A large format printer performs serial printing on a medium which is greater than or equal to A3 short side width. The large format printer includes a print head which performs printing in accordance with variations in a drive voltage signal which is applied to a drive element, a control circuit which generates a drive signal (an example of the drive voltage signal), and a cable which is greater than or equal to 1 m and transmits a power voltage signal (an example of a constant voltage signal) and the drive voltage for driving the print head from the control circuit to the print head. An overshooting prevention circuit which renders a voltage (a drive voltage) of the drive signal which is applied to the drive element less than or equal to a voltage (a power voltage) of the power voltage signal is disposed in the print head.

A controller of an inkjet recording apparatus is configured to calculate an energized time length during which a timer is in an energized state after a particular calculation start point for calculating a lapse time length based on a time measured by the timer and store the energized time length, determine whether there exists a non-energized state after the calculation start point, estimate the non-energized time length, referring to the energized time length and a time length parameter stored in a memory when it is determined that there exists the non-energized state after the calculation start point, and calculate the lapse time length elapsed from the calculation start point based on the non-energized time length estimated in the estimation process and the energized time length stored in the memory.

An electric potential difference between both ends of a first fuse portion is increased to more than the electric potential difference that is generated by an electric potential applied to drive print elements in a state where a first print element and a first covering portion are electrically connected to each other.

A control system includes a control circuit. The control circuit is to be connected to a head unit including first driving elements and second driving elements. Based on an input print data, the control circuit applies a first signal to the first driving element and applies a second signal to the second driving elements. The control circuit changes the first signal to a third signal in a first time and changes the second signal to a fourth signal in a second time. Based on an input print data, the control circuit applies the third signal to the first driving element and applies the fourth signal to the second driving elements.

There is provided an ink-jet printer including: a recording head; a power supply; and a controller. In a case that the controller obtains a maintenance instruction, the controller performs: boosting driving voltage to a target voltage value, in accordance with a first pattern; and applying the driving voltage to at least one of driving elements. In a case that the controller obtains an image recording instruction, the controller performs: boosting the driving voltage to the target voltage value, in accordance with a second pattern having a voltage boosting time shorter than the first pattern; and recording an image on a sheet by selectively applying the driving voltage, boosted to the target voltage value, to the driving elements.

A liquid jetting apparatus includes: a head including nozzles and driving elements arranged to correspond to the nozzles; a power source connected to the driving elements; and a control circuit connected to the power source. The control circuit determines whether an output voltage value of the power source is changed from a first voltage value to a second voltage value. When the control circuit has determined that the output voltage value is changed from the first voltage value to the second voltage value, the control circuit calculates an absolute value of a difference between the first voltage value and the second voltage value and compares the absolute value of the difference and a threshold value. When the absolute value of the difference is equal to or more than the threshold value, the control circuit determines a calculation voltage value smaller than the absolute value of the difference.

A drive circuit which drives a capacitive load on the basis of a drive signal output from a node includes a first wire; a second wire; an amplification unit; a capacitor and a resistance element; a determination unit which determines whether or not a voltage of a differentiated drive signal is within a predetermined range in case where a magnitude of a voltage change of the signal is less than or equal to a threshold; and a voltage output unit which amplifies the a voltage of the signal by a predetermined multiple, for example, one time, and outputs the amplified signal toward the node in a case where it is determined that the voltage of the differentiated drive signal is within the predetermined range.

The power supply unit includes a circuit substrate including a first layer that is a surface layer being conductive, a first wiring pattern formed of the first layer, a second layer that is conductive, and a second wiring pattern formed of the second layer, and first and second capacitors formed on the first layer. The first capacitor includes a first terminal and a second terminal. The second capacitor includes a third terminal and a fourth terminal. The circuit substrate includes a first electrode connecting the first terminal of the first capacitor to the first wiring pattern, a second electrode connecting the second terminal of the first capacitor to the second wiring pattern, a third electrode connecting the third terminal of the second capacitor to the second wiring pattern, and a fourth electrode connecting the fourth terminal of the second capacitor to the first wiring pattern.

There is provided a liquid discharge apparatus including: a liquid discharge head having a nozzle; an electrode facing the nozzle; a power supply which generates a potential difference between the liquid discharge head and the electrode; a first output unit which outputs a first signal in accordance with an electric change in a case that the liquid discharge head is caused to perform inspection driving; a low-pass filter; a second output unit; a high-pass filter; a third output unit; and a controller. The controller executes determination as to whether or not the liquid is normally discharged from the nozzle, based on the first signal; and determination as to whether or not a short circuit occurs between the liquid discharge head and the electrode, based on a second signal output from the second output unit and a third signal output from the third output unit.

An information processing apparatus including a storage device obtains an energized time to the storage device in a standby state where no job is being executed and a number of accesses to the storage device during the standby state. The information processing apparatus provides a display relating to a lifetime of the storage device based on the energized time and the number of accesses to the storage device.