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283 lines
11 KiB
Plaintext
283 lines
11 KiB
Plaintext
// Status=review
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=== Standard Exchange
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By longstanding tradition, a minimally valid QSO requires the exchange
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of callsigns, a signal report or some other information, and
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acknowledgments. _WSJT-X_ is designed to facilitate making such
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minimal QSOs using short, structured messages. The process works best
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if you use these formats and follow standard operating practices. The
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recommended basic QSO goes something like this:
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CQ K1ABC FN42 #K1ABC calls CQ
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K1ABC G0XYZ IO91 #G0XYZ answers
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G0XYZ K1ABC –19 #K1ABC sends report
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K1ABC G0XYZ R-22 #G0XYZ sends R+report
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G0XYZ K1ABC RRR #K1ABC sends RRR
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K1ABC G0XYZ 73 #G0XYZ sends 73
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*Standard messages* consist of two callsigns (or CQ, QRZ, or DE and
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one callsign) followed by the transmitting station’s grid locator, a
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signal report, R plus a signal report, or the final acknowledgements
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RRR or 73. These messages are compressed and encoded in a highly
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efficient and reliable way. In uncompressed form (as displayed
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on-screen) they may contain as many as 22 characters. Some operators
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prefer ro send RR73 rather than RRR. This is workable because RR73 is
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encoded as a valid grid locator, one unlikely ever to be occupied by
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an amateur station.
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*Signal reports* are specified as signal-to-noise ratio (S/N) in dB,
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using a standard reference noise bandwidth of 2500 Hz. Thus, in the
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example message above, K1ABC is telling G0XYZ that his
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signal is 19 dB below the noise power in bandwidth 2500 Hz. In the
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message at 0004, G0XYZ acknowledges receipt of that report and
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responds with a –22 dB signal report. JT65 reports are constrained to
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lie in the range –30 to –1 dB, and values are significantly compressed
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above about -10 dB. JT9 supports the extended range –50 to +49 dB and
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assigns more reliable numbers to relatively strong signals.
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NOTE: Signals become visible on the waterfall around S/N = –26 dB and
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audible (to someone with very good hearing) around –15 dB. Thresholds
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for decodability are around -20 dB for FT8, -23 dB for JT4, –25 dB for
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JT65, –27 dB for JT9.
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NOTE: Several options are available for circumstances where fast QSOs
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are desirable. Double-click the *Tx1* control under _Now_ or _Next_
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to toggle use of the Tx2 message rather than Tx1 to start a QSO.
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Similarly, double-click the *Tx4* control to toggle between sending
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`RRR` and `RR73` in that message. The `RR73` message should be used
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only if you are reasonably confident that no repetitions will be
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required.
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=== Free-Text Messages
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Users often add some friendly chit-chat at the end of a QSO.
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Free-format messages such as "`TNX ROBERT 73`" or "`5W VERT 73 GL`"
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are supported, up to a maximum of 13 characters, including spaces. In
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general you should avoid the character / in free-text messages, as the
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program may then try to interpret your construction as part of a
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compound callsign. It should be obvious that the JT4, JT9, and JT65
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protocols are not designed or well suited for extensive conversations
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or rag-chewing.
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=== Auto-Sequencing
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The 15-second T/R cycles of FT8 allow only about two seconds to inspect
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decoded messages and decide how to reply, which is often not enough.
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The slow modes JT4, JT9, JT65, and QRA64 allow nearly 10 seconds
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for this task, but operators may find that this is still insufficient
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when workload is high, especially on EME. For these reasons a basic
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auto-sequencing feature is offered.
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Check *Auto Seq* on the main window to enable this feature:
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image::auto-seq.png[align="center",alt="AutoSeq"]
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When calling CQ you may also choose to check the box *Call 1st*.
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_WSJT-X_ will then respond automatically to the first decoded
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responder to your CQ.
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NOTE: When *Auto-Seq* is enabled the program de-activates *Enable Tx*
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at the end of each QSO. It is not intended that _WSJT-X_ should make
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fully automated QSOs.
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=== Contest Messages
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The new FT8 and MSK144 protocols support special messages optimized
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for *NA VHF* and *EU VHF* contests. FT8 also supports messages for
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*ARRL Field Day* and the *ARRL RTTY Roundup*. The decoders recognize
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and decode these messages at any time. Configure the program to
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automatically generate the required message types by selecting a
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supported operating activity on the *Settings | Advanced* tab. Model
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QSOs then proceed as follows, for each event type:
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*NA VHF Contest*
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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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Either callsign (or both) may have /R appended. You can use RR73 in
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place of RRR, and the final 73 is optional.
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*EU VHF Contest*
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CQ TEST G4ABC IO91
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G4ABC PA9XYZ JO22
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PA9XYZ 570123 IO91NP
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G4ABC R 580071 JO22DB
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PA9XYZ G4ABC RR73
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Either callsign (or both) may have /P appended.
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*ARRL Field Day*
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CQ FD K1ABC FN42
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K1ABC W9XYZ 6A WI
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W9XYZ K1ABC R 2B EMA
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K1ABC W9XYZ RR73
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*ARRL RTTY Roundup*
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CQ RU K1ABC FN42
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K1ABC W9XYZ 579 WI
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W9XYZ K1ABC R 589 MA
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K1ABC W9XYZ RR73
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[[COMP-CALL]]
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=== Nonstandard Callsigns
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*FT8 and MSK144*
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Compound callsigns like xx/K1ABC or K1ABC/x and special event
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callsigns like YW18FIFA are supported for normal QSOs but not for
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contest-style messages. Model QSOs look something like this:
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CQ PJ4/K1ABC
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<PJ4/K1ABC> W9XYZ
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W9XYZ <PJ4/K1ABC> +03
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<PJ4/K1ABC> W9XYZ R-08
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<W9XYZ> PJ4/K1ABC RRR
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PJ4/K1ABC <W9XYZ> 73
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The compound or nonstandard callsigns are automatically recognized and
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handled using special message formats. One such callsign and one
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standard callsign may appear in most messages, provided that one of
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them is enclosed in < > angle brackets. If the message includes a
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grid locator or numerical signal report, the brackets must enclose the
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compound or nonstandard callsign; otherwise the brackets may be around
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either call.
