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  • Small Tube Amplifier Conversion

    Alright, I got my hands on a super cheap tube amplifier at a thrift store. It was a stereo amplifier for a record player, super simple. Two EL84's, one 6au7, a rectifier tube, two OT's (for 3 ohm speakers.... weird), and a PT. DC voltage on the caps is 254V.


    I just scrapped the wiring inside yesterday. I want to build a small tube amp, el84 PP. I want to salvage the PT as well.

    My question is, is there any good amps that you know of that use 250V, with two el84's P-P? I could end of designing a new one, but I just want to know my options. I've done my research, so don't think im trying to freeload here, I just want to make sure I didn't miss anything great. I'd prefer to use the preamp tubes that I have at my disposal at the moment - which are 12ax7's, 12au7's, and 6x8's. The last criteria is that I want to try to get as much power as possible out of this.

    All suggestions are welcome, however.

    Also, what's the best way to estimate the power ratings of my PT? \




    PS Sorry I don't have a pic, I'll have one up tomorrow. Don't have a camera just at the moment. It's a tiny little thing, about 9x5". Gonna have to use point to point wiring, I guess, to salvage the chassis. There's plenty of posts inside from the previous circuit, so that's not a problem.

    PSS If you are wondering about my electronics background, it's pretty good. I am very experienced with solid state electronics, but only a slight amount of tube knowledge. This will be my introduction to tube design. And don't worry if you think designing an tube amp with minimal experience is out of the question for me, because I know what I am doing here as far as safety, and I have a ton of patience and a big desire to learn. If it takes a year to finish this thing due to all the learning I have to do along the way, that's fine with me.



    PSSS (haha) I also have a tube organ I got at another thrift store for $0.80. The lower key register doesn't work, or works only sporadically, and I am considering scrapping it for parts. 54 tubes inside in all. The PT is enormous (all those heaters!) and the output tubes are 6V6's. Do you think it is worth it, to scrap it? I bought it orginally to do just that, but I kind of like the sound and wouldn't mind having this thing in my room. It shouldn't be a hard fix, cause I think the only problem for the lower keys is that the voicing switches are messed up.

    Messing around with that organ also got me my first mains shock... It has an interlock switch on the back, with two prongs that insert in when you close the back. I removed the prongs from the cover and stuck them in, so I could see what state everything was in as I turned the organ on. When I was playing the organ for a while, one of the prongs slowly wiggled out and was stuck diagonally in the interlock. Somehow - this caused the on/off switch for the organ to have mains on it???? Yeah - not fun. At least it only lasted for the second that it took to finish the switching off motion....
    Last edited by JKowalski; 07-26-2009, 07:36 PM.

  • #2
    Use the power transformer and one output transformer for a mono amp. Since the PT voltage is low for EL84s, convert it to a SS bridge rectifier. That will bring the B+ up and increase the output power more in line for an EL84 guitar amp. My suggestion is to build an 18 watt Marshall clone like a Lite IIb. If you don't know what that is go to 18 Watt Community Center and check it out and other variants. IMO the 18 watt Marshall is one of the best EL84 amps. I would suggest using a fresh chassis, new tube sockets, and new pots. Also, I would suggest using a turrent board architecture which is easy to build, mod, and experiment with. You could have a nice 18 watt Marshall clone head for around $100 minus the box.

    Comment


    • #3
      Originally posted by olddawg View Post
      Use the power transformer and one output transformer for a mono amp. Since the PT voltage is low for EL84s, convert it to a SS bridge rectifier. That will bring the B+ up and increase the output power more in line for an EL84 guitar amp. My suggestion is to build an 18 watt Marshall clone like a Lite IIb. If you don't know what that is go to 18 Watt Community Center and check it out and other variants. IMO the 18 watt Marshall is one of the best EL84 amps. I would suggest using a fresh chassis, new tube sockets, and new pots. Also, I would suggest using a turrent board architecture which is easy to build, mod, and experiment with. You could have a nice 18 watt Marshall clone head for around $100 minus the box.

      I didn't really want to get an account there at the moment (lazy & busy : P) but I found this marshall 18 watt amp on schematic heaven (1974). Is this the same one?

      http://www.schematicheaven.com/marsh...watt_schem.pdf

      I really wanted to keep the chassis for this project - I want to make this project as cheap as possible, under $100! I wanted to make use of the tubes that I currently have in my collection, the power transformer, and the chassis - the can cap I was planning on scooping out and installing new electrolytics inside, and I am probably going to wind my own output transformer.

      The only things I was wanting to buy really were new potentiometers, the electrolytics, and whatever power resistors I need. Depending on how expensive, I might decide to splurge a bit on an OT instead of DIYing.

      Your SS rectifier is a good idea, thanks alot. If I am using this chassis, it frees up a pre-drilled tube socket as well, leaving me with four nine pin sockets.



