Another round of extensive edits to the WSJT-X User's Guide.

git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@3658 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
This commit is contained in:
Joe Taylor 2014-01-24 20:09:47 +00:00
parent 333337a91f
commit 426bcc5fcf
30 changed files with 350 additions and 322 deletions

Binary file not shown.

Before

Width:  |  Height:  |  Size: 9.7 KiB

After

Width:  |  Height:  |  Size: 2.2 KiB

Binary file not shown.

Before

Width:  |  Height:  |  Size: 7.6 KiB

After

Width:  |  Height:  |  Size: 6.3 KiB

Binary file not shown.

Before

Width:  |  Height:  |  Size: 5.5 KiB

After

Width:  |  Height:  |  Size: 4.0 KiB

View File

@ -2,18 +2,18 @@
Many users of WSJT, too numerous to mention here individually, have Many users of WSJT, too numerous to mention here individually, have
contributed suggestions and advice that have greatly aided the contributed suggestions and advice that have greatly aided the
development of {wsjtx} and its sister programs. Since 2005 the development of _WSJT-X_ and its sister programs. Since 2005 the
overall project (including WSJT, MAP65, WSPR, {wsjtx}, and WSPR-X) has overall project (including WSJT, MAP65, WSPR, _WSJT-X_, and WSPR-X) has
been “open source”, with all code licensed under the GNU Public been “open source”, with all code licensed under the GNU Public
License (GPL). License (GPL).
For {wsjtx} in particular, we acknowledge contributions from *AC6SL, For _WSJT-X_ in particular, we acknowledge contributions from *AC6SL,
AE4JY, DJ0OT, G4KLA, G4WJS, K3WYC, KA6MAL, KA9Q, KI7MT, KK1D, PY2SDR, AE4JY, DJ0OT, G4KLA, G4WJS, K3WYC, KA6MAL, KA9Q, KI7MT, KK1D, PY2SDR,
VK3ACF, VK4BDJ, and W4TV*. Each of these amateurs has helped to bring VK3ACF, VK4BDJ, and W4TV*. Each of these amateurs has helped to bring
the programs design, code, and documentation to its present the programs design, code, and documentation to its present
state. state.
Most of the color palettes for the {wsjtx} waterfall were copied from Most of the color palettes for the _WSJT-X_ waterfall were copied from
the excellent, well documented, open-source program _fldigi_, by *W1HKJ* the excellent, well documented, open-source program _fldigi_, by *W1HKJ*
and friends. and friends.

View File

@ -2,5 +2,5 @@
The Band Settings tab allows you to set the default frequency and a The Band Settings tab allows you to set the default frequency and a
brief description of your antenna for each amateur band. The antenna brief description of your antenna for each amateur band. The antenna
information will be included with reception reports, if they have been information will be included with reception reports to {pskreporter},
enabled. if they have been enabled.

View File

@ -1,20 +1,19 @@
// Status=review // Status=review
To set the proper level of audio drive from {wsjtx} to your radio: To set the proper level of audio drive from _WSJT-X_ to your radio:
* Click the Tune button on the main screen.{wsjtx} should set the * Click the *Tune* button on the main screen._WSJT-X_ to switch the
radio into transmit mode and generate a steady audio tone at the radio into transmit mode and generate a steady audio tone.
amplitude that will be used for a generated JT9 signal.
* Listen to the generated audio tone using your radios Monitor * Listen to the generated audio tone using your radios Monitor
facility. The tone should be perfectly smooth, with no clicks or facility. The tone should be perfectly smooth, with no clicks or
glitches. glitches.
* Open the computers audio mixer controls for output (“playback”) * Open the computers audio mixer controls for output (“Playback”)
devices and adjust the volume slider downward from 100% until the RF devices and adjust the volume slider downward from its maximum until
output from your transmitter falls by around ten percent. This will the RF output from your transmitter falls by around ten percent. This
be a good level for audio drive. will be a good level for audio drive.
* Alternatively, you can make the same adjustment using the digital * Alternatively, you can make the same adjustment using the digital
slider labeled *Pwr* at the right edge of the main window. slider labeled *Pwr* at the right edge of the main window.
* Toggle the Tune button once more to stop your test transmission. * Toggle the *Tune* button once more to stop your test transmission.

View File

@ -1,29 +1,30 @@
// Status=review // Status=review
Start {wsjtx} and Select Configuration from its Setup menu. Enter - Start _WSJT-X_ and Select Configuration from its Setup menu. Enter
the following information: the following information:
- *Call Sign*: <Your Call Sign> * *Call Sign*: <Your Call Sign>
- *Grid*: <Your Maidenhead Locator> * *Grid*: <Your Maidenhead Locator>
- *PTT method*: choose from RTS, DTR, CAT, VOX, or None. * *PTT method*: choose from RTS, DTR, CAT, VOX, or None.
- *PTT port*: if you will use RTS or DTR, choose a serial port. * *PTT port*: if you will use RTS or DTR, choose a serial port.
- *PSK Reporter*: check to enable sending reception reports to the * *PSK Reporter*: check to enable sending reception reports to the
{pskreporter} mapping facility. {pskreporter} mapping facility.
- *CW ID*: Check to send your callsign in CW after sending 73. * *CW ID*: Check to send your callsign in CW after sending 73.
- *CW Interval*: set the time interval for sending your CW identification. * *CW Interval*: set the time interval for sending your CW identification.
Default is 0 (never). Default is 0 (never).
{wsjtx} does not implement full transceiver control, but it provides a _WSJT-X_ does not implement full transceiver control, but it provides a
way to ensure that {wsjtx} can read and set the radios dial way to ensure that _WSJT-X_ can read and set the radios dial
frequency. If you want this capability: frequency. If you want this capability:
- Check the box Enable CAT - Check the box *Enable CAT*
- Select your radio type from a drop-down list - Select your radio type from a drop-down list
- Select a CAT port (not the same port selected for PTT control) - Select a *CAT port* (not the same port selected for PTT control)
- Set port parameters for your radio - Set port parameters (*Serial rate*, *Handshake*, *Data bits*, *Stop
- If you use {dxlcommander} by DX Lab or {hrd} to control your bits*) for your radio
transceiver, you can configure {wsjtx} to communicate with the radio - If you use {dxlcommander} or {hrd} to control your transceiver, you
through that program. Entries for these programs appear at the end of can configure _WSJT-X_ to communicate with the radio through that
the drop-down list of supported radios. program. Entries for these programs appear at the end of the
drop-down list of supported rigs.
[[X11]] [[X11]]
image::images/r3563-config-screen-80.png[align="center",alt="Configuration Screen"] image::images/r3563-config-screen-80.png[align="center",alt="Configuration Screen"]
@ -33,35 +34,35 @@ control, most radios will allow you to set *PTT method* = CAT. Some
radios support two types of PTT assertion via CAT control: one takes 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 audio input from the Mic connector, the other from a rear-panel Data
connector. The simplest CAT configuration sets *Polling interval* = 0 connector. The simplest CAT configuration sets *Polling interval* = 0
(no polling the radio for dial frequency). {wsjtx} will then be able (no polling the radio for dial frequency). _WSJT-X_ will then be able
to set the radios frequency, but the program will be unaware of to set the radios frequency, but the program will be unaware of
subsequent changes made using the radios panel controls. subsequent changes made using the radios panel controls.
TIP: If you need an additional item in the list of devices for the 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 CAT port, edit the configuration file wsjtx.ini and add your
requirement as CATdriver=yourdriver (for example, requirement as CATdriver=yourdriver (for example,
CATdriver=/dev/ttyUSBserial ) in the group of entries marked CATdriver=/dev/tty.usbserial ) in the group of entries marked
[Common]. [Common].
With most radios you can set *Polling interval* to a small number (say 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 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 your radio. Note that you may not be able simultaneously to control your
radio from {wsjtx} and from another program. Some experimentation may radio from _WSJT-X_ and from another program. Some experimentation may
be required, and you may need to refer to the documentation for your be required, and you may need to refer to the documentation for your
rig-control software and your radio. It is best to have the radio and rig-control software and your radio. It is best to have the radio and
any interface equipment turned on and connected before starting any interface equipment turned on and connected before starting
{wsjtx}, and to exit the program before turning your equipment off. _WSJT-X_, and to exit the program before turning your equipment off.
- Click the *Test CAT Control* and Test PTT buttons to see that you - Click the *Test CAT Control* and *Test PTT* buttons to see that you
have established the desired control of station functions. _ Select have established the desired control of station functions. _ Select
the devices you will use for Audio input and output. the devices you will use for Audio input and output.
- Click OK to dismiss the Configuration window. - Click OK to dismiss the *Configuration* window.
- {wsjtx} expects your sound card to do its raw sampling at 48000 Hz. - _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 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 Windows, open the system's sound control panel and select in turn the
“Recording” and “Playback” options. Click on Properties, then *Recording* and *Playback* options. Click on *Properties*, then
Advanced, and select “16 bit, 48000 Hz (DVD Quality).” *Advanced*, and select “16 bit, 48000 Hz (DVD Quality).”
CAUTION: If you are using a sound card that is also the default device CAUTION: If you are using a sound card that is also the default device
for Windows sounds, be sure to turn off all such sounds so they are for Windows sounds, be sure to turn off all such sounds so they are

