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#!/usr/bin/env bash
# Title : build-doc.sh
# Description : WSJT-X Documentation build script
# Author : KI7MT
# Email : ki7mt@yahoo.com
# Date : FEB-02-2014
# Version : 0.5
# Usage : ./build-doc.sh [ option ]
# Notes : requires asciidoc, source-highlight
#==============================================================================
# exit on error
set -e
#add some color
red='\033[01;31m'
green='\033[01;32m'
yellow='\033[01;33m'
cyan='\033[01;36m'
no_col='\033[01;37m'
# misc var's
base_dir=$(pwd)
src_dir="$base_dir/source"
c_asciidoc="asciidoc -b xhtml11 -a max-width=1024px"
script_name=$(basename $0)
doc_version="1.3"
# declare build array's
declare -a no_toc_ary=('head_wording' 'build_no_toc')
declare -a top_toc_ary=('head_wording' 'build_toc1')
declare -a left_toc_ary=('head_wording' 'build_toc2')
declare -a all_docs_ary=('head_wording' 'build_no_toc' 'build_toc1' 'build_toc2' \
'build_quick_ref' 'build_dev_guide')
declare -a web_package_ary=('package_wording' 'build_toc2')
#######################
# clean-exit
#######################
function clean_exit() {
clear
echo -e ${yellow}'Signal caught, cleaning up and exiting.'${no_col}
sleep 1
[ -d "$base_dir/tmp" ] && rm -r $base_dir/tmp
echo -e ${yellow}'. Done'${no_col}
exit 0
}
# Trap Ctrl+C, Ctrl+Z and quit signals
trap clean_exit SIGINT SIGQUIT SIGTSTP
#######################
# general functions
#######################
# build with no table of contents
function build_no_toc() { # no toc
echo -e ${yellow}'Building Main With No TOC'${no_col}
$c_asciidoc -o wsjtx-main.html $src_dir/wsjtx-main.adoc
echo -e ${green}'.. wsjtx-main.html'${no_col}
}
# build with top table of contents
function build_toc1() {
echo -e ${yellow}'Building Main with Top TOC'${no_col}
$c_asciidoc -a toc -o wsjtx-main-toc1.html $src_dir/wsjtx-main.adoc
echo -e ${green}'.. wsjtx-main-toc1.html'${no_col}
}
# build with left table of contents
function build_toc2() {
echo -e ${yellow}'Building Main with Left TOC'${no_col}
$c_asciidoc -a toc2 -o wsjtx-main-toc2.html $src_dir/wsjtx-main.adoc
echo -e ${green}'.. wsjtx-main-toc2.html'${no_col}
} # end left toc
# build all table of content versions
function build_support_pages() {
echo
echo -e ${yellow}'Building Rig Pages'${no_col}
$c_asciidoc -o rig-config-main.html $src_dir/rig-config-main.adoc
echo -e ${green}'.. rig-config-main.html'${no_col}
# setup rig file array
declare -a rig_page_ary=('adat' 'alinco' 'aor' 'drake' 'elecraft' 'flexrad' 'icom' \
'kenwood' 'softrock' 'tentec' 'yaesu')
} # end all toc version
# build quick-reference guide
function build_quick_ref() {
echo -e ${yellow}'Building Quick Reference Guide'${no_col}
$c_asciidoc -a toc2 -o quick-reference.html $src_dir/quick-reference.adoc
echo -e ${green}'.. quick-reference.html'${no_col}
} # end quick-ref
# build dev-guide
function build_dev_guide() {
echo -e ${yellow}'Building Development Guide'${no_col}
$c_asciidoc -a toc2 -o dev-guide.html $src_dir/dev-guide.adoc
echo -e ${green}'.. dev-guide.html'${no_col}
} # end dev-guide
function head_wording() {
clear
echo -e ${yellow}"Building WSJT-X Documentation "${cyan}'v'$doc_version"\n" ${no_col}
}
function quick_ref_wording() {
clear
echo -e ${yellow}"Building Quick Reference Documentation\n"${no_col}
}
function dev_guide_wording() {
clear
echo -e ${yellow}"Building Quick Reference Documentation\n"${no_col}
}
function package_wording() {
clear
echo -e ${yellow}"Building Transfer Package\n"${no_col}
}
# help menu options
function help_menu() {
clear
echo -e ${green}"BUILD SCRIPT HELP MENU\n"${no_col}
echo 'USAGE: build-doc.sh [ option ]'
echo
echo 'OPTIONS: toc1 toc2 all dev-guide quick-ref help web'
echo
echo -e ${yellow}'WSJT-X User Guide Options:'${no_col}
echo ' [1] No Table of Contents'
echo ' [2] Top Table of Contents '
echo ' [3] Left Table of Contents'
echo ' [4] All Guide Versions'
echo -e ${yellow}"\nSingle Guide Builds"${no_col}
echo ' [5] Development Guide'
echo ' [6] Quick Reference Guide'
echo ' [0] Exit'
echo
}
# WSJT-X User Guide transfer for Joe
function build_index_html(){
# create re-direct index.html
cat << EOF > ./index.html
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.1//EN"
"http://www.w3.org/TR/xhtml11/DTD/xhtml11.dtd">
<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en">
<head>
<title>WSJT-X User Guide</title>
<meta name="description" content="Software for Amateur Radio
Weak-Signal Communication" />
<meta name="keywords" content="amateur radio weak signal communication K1JT
WSJT FSK441 JT65 JT6M" />
<meta http-equiv="Content-Type" content="text/html; charset=UTF-8" />
<meta content="Joe Taylor, K1JT" name="author" />
<meta http-equiv="refresh" content="0;
url=http://www.physics.princeton.edu/pulsar/K1JT/wsjtx-doc/wsjtx-main-toc2.html" />
</head>
EOF
}
function build_transfer_package() {
[ -d ./tmp ] && rm -r ./tmp
# check if wsjtx-main-toc2.html exists
build_file="wsjtx-main-toc2.html"
if [[ $(ls -1 ./*.html 2>/dev/null | wc -l) > 0 ]]
then
echo "The docs's directory has previous build files"
echo
read -p "Would you like a clean User Guide build before packaging? [ Y/N ]: " yn
case $yn in
[Yy]* )
clear
echo "Removing old html files, and rebuilding"
sleep 1
rm ./*.html
package_wording
build_index_html
mkdir -p ./tmp
cp -r $base_dir/images/ $base_dir/tmp/
for f in "${web_package_ary[@]}"; do $f; done
mv ./*.html $base_dir/tmp
echo
echo -e ${yellow}"Preparing Archive File"${no_col}
sleep 1
cd $base_dir/tmp && tar -czf ../wsjtx-doc.tar.gz .
cd .. && rm -r $base_dir/tmp/
break;;
[Nn]* )
clear
echo "Ok, will package without rebuilding."
sleep 1
break;;
* )
clear
echo "Please answer with "Y" yes or "N" No.";;
esac
else
# continue packaging
package_wording
mkdir -p ./tmp
cp -r $base_dir/images/ $base_dir/tmp/
build_index_html
for f in "${web_package_ary[@]}"; do $f; done
cp ./*.html $base_dir/tmp
echo
echo -e ${yellow}"Preparing Archive File"${no_col}
sleep 1
cd $base_dir/tmp && tar -czf ../wsjtx-doc.tar.gz .
cd .. && rm -r $base_dir/tmp/
fi
# check that a file was actually created
web_file="wsjtx-doc.tar.gz"
if [ -e "$web_file" ]
then
clear
echo
echo -e ${green}"$PWD/$web_file is ready for transfer"
echo
exit 0
else
clear
echo
echo -e ${red}'Whoopsie!!'
echo -e "$web_file was not found, check for script errors."${no_col}
echo
exit 1
fi
}
#######################
# start the main script
#######################
# COMMAND LINE OPTIONS
if [[ $1 = "" ]]
then
head_wording
for f in "${no_toc_ary[@]}"; do $f; done
# build top table of contents
elif [[ $1 = "toc1" ]]
then
head_wording
for f in "${top_toc_ary[@]}"; do $f; done
# build left table of contents
elif [[ $1 = "toc2" ]]
then
head_wording
for f in "${left_toc_ary[@]}"; do $f; done
# build all table of content versions
elif [[ $1 = "all" ]]
then
head_wording
for f in "${all_docs_ary[@]}"; do $f; done
# build quick-reference only
elif [[ $1 = "quick-ref" ]]
then
clear
build_quick_ref
# build dev-guide only
elif [[ $1 = "dev-guide" ]]
then
clear
build_dev_guide
# bundle web_package
elif [[ $1 = "web" ]]
then
package_wording
build_transfer_package
# For HELP and undefined option entries
# NOTE: The case $SELECTIOIN should mirror the if [ .. ] statements
# to allow for menu and direct call builds
else
while [ 1 ]
do
help_menu
read -p "Enter Selection [ 1-6 or 0 to Exit ]: " SELECTION
case "$SELECTION" in
"1") # no table of contents build
clear
for f in "${no_toc_ary[@]}"; do $f; done
exit 0
;;
"2") # top table of contents build
for f in "${top_toc_ary[@]}"; do $f; done
exit 0
;;
"3")
for f in "${left_toc_ary[@]}"; do $f; done
exit 0
;;
"4")
for f in "${all_docs_ary[@]}"; do $f; done
exit 0
;;
"5")
build_dev_guide
exit 0
;;
"6")
build_quick_ref
exit 0
;;
"0")
exit 0
;;
esac
done
fi
echo
echo -e ${yellow}'HTML files saved to:'${no_col}${cyan} "$base_dir" ${no_col}
echo
exit 0

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doc/source/acknowledgements.adoc
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// Status=review
Since 2005 the _WSJT_ project (including programs _WSJT_, _MAP65_,
_WSPR_, _WSJT-X_, and _WSPR-X_) has been ``open source'', with all
code licensed under the GNU Public License (GPL). Many users of these
programs, too numerous to mention here individually, have contributed
suggestions and advice that have greatly aided the development of
_WSJT_ and its sister programs.
For _WSJT-X_ in particular, we acknowledge contributions from *AC6SL,
AE4JY, DJ0OT, G4KLA, G4WJS, K3WYC, KA6MAL, KA9Q, KB1ZMX, KI7MT, KK1D,
PY2SDR, VK3ACF, VK4BDJ, W4TI, and W4TV*. Each of these amateurs has
helped to bring the programs design, code, and documentation to its
present state.
Most of the color palettes for the _WSJT-X_ waterfall were copied from
the excellent, well documented, open-source program _fldigi_, by *W1HKJ*
and friends.

