As I read it, the USB signal was generated at 455Kc and then mixed up to
9Mc, thus giving a USB 9Mc signal. The VFO was then in thr 4.0-5.3Mc
range. And that was added or subtracted...
On Thu, 17 Jun 2004 8:02pm, Vic Rosenthal wrote:
Leigh L. Klotz, Jr. wrote:
I just picked up a copy of the June CQ in the airport bookshop and
p.28 has a sidebar by K2MGA (CQ Publisher) on the history of SSB:
Regardless of how the SSB signal was
generated, the 455 kc USB signal was mixed up
to 9 Mc. Using a converted war-surplus
BC-458 transmitter...as a VFO, the
4.0 to 5.3 Mc output was either added
to or subtracted from the 9Mc SSB
signal. That produced a USB signal on
20 meters or an LSB signal on 75 meters.
This is just wrong. Say you generate a USB signal at 9 MHz from a 1
KHz
audio tone. The (suppressed) carrier of the generated USB signal is at
9.000 MHz and the upper sideband is at 9.001 Mhz. Then mixing with a
5.0 MHz VFO would give sum frequencies of 14.000 and 14.001 MHz as well
as differences of 4.000 and 4.001 MHz. This is USB in both cases.
Of course, the VFO would tune in opposite directions.
Even a CW operator like me can add and subtract!
--
73,
Vic, K2VCO
Fresno CA
http://www.qsl.net/k2vco
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73,
WA5ZNU Leigh
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