![]() ![]() Complete any further config and you should be good to go. Edit your current WeatherSnoop devices, select WeatherSnoop in the Type popup and select the correct thing from the Model popup.Replace the old plugin with the one you downloaded from GitHub (you might want to move the old plugin to the desktop or something just in case you want to revert back to it).Whichever one has a WeatherSnoop.indigoPlugin is what you're looking for. Open a new Finder window and go to eitherĬode: Select all /Library/Application Support/Perceptive Automation/Indigo 7/Plugins/Ĭode: Select all /Library/Application Support/Perceptive Automation/Indigo 7/Plugins (Disabled)/ĭepending on whether you have the current WeatherSnoop plugin enabled or disabled. Inside that folder you'll see the WeatherSnoop.indigoPlugin plugin file.That's going to download and unzip a folder in your Downloads directory named weathersnoop-indigoplugin-master. Download the new 3.0.0 version from GitHub by going to the repo and clicking on the Clone or Download button and clicking on the Download Zip button.However, if you want to migrate manually, here are the steps: The rest of the process is going to be handled by the next Indigo installer (either 7.1.2 or 7.2 depending on a few mitigating circumstances). The climate is now instrumented.Boisy has the 3.0.0 version of the plugin up on GitHub, which was part of our migration strategy. Indigo has a WeatherSnoop plugin so we’ll be able to use weather data to automate devices like lights or fans with Insteon, Z-Wave, or X10. It then generates graphs and can export the data to many internet weather sites and our own web server. This allows us to pull data into WeatherSnoop 3 to an instrument panel. We added WeatherLinkIP to our station mainly for the dongle that connects the Console to an IP Network. A solar powered radio in the station transmits data to the Console. We left the extra wire in case we need to move the station. We’re using 6gauge bare copper wire used to ground rooftop antennas. Our station is wireless so it isn’t directly connected to the electrical system.įor a grounding point, we took advantage of a water pipe that feeds up from the main water pipe that hangs through the center of the first floor. We added two extension poles to the mast, raising the anemometer an extra four feet higher.Īnother important step is grounding the mast. Since we’ve never run a weather station before, we used an Ambient Weather EZ-NPP Tripod and Mast so we can easily move the station and don’t need to pierce the roof with anchor bolts. We put it on the roof which is flat and easily accessible. Placing the weather station for us was easy. Rain collector points to rain catchment volumes for cooling and irrigation. Solar radiation and UV Index relates to solar photovoltaic generation and solar hot water options. Wind Speed/Direction will show us potential for wind power, evaporative cooling, and ventilation. Indoor/Outdoor temperature and humidity will help us see thermal and moisture dynamics. This weather station provides all the features we wanted and at a good price. After scanning dozens of stations with various features and price points, we chose the Davis Vantage Pro2 Plus with 24-Hr Fan Aspirated Radiation Shield. But as tempting as it was to build our own, we went with a pre-built solution. We could build our own station with an Arduino or RaspPi and attach various sensors to them or buy pre-built systems. To monitor the climate, the external forces on the building, we looked at setting up a local weather station. Then we can better determine our options. ![]() So where do we start? Turns out we need data about the climate and environment to learn how the building reacts. We had been looking there first being concerned about how to cool the space. The main point they made was that mechanical heating and cooling should be the last resort. One of the books we read is “Sun, Wind, and Light: Architectural Design Strategies” by Mark DeKay and G. It has been a mad dash through absorption chillers, solar concentrators, wind turbines, hydronic radiant cooling, geothermal closed loop heat exchangers, MgO concrete stucco… To better understand where are are going and options for the building, we’ve been researching sustainable architectural ideas. We have a new space, an 82 year old coffee factory, where we’ll be moving our office and be able to expand our shop (aka materials & methods lab).
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