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doc/source/compiling.adoc
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// Status=review
// Note to developers. The URL http://developer.berlios.de/projects/wsjt/. is
// to a very old src version of WSJT 5.7 or so. WSJTX is not listed at all.
// Also, all the Qt4 stuff is now obsolete, and needs to be updated.
This section is under development. Please send feedback to
mailto:ki7mt@yahoo.com[KI7MT].
=== Linux Makefile
CAUTION: The WSJT-X developers provide Makefile.linux for source compiling. It
should be understood, this method of installation is for development testing
only. There is no guarantee the build will be successful each revision, nor
provide a stable binary if the build is successful.
The following process has been tested against Ubuntu 12.04 and 14.04-DEV 64-bit
desktop installation. Additional Linux/BSD build guidance will be added as
and when it becomes available.
.Ubuntu 12.04 specific notes
* Reference: https://launchpad.net/~ubuntu-sdk-team/+archive/ppa[Ubuntu SDK Notice]
* Ubuntu 12.04 requires an [ PPA ] in order to download and install the required
Qt5 libraries.
==== For Ubuntu 12.04 Only
[source,bash]
-----
# Add the following PPA, and upgrade your system
sudo add-apt-repository ppa:ubuntu-sdk-team/ppa
sudo apt-get update
sudo apt-get dist-upgrade
sudo apt-get install ubuntu-sdk
-----
==== Build dependencies
[horizontal]
+gcc+:: GNU C Compiler
+g{plus}{plus}+:: GNU C{plus}{plus} Compiler
+gfortran+:: GNU FOrtran or F90
+make+:: GNU Make
+libqt5multimedia5-plugins+:: QT5 Media Plugins
+libfftw3-dev+:: Fast Fourier Transformation
+libpulse-dev+:: Headers and Files for Pulse AUdio
+libhamlib-dev+:: Headers and Files for Hamlib
+qtbase5-dev+:: QT5 Base Dev Files
+qtmultimedia5-dev+:: Qt5 Multimedsia Dev Files
+pulseaudio+:: Pulse Audio Sound Driver
+subversion+:: Version Control Software
.Install dependencies
[source,bash]
-----
sudo apt-get install gcc g++ gfortran make libqt5multimedia5-plugins \
libfftw3-dev libpulse-dev libhamlib-dev qtbase5-dev qtmultimedia5-dev \
pulseaudio subversion
-----
.kvasd 32-bit dependencies
[horizontal]
+libgfortran.so.3+:: from => libgfortran3:i386
+libc.so.6+:: from => libc6-i386
+libm.so.6+:: from => libc6-i386
+libgcc_s.so.1+:: from => lib32gcc1:i386
+libquadmath.so.0+:: from => lib32quadmath0
.Install kvasd 32-bit dependencies
[source,bash]
-----
sudo apt-get install libgfortran3:i386 libc6-i386
-----
.Set up and build
[source,bash]
-----
# In a terminal Ctrl+Alt+T
# Each line is seperate action - Copy & Paste
mkdir -p ~/Projects/wsjtx-build && cd ~/Projects/wsjtx-build
svn co svn://svn.berlios.de/wsjt/branches/wsjtx
cd ./wsjtx/lib && make -f Makfile.linux
cd ../ && export QT_SELECT=qt5 && qmake
j_c=$(grep -c ^processor /proc/cpuinfo) && make -j$j_c
# mv wsjtx_intall to the new rev-number
rev_num=$(svn log -l1 |awk 'FNR==2 {print $1}')
mv ./wsjtx_install ./wsjtx-$rev_num
-----
TIP: You should now have (3) files in ./wjstx-$rev_num (jt9, jt9code
and wsjtx). By moving the directory, your ready for the next build cycle.
.Final configuraiton
Before running _WSJT-X_, download _kvasd_, and link required run files.
[source,bash]
-----
# cd to the launch directory
cd ./wsjtx-$rev_num
wget http://www.physics.princeton.edu/pulsar/K1JT/kvasd
chmod +x ./kvasd
# IMPORTANT: You can copy or link the files / folders, but make sure
# they are in the same directory as the wsjtx binary.
# Link or cp the following files & folders
ln -s ../wsjtx/kvasd ./kvasd
ln -s ../wsjtx/kvasd.dat ./kvasd.dat
ln -s ../wsjtx/CALL3.TXT ./CALL3.TXT
ln -s ../wsjtx/cty.dat ./cty.dat
ln -s ../wsjtx/Palettes ./Palettes
ln -s ../wsjtx/samples ./samples
ln -s ../wsjtx/mouse_commands.txt ./mouse_commands.txt
ln -s ../wsjtx/shortcuts.txt ./shortcuts.txt
ln -s ../wsjtx/prefixes.txt ./prefixes.txt
-----
.Test kvasd
Before you run _WSJT-X_, ensure _kvasd_ has its required libraries.
[source,bash]
-----
cd wsjtx-$rev_num
ldd ./kvasd
# If there were no missing links, test _kvasd_
./kvasd
# If sucessful, the K1JT copyright message will be displayed.
-----
.Run the new binary
[source,bash]
-----
./wsjtx
-----
// Need example using CMakefile
//=== Linux, CMake Example
// Need further compiling Instructions

9
doc/source/configuration-band-settings.adoc
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// Status=review
The Band Settings tab allows you to define the default frequency and
enter a brief description of your antenna for each amateur band. The
antenna information will be included with reception reports to
{pskreporter}, if enabled.
[[FigBandSettings]]
image::images/band-settings.png[align="left"]

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doc/source/configuration-main-window.adoc
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// Status=review
To set the proper level of audio drive from _WSJT-X_ to your radio:
* Click the *Tune* button on the main screen._WSJT-X_ to switch the
radio into transmit mode and generate a steady audio tone.
* Listen to the generated audio tone using your radios Monitor
facility. The pure sinusoidal tone should be perfectly smooth, with no
clicks or glitches.
* Open the computers audio mixer controls for output (“Playback”)
devices and adjust the volume slider downward from its maximum until
the RF output from your transmitter falls by around ten percent. This
will be a good level for audio drive.
* Alternatively, you can make the same adjustment using the digital
slider labeled *Pwr* at the right edge of the main window.
* Toggle the *Tune* button once more to stop your test transmission.

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doc/source/configuration-station.adoc
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// Status=review
- Start _WSJT-X_ and select *Configuration* from its *Setup* menu. Enter
the following information:
* *Call Sign*: <Your Call Sign>
* *Grid*: <Your Maidenhead locator>
* *PTT method*: choose from RTS, DTR, CAT, VOX, or None.
* *PTT port*: if you will use RTS or DTR, choose a serial port.
* *PSK Reporter*: check to enable sending reception reports to the
{pskreporter} mapping facility.
* *CW ID*: Check to send your callsign in CW after sending 73.
* *CW Interval*: set the time interval for sending your CW identification.
Default is 0 (never).
_WSJT-X_ does not implement full transceiver control, but it provides a
way to ensure that _WSJT-X_ can read and set the radios dial
frequency. To enable this capability:
- Check the box *Enable CAT*
- Select your radio type from a drop-down list
- Select a *CAT port* (not the same port selected for PTT control)
TIP: If you need an additional item in the list of devices for the
CAT port, edit the configuration file +wsjtx.ini+ and add your
requirement as +CATdriver=<yourdriver>+ (for example,
+CATdriver=/dev/tty.usbserial+) in the group of entries marked
+[Common]+.
- Set the port parameters *Serial rate*, *Handshake*, *Data bits*,
*Stop bits* as required for your radio
- If you use {dxlcommander} or {hrd} to control your transceiver, you
can configure _WSJT-X_ to communicate with the radio through that
program. Entries for these programs appear at the end of the
drop-down list of supported rigs.
[[FIG_CONFIG_STATION]]
image::images/r3666-config-screen-80.png[align="center",alt="Configuration Screen"]
Leave *Split Tx* unchecked for now. If you are using CAT control, most
radios will allow you to set *PTT method* = CAT. Some radios support
two types of PTT assertion via CAT control: one takes audio input from
the Mic connector, the other from a rear-panel Data connector. The
simplest CAT configuration sets *Polling interval* = 0 (no polling the
radio for dial frequency). _WSJT-X_ can then set the radios
frequency, but the program will be unaware of subsequent changes made
using the radios panel controls.
With most radios you can set *Polling interval* to a small number (say
1 3 s) and the program will follow any frequency changes made at the
radio. Note that you may not be able simultaneously to control the
radio from _WSJT-X_ and from another program. Some experimentation
may be required; refer to the documentation for your rig-control
software and your radio. It is best to have the radio and any
interface equipment turned on and connected before starting _WSJT-X_,
and to exit the program before turning the equipment off.
- Click the *Test CAT Control* and *Test PTT* buttons to see that you
have established the desired control of station functions.
- Select the devices you will use for *Audio In* and *Audio Out*.
- Click *OK* to dismiss the *Configuration* window.

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doc/source/configuration-txmacros.adoc
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// Status=review
*Tx Macros* are an aid for sending commonly used free-text messages.
To enable a pull-down selection, add your custom messages to the entry
fields provided. In JT65 and JT9 the maximum free-text message length
is 13 characters, including spaces.
[[FigTxMacros]]
image::images/tx-macros.png[align="left"]

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doc/source/controls-functions-center.adoc
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// Status=review
At the center of the main window are a number of controls used when
making QSOs:
//.Misc Controls Center
image::images/misc-controls-center.png[align="center",alt="Misc Controls Center"]
* Check *Tx even* to transmit in even-numbered UTC minutes. Uncheck
this box to transmit in the odd minutes. This selection is made
automatically when you double-click on a decoded text line as
described in the <<X5,Basic Operating Tutorial>>.
* The Tx and Rx audio frequencies are usually set automatically by
double-clicking on decoded text or a signal in the waterfall. They
can also be adjusted with spinner controls.
* You can force Tx frequency to the current Rx frequency by clicking
the *Tx=Rx* button, and vice-versa for *Rx=Tx*. (Copy across the =
sign is from right to left.) Check the box *Lock Tx=Rx* to make the
frequencies always track one another. The on-the-air frequency of
your lowest JT9 or JT65 tone is the sum of dial frequency and audio Tx
frequency.
* The *Report* control lets you change a signal report that has been
inserted automatically. Most reports will fall in the range 26 to +10
dB. Remember that JT65 reports are clamped at an upper limit of -1
dB.
IMPORTANT: When signals are close to or above 0 dB, you and your QSO
partner should probably reduce power. JT65 and JT9 are supposed to be
weak signal modes!

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// Status=review
The following keyboard shortcuts give quick access to some
frequently used program functions.
[horizontal]
*Key*:: *Action performed*
F1::
Display online User's Guide in browser
Ctrl+F1::
About WSJT-X
F2::
Open the Setup >> Configuration window
F3::
Display keyboard shortcuts
F4::
Clear Dx Call and Dx Grid entries
Alt+F4::
Exit program
F5::
Display special mouse commands
F6::
Open next file in directory
Shift+F6::
Decode all remaining files in directory
F11::
Move Rx frequency down 1 Hz
Ctrl+F11::
Move Rx and Tx frequencies down 1 Hz
F12::
Move Rx frequency up 1 Hz
Ctrl+F12::
Move Rx and Tx frequencies up 1 Hz
Alt+1-6::
Set next transmission to this number on Tab 1
Alt+D::
Decode again at Rx frequency
Shift+D::
Full decode (both windows)
Alt+E::
Erase
Ctrl+F::
Edit the free text message box
Alt+G::
Generate standard messages
Alt+H::
Halt Tx
Ctrl+L::
Lookup callsign in database, generate standard messages
Alt M::
Monitor
Alt+N::
Enable Tx
Alt+Q::
Log QSO
Alt+S::
Stop monitoring
Alt+T::
Tune
Alt+V::
Save the most recently completed `*.wav'' file
////
//.Keyboard Shortcuts
[width="70%",cols="2,30",options="header",align="center"]
|=====
|Key|Action Performed
|F1|Display online User's Guide in browser
|Ctrl+F1|About WSJT-X
|F2|Open the Setup >> Configuration window
|F3|Display keyboard shortcuts
|F4|Clear Dx Call and Dx Grid entries
|Alt+F4|Exit program
|F5|Display special mouse commands
|F6|Open next file in directory
|Shift+F6|Decode all remaining files in directory
|F11|Move Rx frequency down 1 Hz
|Ctrl+F11|Move Rx and Tx frequencies down 1 Hz
|F12|Move Rx frequency up 1 Hz
|Ctrl+F12|Move Rx and Tx frequencies up 1 Hz
|Alt+1-6|Set next transmission to this number on Tab 1
|Alt+D|Decode again at Rx frequency
|Shift+D|Full decode (both windows)
|Alt+E|Erase
|Ctrl+F|Edit the free text message box
|Alt+G|Generate standard messages
|Alt+H|Halt Tx
|Ctrl+L|Lookup callsign in database, generate standard messages
|Alt M|Monitor
|Alt+N|Enable Tx
|Alt+Q|Log QSO
|Alt+S|Stop monitoring
|Alt+T|Tune
|Alt+V|Save the most recently completed `*.wav'' file
|=====
////

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// Status=review
Controls related to frequency selection, received audio level, the
station being called, and date and time are found at lower left of the
main window:
//.Misc Controls Left
image::images/misc-main-ui.png[align="center",alt="Mist Menu Items"]
* A drop-down list of bands at upper left lets you select the
operating band and sets dial frequency to a value taken from
the *Default Frequencies* tab on the *Setup | Configuration* screen.
If CAT control is active the radio's dial frequency will be set
accordingly; if not, you must tune the radio manually.
* If you are using CAT control, a small colored square appears in
green if the CAT control is two-way between _WSJT-X_ and your radio, or
orange if the control is only from program to radio. (You can request
a one-time interrogation of the radios dial frequency by clicking on
the orange square.) The square becomes red if you have requested CAT
control but communication with the radio has been lost. If the
locator *Dx Grid* is known, the great-circle azimuth and distance are
displayed.
* The program can maintain a database of callsigns and locators for
future reference. Click *Add* to insert the present call and locator
in the database; click *Lookup* to retrieve the locator for a
previously stored call.

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// Status=review
The following buttons appear just under the decoded text windows on
the main screen:
//.Main UI Controls
image::images/main-ui-controls.png[align="left",alt="Main UI Controls"]
* *Log QSO* raises a dialog window pre-filled with known information
about a QSO you have nearly completed. You can edit or add to this
information before clicking *OK* to log the QSO. If you check *Prompt
me to log QSO* on the *Setup* menu, the program will raise the
confirmation screen automatically when you send a 73 or free-text
message.
//.Log QSO Window
image::images/log-qso.png[align="center",alt="Log QSO"]
* *Stop* will terminate normal data acquisition in case you want to
freeze the waterfall or open and explore a previously recorded audio
file.
* *Monitor* restarts normal receive operation. This button is
highlighted in green when the _WSJT-X_ is receiving.
* *Erase* clears the right-hand decoded text window.
Double-clicking *Erase* clears both text windows.
* *Decode* tells the program to repeat the decoding procedure at the
Rx frequency ([green]*GREEN* marker on waterfall), using the most recently
completed sequence of received data.
* *Enable Tx* toggles the program into automatic T/R sequencing mode
and highlights the button in [red]*RED*. A transmission will start at
the beginning of the selected (odd or even) sequence, or immediately
if appropriate. A transmission will not be started any later than 24
s into a UTC minute.
* *Halt Tx* terminates a transmission in progress and disables
automatic T/R sequencing.
* *Tune* may be used to switch into Tx mode and generate an
unmodulated carrier at the specified Tx frequency ([red]*RED* marker
on waterfall). This process may be useful for adjusting an antenna
tuner. The button is highlighted in [red]*RED* while *Tune* is
active. Toggle the button a second time to terminate the *Tune*
process.

