Simulation example: Single Sideband transceiver: Difference between revisions

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= UNDER CONSTRUCTION =
= UNDER CONSTRUCTION =
The first section of this tutorial explains how a Single Sideband (SSB) signal can be created. Rather than using any real hardware for transmission, the signal is sent via a socket to the second section of the tutorial which explains how to demodulate the received signal. The only actual hardware involved is the computer's microphone input and speaker output. In the case of a Raspberry Pi computer, which has no microphone input, an alternative is presented.
This tutorial can be performed with either GNU Radio (GR) version 3.7 or 3.8 (and later). The Graphical User Interface gnuradio-companion (GRC) is used to create a flowgraph for each section.
== Prerequisites ==
* [[Guided_Tutorial_GRC|'''Intro to GR usage: GRC and flowgraphs''']]
* [[Sample_Rate_Tutorial|'''Understanding sample rate''']]
== SSB transmitter ==
Using gnuradio-companion (GRC) and the following Block descriptions, build this flowgraph of the transmitter section:<br>


[[File:SSB_xmt_1_fg.png|800px]]
[[File:SSB_xmt_1_fg.png|800px]]

Revision as of 23:47, 22 October 2020

UNDER CONSTRUCTION

The first section of this tutorial explains how a Single Sideband (SSB) signal can be created. Rather than using any real hardware for transmission, the signal is sent via a socket to the second section of the tutorial which explains how to demodulate the received signal. The only actual hardware involved is the computer's microphone input and speaker output. In the case of a Raspberry Pi computer, which has no microphone input, an alternative is presented.

This tutorial can be performed with either GNU Radio (GR) version 3.7 or 3.8 (and later). The Graphical User Interface gnuradio-companion (GRC) is used to create a flowgraph for each section.

Prerequisites

SSB transmitter

Using gnuradio-companion (GRC) and the following Block descriptions, build this flowgraph of the transmitter section:

SSB xmt 1 fg.png


SSB rcv fg.png