2016-10-19 16:03:05 -04:00
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_WSJT-X_ v1.7 introduces a number of new features designed for use
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on the VHF and higher bands. These features now include:
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2016-10-14 11:12:36 -04:00
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- *JT4*, a mode particularly useful for EME on the microwave bands
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2016-10-19 16:03:05 -04:00
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- *JT9* fast modes, useful for scatter propagation on VHF bands
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- *QRA64*, a mode for EME using a "`Q-ary Repeat Accumulate`" code,
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2016-10-24 09:37:15 -04:00
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a low-density parity-check (LDPC) code using a 64-character symbol
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2016-10-14 11:12:36 -04:00
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alphabet
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2016-10-17 16:51:16 -04:00
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- *MSK144*, a mode for meteor scatter using a binary LDPC code and
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2016-10-19 16:03:05 -04:00
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Offset Quadrature Phase-Shift Keying (OQPSK). The resulting waveform
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is sometimes called Minimum Shift Keying (MSK).
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2016-10-14 11:12:36 -04:00
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2016-10-17 16:51:16 -04:00
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- *ISCAT*, intended for aircraft scatter and other types of scatter
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propagation
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2016-10-14 11:12:36 -04:00
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- *Echo* mode, for detecting and measuring your own lunar echoes
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2015-11-20 21:34:20 -05:00
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2016-10-19 16:03:05 -04:00
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- *Doppler tracking*, which becomes increasingly important for EME
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on bands above 1.2 GHz.
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2016-10-17 16:51:16 -04:00
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2016-10-19 16:03:05 -04:00
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- *Auto-sequencing* of transmitted messages for the fast modes with
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forward error control
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[[VHF_SETUP]]
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=== VHF Setup
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2015-11-20 21:34:20 -05:00
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2016-10-14 11:12:36 -04:00
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To activate the VHF-and-up features:
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2015-11-20 21:34:20 -05:00
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2016-10-22 16:08:57 -04:00
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- On the *Settings | General* tab check *Enable VHF/UHF/Microwave
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features* and *Single decode*.
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2016-10-14 11:12:36 -04:00
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2016-10-22 16:08:57 -04:00
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- For EME, check *Decode at t = 52 s* to allow for extra path delay on
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received signals.
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2016-10-14 11:12:36 -04:00
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2016-10-14 16:36:34 -04:00
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- If you will use automatic Doppler tracking and your radio accepts
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2016-10-19 16:03:05 -04:00
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frequency-setting commands while transmitting, check *Allow Tx
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2016-10-19 09:45:59 -04:00
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frequency changes while transmitting*. Transceivers known to permit
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2016-10-26 11:36:22 -04:00
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such changes include the IC-735, IC-756 Pro II, IC-910-H, FT-847,
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TS-590S, TS-590SG, TS-2000 (with Rev 9 or later firmware upgrade),
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Flex 1500 and 5000, HPSDR, Anan-10, Anan-100, and KX3. To gain full
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benefit of Doppler tracking your radio should allow frequency changes
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under CAT control in 1 Hz steps.
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2016-10-14 16:36:34 -04:00
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2016-10-26 11:36:22 -04:00
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NOTE: If your radio does not accept commands to change frequency
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2016-10-22 16:08:57 -04:00
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while transmitting, Doppler tracking will be approximated with a
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single Tx frequency adjustment before a transmission starts, using a
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value computed for the middle of the Tx period.
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2015-11-20 21:34:20 -05:00
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2016-10-19 16:03:05 -04:00
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- On the *Radio* tab select *Split Operation* (use either *Rig* or
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*Fake It*; you may need to experiment with both options to find one
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that works best with your radio).
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2015-11-20 21:34:20 -05:00
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2016-10-22 16:08:57 -04:00
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- On the right side of the main window select *Tab 1* to present the
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traditional format for entering and choosing Tx messages.