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// Status=review
Program menus offer many options for configuration and operation.
Most of the items are self-explanatory; a few additional details
are provided below.
[[FILE_MENU]]
==== File menu
image::images/file-menu.png[align="left",alt="File Menu"]
[[SETUP_MENU]]
==== Setup Menu
image::images/setup-menu.png[align="left",alt="Setup Menu"]
.Show DXCC entity and worked B4 status
When this option is checked _WSJT-X_ appends some useful information
to all CQ messages displayed in the *Band Activity* window. The name of
the DXCC entity is shown, abbreviated if necessary. Your ``worked
before'' status (according to log file +wsjtx_log.adi+) is flagged
with a single character and a change of background color, as follows:
[horizontal]
!:: (bright green) -- New DXCC entity
~:: (mid green) -- You have already worked this DXCC entity but not
this station
:: (dull green) -- You have previously worked the calling station
The program does not distinguish between modes, but it does
differentiate between bands.
This option is mainly intended for use
on non-Windows platforms; Windows users can (and should) use VK3AMA's
excellent {jtalert} utility instead.
.Requirements:
_WSJT-X_ expects the file +cty.dat+ to be in your installation
directory. It contains DXCC prefix information, and updated copies
can be downloaded from {cty_dat} when required.
The log file +wsjtx_log.adi+ is updated whenever you log a QSO from
_WSJT-X_ (but note that it can also be erased from the file menu). You
can append or overwrite this file by exporting your QSO history as an
ADIF file from another logging program. Turning *Show DXCC entity and
worked B4 status* off and on again will cause _WSJT-X_ to re-read the
log file. Very large log files may cause _WSJT-X_ to slow down when
searching for calls.
[[VIEW_MENY]]
==== View Menu
image::images/view-menu.png[align="left",alt="View Menu"]
[[MODE_MENU]]
==== Mode Menu
image::images/mode-menu.png[align="left",alt="Mode Menu"]
[[DECODE_MENU]]
==== Decode Menu
image::images/decode-menu.png[align="left",alt="Decode Menu"]
[[SAVE_MENU]]
==== Save Menu
image::images/save-menu.png[align="left",alt="Save Menu"]
[[HELP_MENU]]
==== Help Menu
image::images/help-menu.png[align="left",alt="Help Menu"]

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// Status=review
Two arrangements of controls are provided for generating and selecting
Tx messages. Traditional controls carried over from program _WSJT_
appear on *Tab 1*, providing six fields for message entry.
Pre-formatted messages for the standard minimal QSO are generated when
you click *Generate Std Msgs* or double-click on an appropriate line
in one of the decoded text windows.
//.Traditional Message Menu
image::images/traditional-msg-box.png[align="center",alt="Traditional Message Menu"]
* Select the next message to be transmitted (at the start of your next
Tx sequence) by clicking on the circle under *Next*.
* To change to a specified Tx message immediately, click on a
rectangular button under the *Now* label. Changing a Tx message in
mid-stream will slightly reduce the chance of a correct decode, but it
is usually OK if done in the first 10 s of a transmission.
* Right-clicking on the entry field for message #5 pops up a list of
free-text messages entered on the *Setup | Configuration | Tx Macros*
screen. Select any of your pre-stored messages by using the left
mouse button.
The second arrangement of controls for generating and selecting
Tx messages appears on *Tab 2* of the Message Control Panel:
//.New Message Menu
image::images/new-msg-box.png[align="center",alt="New Message Menu"]
With this setup you normally follow a top-to-bottom sequence of
transmissions from the left column if you are calling CQ, or the right
column if answering a CQ. Clicking a button puts the appropriate
message in the *Gen Msg* box. If you are already transmitting, it
changes the Tx message immediately. You can enter anything (up to 13
characters) in the *Free Msg* box. Right-clicking on this entry field
pops up your previously defined list of *Tx Macros*.
IMPORTANT: During a transmission the actual message being sent always
appears highlighted in yellow in the first box of the status bar
(bottom left of the main screen).

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// Status=review
The following special mouse commands are available:
//.Special Mouse Commands
[width="80%",cols="13,50",options="header",align="center"]
|=====
|Click on|Action Performed
|Waterfall|*Click*: set Rx frequency +
*Double-click*: set Rx frequency and decode there +
*Ctrl-click*: set Rx and Tx frequencies +
*Ctrl-double-click*: set Rx and Tx frequencies and decode there
|Decoded text|*Double-click*: copy second callsign to Dx Call,
locator to Dx Grid; change Rx and Tx frequencies to decoded
signal's frequency; generate standard messages. If first
callsign is your own, change Tx frequency only it Ctrl is
held down when double-clicking.
|*Erase* Button|*Click*: erase QSO window +
*Double-click*: erase QSO and Band Activity windows
|*Tx5* or +
*Free Msg* box|*Right-click*: display the Tx macros +
*Left-click*: select one of the Tx macros
|=====

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// Status=review
A Status Bar at the bottom edge of the main window provides
information about operating conditions.
//.Status Bar
image::images/status-bar-a.png[align="left",alt="New Message Menu"]
Labels on the Status Bar display the program's current operating state,
operating mode, and content of your most recent transmitted message. The
operating state can be Receiving, Transmitting, Tune, or the name of
file opened from the *File* menu.

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// Status=review
The following controls appear at the bottom of the Wide Graph window.
With the exception of *JT65 nnnn JT9*, they affect only the graphical
displays — they have no effect on the decoding process.
image::images/wide-graph-controls.png[align="center",alt="Wide Graph Controls"]
- *Bins/Pixel* controls the displayed frequency resolution. Set this
value to 1 for the highest possible resolution, or to higher numbers
to compress the spectral display. Normal operation with a convenient
window size works well at 2 to 8 bins per pixel.
- *JT65 nnnn JT9* sets the dividing point for wide-band decoding of
JT65 and JT9 signals in *JT9+JT65* mode. The decoder looks for JT65
signals below the specified frequency and JT9 signals above it.
- *Start nnn Hz* sets the low-frequency starting point of the
waterfall frequency scale.
- *N Avg* is the number of successive FFTs to be averaged before
updating the spectral display. Values around 5 are suitable for
normal JT9 and JT65 operation. Adjust *N Avg* to make the waterfall
move faster or slower, as desired.
- *Zero* and *Gain* control the scaling and reference level for
waterfall colors. Values around 0 for both parameters are usually
about right, depending on the input signal level and your own
preferences.
- *Palette* lets you select from a wide range of waterfall color
palettes.
- Check *Flatten* if you want _WSJT-X_ to compensate for a sloping or
uneven response across the received passband.
- Select *Current* or *Cumulative* for the spectrum displayed in the
bottom one-third of the Wide Graph window. *Current* is the average
spectrum over the most recent *N Avg* FFT calculations. *Cumulative*
is the average spectrum since the start of the present UTC minute.

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// Status=review
- To gain some feeling for the controls you will use when making QSOs, try
clicking with the mouse on the decoded text lines and on the waterfall spectral
display. You should be able to confirm the following behavior:
- Double-click on either of the decoded lines highlighted in green. This action
should produce the following:
** Copies call-sign and locater of a station calling CQ to the “DX Call”
and “DX grid” entry fields.
** Generates suitable messages for a minimal QSO and checks or clears the Tx
even box so that you will transmit in the proper (odd or even) minutes.
** Rx and Tx frequency markers will be moved to the CQ-ing stations frequency,
and the Gen Msg (“generated message”) radio button at bottom right of the main
window will be selected.
** If you had checked “Double-click on call sets Tx Enable” on the Setup menu,
Enable Tx would also be activated, and you would start to transmit automatically,
at the appropriate time.
- Double-click on the decoded line with the message “K1JT N5KDV EM41”,
highlighted in [red]*RED*.
- Results will be similar to (a), except the Tx frequency ([red]*RED* marker) is
not moved. Such messages are usually in response to your own CQ, or from a
tail-ender, and you probably want your Tx frequency to stay where it was.
- By holding down the Ctrl key when double-clicking on the decoded line
(or checking Lock Tx=Rx) you can cause both Tx and Rx frequencies to be moved.
- Double-click on the message from KF4RWA in either window. He is
sending “73” to K1JT, signifying that the QSO is over. Most likely you
want to send 73 to him, so the message “KF4RWA K1JT 73” is automatically
generated and selected for your next transmission. (Alternatively, you might
choose to send a free text message or to call CQ again.)
- Clicking on the waterfall moves the Rx frequency ([green]*GREEN* marker) to the
selected frequency.
- Ctrl-click on waterfall moves both Rx and Tx frequencies.
- Double-click on the waterfall moves the Rx frequency and causes a
narrow-band decode there at the new QSO frequency. Decoded text appears in the
right window only. Ctrl-double-click moves both Rx and Tx frequencies and
decodes at the new frequency.
- Clicking Erase clears the right window. Double-click on Erase to clear both
text windows.

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// Status=review
- Notice the [green]*GREEN* and [red]*RED* markers on the waterfall
frequency scale. Decoding takes place at the end of a receive
sequence and is organized in two stages. The first decodes take place
at the selected Rx frequency, indicated by the green marker. Results
appear in both the left (“Band Activity”) and right (“Rx Frequency”)
text windows on the main screen. The decoder then finds and decodes
all signals in the selected mode(s) and the displayed frequency range.
The red marker indicates your Tx frequency.
.Signal Presence
TIP: At least eight JT9 signals are present in the example file; all
but one of them are decodable. When this file was recorded KF4RWA was
finishing a QSO with K1JT. Since the green marker was placed at his
audio frequency, 1224 Hz, his message “K1JT KF4RWA 73” appears in both
decoded text windows. The “Band Activity” window shows this message
as well as all the other decodes at nearby frequencies. The CQ lines
are highlighted in [green]*GREEN*, and lines containing “My Call”, in
this case K1JT, are highlighted in [red]*RED*.
- For this step and the next, you may want to pretend you are K1JT by
entering that call temporarily as “My Call” on the <<X11,Configuration
Screen>>. Your results should then be identical to those shown in the
<<X12,figure above>>.

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// Status=review
- Double-click on the waterfall near 815 Hz: a signal originating
from W7VP will be decoded and appear in the Rx Frequency Box:
.W7VP Decode
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|=================================
|UTC|db|dt|Freq|Mode|Message
|2343|-7|0.3|815|#|KK4DSD W7VP -16
|=================================
- Double-click on the waterfall at 3196 Hz and the program will decode a JT9
message from IZ0MIT:
.IZ0MIT Decode
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|=====================================
|UTC|db|dt|Freq|Mode|Message
|2343|-7|0.3|3196|@|WB8QPG IZ0MIT -11
|=====================================
TIP: Notice that when a signal is decoded in this way the Tx mode
automatically switches to that of the decoded signal. The Rx and Tx
frequency markers on the waterfall scale resize themselves
accordingly.
- Scroll back in the Band Activity window (if necessary) and
double-click on the message CQ DL7ACA JO40. The program will set Tx
mode to JT65 and Tx and Rx frequencies to that of DL7ACA, 975 Hz. If
you had checked *Double-click on call sets Tx Enable* on the Setup menu,
the program would set up to start a QSO with DL7ACA.
- Double-click on the decoded JT65 message CQ TA4A KM37. The program
will set Tx mode to JT9 and the Rx and Tx frequencies to 3567 Hz.
Youre now configured properly for a JT9 QSO with TA4A.

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// Status=review
- Select JT9+JT65 on the Mode menu
- Toggle the Tx mode button to read Tx JT65, and set the Tx and Rx frequencies
to 1718 Hz.
- Double-click on Erase to clear both text windows

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// Status=review
.Navigate and Open Wave File:
*****
Select File | Open and navigate to ...\save\samples\130418_1742.wav.
*****
- You can immediately see that these data were recorded with a much
narrower Rx bandwidth, roughly 200 to 2600 Hz. If you have no Rx
filter wider than about 2.7 kHz, you will be using data similar to
this sample. For best viewing of such data adjust Bins/Pixel and the
width of the Wide Graph so that only the active part of the spectrum
shows, say 0 to 2600 Hz. (Re-open the example file after any change
of Bins/Pixel or Wide Graph width, to refresh the waterfall.) The
signals in this file are all JT9 signals. To decode them in JT9+JT65
mode youll need to move the JT65 nnnn JT9 delimiter down to 1000 Hz
or less.

