needle for regulating the fuel flow through the injection valve and ending with a shutting head, which engages a valve seat of the injection valve, is arranged externally with respect to injection valve and presents a predetermined sealing diameter; an actuator for displacing the needle between a closing position and an opening position of the injection valve; a closing spring which tends to maintain the needle in the closing position of the injection valve pushing the shutting head against the valve seat itself in a sense contrary to the feeding sense of the fuel; and a supporting body having a tubular shape and presenting a feeding channel within which a needle is arranged; the needle, at an opposite end of the shutting head, is coupled to a balancing channel, which is at ambient pressure. | 11-27-2008 |
20110163189 | OUTWARD OPENING FUEL INJECTOR - A fuel injector provided with: an injection valve comprising an injection nozzle; a mobile needle for regulating the fuel flow through the injection valve and ending with a shutting head, which engages a valve seat of the injection valve, is arranged externally with respect to injection valve and presents a predetermined sealing diameter; an actuator for displacing the needle between a closing position and an opening position of the injection valve; a closing spring which tends to maintain the needle in the closing position of the injection valve pushing the shutting head against the valve seat itself in a sense contrary to the feeding sense of the fuel; and a supporting body having a tubular shape and presenting a feeding channel within which a needle is arranged; the needle, at an opposite end of the shutting head, is coupled to a balancing channel, which is at ambient pressure. | 07-07-2011 |
Paolo Cristiani, Milano (mi) IT
Patent application number | Description | Published |
---|---|---|
20140194944 | Implantable Device for Acquisition and Monitoring of Brain Bioelectric Signals and for Intracranial Stimulation - An implantable device for the acquisition and monitoring of brain bioelectric signals is described. The implantable device has a plurality of active electrodes configured to detect brain bioelectric signals, the active electrodes being arranged on a grid connected to an electronic module of the implantable device according to a predefined pattern. The active electrodes are connected to a microprocessor of the electronic module through respective paths formed on the grid and connected to at least one analog input unit arranged in the electronic module, the at least one analog input unit being in turn connected to at least one passive electrode and to the microprocessor through a data bus. The at least one analog input unit has an analog-to-digital converter for each active electrode connected thereto. A data acquisition and processing system, which includes the implantable device is also described. | 07-10-2014 |