Abstract: An apparatus and method are disclosed herein for capping one or more printheads in a printing device. Further characteristics and features of the present invention are additionally disclosed herein, as are exemplary alternative embodiments. This abstract is not to be used in the interpretation of any of the claims.

Abstract: A vacuum platen and method for use thereof in a printing device are disclosed. An apparatus embodiment includes a first surface having a plurality of first apertures therethrough, a labyrinth configured to include a plurality of passageways each of which is fluidly coupled to at least one of the first apertures, and a second surface having a plurality of second apertures therethrough each of which is fluidly coupled to the vacuum source and at least one of the passageways thereby establishing an airflow from the first apertures, through the passageways, and out the second apertures. The vacuum platen also includes at least one receptacle in each of the passageways, each receptacle configured to collect debris from the airflow as it travels through the labyrinth.

Abstract: An apparatus for transporting print medium through a printzone of a printing device. The apparatus including a print media movement mechanism configured to advance a first portion of a print medium through the printzone and a reciprocally translating vacuum platen downstream of the print media movement mechanism. The vacuum platen receives the print medium and conveys a remaining portion of the print medium through the printzone so that a printing mechanism can print at a bottom margin of the print medium.

Abstract: An inkjet printing method of fixing ink to a print medium is disclosed. An embodiment of the method comprises depositing ink drops on a print medium with an inkjet printhead, the ink including a solvent and the print medium including a first surface. The method additionally comprises vibrating the print medium by applying ultrasonic energy to displace drops of the solvent to the first surface of the print medium to accelerate evaporation of the drops of solvent. An apparatus for use in an inkjet printing device is also disclosed. An embodiment of the apparatus comprises an ultrasonic source configured to apply ultrasonic energy to a print medium to displace drops of ink solvent to a first surface of the print medium thereby accelerating evaporation of the drops of solvent. An inkjet printing device including the method and apparatus is also disclosed. Further characteristics and features of the method and apparatus are described herein, as are examples of various alternative embodiments.

Abstract: An apparatus and method for drying printing composition on a print medium are disclosed. A method embodiment for use in a printing device includes depositing printing composition onto a print medium and enclosing the print medium in a sealed environment. The method additionally includes reducing a pressure in the sealed environment below an ambient pressure and heating the print medium in the sealed environment to dry the printing composition on the print medium. An apparatus embodiment for use in a printing device having a print engine for depositing printing composition onto a print medium includes an enclosure configured to provide a sealed environment around the print medium. The apparatus additionally includes a vacuum source fluidly coupled to the enclosure and configured to reduce a pressure in the sealed environment below an ambient pressure and a heater configured to apply heat energy to the print medium in the sealed environment to dry the printing composition on the print medium.

Abstract: A print media detection system for use in a printing device is disclosed. An embodiment of the print media detection system includes a source configured to transmit a light signal and a sensor configured to detect the light signal and generate an electrical signal in response to the light signal, the electrical signal having a magnitude that increases up to a substantially constant value as an intensity of the light signal from the source increases. The sensor is also configured to generate the electrical signal with a first magnitude for a transparent print media through which the light signal from the source travels to the sensor. The sensor is further configured to generate the electrical signal with a second magnitude less than the first magnitude for nontransparent print media positioned in a path of the light signal from the source to the sensor. A printing device including the print media detection system is also disclosed.

Abstract: An apparatus and method for reducing print media edge margin tolerances in a printing device with one or more supplies of print media are disclosed. An apparatus embodiment includes a sensor that detects a supply of print media and outputs a signal indicative of the detected supply of print media. The apparatus also includes a computing device that receives the signal indicative of the detected supply of print media. The computing device determines a median position of the supply of print media in a printzone of the printing device based on a plurality of trials of feeding the supply of print media into the printzone and adjusts a position in the printzone for the supply of print media where printing composition is deposited based on the determined median position of the supply of print media in the printzone.

Abstract: A printing device, inductive heating device, and method are disclosed. An embodiment of the printing device includes a printing mechanism for printing an image on a print medium, a metal belt for transporting the print medium, and an induction heater positioned adjacent the metal belt, the induction heater being configured to induce an alternating current in an area of the metal belt adjacent the induction heater, the alternating current uniformly heating the area of the metal belt adjacent the induction heater. An embodiment of the inductive heating device includes a power source and a coil coupled to the power source to produce a varying magnetic field around the coil and positioned adjacent the metal belt to induce an alternating current in an area of the metal belt through which the varying magnetic field passes, the alternating current uniformly heating the area of the metal belt.

Abstract: A vacuum platen and method for use thereof in a printing device are disclosed. An apparatus embodiment includes a first surface having a plurality of first apertures therethrough, a labyrinth configured to include a plurality of passageways each of which is fluidly coupled to at least one of the first apertures, and a second surface having a plurality of second apertures therethrough each of which is fluidly coupled to the vacuum source and at least one of the passageways thereby establishing an airflow from the first apertures, through the passageways, and out the second apertures. The vacuum platen also includes at least one receptacle in each of the passageways, each receptacle configured to collect debris from the airflow as it travels through the labyrinth.