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// Status=review
.Navigate and Open Wave File:
*****
Select File | Open and navigate to ...\save\samples\130610_2343.wav.
*****
* The waterfall and main window should look like the figure below.
This sample file contains 17 decodable signals — nine in JT65 mode
(flagged with the character # in the decoded text windows), and eight
in JT9 mode (flagged with @). Since the Tx mode was set to Tx JT65,
signals in that mode were decoded first. If you had selected Tx JT9,
JT9 signals would have been decoded first.
.130610_2343.wav Decode
[[X544]]
image::images/130610_2343-wav-80.png[align="left",alt="Wide Graph Decode 130610_2343"]
TIP: Notice the [blue]*BLUE* marker on the waterfall scale, by
default set at 2500 Hz. Its position is set by the spinner control
JT65 nnnn JT9, where nnnn is a frequency in Hz. In JT9+JT65 mode the
program will decode JT65 signals below this frequency and JT9 signals
above it.
- Confirm that mouse-click behavior is similar to that described in
the single-mode instructions at <<X13,Decoding Controls>>. The program
automatically determines the mode of each JT9 or JT65 signal.

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// Status=review
- Bins/Pixel = 7
- Zero = -3
[NOTE]
If necessary, adjust the width of the Wide Graph Window so that the upper
frequency limit is 4000 Hz.

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// Status=review
[qanda]
WSJT-X v1.3 seems to run properly in receive mode, with signals appearing on the waterfall, but *Decode* starts later than expected and nothing is decoded.::
Some earlier soundcard drivers fail to work properly at 48 kHz sample
rate, the default in WSJT-X r3590 and above. You can force _WSJT-X_
to sample at 12000 Hz by inserting two lines at the end of file
+wsjtx.ini+. Use Windows Notepad to open +wsjtx.ini+, in your
_WSJT-X_ installation directory. Then copy-and-paste the following
two lines into the file, save the file, and restart _WSJT-X_.
[Tune]
Audio\DisableInputResampling=true
The *Flatten* feature causes my displayed spectrum to curve steeply upward near its edges, before falling where the radio's IF filter cuts off.::
_WSJT-X_ does not expect a steep filter edge within the displayed
passband, except perhaps a low-frequency cutoff below 200 Hz. Use a
wider IF filter or reduce the displayed passband by decreasing
*Bins/Pixel*, increasing *Start*, and/or reducing the width of the
*Wide Graph*. You might also need to re-center the filter's passband,
if such control is available.
When I set *Polling interval* to a nonzero value, _WSJT-X_ sometimes terminates abnormally.::
A few radios do not interact properly with the +hamlib+ calls used in
_WSJT-X_. We are working to resolve these issues. In the meantime,
you can run with *Polling interval* = 0, or control your radio through
_DX Labs Commander_ or _Ham Radio Deluxe_.

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// Status=review
- You can control the program's font sizes by using a text editor
(e.g., Windows Notepad or similar) to create a one-line file named
+fonts.txt+ in the _WSJT-X_ installation directory. Enter a single
line of text with four numbers separated by spaces. The first two
numbers control the font size (in points) and weight (on a 0 100
scale) of most labels on the user interface. The last two numbers
control size and weight of text in the *Band Activity* and *Rx
Frequency* windows.
- By default the four numbers are ``8 50 10 50''. If you need larger
fonts in the user interface and bold text in the decode windows, try
something like ``10 50 12 100'' (without the quotes).

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// Status=review
// Note to developers. The URL http://developer.berlios.de/projects/wsjt/. is
// to a very old src version of WSJT 5.7 or so. WSJTX is not listed at all.
// Also, all the Qt4 stuff is now obsolete, and needs to be updated.
Source code is available from the public repository at {devsvn}. To
compile the program you will need to install the following packages:
- Subversion
- Qt 5.x
- g++
- gfortran or g95
- fftw3
- hamlib
- MinGW (for Windows only)
With Subversion installed, the full source code for _WSJT-X_ can be
downloaded with the command:
svn co svn://svn.berlios.de/wsjt/branches/wsjtx
// Need further compiling Instructions
For some basic instructions on building _WSJT-X_ from source code, see the
section <<COMPILING,Compiling WSJT-X>> near the end of this Guide.

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// Status=review
Two different packages are available: one for OS X 10.6 through 10.8,
and one for OS X 10.9. The two packages are _not_ interchangeable.
- Select the correct package for your OS X and download it to your desktop.
** {osx_108}
** {osx_109}
- Double-click on the file to see a new folder, +WSJT-X+. Drop down
into that folder, where a +Readme+ file provides detailed instructions
on how to configure your system for _WSJT-X_.
- Additional information from package developer G4KLA
can be found {osx_instructions}.
// Any necessary instructions about time synchronization or sound setup ??

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// Status=review
- Installation packages for Ubuntu 12.04, 12.10, 13.04, 13.10 are
maintained by AC6SL and available at {launchpadurl}.
- If you have not before obtained packages from the Personal Package
Archive (PPA) at the above link, open a terminal window and execute
the following command:
sudo add-apt-repository ppa:jnogatch/wsjtx
- Accept the PPA Key, then issue these commands:
sudo apt-get update
sudo apt-get install wsjtx
- Download the soft-decision Reed Solomon decoder, {kvasd}, and put it
in the same directory as the executable binaries +wsjtx+ and
+jt9+. Normally (after you have run the script +/usr/bin/wsjtx+ at
least once) this directory will be +$HOME/.wsjtx+.
// Add instructions about ntpd and sound setup.

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// Status=review
- Execute the downloaded file and follow its installation
instructions.
- Install _WSJT-X_ into its own directory rather than the conventional
location +C:\Program Files\WSJTX+. The suggested default directory is
+C:\WSJTX+.
- All files relating to _WSJT-X_ will be stored in the chosen
installation directory and its subdirectories. You can uninstall
_WSJT-X_ by removing the installation directory and its contents.
- The built-in Windows facility for time synchronization is usually
not adequate. We recommend Meinberg NTP: see {ntpsetup} for
downloading and installation instructions.
- _WSJT-X_ expects your sound card to do its raw sampling at 48000 Hz.
To ensure that this will be so when running under recent versions of
Windows, open the system's *Sound* control panel and select in turn the
*Recording* and *Playback* tabs. Click on *Properties*, then
*Advanced*, and select ``16 bit, 48000 Hz (DVD Quality).''
CAUTION: If you are using a sound card that is also the Windows
default audio device, be sure to turn off all Windows sounds so they
are not transmitted over the air.

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// Status=review
After a clean install of _WSJT-X_ the following files should be
present in the installation directory:
[horizontal]
+CALL3.TXT+:: Callsign database
+HRDInterface001.dll+:: Ham Radio Deluxe interface library
+Palettes+:: directory for waterfall palettes
+Qt5Core.dll+:: Qt5 library
+Qt5Gui.dll+:: Qt5 library
+Qt5Multimedia.dll+:: Qt5 library
+Qt5Network.dll+:: Qt5 library
+Qt5Widgets.dll+:: Qt5 library
+cty.dat+:: DXCC countries list
+hamlib-alinco.dll+:: Hamlib, Alinco library
+hamlib-amsat.dll+:: Hamlib, Amsat library
+hamlib-dummy.dll+:: Hamlib library
+hamlib-flexradio.dll+:: Hamlib Flex radio library
+hamlib-icom.dll+:: Hamlib Icom library
+hamlib-jrc.dll+:: Hamlib JRC library
+hamlib-kachina.dll+:: Hamlib Kachina library
+hamlib-kenwood.dll+:: Hamlib Kenwood library
+hamlib-kit.dll+:: Hamlib Kit library
+hamlib-tapr.dll+:: Hamlib TAPR library
+hamlib-tentec.dll+:: Hamlib TenTec library
+hamlib-winradio.dll+:: Hamlib WinRadio library
+hamlib-yaesu.dll+:: Hamlib Yaesu library
+icudt51.dll+:: ICU library
+icuin51.dll+:: ICU library
+icuuc51.dll+:: ICU library
+jt9.exe+:: Executable for JT9 and JT65 decoder
+kvasd.exe+:: Executable for Koetter-Vardy decoder
+libgcc_s_dw2-1.dll+:: gcc runtime library
+libhamlib-2.dll+:: Hamlib base library
+libstdc++-6.dll+:: Standard C function library
+libwinpthread-1.dll+:: Windows pthreads library
+mouse_commands.txt+:: Special mouse commands
+platforms+:: Directory for platform-specific libraries
+prefixes.txt+:: Add-on prefixes and suffixes (*Type 1*)
+qt.conf+:: Qt configuration file
+save+:: Directory for saved *.wav files
+shortcuts.txt+:: Keyboard shortcuts
+unins000.dat+:: Uninstall data file
+unins000.exe+:: Executable for uninstalling _WSJT-X_
+wsjt.ico+:: _WSJT_ icon
+wsjtx.exe+:: Executable for _WSJT-X_

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// Status=review
_WSJT-X_ is a computer program designed to facilitate basic amateur
radio communication using very weak signals. The first four letters
in the program name stand for ``Weak Signal communication by K1JT'',
and the “-X” suffix indicates that _WSJT-X_ started as an extended
(and experimental) branch of program _WSJT_.
_WSJT-X_ currently offers two protocols or “modes,” JT65 and JT9.
Both are designed for making reliable, confirmed QSOs under extreme
weak-signal conditions. They use nearly identical message structure
and source encoding. JT65 was designed for EME (“moon-bounce”) on the
VHF/UHF bands and has proved very effective for worldwide QRP
communication on the HF bands, too. JT9 is optimized for the LF, MF, and HF bands.
It is about 2 dB more sensitive than JT65 while using less than 10% of
the bandwidth. Both modes use one-minute timed sequences of
alternating transmission and reception, so a minimal QSO takes four to
six minutes — two or three transmissions by each station, one sending
in odd UTC minutes and the other even. On the HF bands, world-wide
QSOs are possible with power levels of a few watts and compromise
antennas.
_WSJT-X_ can display a bandpass as large as 5 kHz and transparently
provides dual-mode reception of both JT65 and JT9 signals. If your
receiver can be configured with at least 4 kHz bandwidth in USB mode,
you can set the dial frequency to one of the standard JT65 frequencies
— for example, 14.076 MHz for the 20-meter band — and display the full
JT65 and JT9 sub-bands simultaneously on the waterfall. You can then
make QSOs in both modes using nothing more than mouse clicks.
Plans for future program development call for _WSJT-X_ and _WSJT_ to
merge together. _WSJT-X_ will gradually acquire the additional modes
JT4, FSK441, and ISCAT that are now supported in _WSJT_. The entire
WSJT-related effort is an open-source project, released under the GNU
General Public License (GPL). If you have programming or
documentation skills or would like to contribute to the project in
other ways, please make your interests known to the development team.
The projects source-code repository can be found at {devsvn}, and
most communication among the developers takes place on the email
reflector {devmail}.

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// Status=review
The JT65 protocol was described in a {jt65protocol} in 2005; details
of the JT9 protocol are presented in the next section of this Guide.
To users already familiar with JT65, the most striking difference
between the two modes is the much smaller occupied bandwidth of JT9:
15.6 Hz, compared with 177.6 Hz for JT65A. Transmissions in the two
modes are essentially the same length, and both modes use exactly 72
bits to carry message information. At the user level the two modes
support nearly identical message structures.
JT65 signal reports are constrained to the range 1 to 30 dB. This
range is more than adequate for EME purposes, but not really enough
for optimum use at HF and below. S/N values displayed by the JT65
decoder are clamped at an upper limit 1 dB. Moreover, the S/N scale
in present JT65 decoders is nonlinear above 10 dB.
By comparison, JT9 allows for signal reports in the range 50 to +49
dB. It manages this by taking over a small portion of ``message
space'' that would otherwise be used for grid locators within 1 degree
of the south pole. The S/N scale of the present JT9 decoder is
reasonably linear (although its not intended to be a precision
measurement tool).
With clean signals and a clean nose background, JT65 achieves nearly
100% decoding down to S/N = 22 dB and about 50% at 24 dB. JT9 is
about 2 dB better, achieving 50% decoding at about 26 dB. Both modes
produce extremely low false-decode rates.
Early experience suggests that under most HF propagation conditions
the two modes have comparable reliability. The tone spacing of JT9 is
about two-thirds that of JT65, so in some disturbed ionospheric
conditions in the higher portion of the HF spectrum, JT65 may do
better.
JT9 is an order of magnitude better in spectral efficiency. On a busy
HF band, we often find the 2-kHz-wide JT65 sub-band filled
wall-to-wall with signals. Ten times as many JT9 signals can fit into
the same frequency range, without overlap.
JT65 signals often decode correctly even when they overlap. Such
behavior is much less likely with JT9 signals, which fill their occupied
bandwisth more densely. JT65 may also be more forgiving of small
frequency drifts.