View File

@ -1,7 +1,6 @@
// Status=review // Status=review
TX Macros are an aid for sending commonly used free-text messages. *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 To enable a pull-down selection, add your custom messages to the entry
fields provided. Remember that the maximum free-text message length fields provided. The maximum free-text message length in JT65 and JT9
is 13 characters. You access your macros by selecting Tx message #5 is 13 characters.
(or the Free MSG Radio Button) on the main window, then right-click to
select the message to be sent.

View File

@ -3,16 +3,16 @@ At the center of the main window are a number of controls you will
use when making QSOs: use when making QSOs:
//.Misc Controls Center //.Misc Controls Center
image::images/misc-controls-center.png[align="left",alt="Misc Controls Center"] image::images/misc-controls-center.png[align="center",alt="Misc Controls Center"]
* Select *Tx even* to transmit in even-numbered UTC minutes. Uncheck * Select *Tx even* to transmit in even-numbered UTC minutes. Uncheck
this box to transmit in the odd intervals. This selection is made this box to transmit in the odd intervals. This selection is made
automatically when you double-click on a decoded text line as automatically when you double-click on a decoded text line as
described in the Basic Operating Tutorial, Sections 5.1 thru 5.8. described in the Basic Operating Tutorial.
* Your audio Tx and Rx frequencies are displayed and can be adjusted * Your audio Tx and Rx frequencies can be adjusted with spinner
with spinner controls. These settings are usually handled controls. These settings are usually handled automatically by the
automatically by the double-click procedure. double-click procedure.
* The on-the-air frequency of your lowest JT9 or JT65 tone is the sum * The on-the-air frequency of your lowest JT9 or JT65 tone is the sum
of dial and audio frequencies. You can force Tx frequency to the of dial and audio frequencies. You can force Tx frequency to the
@ -22,7 +22,7 @@ always track one another.
* The *Report* control lets you change a signal report that has been * The *Report* control lets you change a signal report that has been
inserted automatically. Most reports will fall in the range 26 to inserted automatically. Most reports will fall in the range 26 to
\+10 dB. Remember that JT65 reports cannot be greater than -1 dB. +10 dB. Remember that JT65 reports cannot be greater than -1 dB.
IMPORTANT: When signals are close to or above 0 dB, you and your QSO 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 partner should probably reduce power. JT65 and JT9 are supposed to be

View File

@ -1,23 +1,24 @@
// Status=review // Status=review
Controls related to: *date*, *time*, *frequency*, *Rx Audio Level*, Controls related to band and frequency selection, receiver audio
and the *Station Being Worked* are found at lower left of the main level, the station being worked, and date and time are found at lower
window: left of the main window:
//.Misc Controls Left //.Misc Controls Left
image::images/misc-main-ui.png[align="center",alt="Mist Menu Items"] image::images/misc-main-ui.png[align="center",alt="Mist Menu Items"]
* The drop-down *Band* selector at upper left lets you select the * The drop-down band selector at upper left lets you select the
operating band and sets dial frequency to a default value taken from operating band and sets dial frequency to a default value taken from
the *Default Frequencies* tab on the *Setup | Configuration* screen. the *Default Frequencies* tab on the *Setup | Configuration* screen.
* If you are using CAT control, a small colored square appears in * If you are using CAT control, a small colored square appears in
green if the CAT control is two-way between {wsjtx} and your radio, or 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 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 a one-time interrogation of the radios dial frequency by clicking on
the orange square. The square becomes red if you have requested CAT the orange square.) The square becomes red if you have requested CAT
control but communication with the radio has been lost. If the control but communication with the radio has been lost. If the
*Dx Grid* is known, the great-circle azimuth and distance are given. locator *Dx Grid* is known, the great-circle azimuth and distance are
displayed.
* The program can keep a database of call-signs and locators for * The program can keep a database of call-signs and locators for
future reference. Click *Add* to insert the present call and locator in future reference. Click *Add* to insert the present call and locator in

View File

@ -7,9 +7,9 @@ image::images/main-ui-controls.png[align="left",alt="Main UI Controls"]
* *Log QSO* pops up a confirmation screen pre-filled with known * *Log QSO* pops up a confirmation screen pre-filled with known
information about a QSO you have nearly completed. You can edit or 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 add to this information before clicking *OK* to log the QSO. If you
select ``Prompt me to log QSO'' on the Setup menu, the program will check *Prompt me to log QSO* on the *Setup* menu, the program will pop
pop up the confirmation screen automatically when you send a ``73'' or up the confirmation screen automatically when you send a 73 or
free-text message. free-text message.
//.Log QSO Window //.Log QSO Window
@ -21,24 +21,25 @@ and explore previously recorded audio files.
* *Monitor* restarts normal receive operation. This button is * *Monitor* restarts normal receive operation. This button is
highlighted in green when the program is receiving. highlighted in green when the program is receiving.
* *Erase* clears the right (*Rx frequency*) window. Double-clicking
*Erase* clears both text windows.
* *Decode* tells the program to repeat the decoding procedure at the * *Decode* tells the program to repeat the decoding procedure at the
Rx frequency (green marker on waterfall), using the most recently Rx frequency (green marker on waterfall), using the most recently
completed sequence of Rx data. completed sequence of Rx data.
* *Erase* clears the right (Rx frequency) window. Double-clicking
Erase clears both text windows.
* *Tune* may be used to switch into Tx mode and generate an
unmodulated carrier at the specified Tx frequency (red marker on
waterfall). This process may be seful for adjusting an antenna tuner,
for example, toggle the button a second time to terminate the Tune
process.
* *Enable Tx* puts the program into automatic Rx/Tx sequencing mode * *Enable Tx* puts the program into automatic Rx/Tx sequencing mode
and highlights the button in red. A transmission will start at the and highlights the button in red. A transmission will start at the
beginning of the selected (odd or even) sequence, or immediately if beginning of the selected (odd or even) sequence, or immediately if
appropriate. 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 * *Halt Tx* terminates a transmission in progress and disables
automatic Rx/Tx sequencing. automatic Rx/Tx sequencing.
* *Tune* may be used to switch into Tx mode and generate an
unmodulated carrier at the specified Tx frequency (red marker on
waterfall). This process may be useful for adjusting an antenna
tuner. Toggle the button a second time to terminate the *Tune*
process.

