Patents by Inventor David J. Eaton
David J. Eaton has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9652898Abstract: An apparatus includes a printer and a buffer coupled to the printer for temporarily storing sheets fed out from the printer. The apparatus further includes a control mechanism for monitoring the buffer to determine a number of sheets currently stored in the buffer. The apparatus also includes a data source device that is separate from the printer and is coupled to the printer for selectively providing pages of print data to the printer. The data source device is coupled to the control mechanism and is operative to provide the pages of print data to the printer in response to control signals from the control mechanism.Type: GrantFiled: August 30, 2006Date of Patent: May 16, 2017Assignee: Pitney Bowes Inc.Inventors: Michael J. Ramadei, David R. Welch, James A. Fairweather, Wesley A. Kirschner, David J. Eaton
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Patent number: 8449108Abstract: Systems and methods for providing evidence of printing in metering systems even in the event of a print head failure are provided. Along with generating a primary image for an indicium that evidences payment, a secondary image for the indicium, identical to a corresponding portion of the primary image but at a lower density, with physical boundaries that are within the boundaries of the primary image, is also generated. The primary image is printed by a first nozzle array, and the secondary image is printed by a second nozzle array. Because the primary image completely overlaps the secondary image, the secondary image is undetectable if the primary image is properly printed. The secondary image provides evidence of printing of the indicium that can be used to obtain a refund for the indicium in the event that the primary image was not printed due to failure of the first nozzle array.Type: GrantFiled: December 30, 2008Date of Patent: May 28, 2013Assignee: Pitney Bowes Inc.Inventors: John P. Miller, David J. Eaton, Peter T. Collings, Lun Chan, Easwaran Nambudiri, James A. Salomon
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Patent number: 8200365Abstract: A method for maximizing the overall efficiency of an insertion system by running the system with the optimal balance between system throughput and potential for system stoppages. In other words, the system is capable of running at less than maximum throughput if running at such throughput is causing excessive amounts of system stoppages and thus, negatively impacting overall system efficiency. The foregoing is accomplished by an algorithm that controls the flow of material being processed by a particular section of the machine, or “module”. This algorithm is capable of reducing the flow rate of material to, or within, that module if a problem arises downstream that may lead to a paper jam.Type: GrantFiled: June 5, 2009Date of Patent: June 12, 2012Assignee: Pitney Bowes Inc.Inventors: Joseph M. Mozdzer, David J. Eaton, Kevin W. Baxter
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Publication number: 20100312376Abstract: A method for maximizing the overall efficiency of an insertion system by running the system with the optimal balance between system throughput and potential for system stoppages. In other words, the system is capable of running at less than maximum throughput if running at such throughput is causing excessive amounts of system stoppages and thus, negatively impacting overall system efficiency. The foregoing is accomplished by an algorithm that controls the flow of material being processed by a particular section of the machine, or “module”. This algorithm is capable of reducing the flow rate of material to, or within, that module if a problem arises downstream that may lead to a paper jam.Type: ApplicationFiled: June 5, 2009Publication date: December 9, 2010Applicant: Pitney Bowes Inc.Inventors: Joseph M. Mozdzer, David J. Eaton, Kevin W. Baxter
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Publication number: 20100165066Abstract: Systems and methods for providing evidence of printing in metering systems even in the event of a print head failure are provided. Along with generating a primary image for an indicium that evidences payment, a secondary image for the indicium, identical to a corresponding portion of the primary image but at a lower density, with physical boundaries that are within the boundaries of the primary image, is also generated. The primary image is printed by a first nozzle array, and the secondary image is printed by a second nozzle array. Because the primary image completely overlaps the secondary image, the secondary image is undetectable if the primary image is properly printed. The secondary image provides evidence of printing of the indicium that can be used to obtain a refund for the indicium in the event that the primary image was not printed due to failure of the first nozzle array.Type: ApplicationFiled: December 30, 2008Publication date: July 1, 2010Applicant: Pitney Bowes Inc.Inventors: John P. Miller, David J. Eaton, Peter T. Collings, Lun Chan, Easwaran Nambudiri, James A. Salomon
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Patent number: 7666129Abstract: A method and apparatus for folding inserts by inverting the insert sheet after the first fold is made and reintroducing the folded insert sheet into a first buckle chute from the opposite end. The second fold is then made in a second buckle chute which results in either a bottom address or a middle address appearing on the folded insert in a manner that the address will appear through the window of the envelope.Type: GrantFiled: April 13, 2007Date of Patent: February 23, 2010Assignee: Pitney Bowes Inc.Inventors: Thomas M. Lyga, James A. Fairweather, David J. Eaton, Carl R. Chapman
