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Found 8 results

  1. Version 1.0.0

    40 downloads

    This is a simple VD+Scene to control ZXT-120 AC controllers. I use it because of 2 factors: 1) You can control everything on one screen instead of 3 devices in HC2 interface 2) it is visible in Home Center app (ZXT-120 is not visible natively yet) It supports heating and cooling modes and fan speed. You can see current status as well. Setup is very simple: VD - just put ID of the child device of ZXT-120 which controls temperature into the "Port" field of VD Scene - You have to put IDs of three child deviced of ZXT in the triggers field annd the same ID into "Options" part of the scene. Also put VD ID inn the "Options" part. Maybe it can be useful for some of you. ZXT-120.zip
  2. Version 1.1

    39 downloads

    Ambient Weather Station VD standalone INTRODUCTION Ambient Weather station (AWS) VD reads measurements provided by Ambient weather stations which are connected to ambientweather.net service on internet. VD is tested with Ambient Weather station WS-1401-IP OBSERVER, but should also work with other similar types of Ambient weather stations. PREREQUISITES Fibaro Home Center 2 with firmware 4.560 or greater Emoji VD standalone must be downloaded and installed for AWS VD to function properly. At least one Ambient weather station connected to internet and user application key and API key FEATURES User can install multiple instances of VD for as many Ambient Weather stations he/she might have. Uses ambient weather cloud API to retrieve latest measurements. Provides measurements in imperial or metric units and also wind speed in m/s. Provides global variables for indoor and outdoor temperature, indoor and outdoor humidity, wind and gust speed, rain event, solar radiation, UV, outdoor and indoor PM25 and CO2 that can be used to trigger block or LUA scenes for specific user actions. Multi-language support with 27 languages included (see APPENDIX 1 for the list). VD can use HC selected language or user can select any other available language. VD will be automatically translated to selected language Easy setup for VD icons (on UHAS™ compatible version is this even easier) Global variables are automatically added, monitored, repaired and cleaned and does not require user intervention INSTALLATION Please check provided User Manual PACKAGE CONTENT Ambient Weather Station VD v1.1 Icon pack User manual EN TERMS AND CONDITIONS Permission to use, copy, modify and distribute this software and its documentation for educational, research, personal use and non-profit purposes, without fee and without a signed licensing agreement is hereby granted, provided that the copyright notice, with "Terms and conditions" and "Disclaimer" appear in all copies, modifications and distributions. It is strictly forbidden to sell, rent, lease and/or lend this software for profit without prior consent from the Author. DISCLAIMER This software is provided by copyright owner "as is" and any express or implied warranties, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall the author and distributor be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services; loss of use, data, or profits; or business interruption) however caused and on any theory of liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this software, even if advised of the possibility of such damage. Fibar Group S.A. and their employees are not responsible for support of the ABC VD. Please contact the author Sankotronic, on the Fibaro Forum, for any questions or support required.
  3. Version 1.0

    131 downloads

    Device features Periodic reports on air quality for a defined location. Be warned about the smog conditions at your place instantly. Advantages for everyone Automatic status update. Custom interval value for update queries. Manual update is also available (via button). May use "interpolation mode" (enabled by default in Lua scene). Airly gives you an option to calculate estimated values for any location near their stations, to see more then just what is exactly measured by the station. You may select the language used for Airly messages. Polish and English are supported. Colors to visualize Smog description. This will work on PC only. The mobile app does not interpret HTML tags. Icon color is changing according to air quality measured. The colors are in correspondence with Airly recommendations. One of three different air quality indexes from Airly might be selected. Airly supports: "AIRLY_CAQI", "CAQI" and "PIJP". Each may have different levels, descriptions, and pieces of advice. Customizable location for reports. The location might be read automatically from your Home Center box or it might be set as a fixed one. Data retrieved from Airly are stored in a global variable. The variable might be used to trigger another scene. Advantages for geeks Using the newest API 2.0. Missing pieces of data from Airly are properly detected and do not stop the device from working. No label "flickering" ("50%" → "missing data" → "52%", e.g.) on data updates. Changes on any update are reported once. Clear information about the license (MIT). Make any changes you want, distribute, sell or whatever. Just include my name and the copywrite information. Easy to change labels content, data grouping within labels, etc. (data selectors within one config variable labelConfig). Source code easy to maintain and develop: rich debug information; separation of acquisition, extraction and data presentation, etc. Installation Import the virtual device and create a new Lua scene with the code provided in the file. Add device icons and update their IDs in the virtual device main loop. Replace 'xxx...x' with the key you can get from Airly free of charge. Start the Lua scene manually (just for the first time). (optional) Customize: update interval, display language, labels content and many more (see details below). Configuration Read comments in Lua scene and VD main loop. Each configuration parameter is described there in details. Zip file content Virtual device: "Airly Status". Lua scene for grabbing data from Airly: "Airly Status scraper". Nine device icons to visualize air quality. Screenshots. FAQ How can I get Airly API key? Get one from developer.airly.eu. When you register an account within that website you will get your free API key. How to upload/add device icons? Open (any) virtual device configuration page. Press "Change icon". Press "Select file" (in the bottom), choose file, then confirm with "Add" button (even lower). Please make sure to execute step 1 properly. Icons in Home Center are divided into several categories. If your icons are placed not in the "virtual device collection", they will not be visible for the device. How can I get an icon ID? Open (any) virtual device configuration page. Press "Change icon". Right click on the icon you want to get an ID. Select "Open graphics in a new tab". The address should be like: "http://hc2/fibaro/n_vicons/User1003.png". 1003 is your ID in this case. How can I change the language for all displayed information? Change config variable in Lua scene. Only "pl" and "en" messages are supported by Airly API. Update display name of each label. Update labels content (if needed) by editing labelConfig variable in VD main loop. There is the same string formatting as for the Lua print function.
  4. Hello all, Did anyone of you used the Carrier Furnace Plugin? If yes, can you help me with some steps on "how to"? I am trying to configure the Carrier Furnace for my air conditioners but it is not working. I have added the air conditioner in my Wireless Lan and I can control these using the provided Carrier App. When I am trying to find the air conditioners using the network configuration ip address search, it is showing me that there is no air conditioner available in my WLAN. I have tried also by adding directly the IP address that I can see by opening the WiFi Router settings, but it is still not finding it. Thank you in advance. Best Regards, Alex F.
  5. Version 2.2