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// Status=review
JT65 was designed for making minimal QSOs via EME (``moon-bounce'') on
the VHF and UHF bands. A detailed description of the protocol and its
implementation in program _WSJT_ was published in {jt65protocol} for
September-October, 2005. Briefly stated, JT65 uses 60 s T/R sequences
and carefully structured messages. Standard messages are compressed
so that two callsigns and a grid locator can be transmitted with just
71 bits. A 72nd bit serves as a flag to indicate that the message
consists of arbitrary text (up to 13 characters) instead of callsigns
and a grid locator. Special formats allow other information such as
add-on callsign prefixes (e.g., ZA/K1ABC) or numerical signal reports
(in dB) to be substituted for the grid locator. The aim of source
encoding is to compress the common messages used for minimal QSOs into
a minimum fixed number of bits. After compression, a Reed Solomon
(63,12) error-control code converts 72-bit user messages into
sequences of 63 six-bit channel symbols.
JT65 requires tight synchronization of time and frequency between
transmitter and receiver. Each transmission is divided into 126
contiguous time intervals or symbols, each of length 4096/11025 =
0.372 s. Within each interval the waveform is a constant-amplitude
sinusoid at one of 65 pre-defined frequencies. Frequency steps
between intervals are accomplished in a phase-continuous manner. Half
of the channel symbols are devoted to a pseudo-random synchronizing
vector interleaved with the encoded information symbols. The sync
vector allows calibration of time and frequency offsets between
transmitter and receiver. A transmission nominally begins at t = 1 s
after the start of a UTC minute and finishes at t = 47.8 s. The
synchronizing tone is at 11025 × 472/4096 = 1270.5 Hz, and is normally
sent in each interval having a “1” in the following pseudo-random
sequence:
100110001111110101000101100100011100111101101111000110101011001
101010100100000011000000011010010110101010011001001000011111111
Encoded user information is transmitted during the 63 intervals not
used for the sync tone. Each channel symbol generates a tone at
frequency 1275.8 + 2.6917 × N × m Hz, where N is the value of the
six-bit symbol, 0 ≤ N ≤ 63, and m is 1, 2, or 4 for JT65 sub-modes A,
B, or C.
For EME (but conventionally not on the HF bands) the signal report OOO
is sometimes used instead of numerical signal reports. It is conveyed
by reversing sync and data positions in the transmitted sequence.
Shorthand messages for RO, RRR, and 73 dispense with the sync vector
entirely and use time intervals of 1.486 s (16,384 samples) for pairs
of alternating tones. The lower frequency is always 1270.5 Hz, the
same as that of the sync tone, and the frequency separation is 26.92 ×
n × m Hz with n = 2, 3, 4 for the messages RO, RRR, and 73.

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// Status=review
//Needs work!
JT9 is designed for making minimal QSOs at LF, MF, and HF. It uses
72-bit structured messages nearly identical (at the user level) to
those in JT65. Error control coding (ECC) uses a strong convolutional
code with constraint length K=32, rate r=1/2, and a zero tail, leading
to an encoded message length of (72+31) × 2 = 206 information-carrying
bits. Modulation is nine-tone frequency-shift keying, 9-FSK.
Eight tones are used for data, one for synchronization. Eight data
tones means that three data bits are conveyed by each transmitted
information symbol. Sixteen symbol intervals are devoted to
synchronization, so a transmission requires a total of 206 / 3
+ 16 = 85 (rounded up) channel symbols. The sync symbols are those
numbered 1, 2, 5, 10, 16, 23, 33, 35, 51, 52, 55, 60, 66, 73, 83, and
85 in the transmitted sequence.
Each symbol lasts for 6912 sample intervals at 12000 samples per
second, or about 0.576 s. Tone spacing of the 9-FSK modulation is
12000/6912 = 1.736 Hz, the inverse of the symbol duration. The total
occupied bandwidth is 9 × 1.736 = 15.6 Hz. A generated JT9 signal has
continuous phase and constant amplitude, and there are no key clicks.
The transmitter's power amplifier need not be highly linear.

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// Status=review
=== Standard Exchange
By longstanding tradition, a minimal valid QSO requires the exchange
of callsigns, a signal report or some other information, and
acknowledgments. _WSJT-X_ is designed to facilitate making such
minimal QSOs using short, structured messages. The process works best
if you use these formats and follow standard operating practices. The
recommended basic QSO goes something like this:
[width="90%",cols="3,7,12",options="header"]
|=======================================
|UTC|Transmitted Message|Comment
|0001|CQ K1ABC FN42|K1ABC calls CQ
|0002|K1ABC G0XYZ IO91|G0XYZ answers
|0003|G0XYZ K1ABC 19|K1ABC sends report
|0004|K1ABC G0XYZ R22|G0XYZ sends acknowledgment and report
|0005|G0XYZ K1ABC RRR|K1ABC sends acknowledgment
|0006|K1ABC G0XYZ 73|G0XYZ sends 73
|=======================================
*Standard messages* consist of two callsigns (or CQ, QRZ, or DE and
one callsign) followed by the transmitting stations grid locator, a
signal report, R plus a signal report, or the final acknowledgements
RRR or 73. These messages are compressed and encoded in a highly
efficient and reliable way, and in uncompressed form may contain
as many as 18 characters.
*Signal reports* are specified as signal-to-noise ratio (S/N) in dB,
using a standard reference noise bandwidth of 2500 Hz. Thus, in
example message #0003 above, K1ABC is telling G0XYZ that his signal is
19 dB below the noise power in bandwidth 2500 Hz. In message #0004,
G0XYZ acknowledges receipt of that report and responds with a 22 dB
signal report. JT65 reports are constrained to lie in the range 30
to 1 dB, while JT9 supports the extended range 50 to +49 dB.
TIP: Signals become visible on the waterfall around S/N = 26 dB and
audible (to someone with very good hearing) around 15 dB. Thresholds
for signal decodability are approximately 24 dB for JT65, 26 dB for
JT9.
*Free Text Messages*: Users often add some friendly chit-chat at the
end of a QSO. Free-format messages such as ``TNX ROBERT 73'' or
``5W VERT 73 GL'' are supported, up to a maximum of 13 characters
(including spaces). It should be obvious that the JT9 and JT65
protocols are not well suited for extensive conversations or rag-chewing.
=== Compound Callsigns
Compound callsigns such as xx/K1ABC or K1ABC/x are handled in
one of two possible ways.
.Type 1 Compound-Callsign Messages
A list of about 350 of the most common prefixes and suffixes can be
displayed from the *Help* menu. A single compound callsign involving
one item from this list can be used in place of the standard third
message word (normally a locator, signal report, RRR, or 73). Thus,
the following examples are all acceptable *Type 1* messages with
compound callsigns:
CQ ZA/K1ABC
CQ K1ABC/4
ZA/K1ABC G0XYZ
G0XYZ K1ABC/4
The following messages are _not_ valid, because a third word is not
permitted in a *Type 1* message:
ZA/K1ABC G0XYZ -22 #These messages will be sent
G0XYZ K1ABC/4 73 #without the third "word"
A QSO between two stations using *Type 1* compound-callsign messages
might look like this:
CQ ZA/K1ABC
ZA/K1ABC G0XYZ
G0XYZ K1ABC 19
K1ABC G0XYZ R22
G0XYZ K1ABC RRR
K1ABC G0XYZ 73
Notice that both operators send and receive the full compound
callsign in the first two transmissions. After that, they omit the
add-on prefix or suffix and use the standard structured messages.
.Type 2 Compound-Callsign Messages
Prefixes and suffixes _not_ found in the short displayable list can be
handled with a *Type 2* message. The compound callsign must be the
second word in a two- or three-word message, and the first word must
be CQ, DE, or QRZ. Prefixes can be 1 to 4 characters, suffixes 1 to 3
characters. A third word conveying a locator, report, RRR, or 73 is
permitted. The following are valid *Type 2* messages with compound
callsigns:
CQ W4/G0XYZ FM07
DE W4/G0XYZ -22
QRZ K1ABC/VE6 DO33
In each case, the message is treated as *Type 2* because the add-on
prefix or suffix is _not_ one of those in the fixed list. Note
that a second callsign is never permissible in these messages.
TIP: Remember that during a transmission your transmitted message is
always displayed in the first label on the *Status Bar*, highlighted
in yellow. It is displayed there exactly as another station would
receive it.
QSOs involving *Type 2* compound callsigns might look like either
of the following sequences
CQ KP4/K1ABC FK68
K1ABC G0XYZ IO91
G0XYZ K1ABC 19
K1ABC G0XYZ R22
G0XYZ K1ABC RRR
K1ABC G0XYZ 73
CQ K1ABC FN42
DE G0XYZ/W4 FM18
G0XYZ K1ABC 19
K1ABC G0XYZ R22
G0XYZ K1ABC RRR
DE G0XYZ/W4 73
Each operator sends his own compound callsign in the first (and
possibly also last) transmission, as may be required by licensing
authorities. Subsequent transmissions may use the standard structured
messages without callsign prefix or suffix.
IMPORTANT: It's up to you, the operator, to ensure that messages with
compound callsigns are composed in the manner described above.
Double-clicking on a line of decoded text may not always produce the
desired result.
=== Pre-QSO Checklist
Before attempting your first QSO with JT9 or JT65, be sure to go
through the <<X15,Basic Tutorial>> above, as well as the following
checklist:
- Your callsign and grid locator set to correct values
- PTT and CAT control (if used) properly configured and tested
- Computer clock properly synchronized to UTC within ±1 s
- Radio set to *USB* (upper sideband) mode
- Radio's Split mode selected or not, consistent with your choice
on *Station* tab of the *Setup | Configuration* window.
IMPORTANT: Remember that JT9 and J65 generally do not require high
power. Under most propagation conditions, QRP is the norm.