View File

@ -1,12 +1,11 @@
// Status=review // Status=review
Two configurations of controls are provided for generating and
selecting Tx messages.
Traditional controls (carried over from program WSJT) appear on *Tab Two arrangements of controls are provided for generating and selecting
1* and provide six fields for message entry. Pre-formatted messages Tx messages. Traditional controls carried over from program _WSJT_
for the standard minimal QSO are generated when you click *Generate appear on *Tab 1* and provide six fields for message entry.
Std Msgs* or when you double-click on an appropriate line of decoded Pre-formatted messages for the standard minimal QSO are generated when
text. you click *Generate Std Msgs* or when you double-click on an
appropriate line in one of the decoded text windows.
//.Traditional Message Menu //.Traditional Message Menu
image::images/traditional-msg-box.png[align="center",alt="Traditional Message Menu"] image::images/traditional-msg-box.png[align="center",alt="Traditional Message Menu"]
@ -15,22 +14,22 @@ image::images/traditional-msg-box.png[align="center",alt="Traditional Message Me
Tx sequence) by clicking on the circle under *Next*. Tx sequence) by clicking on the circle under *Next*.
* To change to a specified Tx message immediately, click on a * To change to a specified Tx message immediately, click on a
rectangular button (e.g., Tx 3) under the *Now* label. Changing Tx rectangular button under the *Now* label. Changing a Tx message
messages after a transmission has started reduces the chance of a already underway reduces the chance of a correct decode, but will
correct decode, but in the first 10 s of a Tx period it will probably probably succeed if done in the first 10 s of a Tx period.
succeed.
* Right-clicking on the entry field for message #5 pops up a list of * Right-clicking on the entry field for message #5 pops up a list of
free-text messages entered on the *Setup | Configuration | Tx Macros* free-text messages entered on the *Setup | Configuration | Tx Macros*
dialog window. You can select any of these pre-stored messages with tab. You can select any of these pre-stored messages by using the
the left mouse button. left mouse button.
*Tab 2* of the Message Control Panel looks like this: The second arrangement of controls for generating and selecting
Tx messages appears on *Tab 2* of the Message Control Panel:
//.New Message Menu //.New Message Menu
image::images/new-msg-box.png[align="center",alt="New Message Menu"] image::images/new-msg-box.png[align="center",alt="New Message Menu"]
With this setup you will normally follow a top-to-bottom sequence of 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 transmissions from the left column if you are calling CQ, or the right
column if you are answering a CQ. Clicking a button puts the column if you are answering a CQ. Clicking a button puts the
appropriate message in the *Gen Msg* box. If you are already appropriate message in the *Gen Msg* box. If you are already
@ -38,8 +37,6 @@ transmitting, it changes the Tx message immediately. You can enter
anything (up to 13 characters) in the *Free Msg* box. Right-clicking on 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*. this entry field pops up your previously defined list of *Tx Macros*.
IMPORTANT: WIth either of the message-control tabs, the actual message IMPORTANT: During a transmission the actual message being sent always
being transmitted always appears highlighted in yellow in the first appears highlighted in yellow in the first box of the status bar
box of the status bar, at bottom left of the main screen. (bottom left of the main screen).

View File

@ -1,32 +1,41 @@
// Status=review // Status=review
The following controls appear at the bottom of the Wide Graph window:
image::images/wide-graph-controls.png[align="left",alt="Wide Graph Controls"] 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.
* *FFT Bins/Pixel* controls the displayed frequency resolution. Set image::images/wide-graph-controls.png[align="center",alt="Wide Graph Controls"]
- *Bins/Pixel* controls the displayed frequency resolution. Set
to 1 for the highest possible resolution, or to higher values to to 1 for the highest possible resolution, or to higher values to
compress the spectral display. Normal operation with a convenient compress the spectral display. Normal operation with a convenient
window size works well at 2 to 8 bins per pixel. window size works well at 2 to 8 bins per pixel.
* *N Avg* is the number of successive FFTs to be averaged before - *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 nnnn Hz and JT9 signals above that frequency.
- *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 updating the spectral display. Values around 5 are suitable for
normal JT9 and JT65 operation. normal JT9 and JT65 operation.
* *Gain* and *Zero* control the scaling and reference level for - *Zero* and *Gain* control the scaling and reference level for
waterfall colors. Values around 0 for both parameters are usually waterfall colors. Values around 0 for both parameters are usually
about right, depending on the input signal level and your own about right, depending on the input signal level and your own
preferences. preferences.
* *JT65 nnnn JT9* sets the dividing point for wide-band decoding of - *Palette* lets you select from a number of waterfall color palettes.
JT65 and JT9 signals in JT9+JT65 mode. The decoder looks for JT65
signals below nnnn Hz and JT9 signals above that frequency.
* *Current / Cumulative* controls the graphical display in the bottom - Check the *Flatten* box to have _WSJT-X_ compensate for uneven
one-third of the Wide Graph window. ** Current is the average spectral response across the received passband.
spectrum over the most recent N Avg FFT calculations. ** Cumulative
is the average spectrum since the start of the current Rx sequence. - You can 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 current
minute.
* With the exception of *JT65 nnnn JT9*, controls on the Wide Graph
window affect only the graphical displays — they have no effect
on the decoding process.

View File

@ -1,11 +1,13 @@
// Status=review // Status=review
- User control of font sizes can be effected by using a text editor
(Windows Notepad or similar) to create a one-line file named fonts.txt - You can control the program's font sizes by using a text editor
in the wsjtx directory. A single line of text should contain four (e.g., Windows Notepad or similar) to create a one-line file named
numbers separated by spaces. The first two control the font size (in +fonts.txt+ in the _WSJT-X_ installation directory. Enter a single
points) and weight (on a 0 100 scale) of most GUI labels. The last line of text with four numbers separated by spaces. The first two
two numbers control size and weight of text in the Band Activity and numbers control the font size (in points) and weight (on a 0 100
Rx Frequency windows. 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.
- The default is ``8 50 10 50''. If you need larger fonts and bold - The default is ``8 50 10 50''. If you need larger fonts and bold
text in the decode windows, try ``10 50 12 100'' (without the quotes). text in the decode windows, try ``10 50 12 100'' (without the quotes).

