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lab:argus [2014/02/24 09:58] – [Modifications] chrono | lab:argus [2017/01/04 12:48] – [TP-Link TL-MR3020] chrono | ||
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- | Each node can be configured for individual needs and available budget. A basic node will only provide connectivity features, a fully equipped node will offer complete communication and RF-/ | + | Each node can be configured for individual needs and available budget. A basic node will only provide connectivity features, a fully equipped node will offer complete communication and RF-/ |
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* Data Delivery and Tracker Platform for [[lab: | * Data Delivery and Tracker Platform for [[lab: | ||
+ | * Data/ | ||
* Environmental monitoring | * Environmental monitoring | ||
* WLAN mesh networking | * WLAN mesh networking | ||
* Possible hosting platform for [[http:// | * Possible hosting platform for [[http:// | ||
- | * Distributed SDR Grid (combined with RTL/ | + | * Distributed SDR Grid (combined with RTL/OsmoSDR/ |
* Combined Aperture Array Radio Telescope | * Combined Aperture Array Radio Telescope | ||
* Distributed Cube/ | * Distributed Cube/ | ||
* Possible hosting platform for [[http:// | * Possible hosting platform for [[http:// | ||
- | * Autonomous | + | * APT/NOAA reception |
* ADS-B Grid reception | * ADS-B Grid reception | ||
* POCSAG broadcasting | * POCSAG broadcasting | ||
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==== TP-Link TL-MR3020 ==== | ==== TP-Link TL-MR3020 ==== | ||
- | The TP-Link TL-MR3020 by itself consumes a maximum of **1.25W**. That totals at 30Wh per day and is, for the moment that is, the perfect choice for an independent, | + | The TP-Link TL-MR3020 by itself consumes a maximum of **1.25W**. That totals at 30Wh per day and is, for the moment that is, the perfect choice for an independent, |
^ Specs ^ ^ ^ | ^ Specs ^ ^ ^ | ||
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| Full Assembly Size | 60x62x17mm (incl. USB/LAN ports) |:::| | | Full Assembly Size | 60x62x17mm (incl. USB/LAN ports) |:::| | ||
| Orig. Case Size | 67x74x22mm |:::| | | Orig. Case Size | 67x74x22mm |:::| | ||
+ | |||
+ | ==== GL-Inet-6416 ==== | ||
+ | |||
+ | There is also the GL-Inet-6416a, | ||
+ | |||
+ | * [[http:// | ||
+ | * [[http:// | ||
+ | |||
+ | If you want to use an external antenna with the 6416, have a look at: | ||
+ | |||
+ | [[mission: | ||
+ | |||
+ | ==== GL-Inet AR300M ==== | ||
+ | |||
+ | Gl-Inet has released a new model, the [[https:// | ||
==== Power & Performance Analysis ==== | ==== Power & Performance Analysis ==== | ||
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Although it appears as if the AR9330 has two symmetric antenna outputs on-board and the TL-MR3020 has two etched antennas on the PCB, the route to Antenna1 is actually going to Antenna2. The route originally going to Antenna2 is only partly equipped (probably termination) and not connected to any antenna. | Although it appears as if the AR9330 has two symmetric antenna outputs on-board and the TL-MR3020 has two etched antennas on the PCB, the route to Antenna1 is actually going to Antenna2. The route originally going to Antenna2 is only partly equipped (probably termination) and not connected to any antenna. | ||
- | The lack of available datasheets for the AR9330 made this a guess and test hack and although the first approach (see below) worked for us, it unfortunately introduced EM related problems for some other people. This is the revisited hack, using a PCB edge RP-SMA connector to either use an antenna directly or connect better coax cable with less loss to the antenna. Of course there is also an example for a pigtail as well. | + | The lack of available datasheets for the AR9330 made this a guess and test hack and although the first approach (see below) worked for us, it unfortunately introduced EM related problems for some other people. This is the revisited hack, using a PCB edge RP-SMA connector to either use an antenna directly or connect better coax cable with less loss to the antenna. |
+ | |||
+ | {{: | ||
+ | |||
+ | |||
+ | Of course there is also an example for a pigtail as well. | ||
<WRAP round tip> | <WRAP round tip> | ||
**HOWTO: | **HOWTO: | ||
- | | + | |
- | | + | Unsolder the pigtail and re-solder |
- | | + | |
- | | + | 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. |
- | | + | |
+ | Solder the center of RG-174 (or the like) coax cable to the left pad (connected to C43 - see Image) and the braid/ | ||
+ | | ||
+ | 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). | ||
+ | | ||
+ | Use hot glue or something like it to fix the cable/ | ||
</ | </ | ||
[{{: | [{{: | ||
[{{: | [{{: | ||
- | [{{: | + | [{{: |
- | [{{: | + | [{{: |
~~CL~~ | ~~CL~~ | ||
- | Special | + | Special |
<WRAP round important> | <WRAP round important> | ||
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<WRAP round alert> | <WRAP round alert> | ||
- | There have been reports of EM related | + | There have been reports of EM related |
</ | </ | ||
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~~CL~~ | ~~CL~~ | ||
- | |||
===== Microcontroller ===== | ===== Microcontroller ===== | ||
* ATMega328 based system control/ | * ATMega328 based system control/ | ||
* Modularized Firmware in C (one module per tasking option) | * Modularized Firmware in C (one module per tasking option) | ||
- | * Serial communication to ARM Host | + | * Serial communication to Host |
- | * Monitoring & controlling battery supply/low power shut down of ARM Host | + | * Monitoring & controlling battery supply/low power shut down of Host |
===== RF Tasking ===== | ===== RF Tasking ===== | ||
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==== MPPT Charge Controller ==== | ==== MPPT Charge Controller ==== | ||
- | In order to get familiar with MPPT battery charge controller | + | In order to get familiar with MPPT battery charge controller, it's planned |
'' | '' | ||
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{{: | {{: | ||
+ | <WRAP round tip> | ||
+ | Work on the new, extremely efficient and reliable maximum-power-point tracking, buck/boost solar charge controller has finally begun: [[lab: | ||
+ | </ | ||
==== Power Converter ==== | ==== Power Converter ==== | ||