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  • #31
    Originally posted by Helmholtz View Post
    I think measurement between plate and ground means a source impedance of 110K, resulting in a measurement error of 1.65V.
    Indeed yes! I forgot that.
    Experience is something you get, just after you really needed it.

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    • #32
      This one it stinks. Is not usable as mixer btw. vs common anode mixer.

      Click image for larger version

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      Last edited by catalin gramada; 01-13-2019, 10:43 PM.
      "If it measures good and sounds bad, it is bad. If it measures bad and sounds good, you are measuring the wrong things."

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      • #33
        Originally posted by catalin gramada View Post
        This one it stinks. Is not usable as mixer btw. vs common anode mixer.
        Stinks in what way, not enough output?
        I know that with the other grid grounded the signal at the top of the tail is about half the input.

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        • #34
          I get a severe asymmetrical wave form at the follower output no matter by voltage applied.
          Last edited by catalin gramada; 01-14-2019, 12:54 PM.
          "If it measures good and sounds bad, it is bad. If it measures bad and sounds good, you are measuring the wrong things."

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          • #35
            Originally posted by catalin gramada View Post
            This one it stinks. Is not usable as mixer btw. vs common anode mixer.

            [ATTACH=CONFIG]51931[/ATTACH]
            I don't think this a useful circuit. It consists of 2 cathode followers having their outputs connected and sharing a common cathode resistor. As cathode followers have low internal impedance, the outputs are loading down each other. This means low gain <0.5 and probably non-linearity.
            Last edited by Helmholtz; 01-14-2019, 05:59 PM.
            - Own Opinions Only -

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            • #36
              Originally posted by catalin gramada View Post
              I get a severe asymmetrical wave form at the follower output no matter by voltage applied.
              Not surprising that you would. This is very similar to a sloppy full wave rectifier circuit made from bipolars. The bipolar version was used in some guitar distortion pedals.

              Look at it this way: With a common cathode resistor, whichever grid is most positive raises the cathode voltage by letting current through. This makes the other side turn off more, letting the higher grid voltage "win" even more. As long as one half can supply enough current by itself, the cathode voltages will follow the highest grid.

              That means that the highest side wins. If this circuit is fed from a phase inverter, equal and opposite polarity signals, the signal out at the cathodes (and plates, if you join the plates into a common plate resistor) gets to be a full wave rectified version of the input signal, with some slop determined by matching of the two sides. Tubes will probably do a softer version due to the much smaller transconductance.

              It's not a good mixer circuit as is. If you split the cathode circuits, with a cathode biasing resistor per triode and take your output from a single common plate resistor, it gets to being a good mixer.
              Amazing!! Who would ever have guessed that someone who villified the evil rich people would begin happily accepting their millions in speaking fees!

              Oh, wait! That sounds familiar, somehow.

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              • #37
                Here's a suggestion for a mixer that has a gain of unity, has good isolation between inputs, excellent linearity, quite respectable power supply rejection, a low output impedance of about 1K ohm and which can easily be expanded to more than two inputs. You can tweak R4 to change the gain a little.

                Click image for larger version

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                Last edited by nickb; 01-14-2019, 06:42 PM.
                Experience is something you get, just after you really needed it.

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                • #38
                  Thanks. For some reason I tried to omited mixer resistors. The channels have to mix are mixed directly from tone stacks, sort of Ampeg B15 arrangement. I tried from 220k to 1M. frequency compensated by tweaked series cap after joint point. Didn.t found any convenient formula from my sound taste perspective to keep it as each channel sound alone and loosed some gain aso. Finally I decided to keep 1M pair and a switch circuit which short one resistor or another. In this way keep one channel directly coupled from tone stack without to load it too much.
                  Last edited by catalin gramada; 01-14-2019, 08:42 PM.
                  "If it measures good and sounds bad, it is bad. If it measures bad and sounds good, you are measuring the wrong things."

                  Comment


                  • #39
                    Originally posted by nickb View Post
                    Here's a suggestion for a mixer that has a gain of unity, has good isolation between inputs, excellent linearity, quite respectable power supply rejection, a low output impedance of about 1K ohm and which can easily be expanded to more than two inputs. You can tweak R4 to change the gain a little.

                    [ATTACH=CONFIG]51937[/ATTACH]
                    Nice tube example of a virtual ground mixer!
                    - Own Opinions Only -

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                    • #40
                      Originally posted by catalin gramada View Post
                      Thanks. For some reason I tried to omited mixer resistors. The channels have to mix are mixed directly from tone stacks, sort of Ampeg B15 arrangement. I tried from 220k to 1M. frequency compensated by series cap after joint point. Didn.t found any convenient formula from my sound taste perspective to keep it as one channel sound alone and loosed some gain aso. Finally I decided to keep 1M pair and a switch circuit which short one resistor or another. In this way keep one channel directly coupled from tone stack without to load it too much.
                      Are you speaking of Nick's proposal? No good idea to omit input mixing resistors with this circuit, as the (current) summation point at the grid is very low impedance and will load down signal sources if directly connected.
                      - Own Opinions Only -

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                      • #41
                        Originally posted by Helmholtz View Post
                        Are you speaking of Nick's proposal? No good idea to omit input mixing resistors with this circuit, as the (current) summation point at the grid is very low impedance and will load down signal sources if directly connected.
                        No, I spoke about what I already done trying to keep the channels isolated as much. I will wire a tube as Nick suggest to see how it works on my project.
                        "If it measures good and sounds bad, it is bad. If it measures bad and sounds good, you are measuring the wrong things."

                        Comment


                        • #42
                          Originally posted by nickb View Post
                          Here's a suggestion for a mixer that has a gain of unity, has good isolation between inputs, excellent linearity, quite respectable power supply rejection, a low output impedance of about 1K ohm and which can easily be expanded to more than two inputs. You can tweak R4 to change the gain a little.

                          [ATTACH=CONFIG]51937[/ATTACH]
                          Localized inverting feedback.... good channel isolation. A bit of a virtual earth stage, no?
                          If I have a 50% chance of guessing the right answer, I guess wrong 80% of the time.

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                          • #43
                            A bit of a virtual earth stage, no?
                            See post #39 (earth=ground)
                            - Own Opinions Only -

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                            • #44
                              Originally posted by Helmholtz View Post
                              See post #39 (earth=ground)
                              Right i hadn’t seen your post yet when I replied. Sorry for the redundancy.
                              If I have a 50% chance of guessing the right answer, I guess wrong 80% of the time.

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