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G8MNY > TECHNI 31.12.21 08:34l 148 Lines 6998 Bytes #999 (0) @ WW
BID : 57015_GB7CIP
Read: GAST
Subj: Simple 80m VFO
Path: DB0FFL<OE2XZR<OE5XBL<DB0RBS<DB0RES<PI8CDR<LU4ECL<JE7YGF<GB7CIP
Sent: 211231/0723Z @:GB7CIP.#32.GBR.EURO #:57015 [Caterham Surrey GBR]
From: G8MNY@GB7CIP.#32.GBR.EURO
To : TECH@WW
By G8MNY (Updated Jul 20)
(8 Bit ASCII graphics use code page 437 or 850, Terminal Font)
Being involved with course ham training with practicals, I have been doing all
the technical demos for the advanced course.
This is based on the requirement to calibrate a VFO as a radio practical task,
in the UK's intermediate ham course (for 50W 2E Licences). The circuit I used
is similar to the published design the RSGB course book. (but this one works
1st time with different Cap values & higher Q coil!)
Plugging in an optional 3.5MHz crystal & tuning to its osc frequency, shows
just how stable the crystal is in comparison to the VFO.
VFO CIRCUIT ÚÄÄÄÄÄÄÂÄÄ100êÄÄo +9V
FET d ³ ³ R1
120pF 470p UC734 ÃÄÄÄÙ C7 ===
ÚÄÄÄÄÄÄÄÂÄÄ´ÃÄÄÄÄÂÄÄÄÄ´ÃÄÄÄÂÄÄÄÄÄÂÄÄÄÄÄÄÄÂÄÄÄÄ>³s 10n ³
³ ³ C3 ³ C4 | ³ ³ g ÃÄÄÄÂÄÄÄÄÄÄ)ÄÄ1kÄÄÄ(o) Output
³ ³ ³ o 3.5 ³ 1n === - Â - ³ ³ R2 ³ BNC
³ ³ ³ ÄÁÄMHz ³ C5 ³ ³ ³ ³ ³
_³ /\³Preset ³Preset ²²² ³ ÃÄÄÄÄÄ)ÄÄÄ´ ³ ³
|\³150 === C2 )|/\ L1 ÄÂÄ _³_ ³ ³ ) ³ ³
=== pF ³\60pF )| 22 o \_/ D1 === 1n ³ ) 1mH ³ ³
C1³\ ³ /)| turns | ³Ge ³ C6 ³ ) L2 ³ ³
³ ³ ³ | ³ ³ ³ ³ ³ ³
ÀÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÁÄÄÄÄÄÄÄÄÄÁÄÄÄÄÄÁÄÄÄÄÄÄÄÁÄÄÄÄÄÁÄÄÄÁÄÄÄÄÄÄÁÄÄÄÄÄÄÄ´
_³_
HOW IT WORKS
This is a Copitts oscillator type with a split capacitor C5 & C6 across L1 via
AGC bias DC block capacitor C4. The split capacitor enables the FET amp to
drive the circuit into oscillation (2x AC voltage on FET gate than on FET
source).
As the oscillation builds up the Germanium diode D1 (1Mê in parallel with
silicon diode 1N4148 can be used instead) rectifies positive voltage to ground,
thus producing a more & more negative gate voltage that reduces the FET's AC
gain. This AGC action maintains a constant low distortion RF output level,
independent of tuned circuit Q & loading. Feeding the output via R2 (1k)
ensures the loading is always very small & can be fed directly to a tranciever
for a S9+30dB signal.
The frequency is set by the value of L1 in parallel with all the capacitors,
approx 180pF from C1-C5 network. Capacitors C1 in parallel with C2, in series
with C3 form a band spread, so that just 3.5 - 3.8MHz is covered. Capacitor C2
limits the minimum tuning C, so it is used for setting the 3.8MHz scale
position. L1 sets the main resonance & is very course, it is used for setting
the 3.5MHz scale position. (An alternative to an adjustable L1, is to make C3
a preset instead).