View File

@ -3,8 +3,8 @@
// to a very old src version of WSJT 5.7 or so. WSJTX is not listed at all. // 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. // Also, all the Qt4 stuff is now obsolete, and needs to be updated.
{wsjtx} is an open-source program released under the GNU General _WSJT-X_ is an open-source program released under the GNU General
Public License. Source code is available from the public repository Public License (GPL). Source code is available from the public repository
at {devsvn}. To compile the program you will need to install the at {devsvn}. To compile the program you will need to install the
following packages: following packages:
@ -14,9 +14,10 @@ following packages:
- gfortran or g95 - gfortran or g95
- fftw3 - fftw3
- hamlib - hamlib
- MinGW (Windows only) - MinGW (for Windows only)
The full source code for {wsjtx} can be downloaded with the command: 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 $ svn co svn://svn.berlios.de/wsjt/branches/wsjtx

View File

@ -1,6 +1,14 @@
// Status=review // Status=review
- Read the OS X installation instructions {osx-instructions}. Separate compiled versions of _WSJT-X_ are available for OS X 10.6
- Download the required installation package through 10.8, and OS X 10.9. The two versions are not interchangeable.
- Select the correct package for your OS X and download it to your desktop.
- Double-click on the file to see a new folder, +WSJT-X+. Drop down
into that folder, where the +Readme+ file provides detailed instructions
on how to configure your system for _WSJT-X_.
- Some additional information can be found {osx-instructions}.
* {osx-108} * {osx-108}
* {osx-109} * {osx-109}

View File

@ -1,6 +1,6 @@
// Status=review // Status=review
- Installation packages for Ubuntu 12.04, 12.10, 13.04, 13.10 are - Installation packages for Ubuntu 12.04, 12.10, 13.04, 13.10 are
available at {launchpadurl} available at {launchpadurl}.
- If you have not before obtained packages from the Personal Package - If you have not before obtained packages from the Personal Package
Archive (PPA) at the above link, execute the following instruction at Archive (PPA) at the above link, execute the following instruction at
@ -8,12 +8,12 @@ the command prompt:
$ sudo add-apt-repository ppa:jnogatch/wsjtx $ sudo add-apt-repository ppa:jnogatch/wsjtx
- Accept the PPA Key, then: - Accept the PPA Key, then issue these commands:
$ sudo apt-get update $ sudo apt-get update
$ sudo apt-get install wsjtx $ sudo apt-get install wsjtx
- Download the soft-decision Reed Solomon decoder {kvasd} and put it - Download the soft-decision Reed Solomon decoder, {kvasd}, and put it
in the same directory as the executable binaries wsjtx and in the same directory as the executable binaries +wsjtx+ and
jt9. Normally (fter you have run the script /usr/bin/wsjtx at least +jt9+. Normally (after you have run the script +/usr/bin/wsjtx+ at
once) this directory will be $HOME/.wsjtx. least once) this directory will be +$HOME/.wsjtx+.

View File

@ -2,12 +2,13 @@
- Execute the downloaded file and follow its installation - Execute the downloaded file and follow its installation
instructions. instructions.
- Install {wsjtx} into its own directory rather than the conventional - Install _WSJT-X_ into its own directory rather than the conventional
C:\Program Files\WSJTX. The suggested default directory is C:\WSJTX. location +C:\Program Files\WSJTX+. The suggested default directory is
+C:\WSJTX+.
- All files relating to {wsjtx} will be stored in your chosen - All files relating to _WSJT-X_ will be stored in your chosen
installation directory and its subdirectories. You can uninstall installation directory and its subdirectories. You can uninstall
{wsjtx} by removing the installation directory and its contents. _WSJT-X_ by removing the installation directory and its contents.
- The built-in Windows facility for time synchronization is usually - The built-in Windows facility for time synchronization is usually
not adequate. We recommend Meinberg NTP: see {ntpsetup} for not adequate. We recommend Meinberg NTP: see {ntpsetup} for

View File

@ -1,5 +1,5 @@
// Status=review // Status=review
After installing {wsjtx} as described in <<X3, Installation>>, the After installing _WSJT-X_ as described in <<X3, Installation>>, the
following files will be present in the installation directory: following files will be present in the installation directory:
.Files Present After Installation .Files Present After Installation
@ -42,8 +42,8 @@ following files will be present in the installation directory:
|save|Directory for saved .wav files |save|Directory for saved .wav files
|shortcuts.txt|Keyboard shortcuts |shortcuts.txt|Keyboard shortcuts
|unins000.dat|Uninstall Data File |unins000.dat|Uninstall Data File
|unins000.exe|Executable for uninstalling {wsjtx} |unins000.exe|Executable for uninstalling _WSJT-X_
|wsjt.ico|WSJT icon |wsjt.ico|WSJT icon
|wsjtx.exe|Executable for {wsjtx} |wsjtx.exe|Executable for _WSJT-X_
|======== |========

View File

@ -1,11 +1,11 @@
// Status=review // Status=review
{wsjtx} is a computer program designed to facilitate basic amateur _WSJT-X_ is a computer program designed to facilitate basic amateur
radio communication using very weak signals. The first four letters radio communication using very weak signals. The first four letters
in the program name stand for “Weak Signal communication by K1JT”, and in the program name stand for “Weak Signal communication by K1JT”, and
the “-X” suffix indicates that {wsjtx} started as an extended (and the “-X” suffix indicates that _WSJT-X_ started as an extended (and
experimental) branch of program WSJT. experimental) branch of program _WSJT_.
{wsjtx} offers two protocols or “modes,” JT9 and JT65. Both are _WSJT-X_ offers two protocols or “modes,” JT65 and JT9. Both are
designed for making reliable, confirmed QSOs under extreme weak-signal designed for making reliable, confirmed QSOs under extreme weak-signal
conditions. They use nearly identical message structure and source conditions. They use nearly identical message structure and source
encoding. JT65 was designed for EME (“moon-bounce”) on the VHF/UHF encoding. JT65 was designed for EME (“moon-bounce”) on the VHF/UHF
@ -18,17 +18,17 @@ six minutes — two or three transmissions by each station, one sending
in odd UTC minutes and the other even. World-wide QSOs are possible in odd UTC minutes and the other even. World-wide QSOs are possible
with power levels of a few watts and compromise antennas. with power levels of a few watts and compromise antennas.
Starting with version 1.1, {wsjtx} can display a bandpass as large as _WSJT-X_ can display a bandpass as large as 5 kHz and transparently
5 kHz and provide dual-mode reception of both JT65 and JT9 signals. provides dual-mode reception of both JT65 and JT9 signals. If your
If your receiver can be configured with at least 4 kHz bandwidth in receiver can be configured with at least 4 kHz bandwidth in USB mode,
USB mode, you can set your dial frequency to one of the standard JT65 you can set the dial frequency to one of the standard JT65 frequencies
frequencies — for example, 14.076 MHz for 20 meters — and have the — for example, 14.076 MHz for the 20-meter band — and have the full
full JT65 and JT9 sub-bands displayed simultaneously on the waterfall. JT65 and JT9 sub-bands displayed simultaneously on the waterfall. You
You can make QSOs in both modes using nothing more than mouse clicks. can then make QSOs in both modes using nothing more than mouse clicks.
Plans for future program development call for {wsjtx} and WSJT to Plans for future program development call for _WSJT-X_ and _WSJT_ to
merge together: {wsjtx} will gradually acquire the additional modes merge together: _WSJT-X_ will gradually acquire the additional modes
JT4, FSK441, and ISCAT that are now supported in WSJT. The entire JT4, FSK441, and ISCAT that are now supported in _WSJT_. The entire
WSJT-related effort is an open-source project. If you have WSJT-related effort is an open-source project. If you have
programming or documentation skills or would like to contribute to the programming or documentation skills or would like to contribute to the
project in other ways, please make your interests known to the project in other ways, please make your interests known to the

