This was originally removed in fe03d83703
There are apparently a bunch of different compatible libmirisdr
libraries which are actually being used that have nothing in common with
the old, unmaintained hack we built this support for.
OsmoSDR and MiriSDR support was disabled in v0.2.1 because the hardware
is rare and obsolete. I think it would be useful to completely remove
the associated code, since this will reduce the future maintenance
burden for gr-osmosdr.
Signed-off-by: Eric Wild <ewild@sysmocom.de>
Support for the original FUNcube Dongle used to live in GNU Radio's
gr-fcd module, which was removed in version 3.8. As a result, gr-osmosdr
lost support for both FUNcube Dongle and FUNcube Dongle Pro+.
The gr-fcdproplus out-of-tree module subsequently added support for the
original FUNcube Dongle, meaning that it now supports both types. As a
result, FUNcube support can easily be restored in gr-osmosdr. The
now.
Signed-off-by: Eric Wild <ewild@sysmocom.de>
XXX
This was missed during the initial cleanup but is no longer necessary
gnuradio-uhd module installs its own version and that should be used
Signed-off-by: Sylvain Munaut <tnt@246tNt.com>
This patch adds support for both receiving and transmitting using
the FreeSRP. More information on the FreeSRP can be found at:
http://freesrp.org
The gr-osmosdr blocks added make use of libfreesrp, the library
required for interfacing with this device. The libfreesrp source
code is freely available at
https://github.com/freesrp/libfreesrp
Usage example:
osmocom_fft -a "freesrp"
Requires https://github.com/airspy/host
Usage example:
osmocom_fft -a airspy
The following named gain stages are available:
LNA: 0 to 15, step 1
MIX: 0 to 15, step 1
IF: 0 to 15, step 1
At the moment the gains are not in dB but gain indices internal to R820t
tuner.
This is based on the original work (https://github.com/Nuand/gr-osmosdr)
done by folks at nuand LLC for the gr3.6 branch of gr-osmosdr.
The following modifications have been done in this commit:
* port to gr-osmosdr master codebase (gr3.7)
* moved shared properties to bladerf_common
* added & verified IF filter bandwidth setters
* set LMS6002D registers with values taken from FAQ 5.27
* print device information (serial/versions) on startup
* added fpga= and fw= device arguments to program MCU/FPGA
* added bladerf=# dev. arg. to select a specific bladeRF
* grc gain field controls RF path VGA for RX/TX
* grc BB gain field controls BB path VGA for RX/TX
Usage example:
osmocom_fft -a "bladerf,fpga=/tmp/hostedx115.rbf"
The following RX named gain stages are available:
LNA: 0 to 6 dB, in 3dB steps
VGA1: 5 to 30 dB, in 1dB steps; nonlinear mapping done inside the lib
VGA2: 0 to 60 dB, in 3dB steps; not recommended to be used above 30dB
The following TX named gain stages are available:
VGA1: -35 to -4 dB, in 1dB steps, BB side
VGA2: 0 to 25 dB, in 1dB steps, RF side
Thanks a lot to the team of nuand LLC for this major contribution.
The gnuradio block https://github.com/dl1ksv/gr-fcdproplus must be
installed before building gr-osmosdr.
Available named gains:
Dongle Classic:
LNA: -5 to 30 dB, in 2.5 dB steps
MIX: 4 or 12 dB
Dongle Pro+:
LNA: 0 or 1, meaning off/on only. no information about real values.
MIX: 0 or 1, meaning off/on only. no information about real values.
BB: 0 to 59 dB, in 1 dB steps
This patch also introduces optional "device" and "type" arguments which
allow to override the values automatically picked by gr-osmosdr:
osmocom_fft -a "fcd,device=hw:2,type=2"
The "device" argument overrides the audio device used by the underlying
driver to access the dongle's IQ sample stream.
The "type" argument selects the dongle type, 1 for Classic, 2 for Pro+.
Thanks to Alexey Bazhin for the initial patch and Volker Schroer for
testing.
features:
- gain control for LNA & VGA
- frequency error correction
- automatic baseband filter
- up to 20M sampling rate
limitations:
- no DC offset correction implemented (yet)
- no RX preamplifier control (disabled by default)
- high sampling rates may not work on slow machines