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lab:argus [2016/04/02 09:44] – [MPPT Charge Controller] chronolab:argus [2017/01/05 11:21] (current) – [Temperature & Relative Humidity] chrono
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   * Data Delivery and Tracker Platform for [[lab:dspace|DSpace]]   * Data Delivery and Tracker Platform for [[lab:dspace|DSpace]]
 +  * Data/Pinning node for [[https://ipfs.io/|IPFS]] (see [[https://github.com/yangwao/ipfs-hypercube|ipfs-hypercube]])
   * Environmental monitoring   * Environmental monitoring
   * WLAN mesh networking   * WLAN mesh networking
     * Possible hosting platform for [[http://global.freifunk.net/|Freifunk]]     * Possible hosting platform for [[http://global.freifunk.net/|Freifunk]]
-  * Distributed SDR Grid (combined with RTL/OsmoSDR/UmTtrx)+  * Distributed SDR Grid (combined with RTL/OsmoSDR/HackRF/Rad1O/UmTtrx)
     * Combined Aperture Array Radio Telescope      * Combined Aperture Array Radio Telescope 
     * Distributed Cube/PicoSAT monitoring     * Distributed Cube/PicoSAT monitoring
     * Possible hosting platform for [[http://shackspace.de/wiki/doku.php?id=project:hgg|HGG (Hacker Global Grid)]]     * Possible hosting platform for [[http://shackspace.de/wiki/doku.php?id=project:hgg|HGG (Hacker Global Grid)]]
-    * Autonomous APT/NOAA reception+    * APT/NOAA reception
     * ADS-B Grid reception     * ADS-B Grid reception
     * POCSAG broadcasting     * POCSAG broadcasting
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 | Orig. Case Size | 67x74x22mm |:::| | Orig. Case Size | 67x74x22mm |:::|
  
-There is also the GL-Inet-6416a, a HW compatible clone, which offers 64MB RAM (instead of 32MB) and 16MB Flash (instead of 4MB). It also has 5 GPIOs available on a PIN header and a secondary network port, available from Deal Extreme: +==== GL-Inet-6416 ==== 
 + 
 +There is also the GL-Inet-6416a, a HW compatible clone, which offers 64MB RAM (instead of 32MB) and 16MB Flash (instead of 4MB). It also has 5 GPIOs on a PIN header and a secondary network port, available from Deal Extreme. A couple of them have been in use here for quite some time and they've performed equally - while offering more features/flexibility:
  
   * [[http://www.dx.com/p/gl-inet-6416a-micro-usb-powered-smart-router-w-16m-rom-white-335418|GL-Inet-6416a - with Case]]   * [[http://www.dx.com/p/gl-inet-6416a-micro-usb-powered-smart-router-w-16m-rom-white-335418|GL-Inet-6416a - with Case]]
   * [[http://www.dx.com/p/gl-inet-wi-fi-router-openwrt-ssh-usb-64mbyte-ram-wireless-repeater-pcb-board-green-346531|GL-Inet-6416a - PCB only]]   * [[http://www.dx.com/p/gl-inet-wi-fi-router-openwrt-ssh-usb-64mbyte-ram-wireless-repeater-pcb-board-green-346531|GL-Inet-6416a - PCB only]]
 +
 +If you want to use an external antenna with the 6416, have a look at:
 +
 +[[mission:log:2016:09:12:howto-external-antenna-mod-gl-inet-6416]]
 +
 +==== GL-Inet AR300M ====
 +
 +Gl-Inet has released a new model, the [[https://www.gl-inet.com/product/gl-ar300m/|AR300M]], which is already available with two external RP-SMA connectors. They still connect to only one radio but allow for more throughput and better overall connection stability. If you don't want to hack around and want even more RAM, CPU and storage the AR300M is the perfect choice as of early 2017. 5 of these are running through their tests here and so far they can be definitely recommended. A self deploying mesh firmware is a current work in progress but hasn't been released yet. If you're interested in getting it or help working on it, just leave a comment or join us on IRC.
 +
 +If you're looking to build your own openwrt for the ar300m, you can use this repo:
 +
 +https://github.com/apollo-ng/openwrt-cc-gl-ar300m
 ==== Power & Performance Analysis ==== ==== Power & Performance Analysis ====
  