Abstract: Apparatus and method are disclosed herein that compensate for print engine and encoder expansion or contraction in a printing device. An embodiment of an apparatus in accordance with the present invention for use in a printing device having a print engine and an encoder that indicates where the print engine should print on a print medium, includes a first target on the encoder and a second target on the encoder. The apparatus also includes a first sensor configured to output a first signal upon detection of the first target and a second sensor configured to output a second signal upon detection of the second target. The apparatus additionally includes a computing device coupled to the first sensor, the second sensor and the print engine, which is configured to determine a difference between receipt of the first signal and the second signal, and to adjust when the print engine prints on the print medium based on this difference.

Abstract: An embodiment of a thermal drop detector in accordance with the present invention includes an array configured to define a plurality of cells each of which is configured to detect thermal changes in an area of that cell resulting from deposition of a drop adjacent that cell. This embodiment of a thermal drop detector additionally includes a thermally conductive layer over each of the cells to protect each of the cells from physical contact with the drop. A method of thermal drop detection in accordance with the present invention includes depositing a drop on a thermally conductive material, the thermally conductive material overlaying a thermally sensitive array. The method additionally includes measuring via the thermally sensitive array a thermal change resulting from deposition of the drop on the thermally conductive material.

Abstract: Optical encoder system designs and methods for use thereof in printing devices are disclosed which are directed to solving problems caused by contaminant matter accumulating on optical encoder strips as well as scratching of optical encoder strips. An embodiment includes a dispenser and a take-up mechanism. The dispenser includes an encoder strip having first and second lengths. The second length of encoder strip is substantially free of contaminant matter. The first length of the encoder strip is coupled to the take-up mechanism so that the first length of the encoder strip is positioned between the dispenser and take-up mechanism. The take-up mechanism is configured to advance at least a portion of the second length of the encoder strip from the dispenser to a position between the dispenser and take-up mechanism upon actuation of the take-up mechanism.

Abstract: A print medium with encoded data and a print media detection system for use in detecting at least one characteristic of the sheet of print medium based on the encoded data are disclosed. The encoded data is designed to minimize its visual perceptibility. The print media detector is designed to recognize various characteristics of print media based upon the encoded data and transmit information regarding these characteristics to a printing device so that one or more operating parameters of the printing device can be adjusted to help optimize print quality for the particular characteristics of a particular print medium. A printing device including the print medium and print media detection system is also disclosed. A method of detecting one or more characteristics of print media used in a printing device is additionally disclosed.

Abstract: Apparatuses and methods for detecting error in loading print media in a printing device are disclosed. An apparatus embodiment includes a width adjuster position sensor that determines a position of a print medium width adjuster, a width sensor that measures a width of a print medium, and a computing device that compares the width adjuster position with the print medium width, and verifies that the width adjuster is properly positioned for the print medium width. Another embodiment includes a length adjuster position sensor that determines a position of a print medium length adjuster, a length sensor that measures a length of the print medium, and a computing device that compares the length adjuster position with the print medium length, and verifies that the length adjuster is properly positioned for the print medium length.

Abstract: A print media level sensor and method for determining a height of a stack of print media for use in printing devices are disclosed. An embodiment of a print media level sensor includes a print media stack follower configured to contact a top of a stack of print media and remain in contact with the top as a height of the stack changes. The print media stack follower also includes encoded data representative of a plurality of heights of the stack of print media. The print media level sensor additionally includes a decoder configured to read encoded data on the print media stack follower and output a signal representative of the encoded data. The print media stack follower may further include a computing device that receives the signal representative of the encoded data from the computing device and converts the signal representative of the encoded data into a signal representative of the stack height.

Abstract: An inkjet printing method of fixing ink to a print medium is disclosed. An embodiment of the method comprises depositing ink drops on a print medium with an inkjet printhead, the ink including a solvent and the print medium including a first surface. The method additionally comprises vibrating the print medium by applying ultrasonic energy to displace drops of the solvent to the first surface of the print medium to accelerate evaporation of the drops of solvent. An apparatus for use in an inkjet printing device is also disclosed. An embodiment of the apparatus comprises an ultrasonic source configured to apply ultrasonic energy to a print medium to displace drops of ink solvent to a first surface of the print medium thereby accelerating evaporation of the drops of solvent. An inkjet printing device including the method and apparatus is also disclosed. Further characteristics and features of the method and apparatus are described herein, as are examples of various alternative embodiments.

Abstract: A detection system for measuring a dry time of a printing composition used by a printing device is disclosed. An embodiment of the detection system includes a source, a sensor, and a controller. The source is configured to transmit a first light signal toward a quantity of printing composition deposited on a print medium. A sensor is configured to detect a second light signal reflected by the printing composition in response to illumination by the first light signal, the second light signal having a magnitude that decreases to a substantially constant value as the printing composition dries over a period of time. The sensor is also configured to convert the second light signal into an electrical signal having a value proportional to the magnitude of the second light signal. The controller is coupled to the sensor and configured to receive the electrical signal from the sensor over the period of time the printing composition dries.