FUJIFILM Dimatix, Inc. Patent applications |
Patent application number | Title | Published |
20150049136 | METHOD, APPARATUS, AND SYSTEM TO PROVIDE MULTI-PULSE WAVEFORMS WITH MENISCUS CONTROL FOR DROPLET EJECTION - A method, apparatus, and system are described herein for driving a droplet ejection device with multi-pulse waveforms. In one embodiment, a method for driving a droplet ejection device having an actuator includes applying a multi-pulse waveform with a drop-firing portion having at least one drive pulse and a non-drop-firing portion to an actuator of the droplet ejection device. The non-drop-firing portion includes a jet straightening edge having a droplet straightening function and at least one cancellation edge having an energy canceling function. The at least drive pulse causes the droplet ejection device to eject a droplet of a fluid. | 02-19-2015 |
20140259595 | FLUID EJECTION MODULE MOUNTING - A fluid ejection module mounting apparatus, including a module mount having a horizontal portion and a vertical portion, a fluid ejection module mounted to the module mount, and a clamp assembly including a recessed portion, a clamp along a wall of the recessed portion, and a lever coupled to the clamp and configured to move the clamp from an open position to a closed position. The horizontal portion has an opening configured to receive a fluid ejection module and the vertical portion has a protruding portion. The protruding portion of the module mount is configured to mate with the recessed portion of the clamp assembly. | 09-18-2014 |
20140244052 | Waveform Shaping Interface - A method and system of facilitating development of fluids having a variety of elemental compositions are disclosed. A graphical user interface allows user interaction with a lab deposition system to control fluid drop ejection of fluids through multiple nozzles. Fluid drop ejection and drop formation can vary from fluid to fluid, and require adjustments to waveform parameters of a drive pulse applied to the multiple nozzles. The system implements a drop watcher camera system to capture real-time still and video images of fluid drops as they exit the multiple nozzles. The captured drop formation of the fluid drops are displayed to the user, and based on the images the waveform parameters are adjusted and customized specific for individual fluid. In addition to adjusting the drive pulse that effects fluid drop ejection, a tickle pulse can also be adjusted and customize to prevent clogging of the nozzles. | 08-28-2014 |
20140240415 | Recirculation of ink - An apparatus includes an inkjet assembly having inkjet nozzles through each of which ink flows at a nominal flow rate as it is ejected from the nozzle onto a substrate. Ink is held under a nominal negative pressure associated with a characteristic of a meniscus of the ink in the nozzle when ejection of ink from the nozzle is not occurring. The apparatus includes recirculation flow paths, each flow path having a nozzle end at which it opens into one of the nozzles and another location spaced from the nozzle end that is to be subjected to a recirculation pressure lower than the nominal negative pressure so that ink is recirculated from the nozzle through the flow path at a recirculation flow rate. Each recirculation flow path has a fluidic resistance between the nozzle end and the other location such that a recirculation pressure at the nozzle end of the flow path that results from the recirculation pressure applied at the other location of the flow path is small enough so that any reduction in flow rate below the nominal flow rate when ink is being ejected is less than a threshold, or a change in the nominal negative pressure when ink is not being ejected is less than a threshold, or both. | 08-28-2014 |
20140239089 | MEMS Jetting Structure For Dense Packing - A fluid ejector includes a fluid ejection module having a substrate and a layer separate from the substrate. The substrate includes a plurality of fluid ejection elements arranged in a matrix, each fluid ejection element configured to cause a fluid to be ejected from a nozzle. The layer separate from the substrate includes a plurality of electrical connections, each electrical connection adjacent to a corresponding fluid ejection element. | 08-28-2014 |
20140210884 | INK JETTING - Among other things, an inkjet print head module includes inkjets from which ink drops are to be jetted during a series of jetting cycles. There is circuitry on the inkjet print head module to (a) form, from trimming information or other information that characterizes jetting waveforms to be applied to respective inkjets in respective jetting cycles, corresponding jetting waveforms and (b) apply the formed jetting waveforms to the respective inkjets in the respective jetting cycles. | 07-31-2014 |
20140184677 | INK JET PRINTING - In general, in one aspect, the invention features a method of driving an inkjet module having a plurality of ink jets. The method includes applying a voltage waveform to the inkjet module, the voltage waveform including a first pulse and a second pulse, activating one or more of the ink jets contemporaneously to applying the first pulse, wherein each activated ink jet ejects a fluid droplet in response to the first pulse, and activating all of the ink jets contemporaneously to applying the second pulse without ejecting a droplet. | 07-03-2014 |
