An inkjet recording device includes a hardware processor. The hardware processor: performs, for respective recording heads of a recorder, setting relevant to adjustment of an amount of ink to be discharged from nozzle groups; based on ink discharge amount information on a distribution of ink discharge amounts that are discharged from the nozzle groups based on image data, performs the setting such that at each joint in the nozzle groups, a difference between representative values of the ink discharge amounts of the nozzle groups satisfies a predetermined continuity condition, and a representative value of the ink discharge amounts of the nozzle groups satisfies a predetermined discharge amount condition; and adjusts at least a part of the setting such that a difference between a maximum value and a minimum value of the ink discharge amounts of the nozzle groups reduces.

A thermal printer includes heating elements that generate heat according to amounts of applied energy, an energy applier that applies energy to the heating elements, a memory that stores a gradation table where energy levels to be applied to the heating elements are set for gradation levels based on a relationship between dot area ratios of an image and the amounts of energy applied to the heating elements, and a controller that transfers control data multiple times to the energy applier based on the gradation table to control the amounts of energy to be applied by the energy applier to the heating elements, each of the control data corresponding to different amounts of energy.

A thermal printer includes heating elements that generate heat according to amounts of applied energy, an energy applier that applies energy to the heating elements, a memory that stores a gradation table where energy levels to be applied to the heating elements are set for gradation levels based on a relationship between dot area ratios of an image and the amounts of energy applied to the heating elements, and a controller that transfers control data multiple times to the energy applier based on the gradation table to control the amounts of energy to be applied by the energy applier to the heating elements, each of the control data corresponding to different amounts of energy.

A thermal printer according to an embodiment includes a communication interface that receives print data from an external device. A thermal print head thermally prints on a sheet, line by line according to the received print data. A motor drives a roller to transport the sheet, line by line according to the received print data. A processor determines, for a current print line, a target transport speed for transporting the sheet, and retrieves one or more intermediate speeds that are defined in advance and are between a current transport speed of transporting the sheet and the target transport speed. The processor controls the motor to transport the sheet at each determined intermediate speed and the target transport speed, sequentially. The thermal print head is heated in accordance with predetermined heating control information corresponding to the determined intermediate speed closest to the current speed.

The disclosure discloses a non-transitory computer-readable recording medium storing a print processing program for executing an increment mode acceptance step, a condition acceptance step, a determination step, and a data output step on a computing device. In the increment mode acceptance step, a setting operation of an increment mode of at least one print number is accepted. In the condition acceptance step, a setting of a specific numerical condition of the print number to be emphasized is accepted. In the determination step, it is determined whether or not the print number included in a corresponding a print object satisfies the numerical condition. In the data output step, in the case that it is determined that the print number satisfies the numerical condition, the print data is generated to apply a predetermined emphasis process to the print number.

The disclosure discloses a non-transitory computer-readable recording medium storing a print processing program for executing an increment mode acceptance step, a condition acceptance step, a determination step, and a data output step on a computing device. In the increment mode acceptance step, a setting operation of an increment mode of at least one print number is accepted. In the condition acceptance step, a setting of a specific numerical condition of the print number to be emphasized is accepted. In the determination step, it is determined whether or not the print number included in a corresponding a print object satisfies the numerical condition. In the data output step, in the case that it is determined that the print number satisfies the numerical condition, the print data is generated to apply a predetermined emphasis process to the print number.

In an inkjet recording apparatus, a control section forms a test chart in which a plurality of lines, each extending along the recording-medium width direction, are drawn arranged along the recording-medium conveyance direction by making the ink ejection nozzles eject ink, while gradually changing either ink ejection timing with respect to each of the ink ejection nozzles or a recording-medium conveyance speed. Furthermore, the control section checks for, and corrects, pixel deviation in the recording-medium conveyance direction based on the test chart.

A cartridge, that can reduce the diameter of a winding core, to be installed in a tape printing device includes: a cartridge case that constitutes an outer shell of the cartridge and accommodates a printing tape, a tape core on which the printing tape is wound, an ink ribbon, and a winding core; a core concave part on the cartridge case and into which a core convex part is inserted from a back side in an installation direction when the cartridge is installed in a cartridge installation part; and a cartridge-side first engagement part and a cartridge-side second engagement part that engage a device-side first engagement part and a device-side second engagement part, respectively, when the core convex part is inserted into the core concave part to change a state of a torque switching mechanism from a second to a first state or from the first to the second state.

An interface circuit includes an operation controller that controls an operation state of the interface circuit; a converter that outputs divided print data signals, each divided print data signal of the divided print data signals having a predetermined bit width; a storage that stores the divided print data signals. The interface circuit includes a data controller that controls an order of writing of the divided print data signals into the storage and reading of the divided print data signals from the storage; a logical arithmetic module that performs logical arithmetic operations based on the divided print data signal and a history pulse signal and outputs a history print data signal that defines heat generating time periods of dots corresponding to print lines to be printed; and a conversion clock synchronizer that outputs the history print data signal in synchronization with a driving signal for a thermal head.

An interface circuit includes an operation controller that controls an operation state of the interface circuit; a converter that outputs divided print data signals, each divided print data signal of the divided print data signals having a predetermined bit width; a storage that stores the divided print data signals. The interface circuit includes a data controller that controls an order of writing of the divided print data signals into the storage and reading of the divided print data signals from the storage; a logical arithmetic module that performs logical arithmetic operations based on the divided print data signal and a history pulse signal and outputs a history print data signal that defines heat generating time periods of dots corresponding to print lines to be printed; and a conversion clock synchronizer that outputs the history print data signal in synchronization with a driving signal for a thermal head.