View File

@ -9,21 +9,22 @@ modes are essentially the same length, and both modes use exactly 72
bits to carry message information. At the user level the two modes bits to carry message information. At the user level the two modes
support nearly identical message structures. support nearly identical message structures.
JT65 signal reports are constrained to the range 1 to 30 dB — more JT65 signal reports are constrained to the range 1 to 30 dB. This
than adequate for EME purposes, but not enough dynamic range for ideal range is more than adequate for EME purposes, but not enough for
use at HF and below. S/N values displayed by the JT65 decoder are optimum use at HF and below. S/N values displayed by the JT65 decoder
clamped at an upper limit 1 dB, because thats all the original are clamped at an upper limit 1 dB. Moreover, the S/N scale in
protocol can handle. Moreover, the S/N scale in present JT65 decoders present JT65 decoders is nonlinear above 10 dB.
becomes increasingly nonlinear above 10 dB. By comparison, JT9
allows for signal reports in the range 50 to +49 dB. It manages this By comparison, JT9 allows for signal reports in the range 50 to +49
by co-opting a small portion of ``message space'' that would otherwise dB. It manages this by taking over a small portion of ``message
be used for grid locators within 1 degree of the south pole. The S/N space'' that would otherwise be used for grid locators within 1 degree
scale of the present JT9 decoder is reasonably linear (although its of the south pole. The S/N scale of the present JT9 decoder is
not intended as a precision measurement tool). With clean signals and reasonably linear (although its not intended to be a precision
a clean nose background, JT65 achieves nearly 100% probability of measurement tool). With clean signals and a clean nose background,
correct decoding down to S/N = 22 dB and 50% at 24 dB. JT9 is about JT65 achieves nearly 100% probability of correct decoding down to
2 dB better, achieving 50% decoding at about 26 dB. Both modes S/N = 22 dB and about 50% at 24 dB. JT9 is about 2 dB better,
produce extremely low false-decode rates. achieving 50% decoding at about 26 dB. Both modes produce extremely
low false-decode rates.
Early experience suggests that under most HF propagation conditions Early experience suggests that under most HF propagation conditions
the two modes have comparable reliability. The tone spacing of JT9 is the two modes have comparable reliability. The tone spacing of JT9 is

View File

@ -1,26 +1,25 @@
// Status=review // Status=review
//Needs work! //Needs work!
.JT9 Protocol and Implementation
JT9 is a mode designed for making minimal QSOs at LF, MF, and HF. It JT9 is a mode designed for making minimal QSOs at LF, MF, and HF. It
uses 72-bit structured messages that are nearly identical (at the user uses 72-bit structured messages nearly identical (at the user level)
level) to those in JT65. Error control coding (ECC) uses a strong 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 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 tail, leading to an encoded message length of (72+31) × 2 = 206
information-carrying bits. Modulation is 9-FSK: eight tones are used information-carrying bits. Modulation is 9-FSK: eight tones are used
for data, one for synchronization. Sixteen symbol intervals are for data, one for synchronization. Thus, three data bits or one
devoted to synchronization, so a transmission requires a total of 206 synchronization bit are conveyed by each transmitted symbol. Sixteen
/ 3 + 16 = 85 (rounded up) channel symbols. The sync symbols are symbol intervals are devoted to synchronization, so a transmission
those numbered 1, 2, 5, 10, 16, 23, 33, 35, 51, 52, 55, 60, 66, 73, requires a total of 206 / 3 + 16 = 85 (rounded up) channel
83, and 85 in the transmitted sequence. 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 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 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 12000/6912 = 1.736 Hz, the inverse of the symbol duration. The total
occupied bandwidth is therefore 9 × 1.736 = 15.6 Hz. The generated occupied bandwidth is 9 × 1.736 = 15.6 Hz. A generated JT9 signal has
JT9 signal has continuous phase and constant amplitude. There are no continuous phase and constant amplitude. There are no key clicks, and
key clicks, and the transmitter's power amplifier need not be highly the transmitter's power amplifier need not be highly linear.
linear.
.Transmitting .Transmitting
@ -28,18 +27,18 @@ Immediately before the start of a transmission WSJT-X encodes a
users message and computes the sequence of tones to be sent. The users message and computes the sequence of tones to be sent. The
transmitted audio waveform is computed on-the-fly, using 16-bit transmitted audio waveform is computed on-the-fly, using 16-bit
integer samples at a 48000 Hz rate. The digital samples are converted integer samples at a 48000 Hz rate. The digital samples are converted
to an analog waveform in the sound card (or equivalent D/A interface). to an analog waveform in the sound card or equivalent D/A interface.
.Receiving and Decoding .Receiving and Decoding
WSJT-X acquires 16-bit integer samples from the sound card at a 48000 WSJT-X acquires 16-bit integer samples from the sound card at a 48000
Hz rate, and immediately downsamples the data stream to 12000 Hz. Hz rate, and immediately downsamples the stream to 12000 Hz. Spectra
Spectra from overlapping data segments are computed for the waterfall from overlapping segments are computed for the waterfall display and
display and saved at intervals of 0.188 s, half the JT9 symbol length. saved at intervals of 0.188 s, half the JT9 symbol length. As shown
As shown in screen shots earlier in this guide, a JT9 signal appears in screen shots earlier in this guide, a JT9 signal appears in the
in the *Cumulative* spectrum as a nearly rectangular shape about 16 Hz *Cumulative* spectrum as a nearly rectangular shape about 16 Hz wide.
wide. Although there is no clearly visible “sync tone” like the one Although there is no clearly visible “sync tone” like the one at the
at the low-frequency edge of a JT65 signal, by convention the nominal low-frequency edge of a JT65 signal, by convention the nominal
frequency of a JT9 signal is taken to be that of the lowest tone, at frequency of a JT9 signal is taken to be that of the lowest tone, at
the left edge of the spectrum. the left edge of the spectrum.
@ -49,13 +48,12 @@ operator convenience the decoder goes through its full procedure
twice: first at the selected Rx frequency, and then in the full twice: first at the selected Rx frequency, and then in the full
displayed frequency range (or in JT9+JT65 mode, the displayed range displayed frequency range (or in JT9+JT65 mode, the displayed range
above the blue *JT65 nnnn JT9* marker). Decoding of clean JT9 signals above the blue *JT65 nnnn JT9* marker). Decoding of clean JT9 signals
in a white-noise background starts to fail around signal-to-noise in a white-noise background starts to fail below signal-to-noise
ratio 25 dB and reaches 50% copy at -26 dB. ratio 25 dB and reaches 50% copy at -26 dB.
Each decoding pass can be described as a sequence of discrete blocks. Each decoding pass can be described as a sequence of discrete blocks.
For those wishing to study the programs algorithms and source code, The blocks are labeled here with the names of functional procedures in
perhaps with an eye toward future improvements, the blocks are labeled the code.
here with the names of functional procedures in the code.
sync9: Use sync symbols to find candidate JT9 signals sync9: Use sync symbols to find candidate JT9 signals
in the specified frequency range in the specified frequency range
@ -87,10 +85,10 @@ Then, at the frequency of each plausible candidate:
compressed format compressed format
With marginal or unrecognizable signals the sequential Fano algorithm With marginal or unrecognizable signals the sequential Fano algorithm
can take exponentially long times. If the first step in the above can take exponentially long times. If the +sync9+ step in the above
sequence finds many seemingly worthy candidate signals, and if many of sequence finds many seemingly worthy candidate signals, and if many of
them turn out to be undecodable, the decoding loop could take a very them turn out to be undecodable, the decoding loop can take a very
long time. For this reason the decode9 step is programmed to “time long time. For this reason the step labeled +decode9+ is programmed
out” and report failure if it takes too long. The choices *Fast | to “time out” and report failure if it is taking too long. The
Normal | Deepest* on the Decode menu provide a three-step adjustment choices *Fast | Normal | Deepest* on the Decode menu provide a
of this timeout limit. three-step adjustment of this timeout limit.

