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engl power ball head faulty tube sense circuit

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  • #1

    engl power ball head faulty tube sense circuit

    Hello people
    This one is doing my head in. !! I have had another post about the original problem, but this is a bit old now and its a different fault

    Original fault
    Came in with tubes missing and a faulty 1st pre amp tube . Replaced power tubes for test ones and fitted a new pre amp tube. Found the anode resistor o/c. Replaced and amp worked , but ch2 was low where ch1 was perfect, i found the the both ch1 - ch2 gain pots would effect whatever channel was on
    Engl_powerball.pdf
    Current problem
    I remember at switch on a few days later that V4 power tube LED was coming on. I swapped the tubes out still the same. defiantly not a tube issue
    This amp is hard work due to the fact of the board is upside down , making it difficult to trace
    after about 20 sec you hear the relay click and LED comes on for V4
    checked and replaced ZD7 ok
    Replaced IC3
    ZD11 tests ok
    I'm sadly not in my work shop while writing this , so i cant give voltage reading at this time
    any assistance would be grateful
    thanks in advance
    Arbutt
    Tags: None
  • #2
    What is the voltage across R134 (4.7R) when V4 LED is on?
    Last edited by Helmholtz; 11-10-2021, 09:13 PM.
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    • #3
      I would check C22 for leakage and maybe test R134.
      Support for Fender, Laney, Marshall, Mesa, VOX and many more. https://jonsnell.co.uk
      If you can't fix it, I probably can.

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      • #4
        Originally posted by Helmholtz View Post
        What is the voltage across R134 (4.7R) when V4 LED is on?
        Hi Helm
        with all 6l6gc in place at switch on the 4.7R on V4 is voltage is slowly rising and gets to about 80mv then the relay switches off and it drops back off
        I have the PI tube out at this point
        The 4.7r tests ok as does the others

        Just to confirm i have tried many different 6L6 in v4
        Can there be a problem with IC3 circuit
        Its a really difficult amp to work on with no component refs and all i can see is the solder side

        hope this helps
        thanks again

        Comment

        • #5
          Originally posted by Jon Snell View Post
          I would check C22 for leakage and maybe test R134.
          thank i have checked the 4.7R all good, with the PI tube is out . I will look into the C22

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          • #6
            Originally posted by Arbutt View Post

            thank i have checked the 4.7R all good, with the PI tube is out . I will look into the C22
            If you lift one leg out to disconnect C22, that will prove it for you.
            Support for Fender, Laney, Marshall, Mesa, VOX and many more. https://jonsnell.co.uk
            If you can't fix it, I probably can.

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            • #7
              i have been doing some checking . decided to cut the track from the IC3. the relay is not being switched on now , but the V4 Bad LED on the front panel is coming on. as the relay is not switching off V4 4.7R has around 168mv the same roughly as the other tubes
              at switch on pin 14 of IC3 is at 0v but after 10 sec ish it rises to 22v, as the track is cut its not switching the relay on
              hope this makes sense,
              thanks again

              Comment

              • #8
                Very dangerous to cut tracks! That removes potection.
                Replace 4.7R, C22 and repair the damage to the track.
                That will repair the fault.
                Support for Fender, Laney, Marshall, Mesa, VOX and many more. https://jonsnell.co.uk
                If you can't fix it, I probably can.

                Comment

                • #9
                  Originally posted by Jon Snell View Post
                  Very dangerous to cut tracks! That removes potection.
                  Replace 4.7R, C22 and repair the damage to the track.
                  That will repair the fault.
                  I have cut the track from IC3 to see to confirm the problem is coming from IC3 circuit. It is only a temporary thing. I would of rather of lifted a component , but due to the board being upside down that was difficult

                  as it is as the reading correctly and i have about 160mv across it and same across the others

                  I will take the board out again and change the 4.7R and C22
                  Before i do that is there any other tests i can do that will prove the IC3 circuit is working correctly ?

                  Comment

                  • #10
                    Also check CE29 and maybe CE27.

                    There seems to be something wrong with the schematic: All positive (as well as the negative) inputs of IC2B, IC2D, IC3B, IC3D look to be interconnected.
                    I don't see how they could act independently.
                    Last edited by Helmholtz; 11-11-2021, 04:33 PM.
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                    • #11
                      Originally posted by Helmholtz View Post
                      Also check CE29 and maybe CE27.

                      There seems to be something wrong with the schematic: All positive (as well as the negative) inputs of IC2B, IC2D, IC3B, IC3D look to be connected.
                      I don't see how they could act independently.
                      do you have any idea why with the feed from pin 14 of IC3 that the LED on the front panel is still coming on.. The whole amp is a right pain to work on with ribbon cables everywhere
                      thanks again. i will try again tomorrow

                      Comment

                      • #12
                        Originally posted by Arbutt View Post

                        do you have any idea why with the feed from pin 14 of IC3 that the LED on the front panel is still coming on..
                        LED comes on when the opamp output goes high, no matter if the relay is connected.

                        - Own Opinions Only -

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                        • #13
                          Originally posted by Helmholtz View Post
                          Also check CE29 and maybe CE27.

                          There seems to be something wrong with the schematic: All positive (as well as the negative) inputs of IC2B, IC2D, IC3B, IC3D look to be interconnected.
                          I don't see how they could act independently.
                          The connected lines you refer to, (inverting inputs on op amps D&E), set up the control reference voltage with the potential difference between R116/117. The non inverting inputs on D&E is set at T7s Ce voltage.
                          When the non inverting input on op amps C go above the non inverting input voltage (junction R113&116) the output pins 1or6 of C swings high, overtaking the potential on the inverting inputs of D, putting a high on the outputs of D which in turn pulls the relay on and illuminates LD7/8/9 or 10.
                          This will occure when the grid of a 6L6 goes high due to a leaky coupling capacitor a faulty 6L6.

                          It is a very logical and reliable circuit using comparators.
                          I hope that explains the mechanics of it.
                          Support for Fender, Laney, Marshall, Mesa, VOX and many more. https://jonsnell.co.uk
                          If you can't fix it, I probably can.

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                          • #14
                            Originally posted by Jon Snell View Post

                            The connected lines you refer to, (inverting inputs on op amps D&E), set up the control reference voltage with the potential difference between R116/117. The non inverting inputs on D&E is set at T7s Ce voltage.
                            Yes, it makes sense that the inverting inputs are connected.
                            But my point was about the connected non-inverting inputs.
                            That makes all the above listed opamps see the same differential input voltage, so output conditions must be the same as well.

                            - Own Opinions Only -

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                            • #15
                              Originally posted by Helmholtz View Post

                              Yes, it makes sense that the inverting inputs are connected.
                              But my point was about the connected non-inverting inputs.
                              That makes all the above listed opamps see the same differential input voltage, so output conditions must be the same as well.
                              Reading from my copy of the service manual that is updated and didn't look at the pdf on this site. I have identifying marks written on my hard copy and cannot scan it as service agents are forbidden to share documents.
                              My schematic has no other connections on the non inverting inputs except the first comparator. A - B and C - D.
                              But reading the pdf on this thread; I see what you mean, the inverting inputs are correct but not the non inverting inputs. It is a mistake on a pre production schematic!

                              What a nightmare if you have the wrong schematic version.
                              Support for Fender, Laney, Marshall, Mesa, VOX and many more. https://jonsnell.co.uk
                              If you can't fix it, I probably can.
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