TechWiki

User Tools

Site Tools

Trace:
en:tech:sensorlogger

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision		Previous revision
Last revisionBoth sides next revision
en:tech:sensorlogger [2020/10/15 17:25] – [Hardware] bullaren:tech:sensorlogger [2020/10/15 17:30] – [Links] bullar
Line 132: Line 132:
 An antenna must also be connected to the RFM12 module. Usually 1/4 lamba so about 8.3cm. But since there was still space on the PCB, I dared to try a PCB variant in a meandering structure. There is also a nice design note from Texas Instruments (DN024). The result was a bit off, however, because the <m> epsilon_r </m> of my favorite PCB maker turned out a bit different in reality. The maximum gain was about 790MHz and could then be reduced to 868MHz with a final -6dB gain. This means that reception through concrete ceilings or walls is also feasible. An antenna must also be connected to the RFM12 module. Usually 1/4 lamba so about 8.3cm. But since there was still space on the PCB, I dared to try a PCB variant in a meandering structure. There is also a nice design note from Texas Instruments (DN024). The result was a bit off, however, because the <m> epsilon_r </m> of my favorite PCB maker turned out a bit different in reality. The maximum gain was about 790MHz and could then be reduced to 868MHz with a final -6dB gain. This means that reception through concrete ceilings or walls is also feasible.
 ==== Software ==== ==== Software ====
-The software was created with AVR STudio 6 and AVR-Dragon is on the handicraft table as a debugger. UART I / F is on board as support, which then outputs the printf instructions on my MAC via a level converter and the RS232 / USB adapter without complaint. A command I / F also allows direct control via the same interface. A small web server is also integrated for normal operation. The entire package including Ethernet and SD support requires approx. 85K FLASH and 12.5K RAM memory.+The software was created with AVR STudio 6 and an AVR-Dragon as a debugger. An UART I/F is on board as support, which then outputs the printf instructions on my MAC via a level converter and the RS232/USB adapter without complaint. A command I/F also allows direct control via the same interface. A small web server is also integrated for normal operation. The entire package including Ethernet and SD support requires approx. 85K FLASH and 12.5K RAM memory.
  
 ==== Outlook ==== ==== Outlook ====
Line 139: Line 139:
  
 ==== Links ==== ==== Links ====
-  * [[http://hackaday.com/2011/06/13/reverse-engineering-wireless-weather-stations/]] IT + protocol description +  * [[http://hackaday.com/2011/06/13/reverse-engineering-wireless-weather-stations/]] IT+ protocol description 
-  * [[http://fredboboss.free.fr/tx29/]] IT + protocol description +  * [[http://fredboboss.free.fr/tx29/]] IT+ protocol description 
-  * [[http://gcrnet.net/node/32]] IT + protocol description+  * [[http://gcrnet.net/node/32]] IT+ protocol description
   * [[http://www.ti.com/lit/an/swra227e/swra227e.pdf]] Antenna Design Note DN024   * [[http://www.ti.com/lit/an/swra227e/swra227e.pdf]] Antenna Design Note DN024
   * [[http://www.mikrocontroller.net/articles/RFM12]] Receiver module description   * [[http://www.mikrocontroller.net/articles/RFM12]] Receiver module description
en/tech/sensorlogger.txt · Last modified: 2020/10/15 18:30 by 127.0.0.1

Page Tools

Except where otherwise noted, content on this wiki is licensed under the following license: CC Attribution-Noncommercial 4.0 International
CC Attribution-Noncommercial 4.0 International Donate Powered by PHP Valid HTML5 Valid CSS Driven by DokuWiki