Difference between revisions of "SDR"

From YobiWiki
Jump to navigation Jump to search
Line 111: Line 111:
 
** Look at other devices from same Grantee Code
 
** Look at other devices from same Grantee Code
 
* https://fcc.io quick alternative
 
* https://fcc.io quick alternative
  +
* http://www.srrc.org.cn/WP_Search.aspx
 
* [http://www.sigidwiki.com/wiki/Signal_Identification_Guide Signal Identification Guide]
 
* [http://www.sigidwiki.com/wiki/Signal_Identification_Guide Signal Identification Guide]
   

Revision as of 21:30, 29 March 2016

Hardware

HackRF

$ hackrf_info
Found HackRF board.
Board ID Number: 2 (HackRF One)
Firmware Version: 2014.08.1
Part ID Number: 0xa000cb3c 0x0067434c
Serial Number: 0x00000000 0x00000000 0x15d463dc 0x383f8125

Airspy

  • 24MHz - 1.750GHz, RX, BW 10MHz (9MHz alias free), ADC 12bit (10.4 ENOB), sampling rates: 2.5Msps or 8Msps
  • Bias-T supply can deliver 4.5V
  • FW flashing
$ airspy_info

Found AirSpy board 1
Board ID Number: 0 (AIRSPY)
Firmware Version: AirSpy NOS v1.0.0-rc5-0-g648c14f 2015-05-20
Part ID Number: 0x6906002B 0x00000030
Serial Number: 0x618C63C82F7424A7
Supported sample rates:
	10.000000 MSPS
	2.500000 MSPS
Close board 1

RTL-SDR

  • ~25MHz - 2GHz, RX, BW 2.4-2.8MHz, ADC 8bit
  • Mine: 52-2212 MHz with gap @ 1107-1241 MHz

LNA: Low Noise Amplifiers

  • LNA4ALL
    • 28-2500MHz, gain about 22dB from 28MHz to 600MHz then gain drops to ~16dB @ 1400MHz and ~11dB @ 2500MHz, 0.75dB NF @ 1 GHz and 0.98dB NF @ 2 GHz
    • 6-9 V, 55-65 mA (5V if regulator bridged)
    • can be powered by HackRF or Airspy if modified, 10uH SMD on OUT and regulator bridged (because we deliver <5V) or bridged by 100mA fuse, just in case.
  • LNA4HF
    • 150kHz - 30MHz, gain 18-20 dB, NF 1-2 dB
    • 6-9 V, 18 mA (5V if regulator bridged)
    • up to 2GHz if low-pass filter removed
  • Better to position LNA near antenna than near receiver, more useful info here

Antennas

ANT500

  • 50 ohms, 75 MHz - 1 GHz, 20cm - 88cm

Other

Other materials for reference, but that I don't own.

Hermes

  • 10kHz - 55MHz, full duplex, up to 55Msps (full spectrum at once), 125dB of dynamics, 350 to 500mW TX output

Hermes-lite

  • 0 - 30MHz, full duplex

Software

Understanding SDR

Understanding GNU Radio

Resources

GNU Radio tips

Config

If you install it from your distro, make sure it'll look for manually installed modules as we'll build a few of them:
Edit /etc/gnuradio/conf.d:

global_blocks_path = /usr/share/gnuradio/grc/blocks:/usr/local/share/gnuradio/grc/blocks

Or better, do it locally in ~/.gnuradio/config.conf:

[grc]
local_blocks_path=/usr/local/share/gnuradio/grc/blocks

Interface

  • underlined parameters can change at run time (e.g. via variable slider)
  • / to search in modules
  • use 1.0 instead of 1 for floats, yeah python...

