A first acquisition processing is processing of acquiring first information indicative of an ejection characteristic of a first liquid ejected by a liquid ejecting device when a driving waveform candidate is applied to a driving element. A second acquisition processing is processing of acquiring second information indicative of an ejection characteristic of a second liquid ejected from the liquid ejecting device when the driving waveform candidate is applied to the driving element, and the second liquid differs from the first liquid.

A drive waveform determination method includes: a first acquisition step of executing first acquisition processing for acquiring, in a first environment condition which is a condition of an environment in which a liquid ejection head is provided, first information on an ejection characteristic of a liquid when each of a plurality of drive waveform candidates is applied to a drive element; a second acquisition step of executing second acquisition processing for acquiring, in a second environment condition which is a condition of the environment in which the liquid ejection head is provided and is different from the first environment condition, second information on the ejection characteristic when each of the plurality of drive waveform candidates is applied to the drive element; and a waveform determination step of determining a drive waveform based on the first information and the second information.

A printing system comprises a print fluid deposition assembly, a media transport device, and an air flow control system. The print fluid deposition assembly comprises a carrier plate and a printhead to eject a print fluid through an opening of the carrier plate to a deposition region. The media transport device holds a print medium against the movable support surface by vacuum suction and transports the print medium through the deposition region. The air flow control system comprises an air supply unit comprising an airflow guide structure extending into the opening of the carrier plate, the airflow guide structure configured to flow air at a direction aimed under the printhead and at an oblique angle relative to the movable support surface. The air flow control system controls the air supply unit to selectively flow the air based on a location of a print medium relative to the printhead.

A printer is disclosed herein. The printer has a printhead having a plurality of ink nozzles for ejecting ink, a servicing mechanism for capturing the ejected ink from the ink nozzles, to service the printhead, and a control device coupled to the printhead and the servicing mechanism for regulating the servicing. As part of the regulation, the control device continues feeding a substrate towards the printhead during an idle period. The idle period of the printhead can be a duration when printing on the substrate is suspended. Further, the control device regulates ejection of ink from the ink nozzles towards the substrate during the idle period and operates the servicing mechanism during the idle period. In an example, the servicing mechanism captures the ink before the ink reaches the substrate.

A method for modifying color density values in a dot-based printing system uses a control unit. The control unit implements the modification of the color density values after a raster image has been created and modifies the number and/or size of print dots to be applied to a printing substrate in order to attain pre-defined color density target values.

The disclosed embodiments include a printer having a printing area configured to receive distinct mediums, and printer heads arranged relative to the printing area. The printer heads are collectively configured to print independent images onto the distinct mediums. The printer heads include at least one shared printer head configured to simultaneously print portions of the independent images onto each of two adjacent mediums.

A controller determines the amount of driving by a sub-scanning driver and the number of nozzles to be used in accordance with a maximum amplitude of vibration of an inkjet head in a sub-scanning direction, where the maximum amplitude is detected by a displacement detecting sensor when the inkjet head is moved in the sub-scanning direction before starting printing. Then, while moving the inkjet head in a main-scanning direction, the controller performs printing by selecting nozzles to be used in accordance with displacement of the inkjet head in the sub-scanning direction detected by the displacement detecting sensor.

An image forming apparatus receives a print setting for image data, determines a density correction table to be applied to a position of a pixel in the image data based on the received print setting from among a plurality of stored density correction tables, and corrects a density of the image data using the determined density correction table.

A printer prints on a printing medium as the printer is moved. The printer includes a printing unit, a detector, and a controller. The printing unit prints an image on the printing medium. The detector detects a region on the printing medium that is not suitable to be printed on by the printing unit. The controller makes the printing unit stop printing when the detector detects the region on the printing medium that is not suitable to be printed on while the printing unit is printing.

Provided are a recording head capable of suppressing concentration unevenness at a connection portion of head modules, a method for producing the recording head, and a recording device having the recording head. A recording head of a recording device is configured such that a first head module in which an ejection amount of the liquid droplets of one end portion in the one direction of a head module, in which a plurality of nozzles for ejecting liquid droplets are arranged, is larger than an ejection amount of the liquid droplets of the other end portion opposite to the one end portion, and a second head module in which the ejection amount of the liquid droplets of the other end portion is larger than the ejection amount of the liquid droplets of the one end portion are alternately connected in the one direction.