An image capture device includes an image capture module and a base module. The image capture module is releasably connectable to the base module. The image capture module includes an integrated image sensor and optical component for capturing image data. The base module includes a processor. The processor is configured and the base module is calibrated based on identification data provided by the image capture module when releasably connected to the base module. The image information and identification data may be wirelessly transferred from the image capture module to the base module.

The present invention relates to a camera module comprising: a first body including a lens; a second body coupled to the first body; and a substrate assembly disposed within the second body, wherein the substrate assembly comprises: a first substrate and a second substrate; a third substrate disposed between the first substrate and the second substrate; a fourth substrate electrically connecting the first substrate and the second substrate; a fifth substrate electrically connecting the second substrate and the third substrate; and a processor disposed on the second substrate, wherein the length of the fourth substrate is longer than the length of the fifth substrate.

The present invention relates to a camera module comprising: a first body including a lens; a second body coupled to the first body; and a substrate assembly disposed within the second body, wherein the substrate assembly comprises: a first substrate and a second substrate; a third substrate disposed between the first substrate and the second substrate; a fourth substrate electrically connecting the first substrate and the second substrate; a fifth substrate electrically connecting the second substrate and the third substrate; and a processor disposed on the second substrate, wherein the length of the fourth substrate is longer than the length of the fifth substrate.

An anti-shake mechanism, a camera module, and an electronic device are provided. The anti-shake mechanism includes: a support plate; a first printed circuit board; a support column fixedly installed on the first printed circuit board; a tilt angle detection mechanism, configured to detect a tilt angle of the support plate and a tilt direction of the support plate; an angle adjustment mechanism, connected between the support plate and the first printed circuit board; and a driving apparatus connected to the tilt angle detection mechanism and the angle adjustment mechanism, respectively. An end of the support column away from the first printed circuit board contacts the support plate. The driving apparatus receives an angle signal collected by the tilt angle detection mechanism, and drives the angle adjustment mechanism to enable the support plate to rotate around the support column.

A power supply circuit and a power supply method for a camera and an electronic device are provided. The camera is detachably connected to a body of the electronic device, a power source is arranged in the body, and the circuit includes: a first power supply pin and a second power supply pin that are arranged on the body; a power source pin and a ground pin that are arranged on the camera, where in a case that the camera is mounted at a preset position of the body, the power source pin is in contact with one of the first power supply pin and the second power supply pin, and the ground pin is in contact with the other of the first power supply pin and the second power supply pin; a first switch.

A camera module comprises: a first housing; a lens module disposed in the first housing; a second housing coupled to the first housing; a first printed circuit board disposed in the inner space of the first housing and the second housing; an image sensor disposed on the first printed circuit board; and a shield can disposed under the first printed circuit board in the second housing, wherein the shield can comprises a rib which comes into contact with the lower surface of the first printed circuit board.

Examples relate to a camera device, to a base unit for a camera device, to a computation device, and to corresponding methods and computer programs. A camera device comprises a magnetic attachment mechanism for attaching the camera device to a display surface of a monitor. The camera device comprises a camera sensor for generating image data. The camera device comprises wireless communication circuitry for providing the image data wirelessly to a computation device.

The invent discloses a smart wearable device for vision enhancement and a method for realizing stereoscopic vision transposition, comprising a wearable device body, wherein the wearable device body is provided with camera lenses, image sensors, an image information receiving and transmitting unit, image enhancement units, and near-to-eye optical systems; the optical axis and field angle of the near-to-eye optical system are matched with the optical axis and field angle of the camera lens; the image sensor is arranged behind the camera lens; the real scene enters the image sensor through an image imaging device for image acquisition, and through the image enhancement unit, the low-light environment image collected by the smart wearable device in the low-light environment is enhanced and displayed clearly. The invention can ensure the enhancement of the real stereoscopic vision in the dark environment and the interchange of the remote and barrier-free stereoscopic real vision.

The invent discloses a smart wearable device for vision enhancement and a method for realizing stereoscopic vision transposition, comprising a wearable device body, wherein the wearable device body is provided with camera lenses, image sensors, an image information receiving and transmitting unit, image enhancement units, and near-to-eye optical systems; the optical axis and field angle of the near-to-eye optical system are matched with the optical axis and field angle of the camera lens; the image sensor is arranged behind the camera lens; the real scene enters the image sensor through an image imaging device for image acquisition, and through the image enhancement unit, the low-light environment image collected by the smart wearable device in the low-light environment is enhanced and displayed clearly. The invention can ensure the enhancement of the real stereoscopic vision in the dark environment and the interchange of the remote and barrier-free stereoscopic real vision.

A portable electronic device, and an image-capturing device and an assembly method thereof are provided. The image-capturing device includes a carrier substrate, an image sensing chip, a filter element and a lens assembly. The carrier substrate has a through opening and a recessed space. The image sensing chip is disposed on the bottom side of the carrier substrate. The filter element is disposed in the recessed space of the carrier substrate, so that all or a part of the filter element is accommodated in the through opening. When at least one microparticle with a maximum particle size between 5 μm and 25 μm is located on the filter element, a shortest distance between the filter element and the image sensing chip is between 30 μm and 200 μm, so that the image sensing chip cannot capture a light spot generated due to blocking of the microparticle.