    149 downloads

    INTRODUCTION ARM VD collects radiation levels from all available stations around the world and shows 5 nearest stations to your location and one station with highest reading. It is using map of radiation detector stations on [email protected] website. [email protected] is a Polish science project using the distributed computing capabilities of the BOINC platform. The main goal of the project is to create a free and continuously updated map of radiation levels available for everyone, by gathering information about gamma radiation using sensors connected to the computers of volunteers willing to participate in the project. Project is completely non-commercial, participating will be free of charge (excluding cost of detector) and the software will be licensed under the GNU General Public License (GPL). PREREQUISITES Fibaro Home Center 2 with firmware 4.120 or greater FEATURES ARM VD collects radiation levels from all available stations around the world and shows 5 nearest stations to your location and one station with highest readings Simple installation and setup. Uses Developer HERE Geocode API freemium plan to show radiation monitor station location, nearest city name and country. Multi-language support with 27 languages included. Easy setup for VD icons (on UHASTM compatible version is this even easier) Global variables are automatically added, monitored and repaired. INSTALLATION Please check provided User Manual where all steps are explained in detail PACKAGE CONTENT Advanced Radiation Monitor VD v2.2 standalone Colorful icon pack User Manual v1.2 EN CREDITS Many thanks to BodyArt and gucio1234 from Fibaro forum for help with coding, testing, translations and user manual and andre from http://forum.lic.pl for the original idea. TERMS AND CONDITIONS Permission to use, copy, modify and distribute this software and its documentation for educational, research, personal use and non-profit purposes, without fee and without a signed licensing agreement is hereby granted, provided that the copyright notice, with "Terms and conditions" and "Disclaimer" appear in all copies, modifications and distributions. It is strictly forbidden to sell, rent, lease and/or lend this software for profit without prior consent from the Author. DISCLAIMER This software is provided by copyright owner "as is" and any express or implied warranties, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose are disclaimed. In no event shall the author and distributor be liable for any direct, indirect, incidental, special, exemplary, or consequential damages (including, but not limited to, procurement of substitute goods or services; loss of use, data, or profits; or business interruption) however caused and on any theory of liability, whether in contract, strict liability, or tort (including negligence or otherwise) arising in any way out of the use of this software, even if advised of the possibility of such damage. Fibar Group S.A. and their employees are not responsible for support of the ARM VD. Please contact the author Sankotronic, on the Fibaro Forum, for any questions or support required. VERSION HISTORY 2.2 – Corrected bug that was stopping code on error if HERE service does not send city name for the location provided by VD. 2.1 – Replaced Google location service to get nearest city name and country and introduced HERE service. Also moved code for getting country and city name for location of the station from scene to Update button on VD. 2.0 – Completely revamped ARM VD to show five nearest radiation measuring stations and the one with highest measuring. Also introduced Google service to retrieve nearest city name and country for the station location provided. Here is look of the ARM VD: Enjoy coding and your new ARM virtual device! Sankotronic
  6. amatt

    Ecobee?

