A camera module miniaturized in both width and length includes a baseplate, a lens assembly, and a bracket. The bracket includes a support plate and a support member disposed on the support plate. The support plate includes a first surface facing away from the baseplate and a second surface facing the baseplate. The support plate defines a first opening penetrating the first surface and the second surface. The lens assembly is disposed on the first surface and completely covers the first opening. The support member is located between the support plate and the baseplate. The support member includes a first support portion and a plurality of second support portions arranged at intervals, the first support portion is disposed on the second surface and surrounds the peripheral edge of the first opening. Each second support portion extends outwards from an outer surface of the first support portion.

Disclosed is an electronic gimbal with camera and mounting configuration. The gimbal can include an inertial measurement unit which can sense the orientation of the camera and three electronic motors which can manipulate the orientation of the camera. The gimbal can be removably coupled to a variety of mount platforms, such as an aerial vehicle, a handheld grip, or a rotating platform. Moreover, a camera can be removably coupled to the gimbal and can be held in a removable camera frame. Also disclosed is a system for allowing the platform, to which the gimbal is mounted, to control settings of the camera or to trigger actions on the camera, such as taking a picture, or initiating the recording of a video. The gimbal can also provide a connection between the camera and the mount platform, such that the mount platform receives images and video content from the camera.

Multi-cameras and in particular dual-cameras comprising a Wide camera comprising a Wide lens and a Wide image sensor, the Wide lens having a Wide effective focal length EFL.sub.W and a folded Tele camera comprising a Tele lens with a first optical axis, a Tele image sensor and an OPFE, wherein the Tele lens includes, from an object side to an image side, a first lens element group G1, a second lens element group G2 and a third lens element group G3, wherein at least two of the lens element groups are movable relative to the image sensor along the first optical axis to bring the Tele lens to two zoom states, wherein an effective focal length (EFL) of the Tele lens is changed from EFL.sub.T,min in one zoom state to EFL.sub.T,max in the other zoom state, wherein EFL.sub.Tmin>1.5×EFL.sub.W and wherein EFL.sub.Tmax>1.5×EFL.sub.Tmin.

A device (1) for producing a photoactive system (10), in particular a deactivated photoactive system (10), characterised by: an imaging device (2) having at least one imaging arrangement (20), wherein the at least one imaging arrangement (20) has a beam passage plane (SE) and an optical axis (O), and the at least one imaging arrangement (20) is designed to generate electromagnetic beams which extend along a beam path and pass through the imaging arrangement (20) on the beam passage plane (SE) and to reflect the electromagnetic beams along the beam path at the photoactive arrangement (11) in order to image, on a first focal plane (B1) of the imaging arrangement (20), an evaluation image of a photoactive arrangement (11) of the photoactive system (10) to be produced, and the electromagnetic beams of the beam path are captured on the first focal plane (B1) in order to capture the evaluation image of the photoactive arrangement (11); and a first holding device (3a) having a first holding plane (Ha), on the first holding plane (Ha), an optical arrangement (12) of the photoactive system (10) to be produced; and a second holding device (3b) having a second holding plane (3b) for holding the photoactive arrangement (11) on the second holding plane (Hb); wherein the first holding device (3a) having the first holding plane (Ha) and/or the second holding device (3a) having the second holding plane (Ha) is/are movably positioned relative to the imaging device (2).

This application provides a camera module, an imaging method, and an imaging apparatus. The camera module 111 this application includes a filter module and a sensor module. The filter module is configured to output target optical signals of different bands in optical signals incident on the filter module to a same pixel on the sensor module at different times. The sensor module is configured to: convert the target optical signals incident on the sensor module into electrical signals, and output the electrical signals.

A lens unit includes: a lens including a lens part formed at the center of the lens, and a flange part that extends radially outward from the periphery of the lens part and includes a rear end surface on its rear side; a transparent spacer that is disposed behind the lens in the optical axis direction and used for focusing the lens part, the spacer including a front end surface that opposes to the rear of the lens, a spaced-apart part that opposes to the lens part and is spaced apart rearward in the optical axis direction from the lens part, and a bonded peripheral part that extends radially outward from the periphery of the spaced-apart part; and an adhesive that is disposed between the rear end surface of the flange part and the bonded peripheral part and bonds the lens and the spacer.

One embodiment comprises: a housing; a bobbin arranged in the housing; a first coil arranged on the bobbin; a magnet, which is arranged in the housing and corresponds to the first coil; an upper elastic member coupled to the top of the bobbin and the top of the housing; a second coil, which is arranged below the housing and corresponds to the magnet in the optical axis direction; a circuit board including a body arranged below the second coil, and a connective elastic part extending from the body; a base arranged below the body of the circuit board; and a support member having one end coupled to the upper elastic member, and having the other end coupled to the connective elastic part, wherein the connective elastic part includes a coupling part coupled to the other end of the support member, and a connection part for connecting the body and the coupling part.

An image capturing assembly is provided and includes an image sensing device, a first circuit board, a second circuit board and a lens assembly. The image sensing device includes an electrical connecting component. The first circuit board includes a first contact. The image sensing device is mounted on the first circuit board, and the electrical connecting component is electrically connected to the first contact. The second circuit board includes a second contact. The second circuit board is affixed with the first circuit board and perpendicular to the first circuit board, and the second contact is electrically connected to the first contact, so that the second contact is electrically connected to the electrical connecting component by the first contact. The lens assembly is assembled with the image sensing device. Furthermore, a related endoscope is provided.

An image capturing assembly is provided and includes an image sensing device, a first circuit board, a second circuit board and a lens assembly. The image sensing device includes an electrical connecting component. The first circuit board includes a first contact. The image sensing device is mounted on the first circuit board, and the electrical connecting component is electrically connected to the first contact. The second circuit board includes a second contact. The second circuit board is affixed with the first circuit board and perpendicular to the first circuit board, and the second contact is electrically connected to the first contact, so that the second contact is electrically connected to the electrical connecting component by the first contact. The lens assembly is assembled with the image sensing device. Furthermore, a related endoscope is provided.

An optical component driving mechanism is provided. The optical component driving mechanism includes a first movable portion, a fixed portion, a first circuit member, and a first reinforcing component. The first movable portion is connected to the first optical component. The first optical component has a first optical axis. The first movable portion is movable relative to the fixed portion. The first circuit member is disposed on the fixed portion, and the first circuit member is configured to transmit electrical signals. The first reinforcing component is disposed on the first circuit member.