      EDIT: I just cleaned out the chassis, de-riveted the OT's, and steel wooled the whole thing, and it looks really nice - but the main reason I added this to the end is that there is totally enough space to add a small turret board! If I remove the terminal strips, there is a nice 4 1/2" x 2 1/2" free spot. I could mount the OT above the turret board, as well. I know it's small, but still. More options.
      Last edited by JKowalski; 07-26-2009, 09:27 PM.

      Comment


      • #4
        The 1974 is what all of the 18 watt Marshals are based on. The trem channel is quirky though. The variant I mentioned is single channel, has more gain, is much easier and inexpensive to build, uses fewer parts, and needs less space. You can mount the SS rectifier and the filter caps on the same turrent board. If you don't use a tube rectifier that will also leave you with more filament current available for the preamp and PI tubes. Seriously, if you plan to build an 18 watt take the one minute it takes to register at 18 watt.com. The process is only to keep spam of the board. Lots of schematics, advice , and expertise are there for free. They've been building Marshall clones for ten years. BTW, I have an old Zenith OT in my last 18 watt build and it sounds great. The original OTs were just off the shelf hi fi OTs anyway. Some people make a big deal about having "authentic" transformers. I have had great results reusing old OTs from hi fi amps.

        Comment


        • #5
          Originally posted by olddawg View Post
          The 1974 is what all of the 18 watt Marshals are based on. The trem channel is quirky though. The variant I mentioned is single channel, has more gain, is much easier and inexpensive to build, uses fewer parts, and needs less space. You can mount the SS rectifier and the filter caps on the same turrent board. If you don't use a tube rectifier that will also leave you with more filament current available for the preamp and PI tubes. Seriously, if you plan to build an 18 watt take the one minute it takes to register at 18 watt.com. The process is only to keep spam of the board. Lots of schematics, advice , and expertise are there for free. They've been building Marshall clones for ten years. BTW, I have an old Zenith OT in my last 18 watt build and it sounds great. The original OTs were just off the shelf hi fi OTs anyway. Some people make a big deal about having "authentic" transformers. I have had great results reusing old OTs from hi fi amps.

          Don't worry, I planned on registering eventually - today's a sort of clean up day in my "workshop" so I am kind of busy - I just left this topic going so I could have something to go off of at the end of the day

          I just mentioned the schematic heaven one cause I wanted a quick look at the basic structure of the amp.



          As for the OT, I still need to get it from somewhere... The OT's that I have are for single ended amps, so they ain't really compatible. I didn't mean I would spend alot. I kind of meant "splurge" as in "the only thing over $15" - of course, unless I rewind something.

          Thanks alot for the replies, by the way.

          Comment


          • #6
            You have another issue as well. The reason I suggested that you use an SS rectifier to bring up the B+ is because the PT HV is so low. The original 1974 had a 300-0-300vac secondary. For a clone with an EZ81 rectifier tube most people prefer a 290-0-290 nowadays because line voltage is higher. In the Lite variants people use a 275-0-275 because of the SS rectifier. In any event, the magic B+ for E84 guitar amps seems to be about 350vdc by consensus. A 250-0-250 will give you give you less output watts and slightly different characteristics. You may or may not like it. It is however done all of the time.

            Comment


            • #7
              Originally posted by JKowalski View Post
              Don't worry, I planned on registering eventually - today's a sort of clean up day in my "workshop" so I am kind of busy - I just left this topic going so I could have something to go off of at the end of the day

              I just mentioned the schematic heaven one cause I wanted a quick look at the basic structure of the amp.



              As for the OT, I still need to get it from somewhere... The OT's that I have are for single ended amps, so they ain't really compatible. I didn't mean I would spend alot. I kind of meant "splurge" as in "the only thing over $15" - of course, unless I rewind something.

              Thanks alot for the replies, by the way.
              Heaps of circuits here:
              The Blue Guitar
              Check out "Trainwreck" schematics.

              Comment


              • #8
                doesn't get much simpler than this:

                or this


                but first give the actual AC reading off the PT secondary so we know what you are working with; IME EL84 PP sound best at 320 or 400VDC B+

                Comment


                • #9
                  I checked earlier today after I stripped the chassis more thoroughly, the transformer secondary is 250V-0-250V. Based on my calculations of full wave bridge rectifier output, wouldn't that land the raw dc value near 450VDC? That sounds good.



                  Tedmich, that schematic is great. Exactly what I was looking for, now that I think of it - completely minimal, and easy to modify. I listened to a few Marshall 18 watt's on youtube today, and that just reinforced this decision. I'll take a peek into the 18 watt page tomorrow, and see what people have done, and use that as a springboard for what I decide to do.

                  Four tubes, as well, perfect fit. (unless I stick another in, of course)


                  Thanks so much, everyone!

                  Comment


                  • #10
                    Remember that if you use a bridge circuit you're effectively doubling the current that needs to be delivered by those windings, and if you're doing that to increase the voltage, and more valves are involved there comes a point where the ability of the transformer to deliver the extra power will be exceeded and it'll get hot and all your voltages will be down.
                    If the transformer is physically large this may not happen, but don't expect a wee one to cope well if you push it.
                    EL84's work perfectly well with 250 to 300 volts on them, are more reliable and you wont be building a valve eating monster.

