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Fender 400 PS bias

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  • #1

    Fender 400 PS bias

    This amp had a tube short, according to the owner. There was a flash in one of the power tubes, a fuse blew and he smelled smoke. He pulled the 6550 that shorted and the one next in line on the far right next to the 6L6(you can see the tube layout if you scroll down on this link The Fender 400-PS Updates & Mods). He has this idea that the output tubes work in consecutive order in pairs. Which seems strange. The primary on this output transformer looks normal, a winding and a CT. The secondary is unusual with the way the taps are drawn. If anyone wants to explain this, that would be appreciated.
    So now the amp is here. I started going thru the 'Test Procedure' on that link. I set the bias voltage to -39v on both of the pots.
    I find that the amp draws 1.5A without a load. I put an AC ammeter across the fuse holder with the fuse removed.
    Added a 4 ohm load and do not find the primary current is at 2.1 - 2.5A. With the 4 ohm load in all the output jacks there is little change in the amount of primary current drawn. This is where I stopped
    Does anyone have any opinions about this 'test procedure'? Would you follow it through?
    Would you use a conventional method of biasing the tubes?
    Thanks for any ideas or suggestions
    Attached Files
    Tags: None
  • #2
    Can't help with the bias, but I've read that the output tubes do indeed work in pairs - The only way to get the full power output is to use three cabinets. One pair each for ~135W, supposedly. One cab gets you 1/3 power, two gets 2/3, etc. As far as WHICH particular pair of tubes does what, exactly, would depend on how they are physically wired. But it looks to me like those are not "taps," but actual separate secondary windings. The schem is a bit fuzzy.

    Be careful with that thing, and take lots of pictures for us!

    Justin
    "Wow it's red! That doesn't look like the standard Marshall red. It's more like hooker lipstick/clown nose/poodle pecker red." - Chuck H. -
    "Of course that means playing **LOUD** , best but useless solution to modern sissy snowflake players." - J.M. Fahey -
    "All I ever managed to do with that amp was... kill small rodents within a 50 yard radius of my practice building." - Tone Meister -

    Comment

    • #3
      Everything you'd ever want to know about the 400-PS here:

      The Fender 400 PS Amplifier Web Pages, by Rich Koerner

      no crappy tubes need apply! this is a way for-serious amp.
      This isn't the future I signed up for.

      Comment

      • #4
        This article states explicitly that the current draw method is THE WAY that you bias the amplifier.
        The Fender 400-PS Amp Designed By Ed Jahns

        Output balance adjustment for minimum current draw is also critical.

        If you do not get an increase in current when a load is applied, then I would be looking at the tubes, the cathode resistors or (shudder) the OT.

        Comment

        • #5
          Originally posted by Leo_Gnardo View Post
          Everything you'd ever want to know about the 400-PS here:

          The Fender 400 PS Amplifier Web Pages, by Rich Koerner

          no crappy tubes need apply! this is a way for-serious amp.
          That site has a good picture of what happens when you pack those tubes in too close together.

          Part of the problem with amps like that is that the designers claim to be working in close collaboration with the guys who developed the tubes, but then they don't follow the mounting instructions on the tube's data sheet. Nobody does. But when you're designing a beast of an amp, failure to obey the mounting instructions results in failures of the tubes.

          I seem to remember reading an MOV data sheet that required that the tubes be mounted 4" OC, with adequate space for air cooling, paying special attention to plate orientation so that heat is directed out away from the amp.

          Nobody, and I mean NOBODY likes to honor that 4" OC rule. As you can see in the 400-PS, they don't like to honor the free air requirement either. They snug those tubes into a tight spot and then put a metal heat shield close by instead of mounting them far apart in free air or putting a fan on them. Is it any wonder that this happens when they ignore the rules?
          Attached Files
          "Stand back, I'm holding a calculator." - chinrest

          "I happen to have an original 1955 Stratocaster! The neck and body have been replaced with top quality Warmoth parts, I upgraded the hardware and put in custom, hand wound pickups. It's fabulous. There's nothing like that vintage tone or owning an original." - Chuck H

          Comment

          • #6
            Originally posted by bob p View Post
            They snug those tubes into a tight spot and then put a metal heat shield close by instead of mounting them far apart in free air or putting a fan on them. Is it any wonder that this happens when they ignore the rules?
            It's also amusing, simultaneously annoying, those amps that rig a bunch of output tubes in a line, put a fan at one end and that's supposed to fix things. The tube nearest the fan runs cool, and the furthest runs hot. Even if you went to the trouble of installing a matched output tube set, thermal differences inevitably disturb the balance. Mesa: you're first in line for this one!
            This isn't the future I signed up for.

