Re: Elecraft Digest, Vol 49, Issue 52
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Good Morning Ian,
This could be a good short piece in RadCom 73 Alan G0HIQ --- On Sun, 25/5/08, [hidden email] <[hidden email]> wrote: Message: 1 Date: Sat, 24 May 2008 09:03:49 +0100 From: Ian White GM3SEK <[hidden email]> Subject: Re: [Elecraft] USB on all bands ?? This is a classic detective story, with more than the usual share of red herrings! ....... __________________________________________________________ Sent from Yahoo! Mail. A Smarter Email http://uk.docs.yahoo.com/nowyoucan.html _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
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Hello ALan
>Good Morning Ian, > >This could be a good short piece in RadCom > Been there, done that (or most of it) when the Editor asked for "something historical" for the July 2003 RSGB Anniversary issue. The information about 10MHz came along later, from amateurs who were personally involved with the international ISB links. The UK had a world-wide network of links between Commonwealth countries at that time, using transmitters supplied by Marconi, and thus had a very large influence on the international standards that emerged. What amazes me is the persistence of the belief that it's all because a 9MHz SSB generator and a 5MHz VFO produce opposite sidebands on 14MHz and 3.5MHz. Anyone who can rub two numbers together can see that isn't true... but that makes no difference at all. -- 73 from Ian GM3SEK _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
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Ian White GM3SEK wrote:
>Hello ALan > >>Good Morning Ian, >> >>This could be a good short piece in RadCom >> >Been there, done that (or most of it) Sorry, that wasn't intended for the whole list. -- 73 from Ian GM3SEK _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
Re: Re: Elecraft Digest, Vol 49, Issue 52
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In reply to this post by gm3sek
9+5.0=14.0. 9+5.5=14.5. 9-5.0=4.0. 9-5.5=3.5. Sorry, I don't see how that isn't true. I'm sure I can also recall some published transceiver designs that took advantage of this fact to provide two band coverage using a single VFO and 9MHz IF.
Julian, G4ILO. K2 #392 K3 #222 KX3 #110
* G4ILO's Shack - http://www.g4ilo.com * KComm - http://www.g4ilo.com/kcomm.html * KTune - http://www.g4ilo.com/ktune.html |
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G4ILO wrote:
> > >GM3SEK wrote: >> >> What amazes me is the persistence of the belief that it's all because a >> 9MHz SSB generator and a 5MHz VFO produce opposite sidebands on 14MHz >> and 3.5MHz. Anyone who can rub two numbers together can see that isn't >> true... but that makes no difference at all. >> >9+5.0=14.0. 9+5.5=14.5. >9-5.0=4.0. 9-5.5=3.5. > >Sorry, I don't see how that isn't true. I'm sure I can also recall some >published transceiver designs that took advantage of this fact to provide >two band coverage using a single VFO and 9MHz IF. This particular mixing process gives 3.5MHz and 14MHz very conveniently - but it gives the SAME sideband on both bands. Imagine a phasing-type SSB generator with a 9.000MHz suppressed carrier frequency. When configured for USB, an audio tone at 1kHz gives output in the upper sideband, at 9.001MHz. Then: 9.001 + 5.300 = 14.301 - that's 14.300MHz USB 9.001 - 5.300 = 3.701 - that's 3.700MHz USB We have the SAME sideband on both 20m and 80m! To swap sidebands in this example requires the SSB generator to be switched to LSB. With a 1kHz tone, the output switches to 8.999MHz. Then the same calculations give: 8.999 + 5.300 = 14.299 - that's 14.300MHz LSB 8.999 - 5.300 = 3.699 - that's 3.700MHz LSB Once again, we get the SAME sideband on both 20m and 80m. A 9MHz filter exciter is slightly different, because it's the filter passband that is centred on 9.000MHz. Such exciters swap sidebands by switching between carrier oscillators. For USB the CO is below the filter passband at 8.9985MHz, or for LSB the CO is above the filter at 9.0015MHz. The arithmetic is a bit more messy, but the result is exactly the same - generating SSB at 9MHz does NOT automatically swap sidebands between 80m and 20m. That is clear mathematical proof that the 9MHz SSB exciters were NOT responsible for the ham USB/LSB convention. On the contrary, when changing between 20m and 80m they were forced to switch sidebands at 9MHz in order to *follow* that convention! There is also plenty of historical proof that the USB/LSB convention had been in existence for several years before the first published 9MHz design came along in 1956. -- 73 from Ian GM3SEK 'In Practice' columnist for RadCom (RSGB) http://www.ifwtech.co.uk/g3sek _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