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// Status=DRAFT
// this is intentionally left as a single file v.s. multiple sections to allow
// users to browse the Page Source
= AsciiDoc Quick Reference
:Author: WSJT-X Documetation Team
:Date: January 22, 2014, (C) copyright, CC-BY-SA 3.0 Unported
:Revision: 0.0.1
:badges:
:icons:
:numbered:
// WEB links - List is getting pretty long, time to use include::file-name ??
:asciidoc_help: http://www.methods.co.nz/asciidoc/userguide.html[ AsciiDoc User Guide ]
:asciidoc_cheatsheet: http://powerman.name/doc/asciidoc[ AsciiDoc Cheatsheet ]
:asciidoc_questions: http://www.methods.co.nz/asciidoc/faq.html[ AsciiDoc FAQ ]
:debian: http://www.debian.org/[ Debian ]
:cc_by_sa: http://creativecommons.org/licenses/by-sa/3.0/[ Commons Attribution-ShareAlike 3.0 Unported License ]
:devsvn: http://developer.berlios.de/projects/wsjt/[ Devel-SVN ]
:devsvn: http://developer.berlios.de/projects/wsjt/[wsjt-svn]
:download: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ Download Page ]
:dxlcommander: http://www.dxlabsuite.com/commander/[ Commander ]
:homepage: http://physics.princeton.edu/pulsar/K1JT/[ WSJT Home Page ]
:hrd: http://www.hrdsoftwarellc.com/[ Ham Radio Deluxe ]
:jtalert: http://ham-apps.com[JT-ALERT-X]
:jt65protocol: http://physics.princeton.edu/pulsar/K1JT/JT65.pdf[QEX]
:launchpadurl: https://launchpad.net/~jnogatch/+archive/wsjtx[ WSJT-X Linux Packages ]
:ntpsetup: http://www.satsignal.eu/ntp/setup.html[Network Time Protocol Setup]
:pskreporter: http://pskreporter.info/pskmap.html[PSK Reporter]
:osx_instructions: http://physics.princeton.edu/pulsar/K1JT/OSX_Readme[here]
:wsjtx: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ WSJT-X ]
// DOWNLOAD links
:cty_dat: http://www.country-files.com/cty/[here].
:cygwin: http://cygwin.com/install.html[here]
:kvasd: http://physics.princeton.edu/pulsar/K1JT/kvasd[kvasd]
:osx_108: http://physics.princeton.edu/pulsar/K1JT/wsjtx_3nov13.tar.gz[ OS X 10.6, 10.7, and 10.8 ]
:osx_109: http://physics.princeton.edu/pulsar/K1JT/wsjtx_10.9_29nov13.tar.gz[ OS X 10.9 ]
// MAIL-TO links
:alex_efros: mailto:powerman@powerman.name[ Alex Efros ]
:devmail: mailto:wsjt-devel@lists.berlios.de[ wsjt-devel ]
:stuart_rackman: mailto:srackham@gmail.com[ Stuart Rackham ]
[[X1]]
== Introduction
The purpose of this guide is to provide a quick reference to commonly used items
while working with the _WSJT-X Documentation_ project.
=== AsciiDoc Examples
* {asciidoc_help} by {stuart_rackman}
* {asciidoc_questions} by {stuart_rackman}
* {asciidoc_cheatsheet} by {alex_efros}
[[X2]]
== AsciiDoc installation
For most packages, the normal method of installation is through their
respective package manager. There are several reasons why we do not
want this for the _WSJT-X User Guide_:
* Most package applications are installed system-wide, which means standard
privileged (non Root / RootSudo) users update their binaries.
* Often times, distro packages are (1) or more revisions behind.
* Updating to the latest stable _AsciiDoc_ version, using Mercurial, is a simple
one line command.
* Using $HOME makes working on the _WSJT-X User Guide_ portable, such as,
installing to a USB Key allows testing of your work on virtually any system
which has _Python_ {amp}{amp} _Bash Enviroment_ installed.
[[X21]]
=== Windows
.WinXP thru Win8
The preferred method of installing _AsciiDoc_ on Windows is through _Cygwin_.
TIP: You can install _Cygwin_ anywhere you like, hard drive, internal, external
or to a USB Key.
==== Download the _Cygwin_ Installer
* For a 32-bit system, download http://cygwin.com/setup-x86.exe[Setup-x86.exe]
* For a 64-bit system, download http://cygwin.com/setup-x86_64.exe[Setup-x86-64.exe]
* For additional information, see http://cygwin.com/install.html[Cygwin.com]
* Saving the installer to desktop makes updating quick {amp} easy
==== Running the installer
* Double click the _Cygwin Installer_
* Select Install from Internet
* Root Directory: C:\cygwin
* Select for All Users
* Package Download Directory: C:\cygdownloads
* Select Direct Connection
* I use ftp://mirrors.kernel.org
==== Cygwin package selection
At the top left corner of the install GUI, you will find a search box. Enter the
package name, then select it from the areas indicated below. Only the primary
packages are needed, [red]#not# additional modules.
* Use *Search Box*:
** *python* => Interpreters => Python language interpreter
** *mercurical* => Devel => Python based DVCS
** *subversion* => Devel => A version control system
** *source-highlight* => Text => Syntax highlighting utilities
** *openssh* => Net => The OpenSSH server and client programs
** *nano* => Editors => Enhanced clone of Pico editor
** *ncurses* => Utils => Utilities for terminal handling
* Then, next to start installation
* At create icons and short-cuts, I select desktop only
==== Verify package installation
When _Cygwin_ finishes the installation, you will have a very capable base
system to work with. From this point onward, all actions are performed in the
_Cygwin Terminal_. To launch a terminal session, simply double click the
desktop icon as you would any other Windows application.
==== Package Verification
[source,bash]
-----
# one line per action
python -V
hg --version |head -n1
svn --version |head -n1
source-highlight --version |head -n1
# Your versions may vary slightly
Python 2.7.6
svn, version 1.7.14
Mercurial Distributed SCM (version 2.8.2)
GNU Source-highlight 3.1.6
-----
CAUTION: If any package check returns with an error, resolve before
continuing !!
==== Configure _Bash Environment_
[source,bash]
-----
# Edit ./.bash_profile, uncomment if statement:
nano ./.bash_profile
# Find and Change too: (remove # sign for all 3 lines)
if [ -d "$HOME/bin" ] ; then
PATH="$HOME/bin:$PATH"
fi
# Ctrl+X to exit, Y to confirm, then Enter to save
# Create directories, source .bash_profile, check $PATH:
mkdir -p $HOME/bin $HOME/Projects/documentation/wsjtx
source ./.bash_profile
echo $PATH
# You should see /home/$USER/bin at the beginning of the string.
-----
==== Download and Configure _AsciiDoc_
[source,bash]
-----
# one action per line
cd ~/bin
# get latest AsciiDoc build
hg clone -r 8.6.9 https://asciidoc.googlecode.com/hg/ asciidoc-8.6.9
# pull updates and upgrade packages
cd asciidoc-8.6.9 && hg pull && hg update && hg upgrade && cd ..
# link binaries to $HOME/bin
ln -s ~/bin/asciidoc-8.6.9/asciidoc.py ~/bin/asciidoc
# check AsciiDoc runs properly
asciidoc --version
# Should return: asciidoc 8.6.9
-----
==== Test build _WSJT-X User Guide_
[source,bash]
-----
cd ~/Projects/documentation/wsjtx
# then;
cd ~/Projects/documentation/wsjtx && ./build-doc.sh toc2
-----
==== Open _WSJT-X User Guide_ in a browser
[source,bash]
-----
# for chromium
cygstart chrope wsjtx-main-toc2.html
# for FireFox
cygstart firefox wsjtx-main-toc2.html
-----
[[X22]]
=== Linux
.Debian, Ubuntu, Mint {amp} Relatives
There are many relatives of Debian {amp} Ubuntu, and most shells are _Bash_. For
all but the package-manager commands, you should be able to _Copy {amp} Paste_
directly into the terminal.
It is a good idea to always start from a fresh repository list, and to have the
install up to date before adding new packages.
==== Install Dependencies
[source,bash]
-----
# For Debian and relatives, update && Upgrade first
sudo apt-get update && sudo apt-get upgrade
# Install Dependencies
sudo apt-get install mercurial source-highlight subversion
# Verify the packages installed properly
python -V
hg --version |head -n1
svn --version |head -n1
source-highlight --version |head -n1
# Your versions may vary slightly
Python 2.7.6
svn, version 1.7.14
Mercurial Distributed SCM (version 2.8.2)
GNU Source-highlight 3.1.6
-----
CAUTION: If any package check returns with an error, resolve before
continuing !!
==== Check for Previous AsciiDoc Installation
[source,bash]
-----
# check if AsciiDoc is already installed:
asciidoc --version
# If Bash returns any version, remove it:
sudo apt-get purge asciidoc
-----
==== Add Directories and source profile
[source,bash]
-----
mkdir -p $HOME/bin $HOME/Projects/documentation/wsjtx
source ~/.bashrc && source ~/.profile
echo $PATH
# should return something like: /home/$USER/bin:/usr/local/sbin: .. .. ..
-----
TIP: You may have to log out and back in for the addition to take place.
If need be, add the following to your shell profile, then source or
log out / back in:
==== Add conditional to ~/.bashrc
[source,bash]
-----
if [ -d "$HOME/bin" ]
then
PATH="$HOME/bin:$PATH"
fi
-----
==== Download and Configure _AsciiDoc_
[source,bash]
-----
# one action per line
cd ~/bin
# get latest AsciiDoc build
hg clone -r 8.6.9 https://asciidoc.googlecode.com/hg/ asciidoc-8.6.9
# pull updates and upgrade packages
cd asciidoc-8.6.9 && hg pull && hg update && hg upgrade && cd ..
# link binaries to $HOME/bin
ln -s ~/bin/asciidoc-8.6.9/asciidoc.py ~/bin/asciidoc
# check AsciiDoc runs properly
asciidoc --version
# Should return: asciidoc 8.6.9
-----
==== Test build _WSJT-X User Guide_
[source,bash]
-----
cd ~/Projects/documentation/wsjtx
# then;
cd ~/Projects/documentation/wsjtx && ./build-doc.sh toc2
-----
==== Open _WSJT-X User Guide_ in a browser
[source,bash]
-----
# for chromium
chromium-browser wsjtx-main-toc2.html
# for FireFox
firefox wsjtx-main-toc2.html
-----
=== OS X
.10.8 {amp} 10.9
content needed
== Using the Terminal
.Tips {amp} Tricks to make things easier
Add content
=== Alias - Short cuts
add content
=== Add Some Color
add content
=== Search Documents
add content
=== Recursive Replace
add content
=== Document Status
add content
== SVN Basics
.Commonly used svn commands
Add content
=== Devel Accounts
.Developer and normal users
add content
=== Check-In/Out
.Commonly used commands
add content
=== Using Patches
.How to create and apply patches
add content
=== Log Usage
.How to get the most from svn logs
add content
== Appendix A: Credits
.Authors, Editors, Commiters
If you worked on the documentation, add yourself to the list.
* Authors: <call-sign>, <call-sign>
* Editors: <call-sign>, <call-sign>
* Commiters: <call-sign>, <call-sign>
== Appendix B: License
This work is licensed under {cc_by_sa}.

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= ADAT Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,ADAT1>>|<<X2,ADAT2>>|ADAT3|ADAT4|ADAT5
|========
[[X1]]
== ADAT-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== ADAT-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Alinco Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,Alinco1>>|<<X2,Alinco2>>|Alinco3|Alinco4|Alinco5
|========
[[X1]]
== Alinco-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== Alinco-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

103
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@ -1,103 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= AOR Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,AOR1>>|<<X2,AOR2>>|AOR3|AOR4|AOR5
|========
[[X1]]
== AOR-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== AOR-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Drake Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,Drake1>>|<<X2,Drake2>>|Drake3|Drake4|Drake5
|========
[[X1]]
== Drake-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== Drake-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= ElectroCraft Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,ElectroCraft1>>|<<X2,ElectroCraft2>>|ElectroCraft3|ElectroCraft4|ElectroCraft5
|========
[[X1]]
== ElectroCraft-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== ElectroCraft-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Flex Radio Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,Flex1>>|<<X2,Flex2>>|Flex3|Flex4|Flex5
|========
[[X1]]
== Flex-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== Flex-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Icom Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,Icom1>>|<<X2,Icom2>>|Icom3|Icom4|Icom5
|========
[[X1]]
== Icom-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== Icom-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Kenwood Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,Kenwood1>>|<<X2,Kenwood2>>|Kenwood3|Kenwood4|Kenwood5
|========
[[X1]]
== Kenwood-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== Kenwood-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

33
doc/source/rig-config-main.adoc
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@ -1,33 +0,0 @@
// Status=review
:adat: link:rig-config-adat.html[ ADAT]
:alinco: link:rig-config-alinco.html[ Alinco ]
:aor: link:rig-config-aor.html[ AOR ]
:drake: link:rig-config-drake.html[ Drake ]
:elecraft: link:rig-config-elecraft.html[ Elecraft ]
:flexrad: link:rig-config-flexrad.html[ Flex Radio ]
:kenwood: link:rig-config-kenwood.html[ Kenwood ]
:icom: link:rig-config-icom.html[ Icom ]
:rig_template: link:rig-config-template.html[Template]
:softrock: link:rig-config-softrock.html[ Soft Rock ]
:tentec: link:rig-config-tentec.html[ Ten Tec ]
:yaesu: link:rig-config-yaesu.html[Yaesu]
Some rigs work with DTR, RTS, Polling, CAT, and PTT while others do
not. The number of possible combinations is virtually endless. The
purpose of this section is to provide configuration information for
specific rig models, e.g. Icom 756 Pro-III, Kenwood TS-2000, Yaesu
FT-1000MP, Flex-5000, etc. This is a work-in-progress, and some rigs
may never be covered.
TIP: If you have configuration data for a rig that is not listed, or
comments about a particular rig configuration, please use the
{rig_template} and send it to {devmail}.
.Select Manufacturer
[align="center",valign="middle",halign="center"]
|========
|{adat}|{aor}|{alinco}|{drake}|{elecraft}
|{flexrad}|{kenwood}|{icom}|{softrock}|{tentec}
|{yaesu}|{rig_template}|||
|========

104
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@ -1,104 +0,0 @@
// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= SoftRock Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,SR1>>|<<X2,SR2>>|SR3|SR4|SR5
|========
[[X1]]
== SR-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== SR-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

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// Status=review
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Rig Template
This is a simple guide for providing rig configuration data for the WSJT-X
User Guide. Try to fill out as much as possible, but do not worry if you cannot
fill in all the fields. OS Specific & Interface Notes are a bonus.
* Copy and paste the template into a text file.
* Save as the rig's model.txt: rig-confg-ic756p3.txt
* Email the file to {devmail} for inclusion.
* Alternatively, join the team and submit the updates directly.
.Copy & Paste the following:
----------
Manufacturer:
Model:
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
----------

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// Status=needsupdate
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Ten Tec Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,TenTec1>>|<<X2,TenTec2>>|TenTec3|TenTec4|TenTec5
|========
[[X1]]
== TenTec-1
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== TenTec-2
.Configuration Covers:
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
- Note-1/2/3
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio
-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

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// Status=review
// This is a comment line, anything with // is ignored at process time.
// because the page is not a main page include, we need to add
// ref-links again, as they are not global.
:icons:
:badges:
:rig_template: link:rig-config-template.html[Template]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
= Yaesu Configuration Guide
Available Configurations
If you have configuration data for a rig that is not listed, or comments about a
particular rig configuration, please use the {rig_template} and send it to
{devmail}.
[align="center",valign="middle",halign="center"]
// 5 Models per line please
|========
|<<X1,FT-1000>>|<<X2,FT-2000>>|FT-3000|FT-5000|FT-9000
|========
[[X1]]
== FT-1000
.Configuration Covers FT-1000, FT-1000MP, FT-1000D
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew
[[X2]]
== FT-2000
.Configuration Covers FT-2000, FT-2000D
* MyCall:
* MyGrid:
* PTT Method:
* Pskreporter:
* CW Id After 73:
* CW Interval:
* CAT NOTES:
* DTR:
* RTS:
* CAT Port:
* CAT Port Settings:
* Split:
* Polling:
* Audio-In:
* Audio-In Mono:
* Audio-Out:
* Audio-Out:
=== OS Specific Notes
.Notes Relating To Operating System
* Windows: XP, Vista, Win7, Win8, etc.
* Linux: Slackaware, Fedora, FreeBSD, Ubuntu, Debian, etc
* Mac OSx:
=== Interface Notes
.Notes Relating To Rig Interface
* Navigator
* SignaLink
* ShackLan
* Kam
* DX-Doubler
* Array Solutions
* Home-Brew

