An information processing apparatus includes: a display controller; a letter-size setting section that sets a letter size of a letter string over a plurality of lines which has been entered through an edit screen; and a print controller that prints the letter string in the letter size set by the letter-size setting section. The letter-size setting section can differently set letter sizes of the letter string. When a line feed operation is performed at a head or end of an n-th line through the edit screen, a letter size of the n-th line preset in accordance with a user's designation, the letter-size setting section sets a letter size of one of the n-th line and an (n+1)-th line after the line feed operation so that a length of letter string over the plurality of lines is equal to or shorter than a length of the printable area.

A method of marking a package (72) includes providing a package (72) including an additive transformable from a first state to a second state in response to an external stimulus and presenting said package via a sales device (80). At least a portion of said additive is in said first state when said package is presented in said sales device (80). At least a portion of said additive is activated to form identifying indicia on said package within said sales device (80).

Disclosed is a label printer having a driven carrier tape drawing roller; and a guide unit for the carrier tape, said guide unit being pivotably supported about a pivot axle between an operating position and an insertion position for the carrier tape, wherein the guide unit includes a counter-element to the printhead, configured to hold the carrier tape with the labels in contact with the printhead in the operating position; wherein, in the operating position, the carrier tape is led between the printhead and the counter-element and between the carrier tape drawing roller and the respective carrier tape pressure roller and can in particular be transported along a predefined carrier tape transport path; and wherein, in the insertion position of the guide unit, the counter-element is pivoted away from the printhead and the respective carrier tape pressure roller is pivoted away from the carrier tape drawing roller.

Disclosed is a label printer, having a first receiver for a printhead; at least two mutually different printhead units, each configured as a replaceable module and that each have a printhead, wherein one of the two printhead units is selectively received by the first receiver in an assembled state; a second receiver for a guide unit for the carrier tape having a counter-element to the printhead that is configured to hold the carrier tape with the labels in contact with the printhead; and at least two mutually different guide units for the carrier tape, each configured as a replaceable module and that each have a counter-element to the printhead that is configured to hold the carrier tape with the labels in contact with the printhead, wherein one of the two guide units for the carrier tape is selectively received by the second receiver in the assembled state.

There is disclosed a method for management of printing jobs. In the method user identification is requested to identify the user, who then selects an artwork for the labels. Data regarding the selected artwork is retrieved from a data storage. Printing properties are defined for the selected artwork, and a set of available unique codes for the labels is determined on the basis of the user identification. A printing file is constructed including information related to at least the selected artwork and printing material selected for the printing job. The printing file is stored into a cloud storage linked with the identified user. A unique code is assigned for each label from the set of available unique codes. The unique code is assigned either in the printing file or when printing the labels.

An agnostic in-line verification system and method produce finished RFID-enabled tags including labels, tags, tickets, stickers and the like. Includes is an RFID-verification base unit with an RFID-verifier that checks for verification of programmed data of the RFID-enabled tags. A feed module is positioned upstream of the RFID-verification base to receive a flow of RFID-enabled tags to be finished through RFID verification, and a collector module is downstream of the RFID-verification base unit and that receives RFID-verified tags from the RFID-verification base unit. In systems that feed a continuous stream of uncut tags, a cutter module is positioned between the verification base unit and the collector module.

A tape printing device includes a platen shaft that engages with a platen roller; a thermal head that prints on a tape sandwiched with the platen roller engaged with the platen shaft; a head holder that has a rotating shaft and rotatably holds the thermal head about the rotating shaft; and a pressing member that is provided to be rotatable about the rotating shaft together with the thermal head and presses the thermal head against the platen roller, in which the pressing member has a convex portion that protrudes toward the thermal head and presses the thermal head against the platen roller.

Provided is a tape printing apparatus including a half cutter and a mounting portion lid. The half cutter has a half-receiving portion and a half-movable portion, the half-movable portion includes a half-movable blade and comes into contact with or separates from the half-receiving portion, a first side, which is one side of the half-movable blade in a blade length direction, is open between the half-receiving portion and the half-movable portion, and the mounting portion lid opens and closes a cutter mounting portion on which the half cutter is mounted. The mounting portion lid is provided with a lid-side half-receiving support portion that supports at least one of an end on the first side of the half-receiving portion and an end on the first side of a third frame portion that supports the half-receiving portion pressed by the half-movable portion when the mounting portion lid is closed.

Embodiments of the disclosure provide for improved print position compensation, for example to improve accuracy of print job(s) performed by a printer. The print position compensation enables an offset of the time until printing occurs on a print media to account for changes and/or erroneous movement in a print media, such as due to slippage and/or other results of a force applied to the print media. Particular embodiments determine data values derived both for an output phase and a retraction phase of the printer's operation. Various embodiments generate a print position compensation based on sensor-based edge position distances determined during each of a media output phase and a media retraction phase. Alternatively or additionally various embodiments generate a print position compensation based on sensor-based media movement phase timestamp differentials determined during each of a media output phase and a media retraction phase.

A thermal printer of an embodiment includes: a main body; an opening and closing lid; a printing portion that includes a platen and a thermal head; a locking portion locks the opening and closing lid; a detection unit that detects a predetermined pressing state between the thermal head and the platen when a sensor detects a detection target portion; a controller that prohibits printing by the printing portion when the detection unit does not detect the predetermined pressing state; and a biasing member that biases the main body and the opening and closing lid in a direction in which the main body and the opening and closing lid are separated from each other so that the sensor does not detect the detection target portion in a state where the opening and closing lid is not locked to the locking portion.