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content:meshextender:prototyping_on_mr3020

This is an old revision of the document!


This prototype is heavily based on the previous TPLINK 703N prototype, but avoids the need for a USB to serial adapter and USB hub.

Parts:

  • TP-LINK MR3020 Router (32MB RAM, 4MB FLASH, serial port header, USB port, 802.11N Atheros 9k WiFi, 400MHz MIPs processor).
  • RFD900a Radio (see http://rfdesign.com.au).
  • SanDisk Cruzer Fit™ tiny USB memory stick.

Hardware Assembly:

  • Remove lid by following the instructions at http://wiki.openwrt.org/toh/tp-link/tl-mr3020#opening.the.case
  • Remove the PCB
  • Drill two holes on the top edge of the case to accomodate the RFD900 radio (6.5mm holes 20mm apart, centred approximately 9mm in from the top edge and the first hole starting approximately 20mm in from the left edge. I will supply a photo that makes this clearer).
  • If you have obtained a normal RFD900, desolder the 16pin header. Ask RFDesign if they can supply it without the header installed in the first place, as it saves a bit of effort. They may or may not be able to depending on where they are in their manufacturing cycle, but the more people ask, the more they are likely to stock them this way.
  • Solder a 4-pin ribbon cable between the MR3020 PCB and RFD900 radio connecting 5v, GND, TX and RX lines appropriately. See photo for pictorial explanation.

Software Installation:

  • Download mesh extender software installation tools from http://github.com/servalproject/mesh-extender (once only)
  • Partition the USB memory stick in any computer to have exactly three partitions of any size (this is to work around a bug when running fdisk on OpenWRT and creating partitions, where it doesn't create the /dev/ entries until after reinsert or reboot).
  • Plug virgin MR3020 into ethernet jack on computer.
  • cd mr3020
  • ./0.install-openwrt
  • Wait for router to reboot
  • ./1.upgrade_openwrt 192.168.1.1
  • Wait for router to reboot
  • ./2.install_mesh_extender 192.168.1.1
  • Wait for router to reboot
  • Kill the runservald process and run servald stop to stop all servald processes.
  • Run export TERM=xterm ; minicom -s and use minicom to configure to use /dev/ttyATH0 @ 57600, no hardware or software flow-control. Then use +++ to connect to radio and make sure it is happy. Adjust channels, frequencies, bit rates as required. More on this later. Required once only. We also hope to make this step redundant by making servald do this.
  • You should now have a working mesh extender.

We intend to refine and simplify this process further to make it easier for you to build your own mesh extenders. Of course you will need a pair to use them productively.

content/meshextender/prototyping_on_mr3020.1379999281.txt.gz · Last modified: 23/09/2013 22:08 by Paul Gardner-Stephen