Skip to content

Latest commit

 

History

History
53 lines (41 loc) · 2.07 KB

README.md

File metadata and controls

53 lines (41 loc) · 2.07 KB

gr-elster

Author: Clayton Smith
Email: [email protected]

This GNU Radio block and sample flow graph are intended to receive packets transmitted by Elster smart meters on the 902-928 MHz band. In particular, I have tested it with the Elster R2S hydro meters used in the Ottawa area. It may work with other Elster meters. Please let me know what you manage to receive with it.

It is not yet complete, as I have not fully reverse engineered the packet structure, nor the payload data. But it is able to dump complete packets, and can display meter readings and hourly electricity usage data. When running, it dumps all packets to the console in hex, and decodes those packets containing meter readings as follows:

Meter reading for meter #XXXXXXX: YYYYY kWh
Hourly readings: Z.ZZ, Z.ZZ, Z.ZZ, Z.ZZ, Z.ZZ, Z.ZZ

It also stores packets to a pcap file (beginning with elster-001.pcap) which can then be decoded using the decode_pcap.py script.

In my area, usage data is transmitted every six hours (beginning at 05:30, 11:30, 17:30 and 23:30 UTC), so it may be necessary to wait a while before such packets will appear.

The flow graph in /apps/elster_rx_multi.grc is intended for use with an RTL-SDR dongle, but can likely be used with other SDR receivers as well. It receives six out of the 25 frequency-hopping channels used in my area, but that should be sufficient to receive most traffic since packets are repeated a few times on different channels. The number of simultaneous channels is limited by the bandwidth of the SDR. An RTL-SDR dongle can reliably receive up to about 2.4 MHz, which is sufficient for six 400-kHz channels.

For best reception with an RTL-SDR dongle, set the frequency correction slider to the appropriate value (in PPM) for your particular tuner.

Build instructions:

mkdir build
cd build
cmake ../
make
sudo make install

After following the build instructions, be sure to restart GNU Radio Companion so that the new block will be available there.

Any help you can offer with reverse engineering or coding would be greatly appreciated!