View File

@ -2,26 +2,26 @@
=== Standard Exchange === Standard Exchange
By longstanding tradition, a minimal valid QSO requires the exchange By longstanding tradition, a minimal valid QSO requires the exchange
of callsigns, a signal report or some other information, and of callsigns, a signal report or some other information, and
acknowledgments. {wsjtx} is designed to facilitate making such acknowledgments. _WSJT-X_ is designed to facilitate making such
minimal QSOs using short, formatted messages. The process works best minimal QSOs using short, formatted messages. The process works best
if you use these formats and follow standard operating practices. The if you use these formats and follow standard operating practices. The
recommended basic QSO goes something like this: recommended basic QSO goes something like this:
[width="90%",cols="3,^3,^3,^4,10",options="header"] [width="90%",cols="3,7,12",options="header"]
|======================================= |=======================================
|UTC|To|From|Grid/Rpt|Comment |UTC|Transmitted Message|Comment
|0001|CQ|K1ABC|FN42|~ K1ABC calls CQ |0001|CQ K1ABC FN42|K1ABC calls CQ
|0002|K1ABC|G0XYZ|IO91|~ G0XYZ answers |0002|K1ABC G0XYZ IO91|G0XYZ answers
|0003|G0XYZ|K1ABC|19|~ K1ABC sends report |0003|G0XYZ K1ABC 19|K1ABC sends report
|0004|K1ABC|G0XYZ|R22|~ G0XYZ sends acknowledgment and report |0004|K1ABC G0XYZ R22|G0XYZ sends acknowledgment and report
|0005|G0XYZ|K1ABC|RRR|~ K1ABC sends acknowledgment |0005|G0XYZ K1ABC RRR|K1ABC sends acknowledgment
|0006|K1ABC|G0XYZ|73|~ G0XYZ sends 73 |0006|K1ABC G0XYZ 73|G0XYZ sends 73
|======================================= |=======================================
*Standard messages* consist of two callsigns (or CQ, QRZ, or DE and *Standard messages* consist of two callsigns (or CQ, QRZ, or DE and
one callsign) followed by the transmitting stations grid locator, a one callsign) followed by the transmitting stations grid locator, a
signal report, acknowledgement R plus a signal report, or the final signal report, acknowledgement R plus a signal report, or the final
acknowledgements RRR or 73. Messages are compressed and encoded acknowledgements RRR or 73. Messages are compressed and encoded
in a highly efficient and reliable way. in a highly efficient and reliable way.
*Signal reports* are specified as signal-to-noise ratio (S/N) in dB, *Signal reports* are specified as signal-to-noise ratio (S/N) in dB,
@ -32,19 +32,19 @@ that his signal is 19 dB below the noise power in bandwidth 2500 Hz.
In message #0004, G0XYZ acknowledges receipt of that report and In message #0004, G0XYZ acknowledges receipt of that report and
responds with a 22 dB signal report. responds with a 22 dB signal report.
TIP: For operators with very good hearing, signals become audible TIP: Signals become visible on the waterfall around S/N = 26 dB and
around S/N = 15 dB and visible on the waterfall to 26 dB. The JT65 audible around 15 dB. Thresholds for signal decodability are
decoder begins to fail around 24 dB, JT9 around 26 dB. approximately 24 dB for JT65, 26 dB for JT9.
*Free Text Messages*: Users often add some friendly chit-chat as a *Free Text Messages*: Users often add some friendly chit-chat as a
final transmission, in place of the formatted ``73'' message. final transmission, in place of the formatted 73 message. Free-format
Free-format messages such as ``TNX JOE 73 GL'' or `5W VERT 73 GL'' are messages such as TNX JOE 73 GL or 5W VERT 73 GL are supported, up to a
supported, up to a maximum of 13 characters (including spaces). It maximum of 13 characters (including spaces). It should be obvious
should be obvious that JT9 and JT65 are not suitable for extensive that JT9 and JT65 are not suitable for extensive conversations or
conversations or rag-chewing. rag-chewing.
=== Compound Callsigns === Compound Callsigns
//This section needs work! Must describe and give examples for both //This section needs work!! Must describe and give examples for both
//JT65v1 and JT65v2 formats. //JT65v1 and JT65v2 formats.
Compound call-signs such as PJ4/K1ABC or G0XYZ/P are handled in a slightly Compound call-signs such as PJ4/K1ABC or G0XYZ/P are handled in a slightly
different way. The following formats are all valid: different way. The following formats are all valid:
@ -68,7 +68,7 @@ different way. The following formats are all valid:
- ``grid'' is a 4-character Maidenhead locator - ``grid'' is a 4-character Maidenhead locator
- A signal report of the form “±nn” or “R±nn”, or the acknowledgment - A signal report of the form “±nn” or “R±nn”, or the acknowledgment
or sign-off messages “RRR” or “73”. {wsjtx} generates messages in or sign-off messages “RRR” or “73”. _WSJT-X_ generates messages in
these forms automatically, as required. these forms automatically, as required.
- A QSO between two stations using compound call-signs might look like this: - A QSO between two stations using compound call-signs might look like this:
@ -100,10 +100,10 @@ through the <<X15,Basic Tutorial>> above and the following checklist:
- Your callsign and grid locator set to correct values - Your callsign and grid locator set to correct values
- PTT and CAT control (if used) properly configured and tested - PTT and CAT control (if used) properly configured and tested
- Computer clock properly synchronized with UTC to within ±1 s - Computer clock properly synchronized to UTC within ±1 s
- Radio set to USB (upper sideband) mode - Radio set to USB (upper sideband) mode
- Radio's Split mode selected or not, consistent with your choice on - Radio's Split mode selected or not, consistent with your choice
*Station* tab of *Configuration* window. on *Station* tab of the *Setup | Configuration* window.
- Remember that JT9 and J65 generally do not require high power. Under IMPORTANT: Remember that JT9 and J65 generally do not require high
most propagation conditions, [red]*QRP is the rule!* power. Under most propagation conditions, [red]*QRP is the rule!*

View File

@ -7,4 +7,4 @@
control, or VOX. control, or VOX.
- Audio input and output devices supported by your operating system - Audio input and output devices supported by your operating system
- Audio or equivalent USB connections between transceiver and computer - Audio or equivalent USB connections between transceiver and computer
- A means for synchronizing your computer clock to UTC to within ±1 s. - A means for synchronizing your computer clock to UTC within ±1 s.