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2016-10-19 16:51:30 -04:00
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2016-10-19 16:03:05 -04:00
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The main window will reconfigure itself as necessary to display
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controls supporting the features of each mode.
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2015-11-20 21:34:20 -05:00
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2016-10-17 16:51:16 -04:00
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- If you are using transverters, set appropriate frequency offsets on
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the *Settings | Frequencies* tab. Offset is defined as (transceiver
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dial reading) minus (on-the-air frequency). For example, when using a
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144 MHz radio at 10368 MHz, *Offset (MHz)* = (144 - 10368) =
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-10224.000. If the band is already in the table, you can edit the
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offset by double clicking on the offset field itself. Otherwise a new
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band can be added by right clicking in the table and selecting
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*Insert*.
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image::Add_station_info.png[align="center",alt="Station information"]
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2015-11-20 21:34:20 -05:00
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- On the *View* menu, select *Astronomical data* to display a window
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with important information for tracking the Moon and performing
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2016-10-22 16:08:57 -04:00
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automatic Doppler control. The right-hand portion of the window
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becomes visible when you check *Doppler tracking*.
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2015-11-20 21:34:20 -05:00
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image::Astronomical_data.png[align="center",alt="Astronomical data"]
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2016-10-14 11:12:36 -04:00
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Three different types of Doppler tracking are provided:
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2015-11-20 21:34:20 -05:00
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2016-10-14 11:12:36 -04:00
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- Select *Full Doppler to DX Grid* if you know your QSO partner's locator
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2015-11-20 21:34:20 -05:00
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and he/she will not be using any Doppler control.
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2016-10-14 11:12:36 -04:00
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- Select *Receive only* to enable EME Doppler tracking of your receive
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2016-10-19 16:03:05 -04:00
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frequency to a specific locator. Your Tx frequency will remain fixed.
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2016-09-08 13:04:18 -04:00
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2016-10-22 16:08:57 -04:00
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- Select *Constant frequency on Moon* to correct for your own one-way
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2015-11-20 21:34:20 -05:00
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Doppler shift to or from the Moon. If your QSO partner does the same
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thing, both stations will have the required Doppler compensation.
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Moreover, anyone else using this option will hear both of you
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2016-10-19 16:03:05 -04:00
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without the need for manual frequency changes.
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2015-11-20 21:34:20 -05:00
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2016-10-22 16:08:57 -04:00
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- See <<ASTRODATA,Astronomical Data>> for details on the quantities
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displayed in this window.
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2016-10-19 09:45:59 -04:00
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=== JT4
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2015-11-20 21:34:20 -05:00
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2016-10-22 16:08:57 -04:00
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JT4 is designed especially for EME on the microwave bands, 2.3 GHz and
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above.
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2015-11-20 21:34:20 -05:00
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2016-10-19 16:03:05 -04:00
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- Select *JT4* from the *Mode* menu. The central part of the main
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window will look something like this:
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2015-11-20 21:34:20 -05:00
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2016-10-19 16:03:05 -04:00
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image::VHF_controls.png[align="center",alt="VHF Controls"]
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2015-11-20 21:34:20 -05:00
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2016-10-19 16:03:05 -04:00
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- Select the desired *Submode*, which determines the spacing of
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transmitted tones. Wider spacings are used on the higher microwave
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bands to allow for larger Doppler spreads. For example, submode JT4F
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is generally used for EME on the 5.7 and 10 GHz bands.
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- For EME QSOs some operators use short-form JT4 messages consisting
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of a single tone. To activate automatic generation of these messages,
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check the box labeled *Sh*.
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2015-11-20 21:34:20 -05:00
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2016-10-24 13:01:47 -04:00
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- Select *Deep* from the *Decode* menu. You may also choose to
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*Enable averaging* over successive transmissions and/or *Enable deep
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2016-12-16 11:26:01 -05:00
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search* (correlation decoding).
