Abstract: An implementation of the present teachings includes a resistor structure for measuring a level of a print material such as a liquid metal print material within a reservoir of a printer such as a magnetohydrodynamic printer. The resistor structure includes a first electrode and a second electrode that are physically and electrically separated from each other. When positioned within the reservoir, the liquid metal physically contacts the first electrode and the second electrode. An electrical resistance between the first and second electrodes changes depending on the level of the print material within the reservoir. As the level of the print material decreases, the electrical resistance between the first electrode and the second electrode increases. The electrical resistance can be measured and used to determine a level of the print material within the reservoir.

Abstract: Systems and methods for issuing continuous trim commands for a memory system, including periodically sending trim commands to an electronically erasable memory device. Each of the trim commands identifies unused blocks of a portion of a total storage capacity of the electronically erasable memory device to erase.

Abstract: An ink stick for use in a phase change ink jet printer is provided wherein the ink jet printer has an ink feed channel having a feed direction leading to a melt plate. The ink stick comprises an ink stick body having an external surface and an axis of rotation. The ink stick body is adapted for insertion into the ink feed channel so that the axis of rotation is oriented substantially perpendicular to the feed direction. The external surface of the ink stick body forms a circle on a plane that is substantially perpendicular to the axis of rotation.

Abstract: A printing device has an image receptor adapted to have an image formed thereon. The printing device also includes a transfer roller and a motor. A transfer roller load mechanism moves the transfer roller into contact with the image receptor in response to the motor output. A controller manipulates the motor in conjunction with a feedback signal from a load detector and regulates the load of the transfer roller.

Abstract: A method of operating a printer turns off a support structure heater when the printer enters standby mode. The print head is then moved away from an intermediate transfer surface supported by a support structure. Heat settings used to heat a print head are then varied to heat the print head and the support structure. Another method of operating a printer turns off a support structure heater when the printer enters standby mode and holds a print head adjacent to an intermediate transfer surface while the printer is in standby mode.

Abstract: An ink level sensing system and method of sensing that includes a lower probe positioned in a lower portion of an ink reservoir, an upper probe positioned above the lower probe and extending upward to an upper portion of the ink reservoir, and an electrode positioned next to the lower and upper probes. An electrical signal is driven to the electrode and current flows are detected from the electrode to the lower and upper probes. The current flows to the lower and upper probes are compared to determine a level of ink in the ink reservoir.

Abstract: A printing device includes an image receptor adapted to have formed thereon an inked image layer, a transfer roller, and a transfer roller biasing system. The biasing system is structured to displace the transfer roller toward the image receptor upon actuation of a motor, exerting a backing pressure.

Abstract: A method of operating an ink jet printer including printing a first image having substantially solid fill regions on a transfer surface disposed on a print drum, printing a second image on the first image, wherein the second image comprises solid or dithered fill regions that correspond to portions of some of the solid fill regions of the interlaced image, and wherein the second image has a dot density that is less than a dot density of the first image.

Abstract: A technique of operating an electromechanical drop generator having an electromechanical transducer, including applying across the electromechanical transducer a series of drop firing waveforms in a series of drop firing time intervals to produce a series of drops of substantially identical drop mass, wherein a characteristic of the waveforms is varied from one waveform to a next waveform.

Abstract: Systems, methods, and programs for increasing the quality of a marked image determine a marking pattern based on an input image signal, the marking pattern containing at least two sizes of marks, and eject single sized drops of marking material corresponding to a smallest one at least two sizes of marks on an intermediate substrate such that at least two of the single sized drops of marking material coalesce on the intermediate substrate to form another of the at least two sizes of marks.

Abstract: An ink jet printer includes an ink supply system and a printhead with nozzles for ejecting ink drops. The printer determines the average size of the ejected ink drops by comparing the number of ink drops ejected in a predetermined time with the quantity of ink delivered through the printers ink supply system during that time. If the determined average ink drop size does not match predetermined ink drop size criteria, the printer adjusts the activation signals for the ink jet nozzles to alter the ink drop size. A solid ink printer determines the quantity of ink delivered through the ink supply system by counting the number of whole or partial ink sticks that pass a predetermined point in the ink supply system. The counter detects a sensing element formed on an external surface of the ink stick. Exemplary detectors include a mechanical arm, or a thermistor to detect a change in the printer melt plate temperature due to a change in the cross sectional area of an ink stick being melted.

