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Ive been playing around with a class A output stage that controls some current controlled current sources (CCCS) which assist the class A portion with current drive - and keeps the class A portion in class A mode. Its similar idea to the Quad405 "current dumping" amplifier, but with different implementation. A schematic of the output stage is attached. The diff amp is for bias control, its not an input stage. This schematic is the output stage only. The open collector NPN is temp sense / tracking. The class B bias in the CCCS is controlled by servoing the class A bias in the class A portion. This thing can swing 200W RMS into 4 ohms and never leave class A mode. Idle dissipation is ~ 65W. Nearly 1/7th less than it would be to swing that power in "traditional" class A mode. Im trying to decide if this is something novel. Thoughts? Here is a web link that has photos of the finished amplifier and some more info.
THD according to spice is really good, but, spice has a tendency to lie. Spice will lie right to ones face. (sometimes) ((Depends on the models, I know))
Have you measured the finished amp to see how it compares to the spice models?
Mike - Youre local, right? Im in Westminster CO. Arent you in Aurora or somewhere down south? I dont have any THD testing gear. I was looking on craigs list and considering buying an 800 dollar HP spectrum analyzer, and banging it all out the hard way. Seems like someone around here ought to have an audio precision 1 (or some other such standard) that would be willing to swap some gear time for some beers....Or some free discrete op amps.... Or something
Hi Andrew, yes I'm local, we are south east of Denver, actually a little south east of Parker. I have a Prism Sound dScope III and an old HP 8903A, which is kind of a boat anchor but still very useful. We can certainly arrange something, ring me some time and we'll figure it out. I'll send you my number. The dScope isn't quite at the level of the AP but it's very close. I haven't fired it up lately, I'll have to find something to examine to re-familiarize myself. mike
Yes, I am totally a student of Dougless Self. Spice is certainly useful, but there are various things Ive found that spice just doesnt take into account. One of which is the variance in stray capacitance of transistors (miller capacitance, etc) that varies with applied voltage. For example, when a device is close to saturation, and the voltage across it gets smaller and smaller, the devices capacitance begins to get larger. Its the same principle as a varactor diode, but spice doesnt seem to take this into account. I have modified all of the models to the devices that I am using, which helps, but its still not entirely accurate. The other thing about spice is that all of your connections are perfect wires which have no inductance, resistance, etc. Layout paracitics can be manually put in to a simulation, but their exact value and distributed nature (rather than lumped) makes them approximations at best. One thing that I did have to do with this design is clamp the VAS stage so as to not drive the output stage into saturation. When the output stage gets near saturation, device capacitance goes up, and stability begins to be compromised. Thanks Mike. I will be in contact with you sometime!
