Abstract: In an exposure system for substrate members which bear a photosensitive coating on a substrate surface, comprising a machine frame, a substrate carrier bearing the substrate member and an exposure device, wherein the substrate member and the exposure device can be moved relative to one another such that the photosensitive coating can be exposed as a result of this relative movement, it is suggested for an exposure of the photosensitive coating which is as precise as possible that the exposure device have an optics slide which can be moved in the second direction and on which an optical imaging device for the exposure of the substrate member is arranged, and that the exposure device have a light source unit which is arranged on the machine frame separately from the optics slide and has a plurality of light sources, the radiation of which can be coupled into the optical imaging device.

Abstract: In order that an exposure apparatus for producing exposed structures in a photosensitive layer arranged on an object, comprising an object carrier and an exposure device, wherein the object carrier and the exposure device can be moved relative to one another in an advance direction and wherein exposure spots can be produced on the photosensitive layer in a position-controlled manner by means of the exposure device transversely with respect to the advance direction, is improved in such a way that a highest possible exposure power is available, i.e.

Abstract: In the case of an exposure system for substrate bodies which carry a photosensitive coating on a substrate surface, comprising a machine frame, a substrate carrier which carries the substrate body and has a substrate carrier surface, and an exposure device with an optics unit, the optics unit and the machine frame being movable relative to one another in a first direction and in a second direction, so that the photosensitive coating can be exposed by this relative movement in the first direction and in the second direction, in order to improve said system in such a way that a compact configuration is possible, despite in this case a substrate body with a very large extent in the first and the second direction, it is proposed that the exposure device has a guide cross-member for at least one guide carriage of the exposure device, the guide carriage carrying the optics unit, in that the guide carriage is guided on the guide cross-member to be movable in the first direction, and in that the guide cross-member is