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Angle brackets imply that the enclosed callsign is not transmitted in
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full, but rather as a hash code using a smaller number of bits.
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Receiving stations will display the full nonstandard callsign if it
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has been received in full in the recent past. Otherwise it will be
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displayed as < . . . >. These restrictions are honored automatically
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by the algorithm that generates default messages for minimal QSOs.
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Except for the special cases involving /P or /R used in VHF
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contesting, _WSJT-X {VERSION_MAJOR}.{VERSION_MINOR}_ offers no support
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for two nonstandard callsigns to work each other.
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TIP: Using a nonstandard callsign has definite costs. It restricts
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the types of information that can be included in a message. It
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prevents including your locator in standard messages, which
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necessarily impairs the usefulness of tools like PSK Reporter.
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*JT4, JT9, JT65, and QRA64*
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In the 72-bit modes, compound callsigns are handled in one of two
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possible ways:
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.Type 1 compound callsigns
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A list of about 350 of the most common prefixes and suffixes can be
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displayed from the *Help* menu. A single compound callsign involving
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one item from this list can be used in place of the standard third
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word of a message (normally a locator, signal report, RRR, or 73).
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The following examples are all acceptable messages containing *Type 1*
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compound callsigns:
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CQ ZA/K1ABC
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CQ K1ABC/4
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ZA/K1ABC G0XYZ
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G0XYZ K1ABC/4
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The following messages are _not_ valid, because a third word is not
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permitted in any message containing a *Type 1* compound callsign:
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ZA/K1ABC G0XYZ -22 #These messages are invalid; each would
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G0XYZ K1ABC/4 73 # be sent without its third "word"
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A QSO between two stations using *Type 1* compound-callsign messages
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might look like this:
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CQ ZA/K1ABC
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ZA/K1ABC G0XYZ
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G0XYZ K1ABC –19
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K1ABC G0XYZ R–22
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G0XYZ K1ABC RRR
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K1ABC G0XYZ 73
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Notice that the full compound callsign is sent and received in the
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first two transmissions. After that, the operators omit the add-on
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prefix or suffix and use the standard structured messages.
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.Type 2 Compound callsigns
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Prefixes and suffixes _not_ found in the displayable short list are
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handled by using *Type 2* compound callsigns. In this case the
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compound callsign must be the second word in a two- or three-word
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message, and the first word must be CQ, DE, or QRZ. Prefixes can be 1
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to 4 characters, suffixes 1 to 3 characters. A third word conveying a
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locator, report, RRR, or 73 is permitted. The following are valid
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messages containing *Type 2* compound callsigns:
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CQ W4/G0XYZ FM07
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QRZ K1ABC/VE6 DO33
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DE W4/G0XYZ FM18
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DE W4/G0XYZ -22
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DE W4/G0XYZ R-22
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DE W4/G0XYZ RRR
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DE W4/G0XYZ 73
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In each case, the compound callsign is treated as *Type 2* because the
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add-on prefix or suffix is _not_ one of those in the fixed list. Note
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that a second callsign is never permissible in these messages.
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NOTE: During a transmission your outgoing message is displayed in the
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first label on the *Status Bar* and shown exactly as another station
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will receive it. You can check to see that you are actually
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transmitting the message you wish to send.
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QSOs involving *Type 2* compound callsigns might look like either
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of the following sequences:
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CQ K1ABC/VE1 FN75
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K1ABC G0XYZ IO91
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G0XYZ K1ABC –19
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K1ABC G0XYZ R–22
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G0XYZ K1ABC RRR
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K1ABC/VE1 73
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CQ K1ABC FN42
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DE G0XYZ/W4 FM18
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G0XYZ K1ABC –19
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K1ABC G0XYZ R–22
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G0XYZ K1ABC RRR
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DE G0XYZ/W4 73
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Operators with a compound callsign use its full form when calling CQ
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and possibly also in a 73 transmission, as may be required by
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licensing authorities. Other transmissions during a QSO may use the
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standard structured messages without callsign prefix or suffix.
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TIP: If you are using a compound callsign, you may want to
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experiment with the option *Message generation for type 2 compound
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callsign holders* on the *Settings | General* tab, so that messages
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will be generated that best suit your needs.
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=== Pre-QSO Checklist
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Before attempting your first QSO with one of the WSJT modes, be sure
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to go through the <<TUTORIAL,Basic Operating Tutorial>> above as well
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as the following checklist:
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- Your callsign and grid locator set to correct values
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- PTT and CAT control (if used) properly configured and tested
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- Computer clock properly synchronized to UTC within ±1 s
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- Audio input and output devices configured for sample rate 48000 Hz,
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16 bits
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- Radio set to *USB* (upper sideband) mode
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- Radio filters centered and set to widest available passband (up to 5 kHz).
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TIP: Remember that in many circumstances FT8, JT4, JT9, JT65, and WSPR
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do not require high power. Under most HF propagation conditions, QRP
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is the norm.
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