Re: Elecraft Digest, Vol 49, Issue 52
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It does not give the same sideband on 80 and 20. You
also have to consider that the rotation of the tuning capacitor of the VFO turns the opposite direction for 20 as it does for 80. You will find this on the dial of many pre 1970 commercial offerings. Everyone needs to use one of the old SSB rigs for a few days to appreciate how good even the worst of today's rigs are. Then use a crystal controlled one or two tube transmitter and a 40s or 50s affordable receiver like a S-38 or NC-53 and appreciate how good the 60s SSB rigs were compared to the 40s and 50s. Cookie, K5EWJ --- Ian White GM3SEK <[hidden email]> wrote: > G4ILO wrote: > > > > > >GM3SEK wrote: > >> > >> What amazes me is the persistence of the belief > that it's all because a > >> 9MHz SSB generator and a 5MHz VFO produce > opposite sidebands on 14MHz > >> and 3.5MHz. Anyone who can rub two numbers > together can see that isn't > >> true... but that makes no difference at all. > >> > >9+5.0=14.0. 9+5.5=14.5. > >9-5.0=4.0. 9-5.5=3.5. > > > >Sorry, I don't see how that isn't true. I'm sure I > can also recall some > >published transceiver designs that took advantage > of this fact to provide > >two band coverage using a single VFO and 9MHz IF. > > This particular mixing process gives 3.5MHz and > 14MHz very conveniently > - but it gives the SAME sideband on both bands. > > Imagine a phasing-type SSB generator with a 9.000MHz > suppressed carrier > frequency. When configured for USB, an audio tone at > 1kHz gives output > in the upper sideband, at 9.001MHz. Then: > > 9.001 + 5.300 = 14.301 - that's 14.300MHz USB > 9.001 - 5.300 = 3.701 - that's 3.700MHz USB > > We have the SAME sideband on both 20m and 80m! > > To swap sidebands in this example requires the SSB > generator to be > switched to LSB. With a 1kHz tone, the output > switches to 8.999MHz. Then > the same calculations give: > 8.999 + 5.300 = 14.299 - that's 14.300MHz LSB > 8.999 - 5.300 = 3.699 - that's 3.700MHz LSB > > Once again, we get the SAME sideband on both 20m and > 80m. > > A 9MHz filter exciter is slightly different, because > it's the filter > passband that is centred on 9.000MHz. Such exciters > swap sidebands by > switching between carrier oscillators. For USB the > CO is below the > filter passband at 8.9985MHz, or for LSB the CO is > above the filter at > 9.0015MHz. The arithmetic is a bit more messy, but > the result is exactly > the same - generating SSB at 9MHz does NOT > automatically swap sidebands > between 80m and 20m. > > That is clear mathematical proof that the 9MHz SSB > exciters were NOT > responsible for the ham USB/LSB convention. On the > contrary, when > changing between 20m and 80m they were forced to > switch sidebands at > 9MHz in order to *follow* that convention! There is > also plenty of > historical proof that the USB/LSB convention had > been in existence for > several years before the first published 9MHz design > came along in 1956. > > > > > -- > > 73 from Ian GM3SEK 'In Practice' columnist > for RadCom (RSGB) > http://www.ifwtech.co.uk/g3sek > _______________________________________________ > Elecraft mailing list > Post to: [hidden email] > You must be a subscriber to post to the list. > Subscriber Info (Addr. Change, sub, unsub etc.): > http://mailman.qth.net/mailman/listinfo/elecraft > > > Help: http://mailman.qth.net/subscribers.htm > Elecraft web page: http://www.elecraft.com > _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
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WILLIS COOKE wrote:
>It does not give the same sideband on 80 and 20. You also have to >consider that the rotation of the tuning capacitor of the VFO turns the >opposite direction for 20 as it does for 80. The direction of tuning is not what inverts the sideband. The only thing that inverts the sideband is if the SSB frequency is subtracted in the mixing process. So: 9MHz USB + 5MHz VFO = 14MHz USB 9MHz USB - 5MHz VFO = 4MHz USB - sideband is not inverted. But in Norgaard's 'New Approach to SBB Generation' in QST, June 1948, the SSB is generated on 5MHz and the VFO is around 9MHz, so: 9MHz VFO + 5MHz USB = 14MHz USB 9MHz VFO minus 5MHz USB = 4MHz **LSB** - now the sideband is inverted. If anyone is still in doubt about this, words aren't going to help any more. Please take a few minutes with a pencil and a calculator, punch in some numbers and verify it for yourself. -- 73 from Ian GM3SEK 'In Practice' columnist for RadCom (RSGB) http://www.ifwtech.co.uk/g3sek _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
