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The following is a cut and paste job from a thread I started over at diyaudio.com. I'd love to get the input of some of the members that here as well.First of all, I know dummies probably shouldn't be looking to build big push-pull amps but lets move beyond that.I'm trying to wrap my arms/brain around the pros/cons involved in getting big power from PP amps. I've started with some SET amps that I love (Tubelab's SSE is sounding good right now) and am getting ready to start construction on Poinz' Musical Machine. I've been following:http://www.diyaudio.com/forums/tubes-valves/133034-6l6gc-ab2-amp.htmlhttp://www.diyaudio.com/forums/tubes-valves/156699-mullard-5-20-kt88-pp-blocks.htmlhttp://www.diyaudio.com/forums/tubes-valves/161702-opus-5-0-modern-mullard.htmlAll three of these threads have given me some great insight but I'm still a beginner. Down the road, maybe next year, I'd like my next amp project to be a pair of PP monoblocks that can do 60-75 WPC (I've got some speakers that I really like that are only 84-85 dB senstive). I'd like to utilize the Russian 6P3S-E that I've recently become enamored with. I'm sure I'll need some specific help down the road but here I'd just like to ask some basic questions.First of all, I've seen several commercial designs running 4 output tubes per channel (or more) and I'm wondering about the benefits/drawbacks of running more output tubes in parallel. One of the reasons I like these tubes so much is they are very reasonably priced and it wouldn't be difficult to do 4 per channel, at least not nearly as expensive as running 4 of the expensive reissue KT-88's per side. 2 per side... OK, but 4 per side starts to get pricey.Second question, money aside, is it easier to make a better sounding amp running 2 bigger output tubes per side vs. 4 smaller output tubes per side?I'm sure I'll come up with more questions down the road but those two should get me started for now.Thanks in advance!
I appreciate the input. I'm VERY far away from being able to design my own circuit; just trying to get a handle on some of the pros/cons of the various design philosophies.
Push-pull amplifiers are no more difficult to design than SET's- in fact, they might be considered easier since they are less prone to noise problems.I suggest using a combined phase splitter/voltage amplifier circuit to reduce wiring issues.
I'll add my $.02, fwiw, ymmv, and all that.First, it probably was said before, but obtain a copy of Morgan Jones's Valve Amplifiers 3rd ed and look at the crystal palace design. This driver/splitter is up to the task of driving mean output tubes and the first thread you link has a driver/splitter that is a variation on the same theme, with just a bit more sand (not bad in this case, so don't worry).Don't underestimate the importance of the driver/splitter because it essentially defines the performance that the amp can acheive assuming reasonable output design and iron.60 watts is pretty doable with just 2 output tubes in class A/B2. Take a look at that first thread again for proof. George (tubelab.com) obtains 75wpc with 2 triode-wired KT88s using that driver board. Myself, I'd wait until George puts out that driver board and use that as the basis of your amp unless you clearly understand its workings and can mock it in p2p.I am waiting to get some of them myself.
Yes the phase splitter is all important if one is to get SET midrange magic. Driving AB2 requires a driver with guts.Which schematic are you looking at? This one?http://www.diytube.com/unidriver/poseidon.pdfCheers.
No, definitely not that one. That one doesn't look like it could do it (just looked at the schematic on the first few pages).The one I was referring to is buried in the 6L6GC AB2 thread on diyaudio but it described here.http://www.tubelab.com/Universal%20Driver.htmIt is similar to the Crystal Palace driver exept the CFs in MJ's version are replaced with MosFET SFs. Its not a copy but it rhymes.
Gaining the midrange magic of SETs in PP amps is no small feat, as I understand it. Its contraversial even what this is caused from, some say euphonic characteristic of lots of H2 distortion. I tend to think it is due to the harmonic profile with lack of upper harmonics and a nice waterfall profile to the lower orders with H2 > H3.In PP, the H2 gets greatly cancelled in the OPT, so H3 dominates. As soon as you introduce FB, you trade lots of lower order harmonics for a bit of upper harmonics. I think this takes some of the magic away. Probably the most interesting technique I've seen for balancing the harmonics in PP amps is Western Electric's harmonic equalizer/balancer circuit. Lynn Olson most noteably brings this topic back to life on his site. Stephie [Steve] Bench though went a few steps further in his 801A pp amp that is detailed on Dave Slagle's Intactaudio forum.
The tubes are driven more likely lean AB2 or B idle for maximum efficiency and minimum plate dissapation, for the output power claimed, especially for the 6BQ6.. Also crossover distortion is probably present, especially for the 6BQ6. Driving the grid 1 will save stages and sound better, plus help with other design problems.Better have the speakers fused. Imo, the phase splitter is certainly questionable especially when SS devices are used.Cheers.
The 6BQ6 is an extreme example, to test the limits of what *could* be done, but obviously not the thrust of that design. I am not arguing whether his design choices would be yours, but the driver I would argue will be tough to compete against (objectively given some reasonable arguing of criteria).
You object to LTP with a CCS in the tail? That is the splitter. The second stage is another differential stage with again a CCS in the tail. (note the text explains what the schema pictured doesn't show).
That is then followed by Mosfet SFs. There have been a careful selection of the SFs to ensure the most benign reverse transfer capacitance vs. freq, which is most likely the source for most people's complaints with using sand in a tube design.
