Earthshine blog

Earthshine blog

"Earthshine blog"

A blog about a system to determine terrestrial albedo by earthshine observations. Feasible thanks to sheer determination.

Cloud Sensor

Mechanical designPosted by Peter Thejll Jun 02, 2012 06:57PM
We need a cloud sensor at MLO. It can be used for at least two things - it can gather a record of sky conditions for us that we later can use in selecting the best data - and, in our wild fantasies, it could be integrated with a control system so that it warned of clouds and shut the dome.

I have started some experiments on simple sensors and data-loggers to see what can be done. This is a link to an image of the output from a sensor running in Denmark at the moment.

The system consists of a thermometer-chip (LM335a) and an IR thermometer sensor (LMX90614) both sitting on an Arduino and being read once a minute. The signal is processed further by off-line software and a the plot is generated in IDL.

The two sensors are complementary - the thermometer chip reads the ambient air temperature (actually, it measures the temperature of the chip body) and the IR sensor measures the temperature of the sky above the sensor in a 45 degree cone.

In general, the air radiates with a temperature that is the 'air temperature' but the presence of clouds increases the downward longwave radiation field, and the absence of clouds decreases the downward longwave forcing - this causes the readouts from the two types of thermometers to form a cloud detector via a normalized signal based on the ratio of the two. The day-night cycle can be seen in both signals and is removed by taking the ratio, while the passage of clouds is seen as wiggles.

At the moment the system is just a prototype based on a loosely wired breadboard design, but if it works it can be hardwired as a dedicated PC board and permanently interfaced to an Arduino and packaged as a weather-resistant sensor. It relies for protection now on just some cling film (IR-transparent) and I need to experiment with glass and harder plastics of various sorts. Then I will move it to DMI and operate it from the roof there, and eventually we could move it to Mauna Loa.

I see it at first as being read from a USB port on the Linux machine there, offering up the present type of plots and generating a database for archival use, and only later would we try to incorporate it into a more automatic control system, as envisaged originally.

LM335A is the left chip - flat side is facing viewer, pins are 1,2,3 from left.
LMX89614 is the right chip - pin numbers are (1 - lower left, 2 - lower right, 3 - upper right, 4 - upper left (IC is actually round). The capacitor is 0.1 muF. The lower left resistor is 1k the other two are 4.7 k.

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