Kishinevsky
Edward Kishinevsky, Overland Park, KS US
Patent application number | Description | Published |
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20130267400 | WINDOW PROFILING SYSTEM - A system for processing a continuous web of envelope stock includes a web aligner, infeed nip including a load cell, rotary cutter, gummer, patch applicator, buffer, and control system. Gummer nozzles are actuated to apply patterns of adhesive to the moving web in surrounding relation to window apertures. A method for controlling the web output rate from the system includes receiving at the control system an input web tension indicator from the nip load cell, receiving an output web tension indicator from a transducer at system output, comparing the received indicators and transmitting a control signal to actuate a roller assembly between the infeed nip and the transducer to increase or decrease speed to adjust web tension. The control system also transmits a web input speed control or stop signal based on the calculated capacity percentage of web accumulated in the buffer, which is determined with reference to a threshold value. | 10-10-2013 |
Eugene M. Kishinevsky, Hillsboro, OR US
Patent application number | Description | Published |
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20140095953 | Techniques for Resilient Communication - Techniques for resilient communication. A data path stores data to be transmitted over a link to a receiving node. An output stage is coupled between the data path and the link. The output stage includes double sampling mechanisms to preserve a copy of data transmitted over the link to the receiving node. Error detection circuitry is coupled with the output stage to detect transient timing errors in the data path or output stage. The error detection circuitry causes the output stage to send the copy of the data transmitted over the link in response to detecting an error. | 04-03-2014 |
Michael Kishinevsky, North Andover, MA US
Patent application number | Description | Published |
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20090201510 | DETERMINING AND COMPENSATING FOR MODULATOR DYNAMICS IN INTERFEROMETRIC FIBER-OPTIC GYROSCOPES - Determining linear modulator dynamics in an interferometric fiber-optic gyroscope may be accomplished by applying a stimulus at a point within the gyroscope, observing a response in an output of the gyroscope, and determining, from the observed response, the linear modulator dynamics. | 08-13-2009 |
20100231296 | Radio Frequency Power Delivery System - A system and method are provided for delivering power to a dynamic load. The system includes a power supply providing DC power having a substantially constant power open loop response, a power amplifier for converting the DC power to RF power, a sensor for measuring voltage, current and phase angle between voltage and current vectors associated with the RF power, an electrically controllable impedance matching system to modify the impedance of the power amplifier to at least a substantially matched impedance of a dynamic load, and a controller for controlling the electrically controllable impedance matching system. The system further includes a sensor calibration measuring module for determining power delivered by the power amplifier, an electronic matching system calibration module for determining power delivered to a dynamic load, and a power dissipation module for calculating power dissipated in the electrically controllable impedance matching system. | 09-16-2010 |
20110057617 | HIGH-EFFICIENCY BATTERY EQUALIZATION FOR CHARGING AND DISCHARGING - A non-contiguous group of cells in a battery of cells is selected for charging or discharging the battery. | 03-10-2011 |
20110102801 | DETERMINING AND COMPENSATING FOR MODULATOR DYNAMICS IN INTERFEROMETRIC FIBER-OPTIC GYROSCOPES - Determining linear modulator dynamics in an interferometric fiber-optic gyroscope may be accomplished by applying a stimulus at a point within the gyroscope, observing a response in an output of the gyroscope, and determining, from the observed response, the linear modulator dynamics. | 05-05-2011 |
Michael Kishinevsky US
Patent application number | Description | Published |
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20090237290 | RADAR TRANSPONDER - A radar transponder which does not have a receiver/transmit switch. A radio frequency coupler of the transponder switches the antenna between the transmitter and the receiver. The coupler connects the receiver, the transmitter and the antenna such that the receiver is connected to the most attenuated terminal of the coupler. The coupler may be a radio frequency coupler having an attenuation of between three and forty dB, or approximately ten dB. The antenna can be an integrated PCB surface-mounted multi-bay turnstile antenna. | 09-24-2009 |