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Publication number: 20090157909Abstract: A software sign on sequence is provided that allows devices to negotiate how they will communicate, what data will be exchanged and how they will mechanically operate, when they are connected to each other. This avoids the necessity of supplying new software programs to each device which is time consuming and expensive.Type: ApplicationFiled: December 14, 2007Publication date: June 18, 2009Applicant: Pitney Bowes Inc.Inventors: Joseph M. Mozdzer, James A. Fairweather, Thomas M. Lyga, David J. Eaton
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Publication number: 20080077414Abstract: An apparatus includes a printer and a buffer coupled to the printer for temporarily storing sheets fed out from the printer. The apparatus further includes a control mechanism for monitoring the buffer to determine a number of sheets currently stored in the buffer. The apparatus also includes a data source device that is separate from the printer and is coupled to the printer for selectively providing pages of print data to the printer. The data source device is coupled to the control mechanism and is operative to provide the pages of print data to the printer in response to control signals from the control mechanism.Type: ApplicationFiled: August 30, 2006Publication date: March 27, 2008Applicant: Pitney Bowes IncorporatedInventors: Michael J. Ramadei, David R. Welch, James A. Fairweather, Wesley A. Kirschner, David J. Eaton
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Patent number: 6839697Abstract: A system and method for weighing of items such as mailpieces in the presence of external vibration such as ground noise. The system includes a scale system having a platform connected to a load cell, which provides an output signal to an analog-to-digital converter. The resulting digital output signal is processed by a low pass filter and analyzed by a microprocessor to determine weights of items on the platform. The microprocessor also determines postage amounts as functions of the weights and outputs these postage amounts to a postage meter. The system also includes an accelerometer and a limit detector for generating a no go signal if external vibrations exceed a predetermined limit. The microprocessor accepts a weight as valid if the external vibrations do not exceed the limit at any time while the weight is being determined and otherwise initiates an alternative weight determining method.Type: GrantFiled: June 28, 2002Date of Patent: January 4, 2005Assignee: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Patent number: 6825423Abstract: A weighing system and a postage metering system including such a weighing system. The weighing system includes a transport assembly having a transport for receiving and outputting mail pieces to be weighed and for supporting mail pieces while they are weighed, and a feeder for successively feeding the mail pieces to the transport. A transducer supports the transport and generates and output representative of the load presented by pairs of mail pieces on the transport. After a current item and a previous item are weighed together on the transport, the transport is energized to output the previous item and replace the previous item with the current item, and the feeder is energized to input a next item to the transport as a new current item.Type: GrantFiled: June 28, 2002Date of Patent: November 30, 2004Assignee: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Patent number: 6797893Abstract: A method scale system and transducer used in such system for rapid weighing of items. Said scale system includes: a transducer assembly; said transducer assembly in turn including, a transducer having a first member for supporting said item above a reference level, said first member producing a deflection proportional to said weight of said item, a clamping mechanism for clamping said first member to restrict deflection when activated, and a sensor for sensing said deflection and generating a signal representative of said weight as an output signal proportional to said deflection. Said scale system further includes a transport or platform for supporting said item during weighing, said transport being fixed to said first member, and a controller for controlling activation of said clamping mechanism. Said controller controls said clamping mechanism to clamp said transducer as said item is transported into position for weighing so that disturbances of said transducer are reduced and weighing time is decreased.Type: GrantFiled: June 28, 2002Date of Patent: September 28, 2004Assignee: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Patent number: 6713689Abstract: A method and method for fast weighing of items such as mailpieces with variable accuracy. The method includes a scale method having a platform connected to a load cell that provides an output signal to an analog-to-digital converter. The resulting digital output signal is processed by a low pass filter and analyzed by a microprocessor to determine weights of items on the platform. The microprocessor also determines postage amounts of items on the platform. The microprocessor also determines postage amounts as functions of the weights and outputs these postage amounts to a postage meter. The microprocessor determines the weights as the average of a sequence of digital output signal values if the average id not closer than D to any weight break, where