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Add instructions for using FST4+FST4W sample files, including some screenshots.
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doc/user_guide/en/images/FST4-1.png
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doc/user_guide/en/images/FST4-2.png
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doc/user_guide/en/images/FST4W-1.png
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doc/user_guide/en/images/FST4W-2.png
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@ -1,5 +1,17 @@
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Do not confuse FST4 with FT4, which has a very different purpose!
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FST4 is designed primarily for making 2-way QSOs on the LF and MF bands.
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FST4 is designed primarily for making weak-signal 2-way QSOs on the
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LF and MF bands. T/R periods from 15s up to 1800s are
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available. Longer T/R periods provide better sensitivity provided that the
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combined effects of Tx and Rx frequency instability and channel Doppler spread
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yield a received signal that remains coherent over the duration of
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several transmitted symbols. Generally speaking, Rx and Tx frequency changes
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during the transmission and channel Doppler spread should each be small compared
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to the symbol keying rate shown for each T/R duration in Table 7 within section
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<<PROTOCOL_OVERVIEW,Protocol Specifications>>. For example, the keying rate for the 1800s T/R period is 0.089 Baud, so
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successful operation using this T/R length requires Tx and Rx frequency
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stability better than 0.089 Hz over the duration of the 1800s transmission in
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addition to channel Doppler spread smaller than 0.089 Hz.
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Operation with FST4 is similar to that with other _WSJT-X_ modes: most
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on-screen controls, auto-sequencing, and other features behave in
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familiar ways. However, operating conventions on the 2200 and 630 m
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@ -21,3 +33,12 @@ decoding process (and of course will be undecodable). By checking
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further limit the decoding range to the setting of *F Tol* on
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either side of *Rx Freq*.
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.Open a Wave File:
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- Select *FST4* on the *Mode* menu. Set *T/R* to 60 s and *Decode | Deep*.
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- Set *F Low* 1000, *F High* 1400.
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- Open a sample Wave file using *File | Open* and select the file
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...\save\samples\FST4+FST4W\210115_0058.wav. When the file opens you should see something similar to the following screen shots:
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image::FST4-1.png[align="left"]
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image::FST4-2.png[align="left"]
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@ -1,5 +1,5 @@
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FST4W is used in the same way as WSPR, but FST4W has significant
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advantages for use on the 2200 and 630 m bands. By default the
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advantages for use on the 2200 m and 630 m bands. By default the
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central *Rx Freq* is 1500 Hz and *F Tol* is 100 Hz, so the active
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decoding range is 1400 to 1600 Hz. However, for added flexibility you
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can select different center frequencies and *F Tol* values. We expect
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@ -16,3 +16,27 @@ If three operators agree in advance to select the options *1/3*,
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a fixed sequence with no two stations transmitting simultaneously.
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Sequence 1 is the first sequence after 00:00 UTC. For WSPR-like
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scheduling behavior, you should select *Random* with this control.
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.Open a Wave File:
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- Select *FST4W* on the *Mode* menu. Set *T/R* to 1800 s and *Decode | Deep*.
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- Select appropriate wide graph settings. For example, try *Bins/Pixel* 1,
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*Start* 1200 Hz and *N Avg* 150.
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- Enable the multi-threshold noise blanker by setting the noise blanker *NB* to -1.
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This setting tells the decoder to try 0, 5, 10, 15, and 20 % blanking.
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The *NB* setting is located just above the green receive power indicator and below the
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frequency selection menu.
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- Open a sample Wave file using *File | Open* and select the file
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...\save\samples\FST4+FST4W\210203_0600.wav. Processing may take a minute or
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more because of the noise blanker setting. When it is finished you should
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see a single decode as shown in the screenshot:
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image::FST4W-1.png[align="left"]
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image::FST4W-2.png[align="left"]
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The weak signal associated with the single decode is all but invisible on the
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widegraph spectrogram. Note that the sample wave file will not decode if
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the noise blanker is turned off
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(*NB* set to 0 %) or if it is set to any positive number less than 14 %. Using
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*NB* -1 tells WSJT-X to try noise blanker settings 0, 5, 10, 15, and 20 %. Similarly,
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*NB* -2 tells WSJT-X to try noise blanker settings 0, 2, 4, 6, ..., 20 %.
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