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2016-10-19 16:03:05 -04:00
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2016-12-16 11:26:01 -05:00
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image::decode-menu.png[align="center",alt="Decode Menu"]
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2015-11-20 21:34:20 -05:00
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2016-10-24 13:01:47 -04:00
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The following screen shot shows one transmission from a 10 GHz EME
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QSO using submode JT4F.
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image::JT4F.png[align="center",alt="JT4F"]
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2015-11-20 21:34:20 -05:00
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2016-10-19 09:45:59 -04:00
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=== JT65
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2016-09-08 13:04:18 -04:00
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2016-10-24 16:48:24 -04:00
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In many ways JT65 operation on VHF and higher bands is similar to HF
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usage, but a few important differences should be noted. Typical
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VHF/UHF operation involves only a single signal (or perhaps two or
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three) in the receiver passband. You may find it best to check
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*Single decode* on the *Settings -> General* tab. There will be
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little need for *Two pass decoding* on the *Advanced* tab. With VHF
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features enabled the JT65 decoder will respond to special message
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formats often used for EME: the OOO signal report and two-tone
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shorthand messages for RO, RRR, and 73. These messages are always
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enabled for reception; they will be automatically generated for
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transmission if you check the shorthand message box *Sh*.
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2016-11-02 11:01:33 -04:00
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Be sure to check *Deep* on the *Decode* menu; you may optionally
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2016-10-24 16:48:24 -04:00
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include *Enable averaging* and *Deep search*.
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The following screen shot shows three transmissions from a 144 MHz EME
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QSO using submode JT65B and shorthand messages. Take note of the
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colored tick marks on the Wide Graph frequency scale. The green
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marker at 1220 Hz indicates the selected QSO frequency (the frequency
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of the JT65 Sync tone) and the *F Tol* range. A green tick at 1575 Hz
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marks the frequency of the highest JT65 data tone. Orange markers
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indicate the frequency of the upper tone of the two-tone signals for
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RO, RRR, and 73.
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image::JT65B.png[align="center",alt="JT65B"]
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2016-09-08 13:04:18 -04:00
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2016-10-19 09:45:59 -04:00
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=== QRA64
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2016-09-08 13:04:18 -04:00
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2016-12-15 15:09:06 -05:00
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QRA64 is an experimental mode in Version 1.7 of _WSJT-X_. The mode is
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designed especially for EME on VHF and higher bands; its operation is
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generally similar to JT65. The following screen shot shows an example
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of a QRA64C transmission from DL7YC recorded at G3WDG over the EME
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path at 24 GHz. Doppler spread on the path was 78 Hz, so although the
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signal is reasonably strong its tones are broadened enough to make
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them hard to see on the waterfall. The red curve shows that the
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decoder has achieved synchronization with a signal at approximately
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967 Hz.
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2016-10-24 16:48:24 -04:00
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image::QRA64.png[align="center",alt="QRA64"]
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2016-09-08 13:04:18 -04:00
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2016-11-28 14:06:25 -05:00
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The QRA64 decoder makes no use of a callsign database. Instead, it
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2016-12-15 15:09:06 -05:00
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takes advantage of _a priori_ (AP) information such as the one's own
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callsign and the encoded form of message word `CQ`. In normal usage,
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as a QSO progresses the available AP information increases to include
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the callsign of the station being worked and perhaps also his/her
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4-digit grid locator. The decoder always begins by attempting to
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decode the full message using no AP information. If this attempt
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fails, additional attempts are made using available AP information to
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provide initial hypotheses about the message content. At the end of
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each iteration the decoder computes the extrinsic probability of the
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most likely value for each of the message's 12 six-bit information
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symbols. A decode is declared only when the total probability for all
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12 symbols has converged to an unambiguous value very close to 1.
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TIP: In _WSJT-X_ Version 1.7 QRA64 is different from JT65 in that the
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decoder attempts to find and decode only a single signal in the
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receiver passband. If many signals are present you may be able to
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decode them by double-clicking on the lowest tone of each one in the
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waterfall. A multi-decoder like those for JT65 and JT9 has not
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yet been written.
