qsc and clones.... backwards amps

Status
This old topic is closed. If you want to reopen this topic, contact a moderator using the "Report Post" button.
i have a couple of qsc's and some of their clones (american audio for one) here in the shop for repair...... the "backwards" way that they produce output is interesting. the output devices are grounded, with the emitters "driving" the rails, and the "0V" line of the power supply floats, and is the speaker output....... other than the fact that the speaker is capacitively coupled without an additional capacitor (it's coupled through the power supply caps), are there any other advantages to this design? also, the american audio clone i have in the shop here is also a class G design in addition to the qsc-like "driven rail" setup
 
The main advantage to Pat Quilter's grounded-collector design is that the cases of the output transistors are at ground. This allows them to be installed on the heat sink with no insulators. Not only is this cheaper to build, it allows better heat transfer, and it's safer as well. It just takes a little while to bend your head around. :xeye:

This design is actually DC coupled. The power supply caps are not part of the signal path.
 
Yes, do you have a (simplified) schematic of the amplifier or its concept? I too am interested in this "backwards" topology. I have seen the schematic on QSC's website, but it is VERY hard to follow because of all the parts.

BTW, the schematic that I saw is here (QSC has several models that use this topology, this is the schematic of just one of the models):

www.qscaudio.com/support/library/schems/Discontinued/EX Series/EX4000.pdf
 
you can find further reasoning on the advantages in Cherry's EW/WW paper “Ironing Out Distortion” part 2 “common emitter output stages” and the JAES references

Mikeks put scans up for a while, likely he would respond to individual requests as being covered by "fair use" rules

http://www.diyaudio.com/forums/member.php?s=&action=getinfo&userid=15776

basically Cherry's claim is that gain in the output stage is a good thing for distortion reduction in ealier stages, and no worse or actually the same as using the output devices devices in follower mode in terms of output impedance and stability

the low drive voltage at the bases/gates of grounded emitter/source output stages requires only low voltage input/driver devices which enable faster transitors or even op amp drive
 
tnx, i knew there had to be more than just one reason...... i still don't see exactly how it is dc coupled..... unless the dc coupling extends back through the rectifier and power transformer.......

shown below is a simplified output section




actually it's still an emitter follower, since it's the emitters are the driven element........ i figured that out after a while of standing on my head.......:spin:
 

Attachments

  • qscout.jpg
    qscout.jpg
    12.6 KB · Views: 871
yes output Q current loops complete through the xfmr/rect - as always

your Qs are upside down

try this:

floating_ps_ce.png



you can plot the V1 and V2 floating Vsource currents to see the usual Class AB current in each

the feedback is unitygain and the E1 source also has gain 1; the output Qs provide the large loop gain (~ 20) in CE mode that holds the distortion to -50 dB in this sim

LtSpice SwCad III file, just rename without .txt extension
 

Attachments

  • floating_ps_ce.asc.txt
    2.4 KB · Views: 116
logical equivalents, illogical objections...

your referenced qsc schematic follows my simplified circuit sketch

the output of the qsc amp is a pair of Sziklai/cpf compound transistors connected as per my schematic, replacing my Q1,4 with the composite (Q933 + Q903-910 = my Q1, Q934 + Q911-916 = my Q4)

http://www.dself.dsl.pipex.com/ampins/discrete/cfp.htm

for the advantages Cherry described my schematic shows the simplified output Q equivalent and is the "correct" connection for illustrating the operating principle

Your interests may differ, but there is little to be gained (pun) by driving the ps with ef - you still have to come up with the full output V swing in preceeding circuitry and the bias must be established with the full floating supply in the middle

The Sziklai/cfp is a convenient way to get lots of current gain, Ben Duncan used the same floating supply trick with grounded source MOSFETs output Qs instead of a cfp compound in one of his high slew rate amps
 
Grounded Source amps were built with lateral mosfets because the Centre pin of plastic package or the body of metal package is Source Terminal rather than Drain in this case.....

This type of topology is extremely simple and robust, i have made many amps using Grounded Drain Topology with IRF640/9640 Vertical Mosfets....

In these topologies only the ground reference is shifted from center tap to the usual output which makes them very easy to drive.......

Kanwar
 
a circlotron is essentially a tube version of the same thing, except you have two floating supplies and the QSC uses a single (even though it's split) floating supply (actually, since the tube version came first, the QSC is a solid state version of the circlotron). the advantage of the topology for tube amps is that the output impedance is lower. the advantage of the solid state version is that it's difficult to get DC at the speaker terminals (it's not impossible, but a lot less likely)
 
Status
This old topic is closed. If you want to reopen this topic, contact a moderator using the "Report Post" button.