This is version 1.4 with OpenSprinkler injection molded enclosure. It allows RPi to directly access and control sprinkler valves. OpenSprinkler Pi (OSPi) is a sprinkler / irrigation extension board for Raspberry Pi (RPi). The makers recommend the Raspberry Pi based hardware for maximum flexibility if you like to tinker… Other hardware version are available too such as the one built on the BeagleBone Black. It can be operated and monitored across the Internet and the OpenSprinkler mobile app is available on the iOS App Store, Android Play Store and Windows Phone Store too. It is a web-based timer and controller built upon the Arduino platform that works with standard 24VAC sprinkler valves commonly found in household watering and irrigation systems. Without installing any prerequisites or setting up systemd.OpenSprinkler is the creation of Ray Wang and Chris Anderson (former editor-in-chief of Wired magazine and now the CEO of 3DRobotics). It is possible to build a self-contained docker image from this repository. Netatmo: instructions for configuring this PWS have been greatfully provided by here.Davis Vantage: a solution for this PWS has been kindly provided by here.OpenSprinkler owners can use this solution to send their PWS weather observations onto a local Weather Service server.įor more information on the "WeeWX Solution" click hereĤ ) Solutions for specific PWS (provided by OpenSprinkler Forum members) The WeeWX project provides a mechanism for OpenSprinkler owners to capture the data from many different manufacturer's PWS and to both store the information locally and to publish the data to a number of destinations. If you have a PWS that connects to your home network via wifi then click here.If you have a PWS that connects to your home network using an ethernet cable then click here.It is this "man-in-the-middle" device that will look for information heading from the PWS toward the WU cloud and redirect that information to the local Weather Service.įor more information on configuring a Raspberry Pi Zero W to act as a "Man In The Middle" solution follow these links: To do this intercepting, you place a physical device - such as a Raspberry Pi - in-between the PWS and the home network. For these PWS, it is possible to physically intercept the data stream heading to the WU cloud and redirect it to the Weather Service server instead. Many PWS already support the Weather Underground format and can be connected to the user's home network to send data directly to the WU cloud service. If available, the user documentation for the PWS should detail how to configure a custom GET request.įor more information on the RESTfull protocol click hereĢ ) Networked PWS that support Weather Underground For example, the MeteoBridge Pro allows for requests to be specified in a custom template that translates the PWS weather values and units into a format that the local Weather Service can accept. Some PWS allow the user to specify a GET request to send weather observations onto a local service for processing. The weather data can then be used by the Weather Service to calculate Zimmerman based watering levels. If you are running a local instance of the Weather Service then you may be able to send the data directly from your PWS to the Weather Service avoiding any "cloud" based services. You will need a 24x7 "always on" machine to host the service (this can be a Windows or Linux machine or even a Raspberry Pi device) provided it supports the Node.js environment.įor detailed instructions on setup and configuration of a local Weather Service running on a Raspberry Pi then click hereĬonnecting a Personal Weather Station to a Local Weather Service If you would like to choose between different Weather Providers (currently OpenWeatherMap and DarkSky are supported) or use your local PWS to provide the weather information used by OpenSprinkler then you can install and configure the Weather Service on a device within your own local network. Currently, only two exists for weather adjustment and logging a PWS observation. Routes/*.js contains all the endpoints for the API service. Server.js is the primary file launching the API daemon. The script is written in Javascript for Node.JS. The production version runs on Amazon Elastic Beanstalk (AWS EB) and therefore this package is tailored to be zipped and uploaded to AWS EB. It also provides timezone information based on user location along with other local information (sunrise, sunset, daylights saving time, etc). This script is used by OpenSprinkler Unified Firmware to update the water level of the device.
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