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2016-11-28 14:06:25 -05:00
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2016-10-21 16:24:42 -04:00
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=== ISCAT
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ISCAT is a useful mode for signals that are weak but more or less
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2016-10-25 14:04:33 -04:00
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steady in amplitude over several seconds or longer. Aircraft scatter
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2016-10-21 16:24:42 -04:00
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at 10 GHz is a good example. ISCAT messages are free-format and may
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2016-10-25 14:04:33 -04:00
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have any length from 1 to 28 characters. This protocol includes no
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2016-10-21 16:24:42 -04:00
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error-correction facility.
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2016-10-21 14:07:12 -04:00
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=== MSK144
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2016-09-08 13:04:18 -04:00
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2016-10-21 14:07:12 -04:00
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Meteor-scatter QSOs can be made any time on the VHF bands at distances
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up to about 2100 km (1300 miles). Completing a QSO takes longer in
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the evening than in the morning, longer at higher frequencies, and
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2016-10-25 14:04:33 -04:00
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longer at distances close to the upper limit. But with patience, 100
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Watts or more, and a single yagi it can usually be done. The
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following screen shot shows two 15-second MSK144 transmissions from
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W5ADD during a 50 MHz QSO with K1JT, at a distance of about 1800 km
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(1100 mi). The decoded segments have been encircled on the *Fast
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Graph* spectral display.
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2016-10-17 16:51:16 -04:00
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2016-10-25 14:04:33 -04:00
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image::MSK144.png[align="center",alt="MSK144"]
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2016-10-31 13:23:51 -04:00
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Unlike other _WSJT-X_ modes, the MSK144 decoder operates in real time
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2016-10-25 14:04:33 -04:00
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during the reception sequence. Decoded messages will appear on your
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screen almost as soon as you hear them.
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To configure _WSJT-X_ for MSK144 operation:
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2016-10-17 16:51:16 -04:00
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2016-10-21 14:07:12 -04:00
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- Select *MSK144* from the *Mode* menu.
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2016-10-17 16:51:16 -04:00
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2016-10-21 14:07:12 -04:00
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- Select *Fast* from the *Decode* menu.
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- Set the audio receiving frequency to *Rx 1500 Hz*.
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- Set frequency tolerance to *F Tol 100*.
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- Set the *T/R* sequence duration to 15 s.
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- To match decoding depth to your computer's capability, click
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2016-10-25 14:04:33 -04:00
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*Monitor* (if it's not already green) to start a receiving sequence.
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2016-11-14 10:57:15 -05:00
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Observe the percentage figure displayed on the _Receiving_ label in
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the Status Bar:
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2016-10-17 16:51:16 -04:00
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image::Rx_pct_MSK144.png[align="center",alt="MSK144 Percent CPU"]
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2016-11-14 10:57:15 -05:00
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- The displayed number (here 17%) indicates the fraction of available
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time being used for execution of the MSK144 real-time decoder. If
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this number is well below 100% you may increase the decoding depth
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from *Fast* to *Normal* or *Deep*, and increase *F Tol* from 100 to
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200 Hz.
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NOTE: Most modern multi-core computers can easily handle the optimum
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parameters *Deep* and *F Tol 200*. Older and slower machines may not
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be able to keep up at these settings; at the *Fast* and *Normal*
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settings there will be a small loss in decoding capability (relative
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to *Deep*) for the weakest pings.
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2016-10-17 16:51:16 -04:00
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2016-10-25 14:04:33 -04:00
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- T/R sequences of 15 seconds or less requires selecting your
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2016-10-21 14:07:12 -04:00
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transmitted messages very quickly. Check *Auto Seq* to have the
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2016-10-25 14:04:33 -04:00
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computer make the necessary decisions automatically, based on the
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messages received.
