A component mounting machine, including a component transfer device, having a component mounting tool configured to collect and mount a component, a mounting head configured to hold the component mounting tool, and a head driving mechanism configured to horizontally drive the mounting head, which performs a mounting work of mounting the component collected from a component supply device on a predetermined coordinate position of a board carried in and positioned by a board conveyance device, and a control device configured to control the mounting work, and configured to implement a thermal correction process for reducing an influence on mounting accuracy of the component, of which influence being caused by thermal deformation due to a temperature change in at least one of the head driving mechanism and the mounting head.

A display device with self-luminous display elements, which are arranged in a panel. The panel is provided, on its rear side opposite the light-emitting surface used for display, with a heat distribution element, on the side of which facing away from the rear side at least one temperature sensor is arranged. The heat distribution element has at least one opening, behind which a light sensor is arranged, wherein the light sensor and the temperature sensor are arranged on a common carrier.

The image data generation device includes a component information input section and an image data generation section. The component information input section is configured to input a mounting position and an outer shape of the electronic component for each of the multiple electronic components to be mounted in the mounting processing. The mounting position includes a position in a height direction orthogonal to a surface of the board. The image data generation section is configured to generate image data for displaying a state when each of the multiple electronic components to be mounted in the mounting processing is arranged at the mounting position of the electronic component based on the mounting position and the outer shape of the electronic component input by the component information input section.

A method is used to identify and compensate for errors created by changes in the relative positions of a deposition unit and a vision system of a dispenser. The method includes calibrating the vision system, dispensing a pattern of features over a working area, moving the vision system over a deposition location to locate a deposition, obtaining an image of the deposition, tagging data associated with the image, calculating a relative distance between the deposition unit and the vision system, storing correction data with spatial location in a file for later use, and using the stored data to make small corrections prior to dispensing additional material.

The component mounting machine includes a head, a head moving device, an imaging device, and a control device. The control device executes a lower component mounting operation that mounts a lower component on a board, an upper component mounting operation that mounts an upper component on the lower component mounted on the board, and a lower component mounting inspection operation that images the board on which the lower component is mounted, and performs a mounting inspection of the lower component based on a captured image after the lower component mounting operation is performed and before the upper component mounting operation is performed.

A mounting order determination device for determining a mounting order of multiple electronic components prior to mounting work using a component mounting machine or a component mounting line, the mounting order determination device including a level setting section for setting level information, in which mounting order priorities are ranked, for each component type, the target of which being of at least one of a multilayer mounting component type group, including a component type of multiple electronic components having a possibility of being mounted in the up-down direction in layers, and a close-proximity mounting component type group.

A component orientation determination data creation device for creating component orientation determination data used in a component orientation determination system that determines an orientation of the component by comparing a brightness value of a determination region specified in the component orientation determination data within an image of the component captured by a camera with a determination threshold. A difference image between an image of the component in a correct orientation and an image of the component in another orientation is calculated by acquiring multiple images of the component in different orientations by changing the orientation with respect to the camera of the component that is the target for the component orientation determination data creation.

A mounting device for executing a mounting process of mounting a component on a board includes: a mounting head that includes at least one pickup section for picking up the component and moves the picked up component; a storage section configured to store at least a first correction value determined at a first position on XYZ axes on which the mounting head works and a second correction value determined at a second position different from the first position; and a control section configured to execute the mounting process by using the first correction value and/or the second correction value stored in the storage section.

Each of multiple component mounting machines constituting a component mounting line is configured to switch between a production mode in which a component is mounted on a circuit board that has been conveyed in and then conveyed out, a mounting accuracy measurement mode in which a mounting accuracy measurement component is mounted at a predetermined position on a mounting accuracy measurement board and the mounting accuracy is measured, and a pass mode in which a component is conveyed out without being mounted on the board conveyed in. When the control mode of two or more component mounters among the multiple component mounting machines is the mounting accuracy measurement mode, the mounting accuracy is measured by conveying the mounting accuracy measurement board along the board conveyance path, and the two or more component mounting machines sequentially use the mounting accuracy measurement board to measure the mounting accuracy.

A method for processing substrates, in particular wafers, masks or flat panel displays, with a semi-conductor industry machine, wherein a computer-supported process is used to determine the presence and/or position and/or orientation of the substrate. Further, a system designed to execute the method. The computer-supported process includes an artificial neural network.