View File

@ -1,36 +1,39 @@
// Status=review // Status=review
.Receiver Noise Level .Receiver Noise Level
- Click the Monitor button to return to normal receive operation.
- 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. - Set your transceiver to USB (or USB Data) mode.
- Use the receiver gain control(s) and/or the Windows mixer controls
to set the background noise level to around 30 dB or mid-scale. If - Use the receiver gain controls and/or Windows mixer controls to set
necessary you can also use the slider next to the scale, but note that the background noise level (scale at lower left of main window) to
the overall dynamic range will be best with this slider not too far around 30 dB with no signals present. If necessary you can also use
from its mid-point. 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 .Bandwidth and Frequency Setting
Taking full advantage of the wide-band, dual-mode capability of Taking full advantage of the wide-band, dual-mode capability of
{wsjtx} requires a receiver bandwidth of at least 4 kHz. For example, _WSJT-X_ requires a receiver bandwidth of at least 4 kHz. Many SSB
on a Kenwood TS-2000 I set *Low Cut* to 200 and *High Cut* to 5000 transceivers have a fixed-width Tx filter that will not pass audio
Hz. Note that most SSB transceivers have a fixed Tx filter that will frequencies higher than about 2700 Hz. _WSJT-X_ takes care of this by
not pass audio frequencies higher than about 2700 Hz. {wsjtx} takes using Split mode, receiving with *VFO A* and transmitting with *VFO
care of this by using Split mode, receiving with *VFO A* and B*. Under CAT control _WSJT-X_ offsets the Tx dial frequency (*VFO
transmitting with *VFO B*. The Tx dial frequency (*VFO B*) is offset B*) in 500 Hz steps, adjusting the generated audio frequency so that
in 500 Hz steps, and the generated audio frequency is adjusted so that
it always falls in the range 1500 2000 Hz. With *CAT* and *Split Tx* it always falls in the range 1500 2000 Hz. With *CAT* and *Split Tx*
enabled on the configuration screen and your transceiver set to enabled on the configuration screen and your transceiver set to *Tx
*Tx Split* mode, frequency control will be handled automatically. Split* mode, this frequency control will be handled automatically.
If your transceiver has only a standard SSB filter you wont be able 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 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, however. On the JT9 sub-band and part of the JT65 sub-band available on screen,
20m, say, set dial frequency (*VFO A*) to 14.0774 and the *JT9 nnnn JT65* however. On 20m, say, set dial frequency (*VFO A*) to 14.0774 and the
dividing line at 1600 Hz. JT9 signals in their conventional sub-band *JT9 nnnn JT65* dividing line at 1600 Hz. JT9 signals in their
will then appear at 1600 2600 Hz, while JT65 signals will be below conventional sub-band will then appear at 1600 2600 Hz, while JT65
1000 Hz. Of course, you might prefer to concentrate on one mode at a signals will be below 1000 Hz. Of course, you might prefer to
time, setting your dial frequency to (say) 14.076 for JT65 and 14.078 concentrate on one mode at a time, setting your dial frequency to
for JT9. Present conventions have the nominal JT9 dial frequency 2 (say) 14.076 for JT65 and 14.078 for JT9. Present conventions have
kHz higher than the JT65 dial frequency, and the check-box labeled +2 the nominal JT9 dial frequency 2 kHz higher than the JT65 dial
kHz, just below the band selector, makes the appropriate settings frequency, and the checkbox labeled *+2 kHz*, just below the *Band*
easy. selector, makes the appropriate settings easy.

View File

@ -1,11 +1,10 @@
// Status=review // Status=review
.Open a Wave File: .Open a Wave File:
- Select File | Open and navigate to ...\save\samples\130418_1742.wav - Select *File | Open* and navigate to
under your program installation directory. +...\save\samples\130418_1742.wav+ under your _WSJT-X_ installation
directory. When the file opens you should see something similar to
When the file opens you should see something similar to the to the the to the following screen shot:
following screen shot:
[[X12]] [[X12]]
image::images/r3556-main-ui-80.png[align="center",alt="Main UI and Wide Graph"] image::images/r3556-main-ui-80.png[align="center",alt="Main UI and Wide Graph"]
@ -16,47 +15,53 @@ Notice the [green]*GREEN* and [red]*RED* markers on the waterfall
frequency scale. Decoding takes place at the end of a receive frequency scale. Decoding takes place at the end of a receive
sequence and is organized in two stages. The first decodes take place sequence and is organized in two stages. The first decodes take place
at the selected Rx frequency, indicated by the green marker. Results at the selected Rx frequency, indicated by the green marker. Results
appear in both the left (“Band Activity”) and right (“Rx Frequency”) appear in both the left (*Band Activity*) and right (*Rx Frequency*)
text windows on the main screen. The decoder then finds and decodes text windows on the main screen. The program then finds and decodes
all signals in the selected mode(s) and the displayed frequency all signals in the selected mode or modes over the displayed frequency
range. The red marker indicates your Tx frequency. range. The red marker indicates your Tx frequency.
At least eight JT9 signals are present in the example file; all 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 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 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 audio frequency, 1224 Hz, his message “K1JT KF4RWA 73” appears in both
decoded text windows. The “Band Activity” window shows this message decoded text windows. The *Band Activity* window shows this message
as well as all the other decodes at nearby frequencies. The CQ lines as well as all the other decodes at nearby frequencies. The CQ lines
are highlighted in [green]*GREEN*, and lines containing “My Call”, in are highlighted in [green]*GREEN*, and lines containing *My Call*, in
this case K1JT, are highlighted in [red]*RED*. this case K1JT, are highlighted in [red]*RED*.
TIP: For this step and the next, you may want to pretend you are K1JT by TIP: 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 entering that callsign temporarily as *My Call* on the <<X11,Configuration
Screen>>. Your results should then be identical to those shown in the Screen>>. Your results should then be identical to those shown in the
<<X12,screen shot>> above. <<X12,screen shot>> above.
[[X13]] [[X13]]
.Decoding Controls .Decoding Controls
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 To gain some feeling for the controls used when making QSOs, try
should produce the following: clicking with the mouse on the decoded text lines and on the waterfall
spectral display. You should be able to confirm the following
behavior:
** Copies call-sign and locater of a station calling CQ to the “DX Call” - Double-click on either of the decoded lines highlighted in
and “DX grid” entry fields. green. This action should produce the following:
** Generates suitable messages for a minimal QSO and checks or clears the Tx ** Callsign and locator of a station calling CQ are copied to the *DX
even box so that you will transmit in the proper (odd or even) minutes. Call* and *DX Grid* entry fields.
** Rx and Tx frequency markers will be moved to the CQ-ing stations frequency, ** Messages for a minimal QSO are generated.
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, ** The *Tx even* box is checked or cleared appropriately, so that you
Enable Tx would also be activated, and you would start to transmit automatically, will transmit in the proper (odd or even) minutes.
at the appropriate time.
** The Rx and Tx frequency markers are moved to the CQ stations
frequency.
** The *Gen Msg* (“generated message”) radio button at bottom right
of the main window is selected.
** If you have checked *Double-click on call sets Tx Enable* on the
*Setup* menu, *Enable Tx* is activated and a transmission starts
automatically at the appropriate time.
- Double-click on the decoded line with the message “K1JT N5KDV EM41”, - Double-click on the decoded line with the message “K1JT N5KDV EM41”,
highlighted in [red]*RED*. Results will be similar to those in the highlighted in [red]*RED*. Results will be similar to those in the
@ -75,15 +80,17 @@ want to send 73 to him, so the message “KF4RWA K1JT 73” is automatically
generated and selected for your next transmission. (Alternatively, you might generated and selected for your next transmission. (Alternatively, you might
choose to send a free text message or to call CQ again.) 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 - Click on the waterfall to set Rx frequency ([green]*GREEN* marker).
selected frequency.
- Ctrl-click on waterfall moves both Rx and Tx frequencies. - Ctrl-click on waterfall to set both Rx and Tx frequencies.
- Double-click on the waterfall moves the Rx frequency and causes a - Double-click on the waterfall to set Rx frequency and start a
narrow-band decode there at the new QSO frequency. Decoded text appears in the narrow-band decode there. Decoded text appears in the right window
right window only. Ctrl-double-click moves both Rx and Tx frequencies and only.
decodes at the new frequency.
- Clicking Erase clears the right window. Double-click on Erase to clear both - Ctrl-double-click sets both Rx and Tx frequencies and decodes at the
text windows. new frequency.
- Click *Erase* to clear the right window.
- Double-click *Erase* to clear both text windows.