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   * **Mechanical PCB modification**    * **Mechanical PCB modification** 
 Cut/file the edge of the PCB as shown in the image. Make sure that there is no connection left between the two golden strips at the edge. Cut/file the edge of the PCB as shown in the image. Make sure that there is no connection left between the two golden strips at the edge.
-  * **If you want to use a Pigtail**: +  * **Option A: If you want to use a Pigtail**: 
 Solder the center of RG-174 (or the like) coax cable to the left pad (connected to C43 - see Image) and the braid/shield of the coax to the right strip (GND). Solder the center of RG-174 (or the like) coax cable to the left pad (connected to C43 - see Image) and the braid/shield of the coax to the right strip (GND).
-  * **If you want to use a PCB Edge RP-SMA connector**: +  * **Option B: If you want to use a PCB Edge RP-SMA connector**: 
 Solder the center pin (round) to the left pad (connected to C43 - see Image) and the right pin of the connector to the right pad (GND).  Solder the center pin (round) to the left pad (connected to C43 - see Image) and the right pin of the connector to the right pad (GND). 
   * **Finishing Up**:   * **Finishing Up**:
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 [{{:lab:mr3020-antenna-premod.jpg?295|PCB/Antenna before}}] [{{:lab:mr3020-antenna-premod.jpg?295|PCB/Antenna before}}]
 [{{:lab:mr3020-antenna-baremod.jpg?295|Cut/File edge of PCB}}] [{{:lab:mr3020-antenna-baremod.jpg?295|Cut/File edge of PCB}}]
-[{{:lab:mr3020-antenna-pigtailmod.jpg?295|Connect a pigtail}}] +[{{:lab:mr3020-antenna-pigtailmod.jpg?295|Option A: Connect a pigtail}}] 
-[{{:lab:mr3020-antenna-rpsmamod.jpg?295|Mount RPSMA PCB Edge Connector}}]+[{{:lab:mr3020-antenna-rpsmamod.jpg?295|Option B: Mount RPSMA PCB Edge Connector}}]
  
 ~~CL~~ ~~CL~~
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 http://www.mikrocontroller.net/mc-project/Pages/Projekte/Wetterstation/sensors/SHT75/SHT75.html http://www.mikrocontroller.net/mc-project/Pages/Projekte/Wetterstation/sensors/SHT75/SHT75.html
 http://www.mikrocontroller.net/topic/145736#1705005 http://www.mikrocontroller.net/topic/145736#1705005
 +
 +In order to protect the sensor from IR/UV radiation and harsh weather, the sensor must be housed in a special housing that allows airflow but keeps the sensor safe and measurements reliable. For that purpose stevenson screens have served well in the past. A new fully 3D printable stevenson screen has been developed for that purpose:
 +
 +{{:lab:model-complete-cutview.jpg|}}
 +
 +Source: https://github.com/apollo-ng/DIY-Stevenson-Screen
  
 ==== Ground Temperature ==== ==== Ground Temperature ====
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 The [[lab:pigi]] was designed in such a universal way, that it can be used for Argus as well. It creates the required high voltage for the tubes and inverts the counting impulses of the tube into falling edges, captured by interrupt driven software on the sensor controller. The [[lab:pigi]] was designed in such a universal way, that it can be used for Argus as well. It creates the required high voltage for the tubes and inverts the counting impulses of the tube into falling edges, captured by interrupt driven software on the sensor controller.
- 
-You can watch live data on the [[https://apollo.open-resource.org/flight-control/vfcc/#/dashboard/db/aquarius-hab-environment-indoor|Aquarius HAB (Indoor) VFCC Dashboard]] 
  
 === Other implementations done before === === Other implementations done before ===