While a vehicle is off, an automatic trigger strategy activates a heating device that melts snow and ice off exterior vehicle sensors as it is needed. The automatic trigger strategy determines when to turn on the heating device while the vehicle is in a limited power state by using data pulled from memory or data obtained from a current data check. Collected, analyzed, and stored during key-off, data pulled from memory allows the invention to accurately choose the correct time to start the heating device without consuming additional power. If current data checks are required because data saved at key-off is not enough information to execute a decision, the invention may determine the least power consuming data checks. A power manager extends a threshold that is dependent on the energy reserve. Once the energy reserve is below the threshold, the power manager inactivates the heating device and voids manual commands.

The technology relates to detecting water or fouling on the exterior surface of a sensor cover, for instance due to precipitation or debris (fouling). Such objects on the sensor cover surface may degrade operation of the sensor, which can be problematic for vehicles operating in an autonomous driving mode. According to an aspect of the technology, a waveguide layer is provided on the sensor cover. A laser emits light at a selected wavelength along one side of the waveguide layer. The light waveform propagating along the waveguide layer is affected (distorted) by precipitation and/or fouling on the surface of this layer. A detector receives the distorted waveform. The system determines whether water and/or fouling is present based on the received waveform. This allows the system to determine whether to activate a cleaning module or to factor in the information when processing received sensor data.

The technology relates to detecting water or fouling on the exterior surface of a sensor cover, for instance due to precipitation or debris (fouling). Such objects on the sensor cover surface may degrade operation of the sensor, which can be problematic for vehicles operating in an autonomous driving mode. According to an aspect of the technology, a waveguide layer is provided on the sensor cover. A laser emits light at a selected wavelength along one side of the waveguide layer. The light waveform propagating along the waveguide layer is affected (distorted) by precipitation and/or fouling on the surface of this layer. A detector receives the distorted waveform. The system determines whether water and/or fouling is present based on the received waveform. This allows the system to determine whether to activate a cleaning module or to factor in the information when processing received sensor data.

In one embodiment, a vehicle defogging system may include a side mirror defogger, one or more other vehicle defoggers, one or more sensors, and a control unit. The side mirror defogger is independently controllable from the one or more other vehicle defoggers. The one or more sensors are configured to output a signal indicative a substance on a side mirror of a vehicle. The control unit is configured to detect the substance on the side mirror based on the signal of the one or more sensors, and activate the side mirror defogger in response to detecting the substance on the side mirror.

A receptacle connector assembly is presented herein. The receptacle connector assembly includes a receptacle terminal having a connection portion defining an aperture configured to receive a corresponding plug terminal along a longitudinal axis and a terminal housing defining an opening and a cavity in which the connection portion is disposed. The connection portion is sized, shaped, and arranged within the cavity to be movable along a lateral axis perpendicular to the longitudinal axis.

A method for manufacturing an objective. A component at risk of icing up, for example an optical lens or a radiation-permeable cover, is inserted into a housing and connected to, preferably braced against, the housing, by an interconnection of a heating ring made of an electrically conductive elastomer material. An objective, and an imager module that includes an objective are also description.

A proximity switch and moisture sensing assembly includes a vehicle window and a proximity switch including a proximity sensor located on the window and providing an activation field. The proximity switch and moisture sensing assembly also includes control circuitry monitoring a signal responsive to the activation field, determining a switch activation based on the signal, and determining a moisture value based upon the signal. A conductive shield may be disposed between the proximity sensors and the outside environment to reduce the effects of moisture on the outer side of the window.

An electronics systems cluster includes a plurality of brackets, a plurality of electronic devices held in the plurality of brackets and an interlocking feature securing the plurality of brackets directly together into a small footprint configuration less likely to interfere with driver sight lines. A related method of reducing a footprint of an electronics systems cluster is also disclosed.

An electronics systems cluster includes a plurality of brackets, a plurality of electronic devices held in the plurality of brackets and an interlocking feature securing the plurality of brackets directly together into a small footprint configuration less likely to interfere with driver sight lines.

A driving support apparatus is configured to execute steering support control of changing a steering angle of a vehicle based on vehicle surroundings information. The driving support apparatus includes a cleaning apparatus configured to execute cleaning processing for cleaning a window section when a cleaning request is generated. The driving support apparatus is configured to determine whether or not a predetermined cleaning prohibition condition is satisfied, the predetermined cleaning prohibition condition being satisfied when the vehicle is predicted to be likely to approach an object present near the vehicle on the assumption that the cleaning processing is executed. The driving support apparatus prohibits the cleaning apparatus from executing the cleaning processing when the cleaning prohibition condition is determined to be satisfied in a case where the cleaning request is generated during execution of the steering support control.