A method for producing a heatable luminaire cover is described. The heatable luminaire cover has: a polymeric main body, a first busbar, a second busbar and at least two conductor tracks on the inside of the polymeric main body.

A heater control device includes a camera sensor configured to capture an image of an outside of a vehicle through an image capturing transparent region of a window glass, and a camera heater configured to heat the image capturing transparent region. The heater control device is configured to: apply, to a correlation which is set in advance between an outside temperature, a vehicle speed, and energization electric power, and a temperature of the image capturing transparent region corresponding to the outside temperature, the vehicle speed, and the energization electric power, the outside temperature at a current time, the vehicle speed at the current time, and a target temperature equal to or higher than a dew-point temperature, to thereby determine defogging electric power so that the temperature of the image capturing transparent region is prevented from falling below the dew-point temperature.

The present invention relates to a windshield monitoring system, comprising; a windshield (104) for a vehicle (100); a plurality of light emitters (108) forming an array, each emitter (108) arranged to direct a beam of light into an edge of the windshield (104) at an angle of incidence arranged to subject the beam of light to total internal reflection at a windshield to air interface to propagate the beam of light across the windshield to an opposing edge thereof, and the angle of incidence being arranged to refract the light beam away from the windshield at a windshield to contaminant interface; the system comprising a light detector arranged to detect that light from the beam of light has been refracted away from the windshield; and wherein the emitters (108) are separated substantially across a length of the windshield (104).

The present technology includes a washer system comprising a washer switch assembly and an electronic module. The washer switch includes a ground configured for electrical connection with a washer pump by way of a switch and a fuse contact configured to receive control signals from a power-mode relay. The electronic module includes a controller comprising a computer-readable storage device, and the controller is electrically isolated from the washer switch assembly and the washer pump in operation of the system.

The present technology includes a washer system comprising a washer switch assembly and an electronic module. The washer switch includes a ground configured for electrical connection with a washer pump by way of a switch and a fuse contact configured to receive control signals from a power-mode relay. The electronic module includes a controller comprising a computer-readable storage device, and the controller is electrically isolated from the washer switch assembly and the washer pump in operation of the system.

The present invention relates to a windshield monitoring system. The windshield monitoring system comprises; a windshield (114) and an emitter (122) arranged to emit a sound pulse to induce a surface acoustic wave (SAW) to a surface of the windshield (114). The windshield monitoring system also comprises a sensor (124) arranged to receive the surface acoustic wave from the windshield (114) and a detection module (130) arranged to detect the presence of surface contamination (120) by attenuation in intensity of the received wave compared to an expected wave.

A vehicle configured to automatically clear snow from windows of the vehicle includes: a prime mover, a first window with a first vibration sensor, processor(s) configured to: control speed or load of the prime mover to increase vibration detected by the first vibration sensor, control the speed or the load of the prime mover, within certain predetermined limits, to maximize vibration detected by the first vibration sensor; accept a user prioritization of the windows; control speed or load of the prime mover based on the user prioritization.

A vehicle configured to automatically clear snow from windows of the vehicle includes: a prime mover, a first window with a first vibration sensor, processor(s) configured to: control speed or load of the prime mover to increase vibration detected by the first vibration sensor, control the speed or the load of the prime mover, within certain predetermined limits, to maximize vibration detected by the first vibration sensor; accept a user prioritization of the windows; control speed or load of the prime mover based on the user prioritization.

A windscreen wiper device comprising an elastic, elongated carrier element, as well as an elongated wiper blade, which can be placed in abutment with a windscreen to be wiped, which wiper blade includes at least one longitudinal groove, in which groove a longitudinal strip of the carrier element is disposed, which windscreen wiper device comprises a connecting device for an oscillating arm, wherein the oscillating arm is pivotally connected to the connecting device about a pivot axis near one end, with the special feature that the longitudinal groove has a closed circumference, wherein the connecting device is connected to the wiper blade.

A system for evaluating performance of a vehicle window defrosting/defogging apparatus includes at least one computing device having at least a processor and a memory, and one or more imagers configured for obtaining images of one or more windows of a vehicle. The processor is configured to execute instructions for analyzing the images to determine a defrosted/defogged portion of the one or more windows at predetermined time intervals, including controlling illumination to optimize the system's ability to distinguish cleared window areas. A graphical user interface is configured for displaying and/or manipulating at least one of the one or more images, digital data of the one or more images, and a predetermined template for determining the defrosted/defogged portion of the one or more windows. The system includes instructions for aligning the one or more images with the predetermined template, including processing the images to correct for window taper, curvature, and size.