20130229473 | Recirculation of ink - An apparatus includes an inkjet assembly having inkjet nozzles through each of which ink flows at a nominal flow rate as it is ejected from the nozzle onto a substrate. Ink is held under a nominal negative pressure associated with a characteristic of a meniscus of the ink in the nozzle when ejection of ink from the nozzle is not occurring. The apparatus includes recirculation flow paths, each flow path having a nozzle end at which it opens into one of the nozzles and another location spaced from the nozzle end that is to be subjected to a recirculation pressure lower than the nominal negative pressure so that ink is recirculated from the nozzle through the flow path at a recirculation flow rate. Each recirculation flow path has a fluidic resistance between the nozzle end and the other location such that a recirculation pressure at the nozzle end of the flow path that results from the recirculation pressure applied at the other location of the flow path is small enough so that any reduction in flow rate below the nominal flow rate when ink is being ejected is less than a threshold, or a change in the nominal negative pressure when ink is not being ejected is less than a threshold, or both. | 09-05-2013 |
20130228084 | Printhead Stiffening - In general, in an aspect, an apparatus includes a body having a hollow ink refill chamber, a plate on a side of the body, the plate having a series of posts separating a series of hollow channels adjacent to the hollow ink refill chamber in the body. | 09-05-2013 |
20130155153 | Printhead Module - A printhead including a body; an actuator attached to the body, and an enclosed space between the actuator and the body forms a chamber; an opening defined by the body for releasing pressure in the chamber; and a seal attached to the opening to seal the chamber while permitting pressure to be released. | 06-20-2013 |
20130148167 | PRINTING OBJECTS USING A ROLLING BUFFER - An electronic architecture for an imaging data path allows for printing on objects that are unevenly spaced. The architecture uses a rolling image buffer into which images are copied. A hardware trigger can optionally be used in conjunction with the rolling image buffer to prevent any printing mismatches that could otherwise be caused by a software delay. The trigger relates the physical location of the object to a virtual location in the image buffer. | 06-13-2013 |
20130129994 | Forming A Pigment Pattern On A Substrate - Among other things, a pattern of dry particles of a pigment is provided on a transfer layer. The pattern of dry particles is transferred onto a surface of a ceramic substrate in preparation for firing of the dry particles to form a permanent pattern on the ceramic substrate. | 05-23-2013 |
20130063511 | FLUID JETTING WITH DELAYS - Please replace the abstract at page 29 with the following amended abstract: Among other things, the disclosure features a system for use in fluid jetting. The system comprises a first print module comprising a first row of nozzles, a second print module comprising a second row of nozzles, and a controller to receive a first data packet from a remote device at a first moment and a second data packet from the remote device at a second moment after the first moment. Upon receipt of the first data packet, the controller is configured to cause at least some nozzles in the first row, at a third moment, to eject fluid droplets onto a line on a substrate. Upon receipt of the second data packet, the controller is configured to cause at least some nozzles in the second row, at a fourth moment separated from the third moment by a time delay, to eject fluid droplets onto the line on the substrate. | 03-14-2013 |
20120287198 | Imaging Jetted Ink - In general, in an aspect, a laser produces a coherent beam to illuminate ink jetted from an orifice of an inkjet, for use in imaging the jetted ink, and a device is used to reduce an effect of speckle caused by the coherent beam in the imaging of the jetted ink. | 11-15-2012 |
20120262520 | Phase-Change Ink Jetting - Among other things, ink is jetted onto a substrate, the ink includes (a) a pigment and (b) a wax, and the jetted ink on the substrate is heated to fire the pigment on the substrate. | 10-18-2012 |
20120206014 | PIEZOELECTRIC TRANSDUCERS USING MICRO-DOME ARRAYS - An ultrasonic piezoelectric transducer device includes a transducer array consisting of an array of vibrating elements, and a base to which the array of vibrating elements in the transducer array are attached. The base include integrated electrical interconnects for carrying driving signals and sensed signals between the vibrating elements and an external control circuit. The base can be an ASIC wafer that includes integrated circuitry for controlling the driving and processing the sensed signals. The interconnects and control circuits in the base fit substantially within an area below the array of multiple vibrating elements. | 08-16-2012 |
20120200619 | Fluid Circulation - Among other things, an apparatus for use in fluid jetting is described. The apparatus comprises a printhead including a flow path and a nozzle in communication with the flow path that has a first end and a second end. The apparatus also includes a first container fluidically coupled to the first end of the flow path, a second container fluidically coupled to the second end of the flow path, and a controller. The first container has a first controllable internal pressure and the second container has a second controllable internal pressure. The controller controls the first internal pressure and the second internal pressure to have a fluid flow between the first container and the second container through the flow path in the printhead according to a first mode and a second mode. In either mode, at least a portion of the fluid flowing along the flow path is delivered to the nozzle when the nozzle is jetting. The first mode has the first internal pressure higher than the second internal pressure and the second mode has the second internal pressure higher than the first internal pressure. The fluid flows from the first container to the second container according to the first mode and flows from the second container to the first container according to the second mode. | 08-09-2012 |
