Collins 26C Analysis

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Looks like a trusty old ECC82 would also get you there
Yes you are right, it would do the job, but I was sticking to the same type, mu20 ra10k.
The replacement for the 6J7 was the single ended 6SJ7 and that has the same triode characteristics as the 6J5 and half of a 6SN7, the ECC82 comes into that class as well.
best
DaveP
 
Point taken, I need to look at *all* the parameters when looking for subs. I guess in this case Ra is of particular interest since we're driving transformers. ECC82 has mu17, but higher Ra (47k if I read the spec sheet right).

This would be a fun and useable project to recreate! Following with great interest!
Cheers, V!
 
The 6C8G tube is rather special, no-one tried to copy it and it looks like it was only made by RCA and TungSol. Each section has this characteristic:-
mu 36, ra 22.5k, gm 1600. It was introduced in 1937. It contains two independent triodes, albeit that one has the top electrode for its grid. Its heater current is the usual 0.3A whereas its closest cousins are the 6A6 and 6N7 which both draw 0.8A, the characteristics of these tubes are mu 35, ra 11k, gm 3200. My guess is that the internal dimensions are similar but the higher heater current increases emission and this increases the gm and reduces the ra. The 6N7 was initially used as the resistance tube in the Collins 26W, but it was replaced by the 5814A which is a special quality ECC82/12AU7.

The successor tube to the 6C8G was the 12AY7, but as the chart below shows, it does not have the same characteristic curve:-

I have plotted two examples of 6N7 and they are very close to each other and pretty close to the 6C8G as well. The 6J6, 6DT8 (ECC81) and 12AY7 are not close at all. I have some research to do on other possible replacements and will post that next.
best
DaveP
 
6J7G: I'd stay w/this original tube family, as they are still plentiful, and are great tubes, esp. the metal 6J7 (and using vintage metal top caps for excellent shielding), IIRC european EF37A is also similar. Even Soviet 6J7 copies -- 6Zh7 -- aren't bad and are cheap. If I'm not mistaken, later development lead to 6BR7/6BS7 special quality noval tubes, but those are available in much smaller numbers.

6C8G: Very odd tube, hardly anything like it, 6N7 is much more plentiful and would be a better choice, at least on paper. That said, 6C8G are still somewhat affordable.

The output stage is probably not that critical so the 6K6s (if you don't have them) can be substituted/altered for 6F6 or 6V6 (or 6AQ5 which are also plentiful, but I'd stay w/octals, personally)?
 
6J7G: I'd stay w/this original tube family, as they are still plentiful, and are great tubes
I am exploring other tubes because the original transformers are no longer available. If we use modern transformers with less inductance, then we need a lower output impedance from the tubes to maintain good low frequency response. More on this later.
Some B7G Pentodes have a good triode performance that is reasonably close to a doubled 6C8G:-

The curves I have drawn are a bit wobbly because it is difficult to get the tangent right at such low currents. In fact, where the curves reach zero current, this may not have been recorded so accurately as the main lines. The main criteria for the resistance tube is to present a low resistance at one end (to join the transformers) and a sufficiently high resistance at the other end to isolate the transformers. It goes without saying that there should be a nice smooth transition between the two.
There will be more on B9A tubes to follow.
best
DaveP
 
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The B9A tube survey process takes a lot of time, but it is possible to make some progress on the transformer issue.
I have attached the spec sheet for the Hammond 124E interstage as an example.
This quotes a frequency range of 150Hz to 15kHz and a primary inductance of 15.9H which does not look too promising at first glance, but if we inspect the data it looks more hopeful:-
f-3dB = Zsource/2pi x L, so from the data we have 15,000/6.283 x 15.9 = 150Hz, so this checks out with the spec sheet.

If we just sub this TX into the 26C as it is, we will have poor bass response, but if V1 were followed by a cathode follower we would have a response more like this:- 1000/6.283 x 15.9 = 10Hz.
If V1 was substituted for a twin triode, then the first half is the voltage amp and the second half the CF. This could be a 6SN7 or even a 12AU7/ECC82.
Food for thought......
best
DaveP
 

Attachments

  • 124E.pdf
    305.1 KB
A side observation:
The split-load or concertina phase splitter or invertor was developed in Australia in 1936, (Radio Constructor’s Guide, National Magazines Ltd. Wellington NZ (1936), p. 135. Circuit developed by Wireless Weekly magazine (Australia). Bearing in mind the remoteness and speed of communication in those days, it is not surprising that a conventional transformer was used in 1938 to feed the push-pull output stage for the 26C. Nowadays a simple triode could do the same job a lot cheaper.
best
DaveP
 
I have re-drawn the original schematic and values to allow me to make a few possible modifications:-

This modification loses an expensive transformer for the substitution of a double triode. I will also cost it with modern components.
Best
DaveP
 
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A completely original NOS tube set will cost $122.50 :-
V1 6J7-G $22.50
V2 6J7-G $22.50
V3 6R7-G $15.00
V4 6K6-G $25.00
V5 6K6-G $25.00
V6 6C8-G $12.50
V2 substituted for ECC82 $15.00
But there are other versions of these tubes that would cost less...............
Best
DaveP
 
This set of glass/metal NOS tubes will cost $51.00 :-
V1 6J7 $10.00
V2 6J7 $10.00
V3 6SR7 $3.50
V4 6K6-GT $7.50
V5 6K6-GT $7.50
V6 6C8-G $12.50
V2 substituted for ECC82 $15.00
Best
DaveP
 
It is now possible to work out the gain structure of the 26C. The sales Lit. states that the maximum gain before limiting occurs is 60dB or 1000 times.
This is how that comes about:-
For an input of say 0.02V into the 200 ohm IPT we get 14.5 x 0.02 = 0.29V.
0.29 x 13 from V1 = 3.77V
Losses from the two limiting transformers in series would be approximately 3.77 x 0.9 = 3.393V.
The gain from V2 would give 13 x 3.393 = 44.1V.
The loss from the phase splitter TX would make that 0.95 x 44.1 = 41.9V.

Working backwards from the 60dB gain giving an output of 20V:-
The OPT is 10k:500 so the ratio is 4.47, but its reduction with losses would make that 4.47/0.95 = 4.7.
So 20V on the secondary would need to have 4.7 x 20V on the primary = 94V.
We can now calculate the gain of the output tubes as being 94/41.9 = 2.24. This would be about all we could expect from the 6K6 with the chosen working point.
best
DaveP
 
At this point it is worth considering some alternative tubes:-
It is well known that TV/Audio produced some very useful tubes by combining two tubes in one envelope. We have come across tubes like ECL82/3/5/6 that have been used in audio before but these are now becoming rare and expensive, also they are triode/pentode types.
What I am suggesting are the range of "Dissimilar Triodes". Taking the 6CM7 for example, it has a 6C5/6J7triode wired triode in the same envelope as as a very useful output tube, all in a B9A tube. This means that a 26C could be made with two less tubes if space was tight.
Edit> I have attached the table as it did not display properly here.

best
DaveP
 

Attachments

  • Tube Comparison.pdf
    80.6 KB
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