An image forming apparatus that is capable of executing image forming operation includes an image bearing member; a developer carrying member that faces the image bearing member in a state of keeping a predetermined gap therefrom, and develops a latent image on the image bearing member using developer; a frame that supports the developer carrying member; applying units that applies developing voltage, in which DC voltage and AC voltage are superimposed, to the developer carrying member; a conductive member that is disposed in the frame; a detecting unit that detects AC current induced in the conductive member by applying the developing voltage to the developer carrying member; and a control portion that controls the applying units. The control portion controls the developing voltage in the image forming operation, based on the AC current which the detecting unit detects in a case where the voltage is applied by the applying units.

A static elimination device includes: a first static elimination member that makes contact with a medium that is transported; a second static elimination member arranged such that the medium is inserted between the first static elimination member and the second static elimination member; and a power source that applies a voltage to at least one of the first static elimination member or the second static elimination member, in which at least one of the first static elimination member and the second static elimination member has an elastic body.

The present disclosure provides an electrical parameter detection method, a chip, a consumable, and an image forming apparatus. The electrical parameter detection method includes: configuring an installation detecting pin to be at a high level by an image forming control unit; controlling a voltage of an installation detecting terminal to be at a low level by a chip control unit, such that a current loop is formed between the image forming apparatus and the chip; and determining, by the image forming apparatus, whether the image forming apparatus is in a desired contact with the chip according to an electrical parameter of the current loop.

Devices include electrically conductive elements contacting a vacuum belt, and a voltage source connected to the electrically conductive elements. The electrically conductive elements form an electrical circuit from the voltage source, through the belt, and back to the voltage source. The electrically conductive elements are positioned so that they are separated from the belt when the belt moves the sheets of media between the electrically conductive elements and the belt. A processor is capable of identifying leading edges of the sheets of media on the belt (when voltage of the electrical circuit changes from a relatively higher voltage to a relatively lower voltage) and identifying trailing edges of the sheets of media on the belt (when the voltage of the electrical circuit changes from the relatively lower voltage back to the relatively higher voltage).

The present disclosure provides an electrical parameter detection method, a chip, a consumable, and an image forming apparatus. The electrical parameter detection method includes: configuring an installation detecting pin to be at a high level by an image forming control unit; controlling a voltage of an installation detecting terminal to be at a low level by a chip control unit, such that a current loop is formed between the image forming apparatus and the chip; and determining, by the image forming apparatus, whether the image forming apparatus is in a desired contact with the chip according to an electrical parameter of the current loop.

An image forming apparatus including: a circuit board including a varistor, an electric part different from the varistor, and a heatsink for the electric part, the circuit board being supplied with a voltage from a commercial power source; a fan configured to cool the circuit board; and a housing configured to house the circuit board, wherein an opening is formed in the housing, wherein a cross-section shape of the heatsink is a U-shape, the varistor is positioned between a first wall portion and a second wall portion of the heatsink so that the heatsink straddles the varistor, and a position of the heatsink in a direction orthogonal to a longitudinal direction of the heatsink overlaps with a position of the opening in the direction so that an air is caused to flow between the first wall portion and the second wall portion through the opening by the fan.

An image forming apparatus includes a fixing unit, an image forming unit, and a controller. The controller is configured to receive image data corresponding to a target image to be formed on a sheet, convert the received image data to modified image data corresponding to a modified image that includes the target image and an added margin on at least one side of the target image in a sheet width direction side, control the image forming unit to form the modified image based on the modified image data, and cause the sheet to be conveyed to the image forming unit such that a positioning of the sheet in the sheet width direction overlaps with the target so that a fixing portion of the fixing unit overlaps with the target image in the modified image formed on the sheet.

An image forming apparatus includes an image carrying member, an intermediate transfer belt, a primary transfer roller, a first belt support roller, a secondary transfer roller, a second belt support roller, a current feeder, a controller, a current sensor, and a rectifier. The current sensor has a lead member. The rectifier shuts off a current passing from the second belt support roller to the ground if the voltage on the second belt support roller is less than a predetermined reference voltage. The controller controls the output current such that the secondary transfer current has a current value resulting from subtracting a leak current from the output current and, when the lead member is in a conducting state, keeps the voltage on the second belt support roller less than the reference voltage.

A static elimination device includes: a first static elimination member that makes contact with a medium that is transported; a second static elimination member arranged such that the medium is inserted between the first static elimination member and the second static elimination member; and a power source that applies a voltage to at least one of the first static elimination member or the second static elimination member, in which at least one of the first static elimination member and the second static elimination member has an elastic body.

An image forming apparatus including: a circuit board including a varistor, an electric part different from the varistor, and a heatsink for the electric part, the circuit board being supplied with a voltage from a commercial power source; a fan configured to cool the circuit board; and a housing configured to house the circuit board, wherein an opening is formed in the housing, wherein a cross-section shape of the heatsink is a U-shape, the varistor is positioned between a first wall portion and a second wall portion of the heatsink so that the heatsink straddles the varistor, and a position of the heatsink in a direction orthogonal to a longitudinal direction of the heatsink overlaps with a position of the opening in the direction so that an air is caused to flow between the first wall portion and the second wall portion through the opening by the fan.