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A collection of GNU Radio flow graphs
License: GNU General Public License v3.0
This project forked from argilo/sdr-examples
A collection of GNU Radio flow graphs
License: GNU General Public License v3.0
# Copyright 2013-2014 Clayton Smith # # This file is part of sdr-examples # # sdr-examples is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3, or (at your option) # any later version. # # sdr-examples is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with sdr-examples; see the file COPYING. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, # Boston, MA 02110-1301, USA. sdr-examples ============ Author: Clayton Smith Email: <[email protected]> This project is a collection of GNU Radio examples created for a tutorial session given at the Ottawa Amateur Radio Club. multi_tx.grc & multi_tx.py -------------------------- This example transmits the following signals simultaneously: 1. Narrowband FM at 440.9 MHz 2. Wideband FM at 441.0 MHz 3. AM at 441.120 MHz 4. LSB at 441.131 MHz 5. USB at 441.134 MHz 6. CW at 441.140 MHz 7. PSK31 at 441.142 MHz It is built for the BladeRF, but it should easily be adaptable to other boards such as the USRP B200/210 or HackRF. Output power is split approximately equally between the six signals, with the gain set such that no clipping occurs. pager_rx.py ----------- This example allows the reception of the FLEX protocol used to send messages to pagers. It is intended for use with a RTL-SDR dongle such as the NooElec TV28T. To use it, first set the frequency correction slider to the correct value to match your dongle's crystal. The gain slider should be set to the highest value which does not cause clipping. (If it's too high, you'll see spurious signals appearing.) Choose a band (929-930 MHz or 931-932 MHz) by clicking the appropriate radio button. The band waterfall will display all signals in that band. Click on a signal to tune to its channel. When transmitting, you should see the channel's signal in the channel waterfall display. When the frequency correction slider is set correctly, the signal should be centered in the channel waterfall display. pager_rx_929.py --------------- This example demonstrates reception of multiple FLEX channels simultaneously. It tunes three Ottawa-area FLEX transmitters at 929.1875, 929.2875 and 929.6625 MHz. As with the previous example, for correct decoding the frequency correction slider must be set so that the signals appear in the center of the channel waterfall. The gain slider should be set as high as possible without causing spurious signals to appear. va3rft.grc & va3rft.py ---------------------- This example receives an Ottawa-area DMR digital voice repeater, VA3RFT on 444.475 MHz. It is intended for use with an RTL-SDR dongle such as the NooElec TV28T. It depends on my GNU Radio DSD block, which can be downloaded at https://github.com/argilo/gr-dsd. To use it, set the frequency correction slider to the correct value to match your dongle's crystal. If necessary, set the gain slider to an appropriate value to prevent clipping. If the frequency correction slider is set correctly, you should see transmissions appearing in the center of the band in the middle of the waterfall. Even when nobody is using the repeater, it transmits some packets about once every 80 seconds. va3odg.grc & va3odg.py ---------------------- This example is very similar to the DMR receiver above, but instead it receives D-STAR. It is intended to receive the Ottawa-area D-STAR repeater VA3ODG on 444.850 MHz. Since the D-STAR receiver in DSD is not yet optimized for GMSK reception, I have worked around this problem by doing the GMSK demodulation in GNU Radio (with a Clock Recovery MM and a Binary Slicer block), then re-modulating the signal before passing it on to DSD. This improves the bit error rate. atsc-blade.py & atsc-blade-usb2.py ---------------------------------- These examples transmit an ATSC digital television signal using the BladeRF. An file containing an MPEG 2 transport stream must be supplied as input. MPEG 2 transport streams can be produced with tools such as avconv and OpenCaster. The first example, atsc-blade.py requires USB 3.0 to work properly, while the second example, atsc-blade-usb2.py reduces the output sample rate so as to run on a USB 2.0 port. Both examples transmit on 438-444 MHz, but this can be changed by adjusting the center_freq variable.
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