    Has anyone successfully integrated ecobee into HC2? I believe that there is a API for ecobee and could be used in Lua.
  7. Version 1.15

    18 downloads

    ——————————————————————————————————————————————————————— Current Version: 1.15 Fibaro Marketplace: https://marketplace.fibaro.com/items/looko2-air-quality-sensor ——————————————————————————————————————————————————————— Witajcie, Jakiś czas temu poruszałem tu temat pomiaru Czystości Powietrza (szczególnie PM2.5) we własnym mieszkaniu lub na zewnątrz z określonej okolicy. W założeniu chodziło o to aby Fibaro potrafiło pobierać dane z własnego czujnika a następnie wyświetlać je i wykorzystywać dalej w działaniu (np. uruchomienie oczyszczacza) Nie znalazłem gotowego rozwiązania, a z dostępnych (w racjonalnej cenie) najsensowniejsze wydawało się zastosowanie własnego czujnika Looko2 - z obserwacji, dane wyglądają na dość dokładne, stosują dobre czujniki i udostępniają API (tu wymagany token). Jak dla mnie idealnie było by, gdyby, przynajmniej ostatnia średnia odczytu i podstawowe dane były dostępne bezpośrednio przez API Web interfejsu urządzenia, w lokalnym LANie - ale podobno nie można mieć wszystkiego więc póki co zadowalam się API w chmurze Tutaj podziękowania w stronę zespołu LOOKO2, który wykazał się otwartością na moje pytania dotyczące danych z czujnika a nawet dodał do API parametry, których pierwotnie tam nie było. Wirtualka została przekazana również do nich, więc być może pojawi się także na stronie projektu. Po cichu liczę, że na jej bazie FIBARO może przygotuje kiedyś jakiś plugin, być może ze statystyką danych na wykresach centralki Jeśli chodzi o samo urządzenie to wygląda następująco: Całość tzn. plik wirtualki, ikony, oraz opis parametrów znajdują się w dołączonym zipie. Po imporcie urządzenia, należy dodać niezbędne ikony oraz dodać ich ID do configa wirtualki. Ponadto należy podać tam ID interesującego nas czujnika - ja nie mam jeszcze własnego więc pobieram dane z dostępnego w pobliżu, oraz token - można go uzyskać mailowo od suportu Looko2. W celu działania PUSHy oraz dalszego wykorzystania jakości, należy dodać zmienną globalną o nazwie określonej w konfiguracji. (W przypadku wielu urządzeń / czujników - dla każdego tworzymy nową zmienną), oraz określić ID urządzeń mobilnych/ Wszystkie parametry opisane są w dołączonym pliku oraz komentarzach w konfiguracji samego urządzenia. Cała konfiguracja znajduje się w pierwszej części kodu urządzenia i nie powinna sprawiać żadnych problemów. Czas odświeżania danych z API również można modyfikować w konfiguracji - wstępnie zdefiniowałem go na 15 minut. W mojej ocenie jest to zupełnie wystarczające a częstsze odświeżanie danych nie ma sensu, bo prezentowane w API dane to średnia ostatnich odczytów - co czyni odczyt bardziej poglądowym niż odczyt chwilowy. Całość kodu znajduje się w pętli głównej, podczas testowania urządzenia (pewnie około 2 miesiące) zdarzyły mi się sporadyczne zawieszenia - może 2 - dlatego nie zdecydowałem się na pakowanie kodu pod przycisk i wyzwalanie go sceną. W przypadku interfejsu webowego urządzenie prezentuje jakość poprzez ikonę oraz nr indeksu jakości w dolnej belce pod ikoną urządzenia. Po wyświetleniu szczegółów, prezentowane są dokładne dane o aktualnej jakości powietrza. Nazwa urządzenia oraz lokalizacja IN / OUT prezentowana w szczegółach urządzenia, pobierana jest z API czujnika, natomiast pomieszczenie odzwierciedla umiejscowienie czujnika w strukturze pomieszczeń centralki FIBARO. Procentowe zanieczyszczenie wyliczane jest w oparciu o dostępne normy (z wyjątkiem PM1 - tu nie znalazłem danych więc jako normę przyjąłem 20 µg/m3 - oczywiście można to zmienić w konfiguracji) Do zmiennej globalnej zapisywana jest informacja o ogólnej jakości powietrza z ustawionego czujnika (0 najlepsza, 1 dobra, itd.) - zakres zgodny z dostępnymi normami i dostępny na stronie czujników W przypadku urządzeń mobilnych występują drobne problemy z wyświetlaniem m.in z przejściem do nowej linii - szerzej problem opisałem tutaj: Ogólnie po wprowadzeniu prawidłowego tokenu, wszystko powinno działać bez większych problemów. Bez podania tokenu urządzenie będzie wyświetlało informacje o błędzie z tym związaną.
  8. I have a Panasonic Etherea AC unit funtioning with the Inthesishome box and this works perfectly with the Intesis native app over internet. Recently IntesisHome has launched their API (http://developer.intesishome.com) and that is great news for integrating this into the HC2. Is there someone who can help with: 1) explaning how an API from an external device can be reached best by the HC2: through lua scripting or php? 2) scripting php and/or lua code to setValue in the Intesis api? 3) setting up a plugin for this api (as the Intesis home box allows for controlling multiple brands of AC units)? Thanks.
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