Hi Bob:

  You wrote: <A few comments:>
Me:  I appreciate your reply!! 

  <1. My preferred 'spice' program is LTSpice (now being supported by Analog Devices). However it only runs (apparently) on Windows or Apple devices. Oh, well.>
Me:  Useful info.  I saw the name 'LT' Spice and assumed it may be GNU-related, but now I know.  I run a version of Puppy Linux, based on Ubuntu.  I'm sure some-one on the Puppy Forum will point me in the right direction. 

  <2. Your 'load' (I assume that is a ferrite transformer with 5:1 turns ratio) sort of indicates the RF load is about 220 ohms * 25 or about 5K ohm>
Me:  Yes, FT37-43 core.  After that, I follow your logic.  I wound an alternate transformer.  Same FT37-43 core.  5t in the collector circuit, link to load: 2t.  I did this because I believe the load Z was too high as you said.  Result when lower Z load was in circuit:  Less distortion on the collector (bec of lower inductance) but not the 'nice' sine I'm looking for.   But still (apparent) cut-off.

More comment:  I'm waiting for you to tell me, "You're crazy!  Why have you got the 2200 ohm resistor in the base circuit?"  Ah, yes.  I observed the base voltage when collector signal distored.   I calculated the effective parallel AC load of the 4k7+10k bias resistor(s).  The 2k2 resistor is meant to attenuate the signal to the point where I see no distortion.  Close, but not quite there yet.  Need a little more attenuation.  But the sketch has the words, "As built", and what you see is what I have.  The 2k2 is in place, and it's shown on the sketch.

I anticipate your next Q.  "Surely it would be easier to remove turns from the input link!"  Answer:  I did that, but at that point I had only 1 turn on a toroid.  Nothing to hold the link in place.  So I added one more turn.  That's why I have 2 turns.  I haven't show the oscillator.  It's a two-device negative resistance oscillator that delivers a sine wave over a few hundreds of kHz.  Good amplitude stability.

You:  <That seems high - the device is set for about 5 mA quiescent (i.e. Vb - Vbe or about 4 v - 0.7v or about 3.3 V (quite close to what you see) divided by 620'ish ohms) so theoretically you have a collector voltage swing downwards of about 12V - Ve or about 7V and then you would clip.>
Me:  That's how I figure it too.  Also, I need to say that the device is S9018.   I have a bottle full of them.  Not high gain, but good F(t). 

You:  <And your results indicate that you are clipping some place - the base will swing up but it won't swing down or maybe it runs out of steam when it swings down - the swing down on the base also coincides with collector going up.  At this point, I am going to go off and ponder this a bit while the turkey is cooking.>
Me:  I'm going to sit tight while the turkey is cooking.  My thinking followed yours until I wound a transformer with 5+2 turns.  Of course, if you suggest I'll wind another.  Say 3t+3t.  I have a handful of TF37-43 cores I bought because ... we'll ya'know I'm just a little stoopid.  Stuff I build always has some problem and it's just handy to have a handful of cores to wind alternate coils ...

In conclusion:  I can't figure out what's going on.  I can easily replace the transformer with a resistor.  I could even solder in a series of resistors staring with a ridiculously low value (e.g. 220 or 330 ohms).  That would give a gain of 220/56 or 330/56 approximately.  Generally I avoid resistive loads in RF circuits because the signal on the collector is assymetric. 

Thanks for your comment.  I have no idea what's going on here and this is an excellent chance to learn something.    Final final musing.  Maybe I should feed the beast with +18 or +24 volts (just to see what happens).  On second thoughts:  Just looked at the spec sheet.  I think I should replace the 9018 with a 2N2222 or BC547.  At this frequency - the '547 will work.  Generally I use the 9018 on 6m.  I'll do that later today.

Leslie