20120141678 | Carbon Nanotube Ink - Carbon nanotube inkjet solutions and methods for jetting are described. | 06-07-2012 |
20120019598 | Bonded Microelectromechanical Assemblies - A MEMS device is described that has a body with a component bonded to the body. The body has a main surface and a side surface adjacent to the main surface and smaller than the main surface. The body is formed of a material and the side surface is formed of the material and the body is in a crystalline structure different from the side surface. The body includes an outlet in the side surface and the component includes an aperture in fluid connection with the outlet. | 01-26-2012 |
20110316922 | Printing on a Rotating Surface - In some examples, a printing system including a rotating platen having an axis of rotation and configured to support a substrate, and a printhead configured to eject drops in a direction parallel with the axis of rotation onto the substrate supported by the rotating platen. | 12-29-2011 |
20110157648 | Data Pump For Printing - Systems and techniques for printing on a workpiece. In one implementation, a data pump is used to create a packet of image data for a print head assembly. The data pump includes multiple state machines to receive image data from an image buffer on a computer, and a serializer to gather image data from each of the state machines. Each of the state machines is configured to send image data to the serializer at a different instance in time. The serializer is configured to arrange the gathered image data according to when the serializer received the image data from each of the state machines. The data pump also includes an optical fiber communication interface to connect with a communication channel. | 06-30-2011 |
20110001780 | POSITIONING JETTING ASSEMBLIES - Among other things, in one aspect, an apparatus comprises features to enable mounting first and second jetting assemblies on a frame. The features comprise first and second alignment datums pre-fixed with respect to the frame for establishing respective positions of the first and second jetting assemblies, when mounted, so that at least some of the nozzles along a length of one of the jetting assemblies have predetermined offsets relative to at least some of the nozzles along a length of the other of the jetting assemblies, and an opening exposing all of the nozzles along the lengths of the first and second jetting assemblies are exposed to permit jetting of a fluid onto a substrate. | 01-06-2011 |
20100187667 | Bonded Microelectromechanical Assemblies - A MEMS device is described that has a body with a component bonded to the body. The body has a main surface and a side surface adjacent to the main surface and smaller than the main surface. The body is formed of a material and the side surface is formed of the material and the body is in a crystalline structure different from the side surface. The body includes an outlet in the side surface and the component includes an aperture in fluid connection with the outlet. | 07-29-2010 |
20100165031 | VARIABLE RESOLUTION IN PRINTING SYSTEM AND METHOD - In one aspect, the invention features a method for operating a printing system with variable laydown, including providing the system with print job information, selecting an ink laydown based on the print job information, generating firing instructions for the printing system based on the ink laydown, and printing an image on a substrate at the ink laydown. | 07-01-2010 |
20100091060 | Adjustable Mount Printhead Assembly - A mounting assembly for a printhead assembly is described that can allow dynamic nozzle and drop placement adjustment in one or more directions. | 04-15-2010 |
20100079523 | Control of Velocity Through a Nozzle - A method is described wherein one or more parameters are measured that affect the nozzle velocity at which a printing fluid is ejected from a pumping chamber through a nozzle. The printing fluid is contained in the pumping chamber actuated by deflection of a piezoelectric layer. A surface area of an electrode actuating the piezoelectric layer is reduced based at least in part on the measured one or more parameters. Reducing the surface area of the electrode reduces the actuated area of the piezoelectric layer. | 04-01-2010 |
20100066206 | Bonding On Silicon Substrate Having A Groove - A method and apparatus for bonding on a silicon substrate are disclosed. An apparatus includes a membrane having a membrane surface, a groove in the membrane surface, a transducer having a transducer surface substantially parallel to the membrane surface, and an adhesive connecting the membrane surface to the transducer surface. The groove can be configured to permit flow of adhesive into and through the groove while minimizing voids or air gaps that could result from incomplete filling of the groove. Multiple grooves can be formed in the membrane surface and can be of uniform depth. | 03-18-2010 |
20100039479 | PRINTHEAD - Ink jet printheads and printhead components are described. | 02-18-2010 |
20090322830 | INK DELIVERY - Among other things, an apparatus for use in ink jetting includes a reservoir system including a reservoir to contain a volume of ink to be delivered to and jetted from at least two jetting assemblies onto a substrate in an ink jetting direction. The reservoir system is located adjacent to at least two of the jetting assemblies along the ink jetting direction. | 12-31-2009 |
