TL;DR: the operating temperature range of these sensors is small, nowhere near automotive spec, and a real problem at high temperatures. Also, watch the fine print on Ouster's thermal specs.
The bigger issue is hot weather; electronics and lasers work well (often more efficiently) at cold temps, and the electrical power running through them self-heats the components. The problem arises when the environment is already hot, and the components still self-heat. This is a particularly large problem for LiDAR, where lasers are very sensitive to temperature and typically use some sort of thermoelectric controller to keep the laser itself at a precise constant temperature. But these thermoelectric devices are inefficient at cooling and lose control (go into thermal runaway) when things get too hot.
Automotive component thermal specs (AEC-Q100) require operation (and start-up) at -40C up to anywhere from 70-150C depending on grade. Ouster's -10/-20C to 50C range actually relies on an external base heatsink being used, which they never picture and makes the sensor significantly heavier and larger. These sensors are a far cry from being ready for automotive use.
We didn't claim these were auto rated parts... that being said, our temp spec is in line with the industry, and we're dead set* on reaching auto temp spec in a future iteration of the product.
Our shock, vibe and ingress specs are far better than the competition and pass most auto specs already though. Ruggedness like this was unheard of in spinning lidar even two years ago.
*I believe our internal thermal design group is "cultofthelavapeople at ouster dot io".
The bigger issue is hot weather; electronics and lasers work well (often more efficiently) at cold temps, and the electrical power running through them self-heats the components. The problem arises when the environment is already hot, and the components still self-heat. This is a particularly large problem for LiDAR, where lasers are very sensitive to temperature and typically use some sort of thermoelectric controller to keep the laser itself at a precise constant temperature. But these thermoelectric devices are inefficient at cooling and lose control (go into thermal runaway) when things get too hot. Automotive component thermal specs (AEC-Q100) require operation (and start-up) at -40C up to anywhere from 70-150C depending on grade. Ouster's -10/-20C to 50C range actually relies on an external base heatsink being used, which they never picture and makes the sensor significantly heavier and larger. These sensors are a far cry from being ready for automotive use.