The area of the openings Ow that discharges the white ink is larger than the area of the openings Ot that discharges the color inks. Since the openings Ow are secured to be large in this way, more white ink can be discharged to one pixel while the number of ink droplets discharged by the multi-drop method is suppressed or without depending on the multi-drop method. As a result, a generation amount of an ink mist can be suppressed while the discharge amount of the white ink is secured.

A recording device includes a head including a plurality of nozzles discharging ink droplets and a head including a plurality of nozzles discharging ink droplets of a color identical to that of the ink droplets, a driving circuit configured to drive the former head at a drive voltage and drive the latter head by another drive voltage, an input unit configured to receive an input of selection information selected, based on comparison between a print image printed by the former head and a plurality of other print images G2 printed by the latter head, with the other drive voltage being changed individually, and a control unit configured to control the drive voltage and the other drive voltage, based on the selection information input from the input unit.

Printheads and printers are described herein. In one example, a printhead includes a number of drop generators disposed in a first array and a second array. The drop generators in both the first array and the second array are spaced one dot pitch apart perpendicular to the motion of a print medium, and alternate between a high drop weight (HDW) drop generator and a low drop weight (LDW) drop generator. Each drop generator in the first array is in a line of the motion of the print medium with a corresponding drop generator in the second array, wherein each HDW drop generator in the first array is in line with an LDW drop generator in the second array, and each LDW drop generator in the first array is in line with an HDW drop generator in the second array.

A control device is configured to: obtain target image data; generate dot data using the target image data; and control a print execution device to print a print image using the dot data by executing: a first partial printing of forming the dots in an overlapping area and a first non-overlapping area; and a second partial printing of forming the dots in the overlapping area and a second non-overlapping area. The control device generates data of the dot data corresponding to the overlapping area by executing an overlapping area processing including first processing for values of pixels within a first range and second processing for values of pixels within a second range, the first processing including lowering a density of an image to be printed in the overlapping area.

Provided are an image recording apparatus, a dither mask, and an image recording method capable of reducing occurrence of concentration unevenness without decrease in productivity. In an image recording apparatus that repeats a main scan operation of relatively moving a recording head having a nozzle row with respect to a recording medium in a main scan direction to perform recording and a sub scan operation of relatively moving the recording medium with respect to the recording head in a sub scan direction, a nozzle jetting rate of each nozzle is controlled by a dither mask. The dither mask is subjected to threshold setting so that a sum of a sum of nozzle jetting rates of corresponding nozzles of respective nozzle groups used in recording a first half scan for recording each scan band and a sum of nozzle jetting rates of corresponding nozzles of respective nozzle groups used in recording a second half scan becomes a specific value that is in a defined allowable range, with respect to at least a part of a recording duty range.

A method of printing using a print head comprising first and second print arrays, each comprising a plurality of nozzles. Each of the first print array nozzles emits a droplet of a first volume and each of the second print array nozzles emits a droplet of a second volume, wherein the first volume is less than the second volume. The method comprises: a. receiving image data comprising a received tone value for a pixel; b. selecting one of the print arrays corresponding to the pixel location; c. mapping the received tone value to a mapped tone value using a tone mapping for the selected print array; d. comparing the mapped tone value with a threshold value for the location of the pixel; and e. generating a control signal for the selected print array if the mapped tone value corresponds to the threshold value in a predetermined manner.

A recording system records a multi-tone image with liquid droplets of different amount discharged from nozzles. This recording system has a first nozzle and a second nozzle. The minimum amount of a liquid droplet discharged from the first nozzle is larger than the minimum amount of a liquid droplet discharged from the second nozzle.

A recording device includes a recording head housed in a carriage, and for discharging a droplet on an obverse surface of a medium to perform recording on the medium, a support section having a support surface for supporting a reverse surface of the medium, and a heater for heating the droplet adhered to the obverse surface of the medium. The carriage is provided with a collection section capable of collecting steam generated when the droplet is heated by the heater. The recording head includes a nozzle cover provided with a plurality of holes for discharging the droplet. The nozzle cover includes a nozzle surface opposed to the support surface The collection section is formed of a material higher in hydrophilic property than the nozzle surface.

A fluidic die may include a number of actuators. The number of actuators form a number of primitives. The fluidic die may include a digital-to-analog converter (DAC) to drive a number of the delay circuits. The delay circuits delay a number of activation pulses that activate the actuators associated with the primitives to reduce peak power demands of the fluidic die. A number of delay circuits may be coupled to each primitive.

Provided are an image recording apparatus, a dither mask, and an image recording method capable of reducing occurrence of concentration unevenness without decrease in productivity. In an image recording apparatus that repeats a main scan operation of relatively moving a recording head having a nozzle row with respect to a recording medium in a main scan direction to perform recording and a sub scan operation of relatively moving the recording medium with respect to the recording head in a sub scan direction, a nozzle jetting rate of each nozzle is controlled by a dither mask. The dither mask is subjected to threshold setting so that a sum of a sum of nozzle jetting rates of corresponding nozzles of respective nozzle groups used in recording a first half scan for recording each scan band and a sum of nozzle jetting rates of corresponding nozzles of respective nozzle groups used in recording a second half scan becomes a specific value that is in a defined allowable range, with respect to at least a part of a recording duty range.