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| There are almost no records in ilog or Elog or wiki-40 about "Weather Station", so this wiki-40 page should serve as an introduction to what is the weather station and what are current problems with it. | This wiki-40 page should serve as an introduction to what is the weather station and what were main problems with it. |
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| Purpose of Weather Station: it allows to have information about inside/outside temperature, humidity, pressure,... If everything works correctly, this information should be available in two places. Firstly, this information is indicated on the screen of the 'Weather Monitor' (a small black box hanging on the wall of the laser interferometer room), and secondly, the same information should be available on MEDM screens of the control UNIX computers. | -------- == What is 'Weather Station'? == |
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| Currently (as of 1st of April 2008) the only information that seems to be reasonable is the indication of the inside temperature on the screen of 'Weather Monitor'. This means that there are two large separate problems with the weather station. Problem 1: No data for outside temperature, pressure, humidity is available even on the screen of 'Weather Monitor', this means that most probably the outside sensors are dead. Problem 2: No indications on the MEDM 'Checklist' screen on UNIX control computers. This means that processor 'c1pem1' (located in the laser interferometer room near other processors in a DAQ rack near the middle of Y-arm) that should communicate with control UNIX computers does not do his job. |
Weather station consists of commercially available ''' 'Weather Monitor' '''(made by Davis company), temperature/pressure/humidity ''' sensors ''' that are located outside of the building (on the roof above the north-west entrance to the 40-meter lab) and a ''' junction box ''' that allows the signals from the roof outside sensors to be seen on the 'Weather Monitor' screen. In addition to these three components (Weather Monitor, Sensors and Junction Box) there is the fourth component, ''' 'WeatherLink' ''', which is responsible for communication between 'Weather Monitor' and UNIX computers which are located in the control-room. Pictures of main components of 'Weather Station' are below. |
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| What is 'Weather Station? | If everything works correctly, the information about temperature/pressure/humidity/wind speed should be available in two places. Firstly, this information is indicated on the screen of the 'Weather Monitor' (a small black box hanging on the north wall of the laser interferometer room, approximately near the beam-splitter chamber), and secondly, the same information should be available on the EPICS screen "c0Checklist.adl" of the control UNIX computers. |
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| Weather station consists of commercially available 'Weather Monitor' (made by Davis company), temperature/pressure/humidity sensors that are located outside of the building (on the roof), junction box that allows the signals from the roof outside sensors to be seen on the 'Weather Monitor' screen. Using the commercially available 'Weatherlink' electronic device, one can transfer signals from 'Weather Monitor' to the UNIX control computers. | Using only outside sensors, junction box and 'Weather Monitor', but not using the 'WeatherLink' device, one can read inside/outside temperature, humidity, wind speed/direction and pressure on the screen of 'Weather Monitor'. But if one does not use the 'WeatherLink' device, it is not possible to access this information from the control UNIX computers. In order to be able to transfer signals from the 'Weather Monitor' to the UNIX control computers, one needs to use a separate additional electronic device, 'WeatherLink', which enables the communication between 'Weather Monitor/ and the control UNIX machines through the processor 'c1pem1'. In this case, data about inside and outside temperatures, amount of precipitation, outside pressure, wind speed and direction is indicated on the "c0Checklist.adl" EPICS screen of MEDM, and one can see trends of these data in 'Dataviewer'. [http://lhocds.ligo-wa.caltech.edu:8000/40m/Weather_Station/HistoryofWeatherStation History of the weather station at 40-meter lab] can be seen here. (Description of the previous problems with Weather Station and a detailed explanation how to connect RJ45 connector to a Cat5 cable are given) == Pictures of the main components of 'Weather Station' == Overall scheme of the 'Weather Station' components (from the manual, click on image to enlarge) <<ImageLink(http://lhocds.ligo-wa.caltech.edu:8000/40m/Weather_Station?action=AttachFile&do=get&target=Weather_Station-Scheme.JPG,Scheme,width=750)>> Weather Monitor (front view) attachment:Weath_Monitor.JPG Weather Monitor Box (rear view) and "Weatherlink" device which allows communication with computers attachment:DSC_0500-W_Mon-Cables.JPG Sensors on the roof of the building (overall view and "zoomed-in" view on the next picture) attachment:DSC0503-OutsideView.JPG Wind Sensors (anemometer) on the roof "zoomed-in", rain collector and external temperature sensors are nearby but not shown attachment:1.JPG Cable connectors half-way between the roof sensors and the junction box, which should be inside of the building attachment:3.JPG Rack with: (1) computer 'c1pem1' and (2) network switch board. Signal from "Weather Monitor" goes through the "WeatherLink" to the "c1pem1" processor, and then a signal goes out from "c1pem1" to the "Network Switch Board" and further to the control UNIX computers. This rack with "c1pem1" is located near the DAC rack not far from the MC2 mirror of the mode-cleaner attachment:Computer_Rack.JPG RJ-45 cable ending for Cat5 8X8 cable that links 'WeatherLink' and 'c1pem1'. This connection near 'c1pem1' was flaky, so it was replaced in April 2008 attachment:DSC_0505.JPG |
This wiki-40 page should serve as an introduction to what is the weather station and what were main problems with it.