CONSTRUCTION
C Trim (compression type)
_________________________V___
/ || ___ \ L1 Large 6mm type ferrite core
³ || _________ ,=[___]==³ inductor with 22 turns of thin
³ || ³ C1 ³/\ C2 ³ enamelled copper wire wound on
³ PP3 || ³ TUNING ³ ³ ³ & stuck down to the former with
³ BATT || ³ @ ³ C3 ³ heat glue. It is bolted to the tin.
³ || ³_________³ \ _____Þ³
³ || C5 |_./' ,/³_____ < Trim
³ - - - || L2 C6______C4 L1 Þ³ L Core
³ ÚÄR1ÄÄÁÄÄÄÄT- \_ ³ T __n__ 1 Case earth
³ ³ -R2ÄÄÄÄÄÄÁÄC7_ D1_ ³ UC734 /1 2\ 2 Drain
\_____________________________/ Bottom ³ ³ 3 Source
³ ³ Ú~ÄÄ~¿ View \3___4/ 4 Gate
³_³BNC ³Xtal³
ÀÄÄÄÄÙ
I used a "tobacco tin" for the box, after finding I had a suitable C1 air
spaced tuning capacitor that would just fit inside. Then I drilled all the
holes for C1 mounting & its shaft. I found the lid (bottom) slightly fouled
C1's bearing, so I dented the lid a bit to miss it.
Then I drilled holes for.. C2 trimmer access, L1 mounting & adjustment access &
for the output BNC. When drilling with C1 mounted be careful.
PCB or tin can barrier is used to keep the 9V PP3 battery at one end.
With the "tobacco tin", the components can just be soldered in place where they
will fit. I use heat glue to hold in place a insulation tube over R2, & to
steady the connection of C3/C4/L1 on the body of L1 after testing!
TESTING
The circuit draws only 0.5mA when oscillating, but 5mA when it is not, so that
is a good guide if you have no oscilloscope etc. Using a counter or a Rx, I
found to get the required frequency bandspread, C3 had to be 120pF, you may
find it different depending on the value C1 & other stay effects. If the
frequency is too high with maximum L1 core in place, add some more turns, if
too low remove some.
STABILITY
No attempt was made to improve the stability with..
1/ a more sold box
2/ power rail regulation
3/ output buffer amp
4/ temperature compensation
Even so with this simple oscillator, it is was easy to use it as a BFO with an
AM Rx on 80m to resolve CW & SSB OK.
SPECTRUM
This is quite a clean oscillator for just 1 transistor, it's 2nd harmonic @
7MHz was about -55dBc & higher ones weaker still.
STUDENT CALIBRATION PRACTICAL
For the course I needed to be able to remove paper dial scales per student, &
have the L & C adjustment holes clearly marked up. So the tin was cleaned up
with wire wool & spray painted so the sticky paper labels would stand out.
The dials scales were marked out on paper with 0 & 180ø base line reference &
about 10ø from each end the scale was marked with the wanted 3.8 & 3.5MHz band
ends (which ends are high & low depends on C1 construction). The 3.6 & 3.7 left
off & copies then made for the students to use, a pair of sticky tabs
(removable price labels) hold each scale in place for the practical.
_.-"""""-._
./' 3.6 '\.
/'3.7 | '\
.' \ ___ `. Completed Students'
.' ./' `\. '. Paper Scale
³ / \ ³
³ | | ³
³ 3.8_ | | _3.5 ³
³ ³ Punched ³ ³
³______³ (_) ³______³
³0ø hole 180ø³
³_____________________________³
TAB TAB
The students' task is to place the scale on the unit, put the knob on, aligning
it to get the mechanical 0 & 180ø range. Then adjust the L1 & C2 (use ferrous &
non ferrous & plastic tools to show the effects) to get the oscillator matched
to the 3.5 & 3.8MHz scale, (too & throw tests with a pre-calibrated Rx via
attenuator) then once those are accurately set up, mark off 3.6 & 3.7MHz
positions on the scale.
For the students to see what was possible, I made a paper label with clear
protective cover, scale marked at each 10kHz.
Why Don't U send an interesting bul?
73 De John, G8MNY @ GB7CIP
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