Design

  • Add a throttle block if there is no real hardware involved in the circuit, to enforce a real time constraint and not run at 100% CPU. One is enough. Don't if some real hardware (sdr, audio) is involved.
  • Notebook to have tabs in GUI, then for each graphical block, specify notebook: notebook_id,tab_number
  • Selector + Variable_chooser with radio buttons to change connections at run time
  • Variable + Variable config to save to/restore from file

Legal

Be aware of the local legislation!
Emitting is strongly regulated (in terms of frequency, power, modulation, content,...) and may require a license.
Receiving may also be regulated!
See ITU and regional laws.
E.g. in Belgium, check the 13/06/2005 law: you can't listen to communications else than public broadcasts, CB and HAM and your material can be seized if programmed/tuned to listen to those frequencies.
So it's safer to play in the allowed bands and to reverse-engineer your own stuff (RC toys,...).

Reverse engineering

Info

Generic

GQRX

Baudline

With hackrf


Add offset to avoid DC, e.g. to monitor 440MHz -> 442MHz
E.g. somewhere around 100MHz @ 8MHz:

hackrf_transfer -r /dev/stdout -f 100000000 -s 8000000 | \
  baudline -stdin -quadrature -channels 2 -flipcomplex -format u8 -samplerate 8000000 -memory 256

With airspy


Freq is given in MHz, sample rate is given by fw offset: -a 0 = 10M, -a 1 = 2.5M
By default airspy_rx & baudline work with 16bit LSB samples

airspy_rx -r /dev/stdout -f 100 -a 0  | \
  baudline -stdin -quadrature -channels 2 -flipcomplex -samplerate 10000000 -memory 256
airspy_rx -r /dev/stdout -f 100 -a 1  | \
  baudline -stdin -quadrature -channels 2 -flipcomplex -samplerate 2500000 -memory 256

After demodulation with GQRX

In GQRX, choose to stream audio through UDP (icon on left of recording button)

nc -l -u -p 7355  | \
  baudline -stdin -samplerate 48000

Tuning

  • input / color aperture
  • zoom: alt+arrows
  • Hz zoom: require larger FFT (process / transform size), trade-off with temporal resolution

multimon-ng

MultimonNG a fork of multimon. It decodes the following digital transmission modes:

    POCSAG512 POCSAG1200 POCSAG2400
    EAS
    UFSK1200 CLIPFSK AFSK1200 AFSK2400 AFSK2400_2 AFSK2400_3
    HAPN4800
    FSK9600
    DTMF
    ZVEI1 ZVEI2 ZVEI3 DZVEI PZVEI
    EEA EIA CCIR
    MORSE CW

See also http://eliasoenal.com/2012/05/24/multimonng/

After demodulation with GQRX


In GQRX, choose to stream audio through UDP (icon on left of recording button)

nc -l -u -p 7355  | \
  sox -r 48000 -t raw -b 16 -c 1 -e signed-integer /dev/stdin -r 22050 -t raw -b 16 -c 1 -e signed-integer - | \
  multimon-ng -t raw -c -a AFSK2400 -a SCOPE /dev/stdin

After demodulation with rtl_fm

Only for FM modulated packets obviously.
Clock drift may be quite important with RTL-SDR and kal gives sometimes strange results so I prefer to first find the exact frequency to tune on with GQRX

rtl_fm -f 466.175M -s 22.05k - | \
  multimon-ng -a POCSAG1200 -f alpha -t raw /dev/stdin

27.150MHz RC

Replay example for a 27.150MHz RC:

hackrf_transfer -r rc27_up_a1_l16_g20_s8 -f 27000000 -a 1 -l 16 -g 20 -s 8000000
hackrf_transfer -t rc27_up_a1_l16_g20_s8 -f 27000000 -a 1 -x 40 -s 8000000

GRC example from gr-remotecar/examples/example_TX_II.py works OOB for me, using those build instructions.

27.195MHz RC

Garage doors, AM/ASK
cf http://boutique.ed-diamond.com/home/861-hackable-magazine-6.html
rtl_433

rtl_433 -f 27195000

87MHz to 108MHz FM band

315MHz car keyfob

433MHz car keyfob

433MHz doorbell

433MHz sensors

Weather sensors etc
rtl_433

rtl_433

480MHz interferences

Stripes around 480MHz are because of poorly shielded USB cable

524 to 542 MHz wireless microphones

1090MHz ADS-B

POCSAG Pagers

Side-Channel Analysis