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Add some text for section 13.3 of the User Guide.
git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/branches/wsjtx@8115 ab8295b8-cf94-4d9e-aec4-7959e3be5d79
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@ -65,7 +65,7 @@ image::FreqCal_Graph.png[align="left",alt="FreqCal_Graph"]
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=== Reference Spectrum
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WSJT-X provides a tool that can be used to determine the detailed
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_WSJT-X_ provides a tool that can be used to determine the detailed
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shape of your receiver's passband. Disconnect your antenna or tune to
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a quiet frequency with no signals. With WSJT-X running in one of the
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slow modes, select *Measure reference spectrum* from the *Tools* menu.
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@ -74,7 +74,109 @@ Wait for about a minute and then hit the *Stop* button. A file named
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[ ... TBD ... ]
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=== Equalization
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=== Phase Response and Equalization
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[ ... TBD ... ]
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*Measure phase response* under the *Tools* menu is for advanced
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MSK144 users. Phase equalization is used to compensate for group-delay
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variation across the passband of receiver filters. Careful application
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of this facility can reduce intersymbol interference, resulting in
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improved decoding sensitivity.
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If you use a software-defined receiver with linear-phase
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filters there is no need to apply phase equalization.
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After a received frame is decoded *Measure phase response* generates
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an undistorted waveform whose Fourier transform is used as a
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frequency-dependent phase reference to compare with the phase of the
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received frame's Fourier coefficients.
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Phase differences between the reference
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and the received waveform include contributions from the
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originating station's transmit filter, the propagation channel, and filters
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in the receiver. If the received frame originates from a station known
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to transmit signals having little phase distortion (say, a station known
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to use a properly adjusted software-defined-transceiver) and if the
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received signal is relatively free from multipath distortion so that the
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channel phase is close to linear, the measured phase differences will be
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representative of the local receiver's phase response.
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Complete the following steps to generate a phase equalization curve:
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- Record a number of wav files that contain decodable signals from your chosen
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reference station. Best results will be obtained when the SNR of the
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reference signals is at least 9 dB.
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- Enter the callsign of the reference station in the DX Call box.
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- Select *Measure phase response* from the *Tools* menu, and process
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the wav files. The mode character will change from `&` to `^` while _WSJT-X_
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is measuring the phase response and it will change back to `&` after the
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measurement is completed. The program needs to average a number
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of high-SNR frames to accurately estimate the phase, so it may be necessary
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to process several wav files. The measurement can be aborted at any time
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by selecting *Measure phase response* again to toggle the phase measurement
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off.
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When the measurement is complete _WSJT-X_ will save the measured phase response
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in the *Log directory*, in a file with suffix ".pcoeff". The filename will
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contain the callsign of the reference station and a timestamp.
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For example: K0TPP_170923_112027.pcoeff
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- Select *Equalization tools ...* under the *Tools* menu and click the
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*Phase ...* button to view the contents of the *Log directory*. Select
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the desired pcoeff file. The measured phase values will be plotted as discrete
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circles along with a fitted curve labeled "Proposed". This is the
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proposed phase equalization curve. It's a good idea to repeat the
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phase measurement several times, using different wav files for each
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measurement, to ensure that your measurements are
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repeatable.
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- Once you are satisfied with a fitted curve, push the *Apply* button
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to save the proposed response. The red curve will be replaced with a
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light green curve labeled "Current" to indicate that the phase equalization
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curve is now being applied to the received data. Another curve labeled
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"Group Delay" will appear. The "Group Delay" curve shows the group delay
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variation across the passband, in ms.
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The three numbers that are printed at the end of each MSK144 decode line
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can be used to assess the improvement provided by equalization. These numbers
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`N` `H` `E` are:
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`N` - Number of frames averaged,
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`H` - Number of bit errors corrected,
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`E` - Size of MSK eye diagram opening.
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Here is a decode of K0TPP obtained while *Measure phase response* was measuring
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the phase response:
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103900 17 6.5 1493 ^ WA8CLT K0TPP +07 1 0 1.2
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The "^" symbol indicates that a phase measurement is being accumulated. The
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three numbers at the end of the line indicate that one frame was
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used to obtain the decode, there were no bit errors, and the
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eye-opening was 1.2. Here's how the same decode looks after phase equalization:
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103900 17 6.5 1493 & WA8CLT K0TPP +07 1 0 1.6
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In this case, equalization has increased the eye opening from 1.2 to 1.6.
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Larger eye openings are associated with reduced likelihood of bit errors and
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higher likelihood that a frame will be successfully decoded.
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In this case, the larger eye-opening
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tells us that phase equalization was successful, but it is important to note
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that this test does not tell us whether the applied phase equalization curve
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is going to improve decoding of signals other than those from the reference
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station, K0TPP!
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We strongly advise you to carry out before and after comparisons
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using a large number of saved wav files with signals from many different
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stations to decide whether or not the equalization curve improves decoding for most
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signals. When doing before and after comparisons, keep in mind that
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equalization may cause _WSJT-X_ to successfully decode a frame
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that was not decoded before equalization was applied.
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For this reason, be sure that the time "T" of
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the two decodes are the same before comparing their end-of-line quality numbers.
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When comparing before and after decodes having the same "T", keep in mind
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that a smaller first number means that decoding has improved, even if the
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second and third numbers appear to be "worse". For example, suppose that the quality
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numbers before equalization are "2 0 0.2" and after equalization
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"1 5 -0.5". These numbers show improved decoding because
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the decode was obtained using only a single
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frame after equalization whereas a 2-frame average was needed before equalization.
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