将该板在冷冻室中冷却至约-5摄氏度,然后通过具有磁性紧固件的机架安装在重金属基板上,所述磁性紧固件在具有反射器的IR灯下。此外,电路板的四面围墙,以防止气团的移动。
加热持续约15分钟(见图表)在发生液滴的相同温度下,在温度的增长中观察到制动
实际上发生了水滴凝结,但这又如何影响加速度计和陀螺仪读数的差异?
以上来自于谷歌翻译
以下为原文
The board was cooled down in freezer compartment to approximatly -5 degrees Celsius, after that it was mounted at heavy metal substrate on by means of racks with magnetic fasteners under IR lamp with reflector. Also, the board was fenced on all sides by walls to prevent the movement of air masses.
Heating lasted about 15 minutes (see graph) At the same temperature at which the drop occurred, braking is observed in the growth of temperature
Condensation of water droplets actually occurred, but how does this affect the difference in the readings of the accelerometer and the gyroscope?
将该板在冷冻室中冷却至约-5摄氏度,然后通过具有磁性紧固件的机架安装在重金属基板上,所述磁性紧固件在具有反射器的IR灯下。此外,电路板的四面围墙,以防止气团的移动。
加热持续约15分钟(见图表)在发生液滴的相同温度下,在温度的增长中观察到制动
实际上发生了水滴凝结,但这又如何影响加速度计和陀螺仪读数的差异?
以上来自于谷歌翻译
以下为原文
The board was cooled down in freezer compartment to approximatly -5 degrees Celsius, after that it was mounted at heavy metal substrate on by means of racks with magnetic fasteners under IR lamp with reflector. Also, the board was fenced on all sides by walls to prevent the movement of air masses.
Heating lasted about 15 minutes (see graph) At the same temperature at which the drop occurred, braking is observed in the growth of temperature
Condensation of water droplets actually occurred, but how does this affect the difference in the readings of the accelerometer and the gyroscope?
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