Abstract: An ink jet printer includes an ink supply system and a printhead with nozzles for ejecting ink drops. The printer determines the average size of the ejected ink drops by comparing the number of ink drops ejected in a predetermined time with the quantity of ink delivered through the printers ink supply system during that time. If the determined average ink drop size does not match predetermined ink drop size criteria, the printer adjusts the activation signals for the ink jet nozzles to alter the ink drop size. A solid ink printer determines the quantity of ink delivered through the ink supply system by counting the number of whole or partial ink sticks that pass a predetermined point in the ink supply system. The counter detects a sensing element formed on an external surface of the ink stick. Exemplary detectors include a mechanical arm, or a thermistor to detect a change in the printer melt plate temperature due to a change in the cross sectional area of an ink stick being melted.

Abstract: An ink jet printer includes an ink supply system and a printhead with nozzles for ejecting ink drops. The printer determines the average size of the ejected ink drops by comparing the number of ink drops ejected in a predetermined time with the quantity of ink delivered through the printers ink supply system during that time. If the determined average ink drop size does not match predetermined ink drop size criteria, the printer adjusts the activation signals for the ink jet nozzles to alter the ink drop size. A solid ink printer determines the quantity of ink delivered through the ink supply system by counting the number of whole or partial ink sticks that pass a predetermined point in the ink supply system. The counter detects a sensing element formed on an external surface of the ink stick. Exemplary detectors include a mechanical arm, or a thermistor to detect a change in the printer melt plate temperature due to a change in the cross sectional area of an ink stick being melted.

Abstract: A dual-drop mode for a printer uses at least two full length waveforms and switches between the waveforms according to one or more patterning methodologies to print a page length document having a dual drop size print pattern across the printed portion of the page. This achieves printing from individual jet nozzles of either a large drop or a small drop The page size patterning methodology is performed globally on at least a sub-page basis, rather than on a pixel-by-pixel basis and may be performed based on or independent of specific image data.

Abstract: A dual-drop mode for a printer uses at least two full length waveforms and switches between the waveforms according to one or more patterning methodologies to print a page length document having a dual drop size print pattern across the printed portion of the page. This achieves printing from individual jet nozzles of either a large drop or a small drop. The page size patterning methodology is performed globally on at least a sub-page basis, rather than on a pixel-by-pixel basis and may be performed based on or independent of specific image data. In exemplary embodiments, printing is achieved using multiple print passes, with at least two print passes using different sized ink droplets.

Abstract: A method and system for retaining serial port data is provided. Under certain conditions, such as following a system reset, the storage of current serial port data is inhibited. A determination is made whether non-volatile storage media is available. If non-volatile storage media is available, then data from the buffer containing previously received serial port data is transferred to the non-volatile storage medium. Once the transfer is complete, the storage in a buffer of current serial port data is enabled. If non-volatile storage media is not available, then buffering remains inhibited.

Abstract: A method for testing inkjets for defects in an inkjet device includes determining, based on the likelihood that one or more inkjets are defective, whether to perform an inkjet defect test, The method may also include, identifying, if it is determined to perform an inkjet defect test, which inkjets to test based on properties of the inkjets, the number of identified inkjets being less than a total number of inkjets in the inkjet device; and testing the identified inkjets for defects using an image sensor.

Abstract: Detecting a multi-pick in a nip of a media feed mechanism, includes determining a limit of a property of a media feed mechanism that is related to the kinetic properties of one or more rollers that form a nip; monitoring the property of the media feed mechanism; determining a maximum value of the of the monitored property; comparing the maximum value to the limit; and determining, if the maximum value exceeds the operational limit, that a multi-pick has occurred.

Abstract: A low cost, fully automatic, thickness detection system, readily integrated into an existing paper path sheet transport, in which a regular and known small displacement signal is generated, compared, combined and/or superimposed on the signals from the small displacement of a sheet transport element with differences in sheet thickness. Even sub-millimeter sheet thicknesses can be measured of sheets moving through a regular sheet feeding nip with nip idler roller displacement using a low-cost sensor, where that sensor is additionally repetitively actuated by known small movements to provide calibration signals, such as those provided by plural small radius differences of a rotating idler roller shaft area which will enable existing idler and idler shaft run-out movement error noise signals to be overcome.

Abstract: More accurately correcting sheet position and skew in a desired print media sheet trajectory in a printer paper path, with a registration system including sheet drive nips defined by laterally spaced and differentially driven elastomer surfaced frictional sheet drive rollers and mating undriven idler rollers have a non-slip rotational sheet engagement. The undriven idler rollers have rotary encoders producing encoder signals corresponding to their rotation by a sheet in the nip, which encoder signals are provided to a controller for the registration system to control forward and differential drive motor systems for the sheet drive rollers so as to substantially correct for errors in the desired trajectory of said sheet by sheet drag forces acting on the elastomer surfaced sheet drive rollers in the sheet drive nips.