What is 'Weather Station'?
Weather station consists of commercially available 'Weather Monitor' (made by Davis company), temperature/pressure/humidity sensors that are located outside of the building (on the roof above the north-west entrance to the 40-meter lab) and a junction box that allows the signals from the roof outside sensors to be seen on the 'Weather Monitor' screen. In addition to these three components (Weather Monitor, Sensors and Junction Box) there is the fourth component, 'WeatherLink' , which is responsible for communication between 'Weather Monitor' and UNIX computers which are located in the control-room. Pictures of main components of 'Weather Station' are below.
If everything works correctly, the information about temperature/pressure/humidity/wind speed should be available in two places. Firstly, this information is indicated on the screen of the 'Weather Monitor' (a small black box hanging on the north wall of the laser interferometer room, approximately near the beam-splitter chamber), and secondly, the same information should be available on the EPICS screen "c0Checklist.adl" of the control UNIX computers.
Using only outside sensors, junction box and 'Weather Monitor', but not using the 'WeatherLink' device, one can read inside/outside temperature, humidity, wind speed/direction and pressure on the screen of 'Weather Monitor'. But if one does not use the 'WeatherLink' device, it is not possible to access this information from the control UNIX computers. In order to be able to transfer signals from the 'Weather Monitor' to the UNIX control computers, one needs to use a separate additional electronic device, 'WeatherLink', which enables the communication between 'Weather Monitor/ and the control UNIX machines through the processor 'c1pem1'. In this case, data about inside and outside temperatures, amount of precipitation, outside pressure, wind speed and direction is indicated on the "c0Checklist.adl" EPICS screen of MEDM, and one can see trends of these data in 'Dataviewer'.
[http://lhocds.ligo-wa.caltech.edu:8000/40m/Weather_Station/HistoryofWeatherStation History of the weather station at 40-meter lab] can be seen here. (Description of the previous problems with Weather Station and a detailed explanation how to connect RJ45 connector to a Cat5 cable are given)
Pictures of the main components of 'Weather Station'
Overall scheme of the 'Weather Station' components (from the manual, click on image to enlarge)
<<ImageLink: execution failed [Cannot have arguments without name following named arguments] (see also the log)>>
Weather Monitor (front view)
attachment:Weath_Monitor.JPG
Weather Monitor Box (rear view) and "Weatherlink" device which allows communication with computers
attachment:DSC_0500-W_Mon-Cables.JPG
Sensors on the roof of the building (overall view and "zoomed-in" view on the next picture)
attachment:DSC0503-OutsideView.JPG
Wind Sensors (anemometer) on the roof "zoomed-in", rain collector and external temperature sensors are nearby but not shown
attachment:1.JPG
Cable connectors half-way between the roof sensors and the junction box, which should be inside of the building
attachment:3.JPG
Rack with: (1) computer 'c1pem1' and (2) network switch board. Signal from "Weather Monitor" goes through the "WeatherLink" to the "c1pem1" processor, and then a signal goes out from "c1pem1" to the "Network Switch Board" and further to the control UNIX computers. This rack with "c1pem1" is located near the DAC rack not far from the MC2 mirror of the mode-cleaner
attachment:Computer_Rack.JPG
RJ-45 cable ending for Cat5 8X8 cable that links 'WeatherLink' and 'c1pem1'. This connection near 'c1pem1' was flaky, so it was replaced in April 2008
attachment:DSC_0505.JPG