            Comment

            • #7
              The good thing is that the owner supplied me with several NOS 6550a's matched in pairs.
              So is the bias procedure presented at the TE site what you would use when installing a pair of 6550a's'?

              Here are some pictures:


              Any reason why my current readings are not near the 2.1A mark that they say should be the case?
              Should I be concerned and just move on?
              Attached Files

              Comment

              • #8
                Originally posted by Jazz P Bass View Post
                This article states explicitly that the current draw method is THE WAY that you bias the amplifier.
                The Fender 400-PS Amp Designed By Ed Jahns

                Output balance adjustment for minimum current draw is also critical.

                If you do not get an increase in current when a load is applied, then I would be looking at the tubes, the cathode resistors or (shudder) the OT.
                JP - I didn't see this post before responding last.

                I do see an increase of current draw when applying a load. One load into any of the output connections increases the current draw from 1.50A to ~1.54 and when added another load 1.62A and a third ~1.72A

                Are the tubes weak possibly?
                Should I increase the bias voltage?

                I'm not sure I understand this step:
                "6 -Insert the three (3) speaker load plugs and adjust the "Output Tubes Matching" control for MINIMIM primary current. There will be a drop of approx. 0.2A from maximum, when the control is set properly"

                Comment

                • #9
                  You can check each tube pair by inserting the load one at a time.
                  A, B & C.

                  In fact you can check each tube one at a time.

                  Remember that the load jack connects the cathode resistor.
                  Have you measured the voltage across them?

                  And don't forget the screen resistors.
                  This amp is using a way lowish voltage on the screens (ala Univox).

                  The last step does what it says.
                  Set the control for the least current draw. (with good tubes.)

                  Comment

                  • #10
                    Thanks for pointing out the cathode connection to the output!!
                    Then according to the schematic the outer tubes V8 and V13 are on the same output and V9 and V12 are together and so on...
                    Am I right about this?

                    The owner pull V8 and V9, saying that they are working together on the same output jack.

                    Comment

                    • #11
                      OK, looks like some interesting voltages on the cathodes. Not sure what they mean.

                      V8 - 0
                      V9 - 0
                      V10 - .225vdc
                      V11 - 38vdc
                      V12 - .24vdc
                      v13 - 24vdc

                      V11 and V13 are very different from the others. Any thoughts?

                      Comment

                      • #12
                        Originally posted by pontiacpete View Post
                        Thanks for pointing out the cathode connection to the output!!
                        Then according to the schematic the outer tubes V8 and V13 are on the same output and V9 and V12 are together and so on...
                        Am I right about this?

                        The owner pull V8 and V9, saying that they are working together on the same output jack.
                        With V8 & V9 pulled, the owner was left with one option: Jack A.

                        Comment

                        • #13
                          Originally posted by pontiacpete View Post
                          OK, looks like some interesting voltages on the cathodes. Not sure what they mean.

                          V8 - 0
                          V9 - 0
                          V10 - .225vdc
                          V11 - 38vdc
                          V12 - .24vdc
                          v13 - 24vdc

                          V11 and V13 are very different from the others. Any thoughts?
                          These voltages are with the proper load in the respective jacks?
                          Jack A:V10 & V11.
                          Jack B: V9 & V12
                          Jack C: V8 & V13.

                          Check the 10 ohm/ 2 watt cathode resistors.
                          V11 & V13 are the only tubes conducting.
                          Also look for any open screen resistors.

                          You could use either of those sockets for now & test each tube individually.
                          V11 use Jack A
                          V13 use Jack C.

                          Comment

                          • #14
                            Originally posted by Jazz P Bass View Post
                            These voltages are with the proper load in the respective jacks?
                            Jack A:V10 & V11.
                            Jack B: V9 & V12
                            Jack C: V8 & V13.
                            yes, these are voltages across the 10R cathode resistors with a 4 ohm load on each.

                            The cathode resistors are opened on V11 and V13. Duh, didn't check those the first time around.
                            I will replace with 5watt 10R , happen to have some of those.

                            Comment

                            • #15
                              Well, you got me on that one.
                              I would have thought with 20 some volts across V11 V13 cathodes that they Where conducting.
                              And especially V8 & V9 at Zero volts.
                              Something is odd to say the least.

                              Comment

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