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// Status=review
You might be curious about additional files that appear in the WSJTX
installation directory after using the program. These include the
following:
[horizontal]
.Files created when running WSJT-X
+ALL.TXT+:: Log of all received and transmitted messages
+decoded.txt+:: Decoded text from the most recent Rx interval
+timer.out+:: Diagnostic information for decoder optimization
+wsjtx.ini+:: Saved configuration parameters
+wsjtx_log.adi+:: ADIF log
+wsjtx_status.txt+:: Information sent to companion program JT-Alert

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// Status=review
- SSB transceiver and antenna
- Computer running Windows (XP or later), Linux, or OS X
- 1.5 GHz or faster CPU and 100 MB of available memory
- Monitor with at least 1024 x 780 resolution (more is better)
- Computer-to-radio interface using a serial port for T/R switching, or CAT
control, or VOX
- Audio input and output devices supported by the operating system
- Audio or equivalent USB connections between transceiver and computer
- A means for synchronizing the computer clock to UTC within ±1 s

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// Status=review
.Receiver Noise Level
- Click the *Monitor* button to return to normal receive operation
(button should be highlighted in [green]*GREEN*).
- Set your transceiver to *USB* (or *USB Data*) mode.
- Use the receiver gain controls and/or Windows mixer controls to set
the background noise level (scale at lower left of main window) to
around 30 dB when no signals are present. If necessary you can also use
the slider next to the scale, but note that the overall dynamic range
will be best with this slider not too far from its mid-point.
.Bandwidth and Frequency Setting
Many SSB transceivers have a fixed-width Tx filter that will not pass
audio frequencies higher than about 2700 Hz. _WSJT-X_ takes care of
this by offering a *Split Tx* mode, receiving with *VFO A* and
transmitting with *VFO B*. Under CAT control _WSJT-X_ offsets the Tx
dial frequency (*VFO B*) in 500 Hz steps, adjusting the generated
audio frequency so that it always falls in the range 1500 2000
Hz. With *CAT* and *Split Tx* enabled on the configuration screen and
your transceiver set to *Split* mode, this frequency control will be
handled automatically.
If your transceiver has only a standard SSB filter you wont be able
to use more than about 2.7 kHz bandwidth. You can still have all of
the JT9 sub-band and part of the JT65 sub-band available on screen,
however. On 20m, say, set dial frequency (*VFO A*) to 14.0774 and the
*JT9 nnnn JT65* dividing line at 1600 Hz. JT9 signals in their
conventional sub-band will then appear at 1600 2600 Hz, while JT65
signals will be below 1000 Hz. Of course, you might prefer to
concentrate on one mode at a time, setting your dial frequency to
(say) 14.076 for JT65 and 14.078 for JT9. Present conventions have
the nominal JT9 dial frequency 2 kHz higher than the JT65 dial
frequency, and the checkbox labeled *+2 kHz*, just below the *Band*
selector, makes the appropriate settings easy.
IMPORTANT: When you are finished with this Tutorial, dont forget to
re-enter your own callsign as *My Call*.

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// Status=review
.Open a Wave File:
- Select *File | Open* and navigate to
+...\save\samples\130418_1742.wav+ under the _WSJT-X_ installation
directory. When the file opens you should see something similar to
the to the following screen shot:
[[X12]]
image::images/r3666-main-ui-80.png[align="center",alt="Main UI and Wide Graph"]
.Decoding Overview
Notice the [green]*GREEN* and [red]*RED* markers on the waterfall
frequency scale. Decoding takes place at the end of a receive
sequence and is organized in two stages. The first decodes take place
at the selected Rx frequency, indicated by the [green]*GREEN* marker
on the waterfall scale. Results appear in both the left (*Band
Activity*) and right (*Rx Frequency*) text windows on the main
screen. The program then finds and decodes all signals in the selected
mode(s) over the displayed frequency range. The [red]*RED* marker
indicates your Tx frequency.
Seven JT9 signals are present in the example file, all decodable.
When this file was recorded KF4RWA was finishing a QSO with K1JT.
Since the green marker was placed at his audio frequency, 1224 Hz, his
message ``K1JT KF4RWA 73'' is decoded first and appears in the *Rx
Frequency* window. The *Band Activity* window shows this message plus
all decodes at other frequencies. Lines containing CQ are highlighted
in [green]*GREEN*, and lines with *My Call* (in this case K1JT) in
[red]*RED*.
TIP: For this step and the next, you may want to pretend you are K1JT
by entering that callsign temporarily as *My Call* on the <<X11,*Setup
| Configuration*>> screen. Your results should then be identical to
those shown in the screen shot above.
[[X13]]
.Decoding Controls
To gain some feeling for controls frequently used when making QSOs,
try clicking with the mouse on the decoded text lines and on the
waterfall spectral display. You should be able to confirm the
following behavior:
- Double-click on either of the decoded lines highlighted in
green. This action produces the following results:
** Callsign and locator of a station calling CQ are copied to the *DX
Call* and *DX Grid* entry fields.
** Messages are generated for a standard minimal QSO.
** The *Tx even* box is checked or cleared appropriately, so that you
will transmit in the proper (odd or even) minutes.
** The Rx and Tx frequency markers are moved to the frequency of the
CQing station.
** The *Gen Msg* (``generated message'') radio button at bottom right
of the main window is selected.
** If you had checked *Double-click on call sets Tx Enable* on the
*Setup* menu, *Enable Tx* would be activated and a transmission would
start automatically at the proper time.
- Double-click on the decoded message ``K1JT N5KDV EM41'',
highlighted in [red]*RED*. Results will be similar to those in the
previous step, except the Tx frequency ([red]*RED* marker) is not
moved. Such messages are usually in response to your own CQ, or from
a tail-ender, and you probably want your Tx frequency to stay where it
was.
- By holding down the *Ctrl* key when double-clicking on a decoded
line you can cause both Tx and Rx frequencies to be moved. This
behavior can also be forced by checking *Lock Tx=Rx*.
- Double-click on the message from KF4RWA in either window. He is
sending ``73'' to K1JT, signifying that the QSO is over. Most likely
you want to send 73 to him, so the message ``KF4RWA K1JT 73'' is
automatically generated and selected for your next transmission.
(Alternatively, you might choose to send a free text message or to
call CQ again.)
- Click somewhere on the waterfall to set Rx frequency ([green]*GREEN*
marker).
- Ctrl-click on the waterfall to set both Rx and Tx frequencies.
- Double-click on a signal in the waterfall to set Rx frequency and
start a narrow-band decode there. Decoded text will appear in the
right window only.
- Ctrl-double-click on a signal to set both Rx and Tx frequencies and
decode at the new frequency.
- Click *Erase* to clear the right window.
- Double-click *Erase* to clear both text windows.

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// Status=review
.Wide Graph Settings:
- Set *Bins/Pixel* = 7
- Adjust the width of the Wide Graph window so that the upper
frequency limit is approximately 4000 Hz.
.Main Window:
- Select *JT9+JT65* on the *Mode* menu.
- Toggle the *Tx mode* button to read *Tx JT65*, and set the Tx and Rx
frequencies to 1718 Hz.
- Double-click on *Erase* to clear both text windows.
.Open a Wave File:
- Select *File | Open* and navigate to +...\save\samples\130610_2343.wav+.
The waterfall should look like this:
//.130610_2343.wav Decode
[[X14]]
image::images/130610_2343-wav-80.png[align="left",alt="Wide Graph Decode 130610_2343"]
TIP: Notice the [blue]*BLUE* marker on the waterfall scale, here
set at 2400 Hz. Its position is set by the spinner control *JT65 nnnn
JT9*, where nnnn is a frequency in Hz. In *JT9+JT65* mode the program
will automatically decode JT65 signals below this frequency and JT9
signals above it.
JT9 signals appear in the *Cumulative* spectrum as nearly
rectangular shapes about 16 Hz wide. Although there is no clearly
visible sync tone like the one at the low-frequency edge of JT65
signals, by convention the nominal frequency of a JT9 signal is taken
to be that of its lowest tone, at the left edge of its spectrum.
This sample file contains 17 decodable signals — nine in JT65 mode
(flagged with the character # in the decoded text windows), and eight
in JT9 mode (flagged with @). The *Band Activity* window should
contain these decodes (you may need to scroll back in the window to
see them all):
// ... Figure here showing the text windows ?
[[FigDecodes]]
image::images/decodes.png[align="center"]
Since the Tx mode was set to *Tx JT65*, signals in that mode were
decoded next. If you had selected *Tx JT9*, JT9 signals would have
been decoded first.
- Confirm that mouse-click behavior is similar to that described
<<X13,earlier>>, in Example 1. The program automatically determines
the mode of each JT9 or JT65 signal.
TIP: When you double-click on a signal in the waterfall it will be
properly decoded even if on the ``wrong'' side of the *JT65 nnnn JT9*
marker. The Tx mode automatically switches to that of the decoded
signal and the Rx and Tx frequency markers on the waterfall scale
resize themselves accordingly. When selecting a JT65 signal, click on
the sync tone at its left edge.
- Double-click on the waterfall near 815 Hz: a JT65 message
originating from W7VP will be decoded and appear in the *Rx Frequency*
window.
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|=================================
|UTC|db|dt|Freq|Mode|Message
|2343|-7|0.3|815|#|KK4DSD W7VP -16
|=================================
- Double-click on the waterfall at 3196 Hz. The program will decode a
JT9 message from IZ0MIT:
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|=====================================
|UTC|db|dt|Freq|Mode|Message
|2343|-7|0.3|3196|@|WB8QPG IZ0MIT -11
|=====================================
- Scroll back in the *Band Activity* window and double-click on the
message CQ DL7ACA JO40. The program will set *Tx mode* to JT65 and Tx
and Rx frequencies to that of DL7ACA, 975 Hz. If you had checked
*Double-click on call sets Tx Enable* on the *Setup* menu, the program
would configure itself to start a QSO with DL7ACA.
- Double-click on the decoded JT65 message CQ TA4A KM37. The program
will set Tx mode to JT9 and the Rx and Tx frequencies to 3567 Hz. The
program is now configured properly for a JT9 QSO with TA4A.
.Reopen the First Sample File:
- Select *File | Open* and navigate to +...\save\samples\130418_1742.wav+.
Taking full advantage of the wide-band, dual-mode capability of
_WSJT-X_ requires a receiver bandwidth of at least 4 kHz. These
data were recorded with a much narrower Rx bandwidth, roughly 200 to
2600 Hz. If you have no Rx filter wider than about 2.7 kHz, you will
be using data like this. For best viewing, adjust *Bins/Pixel* and the
width of the Wide Graph so that only the active part of the spectrum
shows, say 0 to 2600 Hz. Re-open the example file after any change of
*Bins/Pixel* or Wide Graph width, to refresh the waterfall.
The signals in this file are all JT9 signals. To decode them
automatically in *JT9+JT65* mode youll need to move the *JT65 nnnn JT9*
delimiter down to 1000 Hz or less.
.Start, Zero, and Gain
Now is a good time to experiment with the *Start*, *Zero*, and *Gain*
parameters. *Start* determines the frequency displayed at the left
side of the waterfall scale. *Zero* sets the baseline level for
colors, and *Gain* sets the sensitivity for color changes. For the
receiver setup of this file good values are close to *Zero*=0,
*Gain*=0. Re-open the wave file after each change, to see the new
results.

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// Status=review
- Click the *Stop* button on the main window to halt any data acquisition.
- Select *JT9* from the *Mode* menu and *Deepest* from the *Decode* menu.
- Set the audio frequencies to *Tx 1224 Hz* and *Rx 1224 Hz*.

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// Status=review
- *Bins/Pixel* = 4
- *JT65 .... JT9* = 2500
- *Start* = 0
- *N Avg* = 5
- *Zero* = 0
- *Gain* = 0,
- *Palette* = Digipan
- *Flatten* = checked
- Select *Cumulative* for data display.
- Select *Tab 2* (below the *Decode* button on the main window) to
choose the alternative set of controls for generating and selecting
Tx messages.