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- For operation at 144 MHz or above you may find it helpful to use
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short-format *Sh* messages for Tx3, Tx4, and Tx5. These messages are
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20 ms long, compared with 72 ms for full-length MSK144 messages.
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Their information content is a 12-bit hash of the two callsigns,
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rather than the callsigns themselves, plus a 4-bit numerical report,
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acknowledgment (RRR), or sign-off (73). Only the intended recipient
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can decode short-messages. They will be displayed with the callsigns
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enclosed in <> angle brackets, as in the following model QSO
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CQ K1ABC FN42
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K1ABC W9XYZ EN37
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W9XYZ K1ABC +02
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<K1ABC W9XYZ> R+03
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<W9XYZ K1ABC> RRR
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<K1ABC W9XYZ> 73
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2016-10-17 16:51:16 -04:00
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2016-10-19 16:51:30 -04:00
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2016-10-26 11:36:22 -04:00
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NOTE: There is little or no advantage to using MSK144 *Sh*
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2016-10-25 14:04:33 -04:00
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messages at 50 or 70 MHz. At these frequencies, most pings are long
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enough to support standard messages -- which have the advantage of
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being readable by anyone listening in.
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2016-09-08 13:04:18 -04:00
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2016-12-17 21:46:04 -05:00
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- A special *Contest Mode* for MSK144 can be activated by checking a
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box on the *Settings | Advanced* tab. This mode is configured
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especially for VHF contests in which four-character grid locators are
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the required exchange. When *Contest Mode* is active, the standard QSO
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sequence looks like this:
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CQ K1ABC FN42
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K1ABC W9XYZ EN37
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W9XYZ K1ABC R FN42
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K1ABC W9XYZ RRR
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W9XYZ K1ABC 73
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In contest circumstances K1ABC might choose to call CQ again rather
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than sending 73 for his third transmission.
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2015-11-20 21:34:20 -05:00
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=== Echo Mode
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*Echo* mode allows you to make sensitive measurements of your own
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2016-10-19 16:51:30 -04:00
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lunar echoes even when they are too weak to be heard. Select *Echo*
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2015-11-20 21:34:20 -05:00
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from the *Mode* menu, aim your antenna at the moon, pick a clear
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frequency, and toggle click *Tx Enable*. _WSJT-X_ will then cycle
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through the following loop every 6 seconds:
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1. Transmit a 1500 Hz fixed tone for 2.3 s
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2. Wait about 0.2 s for start of the return echo
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3. Record the received signal for 2.3 s
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4. Analyze, average, and display the results
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5. Repeat from step 1
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To make a sequence of echo tests:
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- Select *Echo* from the *Mode* menu.
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2016-10-19 16:51:30 -04:00
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- Check *Doppler tracking* and *Constant frequency on the Moon* on the
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Astronomical Data window.
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2015-11-20 21:34:20 -05:00
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2016-10-19 16:51:30 -04:00
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- Be sure that your rig control has been set up for _Split Operation_,
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using either *Rig* or *Fake It* on the *Settings | Radio* tab.
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2015-11-20 21:34:20 -05:00
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- Click *Enable Tx* on the main window to start a sequence of 6-second
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cycles.
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- _WSJT-X_ calculates and compensates for Doppler shift automatically.
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2016-10-25 14:04:33 -04:00
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As shown in the screen shot below, when proper Doppler corrections
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have been applied your return echo should always appear at the center
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of the plot area on the Echo Graph window.
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2015-11-20 21:34:20 -05:00
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image::echo_144.png[align="center",alt="Echo 144 MHz"]
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2016-10-27 14:13:30 -04:00
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=== VHF+ Sample Files
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Sample recordings typical of QSOs using the VHF/UHF/Microwave modes
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and features of _WSJT-X_ are available for
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<<DOWNLOAD_SAMPLES,download>>. New users of the VHF-and-up features
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are strongly encouraged to practice decoding the signals in these
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files.
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