SHR/SRC

From Signal Identification Wiki
Jump to: navigation, search
SHR/SRC
Shr mod patterns 1.gif
Frequencies 38.0 kHzKiloHertz (kHz) 10^3 Hz38,000 HzHertz (Hz), unit of frequency, defined as one cycle per second (1 Hz).
0.038 MHzMegaHertz (MHz) 10^6 Hz
38 kHzKiloHertz (kHz) 10^3 Hz
0.038 MHzMegaHertz (MHz) 10^6 Hz
38 kHzKiloHertz (kHz) 10^3 Hz
0.038 MHzMegaHertz (MHz) 10^6 Hz
Frequency Range 38 kHzKiloHertz (kHz) 10^3 Hz38,000 HzHertz (Hz), unit of frequency, defined as one cycle per second (1 Hz).
0.038 MHzMegaHertz (MHz) 10^6 Hz
- 38 kHzKiloHertz (kHz) 10^3 Hz38,000 HzHertz (Hz), unit of frequency, defined as one cycle per second (1 Hz).
0.038 MHzMegaHertz (MHz) 10^6 Hz
Mode
Modulation MSKMinimum-Shift Keying (When Shift/Bd = 0.5. It is impossible to get this ratio to be lower than 0.5, hence it is called the 'Minimum' shift.)
ACFAutoCorrelation Function
Location Ruda, Sweden
Short Description
I/Q Raw Recording
Audio Sample

Swedish MSKMinimum-Shift Keying (When Shift/Bd = 0.5. It is impossible to get this ratio to be lower than 0.5, hence it is called the 'Minimum' shift.) transmitters can easily be identified in the waterfall diagram by their fishbone-like modulation pattern. This seems to belong to the idle phases while the pattern seems to become more random while transmitting data.

The data section in the transmission presented here for SHR is quite similar to that of SAS at the same time. Both transmitters appear to be synchronized.