20090322826 | INK JETTING - Among other things, for jetting ink, a first set of orifices of an apparatus are arranged to print at a first maximum resolution along a direction different from a process direction. A second set of orifices is coupled to the first set of orifices. The second set of orifices is arranged to print at a second maximum resolution lower than the first maximum resolution along a direction different from the process direction. | 12-31-2009 |
20090322187 | Piezoelectric Actuators - Microelectromechanical systems with structures having piezoelectric actuators are described. The structures each have a body that supports piezoelectric islands. The piezoelectric islands have a first surface and a second opposite surface. The piezoelectric islands can be formed, in part, by forming cuts into a thick layer of piezoelectric material, attaching the cut piezoelectric layer to a body having etched features and grinding the piezoelectric layer to a thickness that is less than the depths of the cuts. Conductive material can be formed on the piezoelectric layer to form electrodes. | 12-31-2009 |
20090303269 | DROP EJECTION ASSEMBLY - A fluid drop delivery device is disclosed. The device includes a plurality of nozzle openings from which fluid is ejected and a waste control aperture. | 12-10-2009 |
20090303266 | SENSING OBJECTS FOR PRINTING - A printing apparatus including a conveyor capable of moving an object in a process direction, a drop ejection device, a sensor array that substantially spans the conveyor in a cross-process direction that is perpendicular to the process direction, the sensor array being configured to detect a position of the object in the process direction and cross-process direction, and a controller configured to receive position data about the object from the sensor array and to cause the drop ejection device to deposit fluid droplets on the object based on the position of the object on the conveyor. | 12-10-2009 |
20090230088 | FORMING A PRINT HEAD WITH A THIN MEMBRANE - A microfabricated device and method for forming a microfabricated device are described. A thin membrane including silicon is formed on a silicon body by bonding a silicon-on-insulator substrate to a silicon substrate. The handle and insulator layers of the silicon-on-insulator substrate are removed, leaving a thin membrane of silicon bonded to a silicon body such that no intervening layer of insulator material remains between the membrane and the body. A piezoelectric layer is bonded to the membrane. | 09-17-2009 |
20090122118 | Printhead Module - A printhead module includes a printhead body, a nozzle plate and one or more piezoelectric actuators. The printhead body includes one or more pumping chambers, where each pumping chamber includes a receiving end to receive a printing liquid from a printing liquid supply and an ejecting end for ejecting the printing liquid from the pumping chamber. The nozzle plate includes one or more nozzles formed through the nozzle plate. Each nozzle can be in fluid communication with a pumping chamber and receive printing liquid from the ejecting end for ejection from the nozzle. The one or more piezoelectric actuators are connected to the nozzle plate. A piezoelectric actuator is positioned over each pumping chamber and includes a piezoelectric material configured to deflect and pressurize the pumping chamber, so as to eject printing liquid from a corresponding nozzle in fluid communication with the ejecting end of the pumping chamber. | 05-14-2009 |
20090109259 | Single-Pass Inkjet Printing - A single-pass print head has multiple orifice plates each serving some but not all of the area to be printed. | 04-30-2009 |
20090066758 | FLEXIBLE PRINTHEAD CIRCUIT - A flexible circuit for use within a printhead assembly and to connect a printhead body to an external circuit includes a substantially planar portion having one or more layers of conductive material and having a top surface substantially parallel to a top surface of the printhead body. One or more integrated circuits can be mounted onto the planar portion. Multiple leads extend from each integrated circuit, the leads electrically connected to the printhead body. One or more arms are attached to, and substantially perpendicular to, the planar portion, each arm including one or more external connectors configured to connect to the external circuit. | 03-12-2009 |
20090058971 | Method of Printing - A method of printing an image on a substrate in a printing machine having at least a first printing unit and an inkjet printing unit, includes moving the substrate through the printing machine. A raster image formed of image dots is printed on the substrate at a first moment using at least the first printing unit. At least one contiguous area of inkjet dots in the raster image is printed at a second moment, after the first moment, using the inkjet printing unit. Substantially all inkjet dots forming the contiguous area are printed at dot locations having similar surface wetting properties. | 03-05-2009 |
20080211872 | DROPLET EJECTION APPARATUS ALIGNMENT - In one aspect, the invention features assemblies for depositing droplets on a substrate during relative motion of the assembly and the substrate along a process direction. The assemblies include a first printhead module and a second printhead module contacting the first printhead module, each of the printhead modules including a surface that includes an array of nozzles through which the printhead modules can eject fluid droplets, wherein each nozzle in the first printhead module's nozzle array is offset with respect to a corresponding nozzle in the second printhead module's nozzle array in a direction orthogonal to the process direction. | 09-04-2008 |