An integrated rain and solar radiation sensing module including at least two light emitting elements, a plurality of input lenses, wherein at least two of the plurality of input lenses are configured to receive and collimate light emitted by each of the light emitting elements, a plurality of output lenses numbering at least twice as many as the plurality of input lenses, wherein each output lens is configured to receive and focus light that is collimated by at least one of the plurality of input lenses and reflected off of a transparent substrate, and a plurality of light receiving elements, wherein each light receiving element configured to receive focused light from at least one of the output lenses and to convert the received light into an electrical output signal proportional to the received light.

An electro-optical assembly, in particular a sensor assembly for detecting ambient light, includes a reflection surface, a lens body and an electro-optical component, in particular a light receiver. The component includes a depression having a main lens section, in particular a diverging lens section with a concave interior wall, and a converging lens section with a convex interior wall. The interior wall of the converging lens section is formed in such a way that the rays of the ray path which travel through the converging lens section to the electro-optical component hit the reflection surface in such way that the angle of incidence at the reflection surface is larger or the same as the critical angle of the total internal reflection at the reflection surface. In another aspect a method for detecting ambient light is described.

A rain sensor system for measuring a quantity of rain on a window of a vehicle is provided. The rain sensor system comprises a camera device configured to capture images of an area surrounding the vehicle using camera optics; and a rain sensor including a transmitter and a receiver, the transmitter being configured to emit or transmit light and the receiver being configured to receive measurement light that is emitted or transmitted by the transmitter and guided to the receiver by the window. The transmitter and the receiver are arranged at a distance (d) from each another, and the receiver and the camera optics of the camera device are different components.

The present disclosure relates to contaminant detection systems and related optical systems and methods. An example contaminant detection system includes an optical coupler configured to couple light into and/or out of an optical element. The contaminant detection system also includes a plurality of light-emitter devices configured to emit emission light toward the optical coupler. The contaminant detection system additionally includes a plurality of detector devices configured to detect at least a portion of the emission light by way of the optical element and the optical coupler. The plurality of detector devices is also configured to provide detector signals indicative of a presence of a contaminant on the optical element.

Rain sensor system, vehicle and method for detecting rain

A rain sensor system (1) for detecting rain on a window (101) of a vehicle (100), comprising: a camera device (2) configured to capture images (14) of an area surrounding the vehicle (100) which is located in a field of view (103) of the camera device (2); and multiple rain sensors (5) which are arranged on the window (101) and at least partially in the field of view (103) of the camera device (2), each rain sensor (5) comprising: a light guide (7) which is configured to guide light from a light source (6) to a 10 light injection point (8) at which the light is injected into the window (101), and a receiver (9) configured to receive the light injected into the window (101) and guided to the receiver (9) through the window (101), and to guide the received light to the camera device (2).

In a lens plate (18) for an optical sensor device in a vehicle, in particular for a rain sensor, with a transmitter-side lens structure (26) and a receiver-side lens structure (32), the transmitter-side lens structure (26) partially is provided with anti-transmission features which in individual regions of the lens plate (18) partially or completely prevent the passage of the light emitted by a light transmitter (14).

The present invention relates to a total reflection type rain sensor using a mirror, which is attached to a glass of a vehicle to detect raindrops falling onto the glass of the vehicle and outputs a signal capable of controlling speed and cycle of a wiper of the vehicle according to the amount and falling frequency of raindrops detected.

A molded lens assembly includes a cover and at least four molded elongated features. The cover may have a substantially planar portion and side portions extending away perpendicularly at a periphery of the substantially planar portion and defining an inner surface of the substantially planar portion. The at least four molded elongated features generally extend away from the inner surface of the substantially planar portion and are arranged such that a long axis of each of the molded elongated features is aligned with a side of a polygon having a number of sides equal to the number of molded elongated features. Each molded elongated feature generally includes a first convex lens portion at a first end and a second convex lens portion at a second end.

An automotive glazing system, comprising: at least one glass layer (2); a plurality of light emitters (10) injecting light into at least a portion of at least one edge of the glazing; a plurality of light detectors (20) measuring simultaneously the intensity of light emitted by each of said plurality of light emitters from at least a portion of at least one edge of the glazing; and at least one processing unit (15) communicably coupled to the automotive glazing, the plurality of light emitters and the plurality of light detectors to: scan periodically the intensity of light received by said plurality of light detectors; store the scanned data; compare new scans with historical data; estimate the presence of contaminants by a drop in intensity at some detectors without an increase at some detectors; and estimate the safety status of the glazing by identifying permanent damage by an increase in intensity at some detectors.

A sensor apparatus for detecting the wetness of window, with a radiation emitter and a radiation receiver, with an optical guide element which can be coupled to the inner side of the window, the radiation inlet side and the radiation outlet side of the guide element are each embodied as a lens arrangement, and a lens arrangement is embodied by lens contours arranged side by side. The lens arrangement on the radiation inlet side has at least two lens contours. The inlet surfaces of the lens contours on the radiation inlet side, through which the radiation is able to enter the guide element, are inclined towards each other. The lens arrangement on the radiation outlet side has at least two lens contours. The outlet surfaces of the lens contours on the radiation outlet side, through which the radiation can exit the guide element, are inclined towards each other.