0 Members and 1 Guest are viewing this topic. Read 16788 times.
Since when is modulation on the supply rails considered feedback?????"Hi Pat, Yes, this phenomenom is prevalent in almost every design, but almost no one discusses it. It can easily be demonstrated that a signal from one stage "travels" to another stage, thru the power supply itself. Integrateds are more prone as there are more stages, and more loops. Pat
It is not feedback! It is bias modulation. You are the only person that I have run across in almost 40 years that invents new termnology for something that everyone else calls what it really is." The only difference between this type of feedback and conventional output to input feedback is the "port of entry" into the first stage. (But power supply feedback can occur in all stages in a component.) Conventional output to input feedback enters either thru the grid or more likely the cathode/source/emitter of the first stage while power supply feedback enters either thru the plate/collector/drain of the first stage. Never the less, it is feedback as signal/music travels from one stage to another in both cases."Negative feedback is used to improve performance. Positive feedback is used to generate oscillations. Bias modulation does neither, because it is not feedback."Here is just one reference. The Radiotron Designers Handbook (written by at least 27 engineers at RCA) discusses this over 50 years ago. This insidious feedback varies in phase to the input signal from 0 degrees to 180, to 270 or more, depending on the power supply design. This means it could be negative feedback at some X frequency and positive feedback at Y frequency as the phase changes. Positive feedback doesn't necessarily cause an oscillation unless, when analyzing the design and plotting the results on a nyquist diagram, some portion of the response passes thru or circles the point 1, 0. This means certain criteria needs to be inplace, such as feedback strenth etc, to overcome losses and sustain an oscillation.For example, a "motorboat" oscillation problem is a case where positive feeback is traveling from a latter stage to a previous stage, almost always thru the power supply, causing an oscillation."Just because a lot of us design in fixes for this problem does not mean that we do not know about it. We don't talk about it because it is easy to reduce to damn near zero."Good, I am glad if you have accomplished it. I would love to read any comments or discussions concerning this."And we don't call it feedback."But then the general public doesn't know what is actually happening in the design, that it is acutally musical feedback. PS. A famous RCA 50 watt amp circuit contains a direct feedback loop from the plates of the output tubes to the plates of the driver tubes. This is an extreme example as it bypasses the power supply entirely. RCA refers to it as feedback, not bias modulation".PSS. I have been looking over dozens of designs, printed out, and only one seems to address this issue. Maybe you could provide a link to one or more that does? Much appreciated./quote]
For example, a "motorboat" oscillation problem is a case where positive feeback is traveling from a latter stage to a previous stage, almost always thru the power supply, causing an oscillation.
I am not going to mention all of the amp designers that I know. You will just have to trust me. You know all of their names.">No problem, and I am sure alot of manufacturers don't have their schematics available. But what I have seen, mainly public schematics of tube designs, definitely shows feedback problems. <"BTW.........all SS designers, if it makes any difference. We have tricks that aren't easily done in tube gear.">I am sure Pat. I know some of them.I never said it was impossible; just that most schematics that are available that I have seen don't address this issue.<"And yes, they have a problem with your terminology.">I have two texts, my 1st/2nd year College text and a major Engineering book that discusses these subjects. So who are "they", who haven't read, or understand a 1st/2nd year text?? As I said, the only difference in intentional feedback and power supply feedback is the "port of entry". Very easy to prove.<"You have proven my point. Positive feedback causes oscillation. A signal modulates the rail such that the phase of the modulation is postive, and it pumps.">I don't know how you came up with that comment, but the example of motorboating was an Extreme example. Positive feedback easily occurs without oscillation, even in amps. Here are some examples from the two books I mentioned above.First, from Radiotron Designers Handbook, page 306, in the Audio Section:"Feedback may be applied to any amplifier, at any frequency, and may be either positive or negative." You see, components may have voltage, current, bridge feedback, and both positive and negative feedback loops as well (see page 314). Semiconductor and Tube Electronics, by James G. Brazee, page 380 "Toward the end of this chapter, a feedback system employing both negative and positive feedback will be discussed as an example of the possible use of positive feedback."In a nyquist diagram (been a long time since I worked with this), the left hand quadrants indicate negative feedback. However, when the phase shift results in the plot extending into the right hand quadrants, in a circle of 1 radius, with 1,j0 being the center, we are talking positive feedback. However Pat, there is NO oscillation unless the plot passes directly thru the coordinates 1,j0, or loops around that cooridinate. These are pretty basic, solid concepts, in a 1st/2nd year college textbook. One has to be careful whom one listens to.Quote
Why does ARC design these line-only preamps with so much gain? 12.2db and then a user has to add a 10db attenuator. It doesn't make much sense to me.Davey.