9MHz IF +/- 5MHz VFO -- sideband inversion
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In reply to this post by WILLIS COOKE
On May 25, 2008, at 7:50 AM, WILLIS COOKE wrote: > It does not give the same sideband on 80 and 20. Actually, it does. Imagine you are generating your sideband at a 9MHz IF. In the IF you are generating USB, i.e. you have a 9MHz carrier and 1KHz and 1.2KHz tones injected to the mic jack. This produced a spectrum at 9MHz of: 9000.0 KHz - carrier (suppressed) 9001.0 KHz - first tone 9001.2 KHz - second tone. Now we mix subtractively with 5100 KHz to produce a result in the 80M band: 9000.0 - 5100 = 3900.0 KHz 9001.0 - 5100 = 3901.0 KHz 9001.2 - 5100 = 3901.2 KHz Notice that the spectral lines are above the carrier in increasing frequency. That is USB. Now let's repeat this using additive mixing to get 20M. 9000.0 + 5100 = 14100.0 KHz 9001.0 + 5100 = 14101.0 KHz 9001.2 + 5100 = 14101.2 KHz The spectral lines are still above the carrier indicating USB. Now if you repeat the process by setting the VFO to 5500.0 KHz you will see that the radio would tune to a lower frequency on 80M while tuning to a higher frequency on 20M thus indicating that the radio tunes "backwards" for 80M but in both cases it still produces an USB signal. -- 73 de Brian, WB6RQN Brian Lloyd - brian HYPHEN wb6rqn AT lloyd DOT com _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
Re: Elecraft Digest, Vol 49, Issue 52
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In reply to this post by gm3sek
I think that you have the answer to the riddle Ian. 9
megacycle filters were not available until about 1960 with the second generation of transceivers. By the time of Galaxy 3 and 5, NCX-5, Swan 350, etc the need for the USB/LSB selection was passed, but we stayed with the tradition. I have seen some remarks that would indicate that the Elecraft is unique in being able to select the sideband, but I have not had a transceiver that would not. Even back to the Hammarlund HX-50, if I remember correctly one could select the sideband. I know on the two transceivers I have in the shack, Kwd TS-850 and Yaesu FT-900 when you select SSB it puts you on the preferred sideband, but if you press the button again it puts you on the other sideband. Cookie, K5EWJ --- Ian White GM3SEK <[hidden email]> wrote: > WILLIS COOKE wrote: > >It does not give the same sideband on 80 and 20. > You also have to > >consider that the rotation of the tuning capacitor > of the VFO turns the > >opposite direction for 20 as it does for 80. > > The direction of tuning is not what inverts the > sideband. > > The only thing that inverts the sideband is if the > SSB frequency is > subtracted in the mixing process. So: > > 9MHz USB + 5MHz VFO = 14MHz USB > > 9MHz USB - 5MHz VFO = 4MHz USB - sideband is not > inverted. > > But in Norgaard's 'New Approach to SBB Generation' > in QST, June 1948, > the SSB is generated on 5MHz and the VFO is around > 9MHz, so: > > 9MHz VFO + 5MHz USB = 14MHz USB > > 9MHz VFO minus 5MHz USB = 4MHz **LSB** - now the > sideband is inverted. > > If anyone is still in doubt about this, words aren't > going to help any > more. Please take a few minutes with a pencil and a > calculator, punch in > some numbers and verify it for yourself. > > > -- > > 73 from Ian GM3SEK 'In Practice' columnist > for RadCom (RSGB) > http://www.ifwtech.co.uk/g3sek > _______________________________________________ > Elecraft mailing list > Post to: [hidden email] > You must be a subscriber to post to the list. > Subscriber Info (Addr. Change, sub, unsub etc.): > http://mailman.qth.net/mailman/listinfo/elecraft > > > Help: http://mailman.qth.net/subscribers.htm > Elecraft web page: http://www.elecraft.com > Willis 'Cookie' Cooke K5EWJ _______________________________________________ Elecraft mailing list Post to: [hidden email] You must be a subscriber to post to the list. Subscriber Info (Addr. Change, sub, unsub etc.): http://mailman.qth.net/mailman/listinfo/elecraft Help: http://mailman.qth.net/subscribers.htm Elecraft web page: http://www.elecraft.com |
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