A thermal head includes a substrate; a heat generating section disposed on the substrate; an electrode electrically connected to the heat generating section; a cover layer which covers part of the electrode; a pad electrically connected to the electrode; and a joining member electrically connected to the pad. The cover layer includes a first portion and a second portion which is smaller in thickness than the first portion. The second portion is placed on the pad. The pad has a convexity which exposes from the second portion. The joining member is connected to the convexity.

The disclosure discloses a printer including a memory storing computer-executable instructions. When the instruction is executed by a processor, a printer perform a read process and a printed matter production process. In the read process, process setting information stored in a cartridge memory of a cartridge of the specific type is read, triggered by attachment of the cartridge of the specific type to a cartridge holder. In the printed matter production process, at least a feeder and a printing head is controlled on the basis of a setting state included in the process setting information read in the read process.

A thermal head according to the present disclosure includes: a substrate; a first electrode; a heat generating section; a second electrode; a resin layer; and a protective layer. The first electrode is located on the substrate. The heat generating section is located on the substrate. The second electrode is located on the substrate so as to be electrically connected to the heat generating section and the first electrode. The resin layer is located on the first electrode. The protective layer is located on the resin layer. Moreover, the resin layer includes a first portion inserted in the first electrode.

In accordance with an embodiment, a printer connectable to a host device comprises a printing module for carrying out printing on a medium, a reception module for receiving a first control signal for driving the printing module which is generated based on an image indicated by data which is a printing object from the host device, and a printing processing module for printing the image indicated by the data which is the printing object on the medium by driving the printing module according to the first control signal received by the reception module.

A thermal head includes a substrate, a heat storage layer disposed on the substrate and including a bulging portion, heating elements disposed on the bulging portion, a protective layer disposed on the heating elements, and a covering layer disposed on the protective layer. The covering layer includes a first portion disposed apart from the bulging portion, and a second portion disposed between the bulging portion and the first portion. The height of the second portion from the substrate is smaller than the height of the first portion from the substrate.

The present disclosure provides an insulating substrate. The insulating substrate includes a ceramic substrate having a main surface and a planarization layer covering the main surface. The planarization layer is a ceramic layer.

A thermal print head includes: a substrate having an obverse surface; a plurality of heat generators arranged on the substrate in a main scanning direction; and a wiring layer provided on the substrate and constituting an energization path to the heat generators. The substrate has a protrusion protruding from the obverse surface and extending in the main scanning direction. The protrusion has a top portion having the largest distance from the obverse surface, and an inclined portion connected to the top portion in a sub-scanning direction. The inclined portion is inclined relative to the obverse surface at a predetermined angle. Each of the plurality of heat generators extends across a boundary between the top portion and the inclined portion. Each of the heat generators is formed on at least a part of the top portion and at least a part of the inclined portion in the sub-scanning direction.

A thermal head includes a substrate; a plurality of heat generating portions; a common electrode disposed on the substrate and electrically connected to the plurality of heat generating portions; a plurality of individual electrodes disposed on the substrate and each electrically connected to a corresponding one of the plurality of heat generating portions; a first insulation layer disposed on the heat generating portions, a part of the common electrode, and a part of the individual electrodes; a second insulation layer located adjacent to the first insulation layer and disposed on a part of the individual electrodes; and a static removing layer disposed on the first insulation layer and grounded. The static removing layer includes a first portion disposed on an upper surface of the first insulation layer and a second portion electrically connected to the first portion and disposed on an upper surface of the second insulation layer.

A thermal head includes: a head base body including a substrate and a plurality of heat generating sections disposed on the substrate; connection portions which are electrically connected to the head base; a connection member which is electrically connected to the connection portions; and a first cover member which covers the connection portions, the first cover member including a plurality of protruding portions provided on an upper surface of the first cover member at predetermined intervals in a main scanning direction.

A thermal head includes: a substrate; a heat generating section which is disposed on the substrate; a plurality of driving ICs including first and second driving ICs which are disposed on the substrate and electrically coupled to the heat generating section; and a cover member covering the first and second driving ICs. The cover member is disposed in an inter-driving IC region between the first driving IC and the second driving IC and above and below the inter-driving IC region, and includes a first void.