A fixing unit includes a film including a tubular shape and configured to rotate, a heater arranged inside the film and including a heating resistor configured to generate heat by passing alternating current therethrough and an insulator configured to cover the heating resistor, a sliding member arranged between the heater and the film and configured to be in sliding contact with an inner surface of the film, the sliding member having electric conductivity, a pressing member configured to be in pressure contact with the sliding member across the film to form a nip portion between the sliding member and the pressing member, and a conductive member electrically connected to a ground potential via at least one impedance element. The sliding member is electrically connected to the conductive member.

A cancellation operation of a fixing nip and movement of a transfer roller are interlocked with each other. In the image forming apparatus, at least a first state in which the relative position is arranged at a fixing position and the transfer roller is arranged at a transfer position, a second state in which the relative position is arranged at a transfer nip cancellation position and the transfer roller is arranged at a transfer nip cancellation position, and a third state in which the relative position is arranged at a fixing nip cancellation position and the transfer roller is arranged at one of an intermediate position between the transfer position and the transfer nip cancellation position and the transfer position may be taken as a combination state of the relative position between the fixing roller and the facing member and the position of the transfer roller.

A motor control apparatus includes an excitation unit and a control unit. The excitation unit includes switching elements connected to a power supply and to different motor coils. The excitation unit excites an excitation phase targeted for excitation among motor excitation phases by the control unit driving the switching elements. When the excitation phases are excited, the control unit drives, in a first time period and based on a first PWM signal, a first switching element connected to a first phase coil corresponding to a first phase of the excitation phase targeted for excitation and, in a second time period and based on a second PWM signal, drives a second switching element connected to a second phase coil corresponding to a second phase of the excitation phase. The control unit controls outputting a duty ratio of the second PWM signal to the second switching element in the second time period.

An apparatus prints images for a density adjustment on a plurality of sheets, reads the image on a sheet printed later among the plurality of printed sheets, determines a representative value by carrying out a calculation from at least a first density value read from an image at a predetermined position on a first sheet and a second density value read from an image at the predetermined position on a second sheet, which are printed later, and performs a print density adjustment using the determined representative density and a target density.

A heating unit includes a board including metal, an insulating layer including insulating material and formed on a surface of the board, a heating element disposed on the insulating layer to generate heat by passing an electric current through the heating element, and a conductive portion electrically connecting the heating element and the board to each other. The heating unit further includes a first power supplying electrode electrically connected to the heating element and a second power supplying electrode electrically connected to the board. The heating element, the conductive portion and the board constitute an electric circuit between the first power supplying electrode and the second power supplying electrode. The heating element generates the heat in a case where the first power supplying electrode and the second power supplying electrode are electrically connected to a power source and the electric current is passed through the electric circuit.

A power supply device includes a first circuit and a second circuit. The first circuit includes an adjustment unit, a detection unit, a processing unit including a conversion unit, a first communication unit, and a power storage unit. The second circuit includes a second communication unit performing wireless communication with the first communication unit, and a control unit outputting a carrier wave used in the wireless communication. After outputting the carrier wave during a first period, the control unit stops output of the carrier wave during a second period. During the second period, the conversion unit operates on the power stored in the power storage unit. The control unit outputs the carrier wave during a third period after the second period. During the third period, the processing unit transmits information about a conversion result. The control unit controls the adjustment unit based on the transmitted information.

There is provided an image forming apparatus in which an image carrier and an elastic body may be in pressure contact with each other, and in which a toner remover may be in contact with the image carrier to remove toner remaining on the image carrier. The image forming apparatus may include: a first hardware processor that forms an image pattern in a region including at least a part of a pressure contact part of the image carrier that is in pressure contact with the elastic body when operation of the image carrier is stopped; a second hardware processor that acquires density of the image pattern formed on the image carrier; a third hardware processor that adjusts driving time of the image carrier based on the density of the image pattern; and a fourth hardware processor that drives the image carrier for the driving time.

A recording material determination device includes a transmission unit, a drive unit, a reception unit, and a control unit. The drive unit outputs a drive signal for transmitting an ultrasonic wave from the transmission unit to the reception unit. The control unit determines a type of a recording material, based on a first value of the ultrasonic wave through the recording material received by the reception unit in a first mode for outputting a first number of drive signals from the drive unit in a first period, and a second value of the ultrasonic wave through the recording material received by the reception unit in a second mode for outputting a second number of drive signals from the drive unit in a second period. The second number of drive signals is greater than the first number of drive signals.

An operation status prediction system includes a hardware processor. The hardware processor acquires data, which is relevant to an operation status at each timing of an operation device to be monitored, so as to be associated with information of the timing. The hardware processor predicts a future operation status according to the acquired operation status for each of a plurality of periods having different lengths from the present.

An image forming apparatus includes a reading table, an image reading device, an image forming device with an exposure device, and circuitry. The reading device reads a pattern on a recording medium on the table, and generates image data of the pattern. The exposure device includes a light emitting element to form an electrostatic latent image, based on which the image forming device forms the pattern. Based on first and second correction values, the circuitry calculates a third correction value to correct a light amount of the light emitting element. The exposure device includes a driving device that drives the light emitting element based on the third correction value. The circuitry sets at least two or more determination areas in each of a white area and a pattern area of the medium, and determines whether the medium has a rise based on density data in the determination areas.