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// Status=review
.Transmitting
Immediately before the start of a transmission _WSJT-X_ encodes a
user's message and computes the sequence of tones to be sent. The
transmitted audio waveform is then computed on-the-fly, using 16-bit
integer samples at a 48000 Hz rate. Digital samples are converted to
an analog waveform in the sound card or equivalent D/A interface.
.Receiving
_WSJT-X_ acquires 16-bit integer samples from the sound card at a 48000
Hz rate and immediately downsamples the stream to 12000 Hz. Spectra
from overlapping segments are computed for the waterfall display and
saved at intervals of 0.188 s, half the JT9 symbol length.
At the end of a reception sequence, about 50 seconds into the UTC
minute, received data samples are forwarded to the decoder. For
operator convenience the decoder goes through its full procedure
twice: first at the selected Rx frequency, and then over the full
displayed frequency range. Each decoding pass can be described as a
sequence of discrete blocks. These functional blocks are different
for the JT65 and JT9 modes.
.Decoding
The basic decoding algorithm for JT65 mode was described in the
{jt65protocol} paper. The following list summarizes the corresponding
algorithm for JT9 mode, with blocks labeled with the names of
functional procedures in the code.
[horizontal]
+sync9+:: Use sync symbols to find candidate JT9 signals
in the specified frequency range
Then, at the frequency of each plausible candidate:
[horizontal]
+downsam9+:: Mix, filter and downsample to 16 complex
samples/symbol
+peakdt9+:: Using sync symbols, time-align to start of JT9 symbol
sequence
+afc9+:: Measure frequency offset and any possible drift
+twkfreq+:: Remove frequency offset and drift
+symspec2+:: Compute 8-bin spectra for 69 information-carrying
symbols, using the time- and frequency-aligned data;
transform to yield 206 single-bit soft symbols
+interleave9+:: Remove single-bit symbol interleaving imposed at the
transmitter
+decode9+:: Retrieve a 72-bit user message using the sequential
Fano algorithm for convolutional codes
+unpackmsg+:: Unpack a human-readable message from the 72-bit
compressed format
Decoding of clean JT9 signals in a white-noise background starts to
fail below signal-to-noise ratio -25 dB and reaches 50% copy at -26
dB.
With marginal or unrecognizable signals the sequential decoding
algorithm can take exponentially long times. If the +sync9+ step in
the above sequence finds many seemingly worthy candidate signals, and
if many of them turn out to be undecodable the decoding loop can take
an inconveniently long time. For this reason the step labeled
+decode9+ is programmed to ``time out'' and report failure if it is
taking too long. The choices *Fast | Normal | Deepest* on the Decode
menu provide the user with a three-step adjustment of this timeout
limit.

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// Status=review
Utility programs +jt9code+ and +jt65code+ let you explore the
conversion of user-level messages into channel symbols or ``tone
numbers,'' and back again into user-readable text. These programs can
be especially useful to someone designing a beacon generator for JT9
or JT65, or for studying behavior of the error-control codes.
Channel-symbol values for JT9 run from 0 to 8, with 0 representing the
sync tone. The total number of symbols is 85. To run +jt9code+,
enter the program name followed by a JT9 message enclosed in quotes.
In Windows the result might look like this:
C:\WSJTX> jt9code "G0XYZ K1ABC FN42"
Message: G0XYZ K1ABC FN42
Channel symbols:
0 0 7 3 0 3 2 5 4 0 1 7 7 7 8 0 4 8 8 2 2 1 0 1 1 3 5 4 5 6
8 7 0 6 0 1 8 3 3 7 8 1 1 2 4 5 8 1 5 2 0 0 8 6 0 5 8 5 1 0
5 8 7 7 2 0 4 6 6 6 7 6 0 1 8 8 5 7 2 5 1 5 0 4 0
Decoded message: G0XYZ K1ABC FN42
For the corresponding program +jt65code+ only the information-carrying
channel symbols are shown, and the symbol values range from 0 to 63.
Sync synbols lie two tone intervals below data tone 0, and the
sequential locations of sync symbols are described in the
<<JT65PRO,JT65 Protocol>> section of this Guide.
A typical execution of jt65code is shown below. The program displays
the packed message of 72 bits (shown as 12 six-bit symbol values),
followed by the channel symbols:
C:\WSJTX> jt65code "G0XYZ K1ABC FN42"
Message: G0XYZ K1ABC FN42
Packed message, 6-bit symbols: 61 36 45 30 3 55 3 2 14 5 33 40
Information-carrying channel symbols:
56 40 8 40 51 47 50 34 44 53 22 53 28 31 13 60 46 2 14 58 43
41 58 35 8 35 3 24 1 21 41 43 0 25 54 9 41 54 7 25 21 9
62 59 7 43 31 21 57 13 59 41 17 49 19 54 21 39 33 42 18 2 60
Decoded message: G0XYZ K1ABC FN42
For an interesting illustration of the power of the strong
error-control coding in JT9 and JT65, try looking at the channel
symbols after changing a single character in the message. For
example, change the grid locator from FN42 to FN43:
C:\Users\joe\wsjt\wsjtx_install>jt65code "G0XYZ K1ABC FN43"
Message: G0XYZ K1ABC FN43
Packed message, 6-bit symbols: 61 36 45 30 3 55 3 2 14 5 33 41
Information-carrying channel symbols:
25 35 47 8 13 9 61 40 44 9 51 6 8 40 38 34 8 2 21 23 30
51 32 56 39 35 3 50 48 30 8 5 40 18 54 9 24 30 26 61 23 11
3 59 7 7 39 1 25 24 4 50 17 49 52 19 34 7 4 34 61 2 61
Decoded message: G0XYZ K1ABC FN43
You will discover that every possible JT65 message differs from every
other possible JT65 message in at least 52 of the 63
information-carrying channel symbols.

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// Status=review
// This is a comment line, anything with // is ignored at process time.
= WSJT-X User Guide
:Author: Joe Taylor, K1JT
:Date: January 30, 2014, Copyright © 2012-2014
:Revision: 1.3
:badges:
:icons:
:numbered:
// If the list of links gets too long, we can add a url-file that is pulled
// in when and where needed with the following:
// include::<file-name> for example: include::url-list.txt
// WEB links - List is getting pretty long, time to use include::file-name ??
:asciidoc_help: http://www.methods.co.nz/asciidoc/userguide.html[ AsciiDoc User Guide ]
:asciidoc_cheatsheet: http://powerman.name/doc/asciidoc[ AsciiDoc Cheatsheet ]
:asciidoc_questions: http://www.methods.co.nz/asciidoc/faq.html[ AsciiDoc FAQ ]
:debian: http://www.debian.org/[ Debian ]
:cc_by_sa: http://creativecommons.org/licenses/by-sa/3.0/[ Commons Attribution-ShareAlike 3.0 Unported License ]
:devsvn: http://developer.berlios.de/projects/wsjt/[wsjt-svn]
:download: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ Download Page ]
:dxlcommander: http://www.dxlabsuite.com/commander/[ Commander ]
:homepage: http://physics.princeton.edu/pulsar/K1JT/[ WSJT Home Page ]
:hrd: http://www.hrdsoftwarellc.com/[ Ham Radio Deluxe ]
:jtalert: http://ham-apps.com[JT-ALERT-X]
:jt65protocol: http://physics.princeton.edu/pulsar/K1JT/JT65.pdf[QEX]
:launchpadurl: https://launchpad.net/~jnogatch/+archive/wsjtx[ WSJT-X Linux Packages ]
:ntpsetup: http://www.satsignal.eu/ntp/setup.html[Network Time Protocol Setup]
:pskreporter: http://pskreporter.info/pskmap.html[PSK Reporter]
:osx_instructions: http://physics.princeton.edu/pulsar/K1JT/OSX_Readme[here]
:wsjtx: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ WSJT-X ]
// DOWNLOAD links
:cty_dat: http://www.country-files.com/cty/[here].
:kvasd: http://physics.princeton.edu/pulsar/K1JT/kvasd[kvasd]
:osx_108: http://physics.princeton.edu/pulsar/K1JT/wsjtx_3nov13.tar.gz[ OS X 10.6, 10.7, and 10.8 ]
:osx_109: http://physics.princeton.edu/pulsar/K1JT/wsjtx_10.9_29nov13.tar.gz[ OS X 10.9 ]
// MAIL-TO links
:alex_efros: mailto:powerman@powerman.name[ Alex Efros ]
:devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
:stuart_rackman: mailto:srackham@gmail.com[ Stuart Rackham ]
// These [[xxxx]] labels are HTML anchors, and can be used to
// navigate though the document easily: <<[INTRO],See Introduction]>> will
// place a hyper-link in your text to take you too the anchored section.
// All major sections or points of interest should have one.
// == is level (2), section 1.0, === would mean section 1.1, === would
// be section 1.1.1. This method is used throughout the document.
[[INTRO]]
== Introduction
include::introduction.adoc[]
[[SYSREQ]]
== System Requirements
include::system-requirments.adoc[]
[[INSTALL]]
== Installation
- Download _WSJT-X_ from the {homepage}. Click on _WSJT-X_ at the left
margin and then on the appropriate link(s) for your operating system.
[[INSTALL_WIN]]
=== Windows
include::install-windows.adoc[]
[[INSTALL_UBU]]
=== Linux
include::install-ubuntu.adoc[]
[[INSTALL_OSX]]
=== OS X
include::install-mac.adoc[]
// Note to developers. The URL http://developer.berlios.de/projects/wsjt/. is
// to a very old src version of WSJT 5.7 or so. WSJTX is not listed at all.
// Also, all the Qt4 stuff is now obsolete, and needs to be updated.
// Instructions for source builds Win, \*Nix & Mac all need to be written /
// Rreviewd.
[[SRC_CODE]]
=== Source Code
include::install-from-source.adoc[]
[[CONFIG]]
== Setup and Configuration
[[STATION]]
=== Station Tab
include::configuration-station.adoc[]
[[TXMACROS]]
=== Tx Macros Tab
include::configuration-txmacros.adoc[]
[[BAND_SETTINGS]]
=== Band Settings Tab
include::configuration-band-settings.adoc[]
[[CONFIG_MAIN]]
=== Main Window
include::configuration-main-window.adoc[]
[[FONTS]]
=== Font Sizes
include::font-sizes.adoc[]
[[TUTORIAL]]
== Basic Operating Tutorial
[[TUT_MAIN]]
=== Main Window Settings
include::tutorial-main-window.adoc[]
[[TUT_WIDE_GRAPH]]
=== Wide Graph Settings
include::tutorial-wide-graph-settings.adoc[]
[[TUT_EX1]]
=== Sample File 1
include::tutorial-example1.adoc[]
[[TUT_EX2]]
=== Sample File 2
include::tutorial-example2.adoc[]
[[TUT_XCVR]]
=== Transceiver Setup
include::transceiver-setup.adoc[]
[[MAKE_QSOS]]
== Making QSOs
include::make-qso.adoc[]
[[CONTROLS]]
== Controls & Functions
[[CONTROLS_WIDE]]
=== Wide Graph Controls
include::controls-functions-wide-graph.adoc[]
[[CONTROLS_MAIN]]
=== Main Window
include::controls-functions-main-window.adoc[]
[[CONTROLS_LEFT]]
=== Misc Controls Left
include::controls-functions-left.adoc[]
[[CONTROLS_CENTER]]
=== Misc Controls Center
include::controls-functions-center.adoc[]
[[CONTROLS_MSGS]]
=== Tx Messages
include::controls-functions-messages.adoc[]
[[STATUS_BAR]]
=== Status Bar
include::controls-functions-status-bar.adoc[]
[[MENUS]]
=== Menus
include::controls-functions-menus.adoc[]
[[SHORTCUTS]]
=== Keyboard Shortcuts
include::controls-functions-kb-shortcuts.adoc[]
[[MOUSE_COMMANDS]]
=== Mouse Commands
include::controls-functions-special-mouse-cmds.adoc[]
[[COOP_PGMS]]
== Cooperating Programs
To be added ...
[[JT65PRO]]
== The JT65 Protocol
include::jt65-protocol.adoc[]
[[JT9PRO]]
== The JT9 Protocol
include::jt9-protocol.adoc[]
[[JT65_JT9]]
== JT65 & JT9 Differences
include::jt65-jt9-differences.adoc[]
[[TXRX]]
== Transmitting and Receiving in _WSJT-X_
include::tx-rx.adoc[]
[[TROUBLE_SHOOTING]]
== Troubleshooting
To be added ...
[[FAQ]]
== Frequently Asked Questions
include::faq.adoc[]
[[FILES]]
== File Names
// Note to Dev-Team, this list of files needs to be updated.
[[FILES1]]
=== Installed Files
include::installed-files.adoc[]
[[FILES2]]
=== Runtime Files
include::runtime-files.adoc[]
[[UTIL]]
== Utility Programs
include::utilities.adoc[]
[[COMPILING]]
== Compiling WSJT-X
include::compiling.adoc[]
[[ACK]]
== Acknowledgments
include::acknowledgements.adoc[]