View File

@ -1,20 +1,20 @@
// Status=review // Status=review
.Wide Graph Settings: .Wide Graph Settings:
- Bins/Pixel = 7 - *Bins/Pixel* = 7
- Zero = -3 - *Zero* = -3
- If necessary, adjust the width of the Wide Graph Window so that its upper - Adjust the width of the Wide Graph window so that its upper
frequency limit is 4000 Hz. frequency limit is approximately 4000 Hz.
.Main Window: .Main Window:
- Select JT9+JT65 on the Mode menu - Select *JT9+JT65* on the *Mode* menu
- Toggle the Tx mode button to read Tx JT65, and set the Tx and Rx - Toggle the *Tx mode* button to read *Tx JT65*, and set the Tx and Rx
frequencies to 1718 Hz. frequencies to 1718 Hz.
- Double-click on Erase to clear both text windows - Double-click on *Erase* to clear both text windows.
.Open a Wave File: .Open a Wave File:
- Select File | Open and navigate to ...\save\samples\130610_2343.wav.
The waterfall should look like the figure below. - Select *File | Open* and navigate to +...\save\samples\130610_2343.wav+.
The waterfall should look like the following figure:
//.130610_2343.wav Decode //.130610_2343.wav Decode
[[X14]] [[X14]]
@ -22,23 +22,23 @@ image::images/130610_2343-wav-80.png[align="left",alt="Wide Graph Decode 130610_
This sample file contains 17 decodable signals — nine in JT65 mode This sample file contains 17 decodable signals — nine in JT65 mode
(flagged with the character # in the decoded text windows), and eight (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, 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, signals in that mode were decoded first. If you had selected *Tx JT9*,
JT9 signals would have been decoded first. JT9 signals would have been decoded first.
TIP: Notice the [blue]*BLUE* marker on the waterfall scale, by TIP: Notice the [blue]*BLUE* marker on the waterfall scale, by
default set at 2500 Hz. Its position is set by the spinner control 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 *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 program will decode JT65 signals below this frequency and JT9 signals
above it. above it.
- Confirm that mouse-click behavior is similar to that described - Confirm that mouse-click behavior is similar to that described
<<X13,earlier>>. The program automatically determines the mode of each <<X13,above>>. The program automatically determines the mode of each
JT9 or JT65 signal. JT9 or JT65 signal.
- Double-click on the waterfall near 815 Hz: a JT65 message - Double-click on the waterfall near 815 Hz: a JT65 message
originating from W7VP will be decoded and appear in the Rx Frequency originating from W7VP will be decoded and appear in the *Rx Frequency*
Box: window.
[width="70%",cols="3,^3,^3,^4,^4,30",options="header"] [width="70%",cols="3,^3,^3,^4,^4,30",options="header"]
|================================= |=================================
@ -60,28 +60,27 @@ automatically switches to that of the decoded signal and the Rx and Tx
frequency markers on the waterfall scale resize themselves frequency markers on the waterfall scale resize themselves
accordingly. accordingly.
- Scroll back in the Band Activity window and double-click on the - 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 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 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 *Double-click on call sets Tx Enable* on the *Setup* menu, the program
would configure itself to start a QSO with DL7ACA. would configure itself to start a QSO with DL7ACA.
- Double-click on the decoded JT65 message CQ TA4A KM37. The program - 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 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. program is now configured properly for a JT9 QSO with TA4A.
IMPORTANT: Dont forget to re-enter your own call-sign as “My Call”. IMPORTANT: Dont forget to re-enter your own call-sign as *My Call*.
.Reopen the First Sample File: .Reopen the First Sample File:
- Select File | Open and navigate to ...\save\samples\130418_1742.wav. - Select *File | Open* and navigate to +...\save\samples\130418_1742.wav+.
These data were recorded with a much narrower Rx bandwidth, roughly 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 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 of such data adjust will be using data like this. For best viewing, adjust *Bins/Pixel*
Bins/Pixel and the width of the Wide Graph so that only the active and the width of the Wide Graph so that only the active part of the
part of the spectrum shows, say 0 to 2600 Hz. Re-open the example spectrum shows, say 0 to 2600 Hz. Re-open the example file after any
file after any change of Bins/Pixel or Wide Graph width, to refresh change of *Bins/Pixel* or Wide Graph width, to refresh the waterfall.
the waterfall.
The signals in this file are all JT9 signals. To decode them in 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 JT9+JT65 mode youll need to move the JT65 nnnn JT9 delimiter down to

View File

@ -1,5 +1,5 @@
// Status=review // Status=review
- Click the *Stop* button on the main window to halt any data acquisition. - 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. - Select JT9 from the *Mode* menu and *Deepest* from the *Decode* menu.
- Set the audio Tx and Rx frequencies to 1224 Hz. - Set the audio Tx and Rx frequencies to 1224 Hz.
//Maybe show small screen shots here? //Maybe show small screen shots here?

View File

@ -1,10 +1,10 @@
// Status=review // Status=review
* Bins/Pixel = 4 - *Bins/Pixel* = 4
* N Avg = 5 - *N Avg* = 5
* Gain = 0, - *Gain* = 0,
* Zero = 10 - *Zero* = 10
* Flatten = checked - *Flatten* = checked
* Cumulative for data display. - Select *Cumulative* for data display.
* Select Tab 2 (below the Erase button on the main window) to - Select *Tab 2* (below the *Erase* button on the main window) to
choose the alternative set of controls for generating and selecting choose the alternative set of controls for generating and selecting
Tx messages. Tx messages.

View File

@ -11,8 +11,8 @@
// If the list of links gets too long, we can add a url-file that is pulled // 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: // in when and where needed with the following:
// include::<file-name> for example: include::url-list.txt // include::<file-name> for example: include::url-list.txt
:devsvn: http://developer.berlios.de/projects/wsjt/[Devel-SVN] :devsvn: http://developer.berlios.de/projects/wsjt/[wsjt-svn]
:devmail: mailto:wsjt-devel@lists.berlios.de[WSJT-Devel-List] :devmail: mailto:wsjt-devel@lists.berlios.de[wsjt-devel]
:download: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ Download Page ] :download: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ Download Page ]
:wsjtx: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ WSJT-X ] :wsjtx: http://physics.princeton.edu/pulsar/K1JT/wsjtx.html[ WSJT-X ]
:homepage: http://physics.princeton.edu/pulsar/K1JT/[ WSJT Home Page ] :homepage: http://physics.princeton.edu/pulsar/K1JT/[ WSJT Home Page ]
@ -46,8 +46,9 @@ include::system-requirments.txt[]
[[X3]] [[X3]]
== Installation == Installation
Download {wsjtx} from the {homepage}. Click on the {wsjtx} at the left - Download _WSJT-X_ from the {homepage}.
margin and then on the appropriate link(s) for your operating system. - Click on _WSJT-X_ at the left margin and then on the appropriate
link(s) for your operating system.
=== Windows === Windows
include::install-windows.txt[] include::install-windows.txt[]
@ -78,7 +79,7 @@ include::install-from-source.txt[]
include::configuration-station.txt[] include::configuration-station.txt[]
[[X42]] [[X42]]
=== TX Macros Tab === Tx Macros Tab
include::configuration-txmacros.txt[] include::configuration-txmacros.txt[]
[[X43]] [[X43]]
@ -104,11 +105,11 @@ include::tutorial-main-window.txt[]
include::tutorial-wide-graph-settings.txt[] include::tutorial-wide-graph-settings.txt[]
[[X53]] [[X53]]
=== Ex 1: JT9 Signals === Sample File 1
include::tutorial-example1.txt[] include::tutorial-example1.txt[]
[[X54]] [[X54]]
=== Ex 2: JT65 and JT9 Signals === Sample File 2
include::tutorial-example2.txt[] include::tutorial-example2.txt[]
[[X55]] [[X55]]