D is the difference between a maximum output value and a minimum output value.Type: GrantFiled: July 9, 2002Date of Patent: March 30, 2004Assignee: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Publication number: 20040007395Abstract: A method and method for fast weighing of items such as mailpieces with variable accuracy. The method includes a scale method having a platform connected to a load cell that provides an output signal to an analog-to-digital converter. The resulting digital output signal is processed by a low pass filter and analyzed by a microprocessor to determine weights of items on the platform. The microprocessor also determines postage amounts of items on the platform. The microprocessor also determines postage amounts as functions of the weights and outputs these postage amounts to a postage meter. The microprocessor determines the weights as the average of a sequence of digital output signal values if the average id not closer than D to any weight break, where D is the difference between a maximum output value and a minimum output value.Type: ApplicationFiled: July 9, 2002Publication date: January 15, 2004Applicant: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Publication number: 20040000436Abstract: A weighing system and a postage metering system including such a weighing system. The weighing system includes a transport assembly having a transport for receiving and outputting mail pieces to be weighed and for supporting mail pieces while they are weighed, and a feeder for successively feeding the mail pieces to the transport. A transducer supports the transport and generates and output representative of the load presented by pairs of mail pieces on the transport. After a current item and a previous item are weighed together on the transport, the transport is energized to output the previous item and replace the previous item with the current item, and the feeder is energized to input a next item to the transport as a new current item.Type: ApplicationFiled: June 28, 2002Publication date: January 1, 2004Applicant: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Publication number: 20040002927Abstract: A system and method for weighing of items such as mailpieces in the presence of external vibration such as ground noise. The system includes a scale system having a platform connected to a load cell, which provides an output signal to an analog-to-digital converter. The resulting digital output signal is processed by a low pass filter and analyzed by a microprocessor to determine weights of items on the platform. The microprocessor also determines postage amounts as functions of the weights and outputs these postage amounts to a postage meter. The system also includes an accelerometer and a limit detector for generating a no go signal if external vibrations exceed a predetermined limit. The microprocessor accepts a weight as valid if the external vibrations do not exceed the limit at any time while the weight is being determined and otherwise initiates an alternative weight determining method.Type: ApplicationFiled: June 28, 2002Publication date: January 1, 2004Applicant: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Publication number: 20040000437Abstract: A method scale system and transducer used in such system for rapid weighing of items. Said scale system includes: a transducer assembly; said transducer assembly in turn including, a transducer having a first member for supporting said item above a reference level, said first member producing a deflection proportional to said weight of said item, a clamping mechanism for clamping said first member to restrict deflection when activated, and a sensor for sensing said deflection and generating a signal representative of said weight as an output signal proportional to said deflection. Said scale system further includes a transport or platform for supporting said item during weighing, said transport being fixed to said first member, and a controller for controlling activation of said clamping mechanism. Said controller controls said clamping mechanism to clamp said transducer as said item is transported into position for weighing so that disturbances of said transducer are reduced and weighing time is decreased.Type: ApplicationFiled: June 28, 2002Publication date: January 1, 2004Applicant: Pitney Bowes Inc.Inventors: David J. Eaton, John E. Massucci, John P. Miller
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Patent number: 6122052Abstract: A spectrometric instrument passes flashing light through a sample and has a linear detector operated by the computer to integrate signals for an established number of flashes to obtain an integrated unit of the signal data, from which spectral information is displayed on a monitor. Over a full spectral range, the established number is determined as that which effects a highest peak height proximately below a preselected maximum, and light source voltage is adjusted to bring the peak height closer to the maximum. For a narrower spectral range, an operating number of flashes for a unit is increased above the established number to accommodate a lower highest peak in the range. Wavelength calibration uses peaks in the light source. Corrections are made for stray light and non-linearity of detector response. Calculation of auxiliary information derived from input of auxiliary data through a touch screen is displayed on the monitor.Type: GrantFiled: April 27, 1999Date of Patent: September 19, 2000Assignee: Perkin Elmer LLCInventors: Robert F. Barnes, Mario Carozza, David J. Eaton, Gerard T. Paul, J. Fenton Williams, Mark W. Stoltze, Steven L. Paul, Andrew P. Bajorinas