                    Comment


                    • #11
                      Originally posted by Wakculloch View Post
                      Remember that if you use a bridge circuit you're effectively doubling the current that needs to be delivered by those windings, and if you're doing that to increase the voltage, and more valves are involved there comes a point where the ability of the transformer to deliver the extra power will be exceeded and it'll get hot and all your voltages will be down.
                      If the transformer is physically large this may not happen, but don't expect a wee one to cope well if you push it.
                      EL84's work perfectly well with 250 to 300 volts on them, are more reliable and you wont be building a valve eating monster.
                      Yeah, I am kind of worried about that. The transformer is pretty small, that's why I was asking if there was an easy way to estimate the power capabilities of a transformer. The question still stands

                      If I use a traditional full wave rectifier, that's only 225VDC or so. Compared to the preferred 350, 125V off is quite alot...


                      I suppose I will figure it out.

                      Just need that power rating to start with...



                      EDIT: I just noticed, on the minimalist 18watt schematic, that the transformer secondary is 215VAC??? Yet they show the rectified DC voltage being 305VDC. Isn't that the peak DC value, not the true value....? Also, is this the measurement used when you say that the range of DC should be 300-350? If so, isn't that perfectly fine, with a 250VAC traditional full wave rectifier?
                      Last edited by JKowalski; 07-27-2009, 08:16 PM.

                      Comment


                      • #12
                        Originally posted by JKowalski View Post
                        Yeah, I am kind of worried about that. The transformer is pretty small, that's why I was asking if there was an easy way to estimate the power capabilities of a transformer. The question still stands
                        If I use a traditional full wave rectifier, that's only 225VDC or so. Compared to the preferred 350, 125V off is quite alot...
                        I suppose I will figure it out.
                        Just need that power rating to start with...

                        EDIT: I just noticed, on the minimalist 18watt schematic, that the transformer secondary is 215VAC??? Yet they show the rectified DC voltage being 305VDC. Isn't that the peak DC value, not the true value....? Also, is this the measurement used when you say that the range of DC should be 300-350? If so, isn't that perfectly fine, with a 250VAC traditional full wave rectifier?
                        A rule of thumb I see used a lot is to take the half wave peak secondary AC value and multiply it by 1.3. That will give you approximately what the filtered and rectified B+ will be with the bridge and caps. 250 X 1.3 = 325 vdc

                        Comment


                        • #13
                          Originally posted by olddawg View Post
                          A rule of thumb I see used a lot is to take the half wave peak secondary AC value and multiply it by 1.3. That will give you approximately what the filtered and rectified B+ will be with the bridge and caps. 250 X 1.3 = 325 vdc
                          Now I am totally confused. This is how I learned how to do it:

                          Bridge Full Wave:

                          Vrms x 1.414 x 0.637 = av. DC value

                          500Vrms x 1.414 x 0.637 = 450VDC

                          Center Tapped Full Wave

                          Vrms(1/2) x 1.414 x 0.637 = av. DC value

                          250Vrms x 1.414 x 0.637 = 225VDC

                          And of course, the center tapped is half as high as the full wave. I always used these formulas to find the DC value, and it has always been close to the filtered DC value for me. (at least av. voltmeter readings)

                          I see where the 1.3 comes from, I guess, as that's what I use for RMS to peak, but you said you multiply the peak value by 1.3, not rms?? Was that a typo?

                          I suppose you don't really count the 0.637 average DC value in this "rule of thumb", only peak DC?

                          Comment


                          • #14
                            Originally posted by JKowalski View Post
                            Now I am totally confused. This is how I learned how to do it:

                            Bridge Full Wave:

                            Vrms x 1.414 x 0.637 = av. DC value

                            500Vrms x 1.414 x 0.637 = 450VDC

                            Center Tapped Full Wave

                            Vrms(1/2) x 1.414 x 0.637 = av. DC value

                            250Vrms x 1.414 x 0.637 = 225VDC

                            And of course, the center tapped is half as high as the full wave. I always used these formulas to find the DC value, and it has always been close to the filtered DC value for me. (at least av. voltmeter readings)

                            I see where the 1.3 comes from, I guess, as that's what I use for RMS to peak, but you said you multiply the peak value by 1.3, not rms?? Was that a typo?

                            I suppose you don't really count the 0.637 average DC value in this "rule of thumb", only peak DC?
                            There was a hugh discussion on PT specs a while back on another site. Everyone was trying to figure out what the numbers meant. Is 250-0-250 500v peak to peak? Is it average? Is it RMS. Depending on the manufacturer it can be different things. Since you have it in front of you you can measure it on a scope for peak to peak (A meter will probably give you RMS) and then do your math. That's what I would do. A fellow in the discussion said that this 1.3 value will give you a ballpark estimate for a full wave bridge and filter using the commonly labled transformer specs. I find it to be pretty much correct. I misunderstood that you have stereo single ended amps. I thought you meant that you had stereo push/pulls with 4 EL84 tubes. Your PT may not have enough current (you generally need 100-120 ma) for 18 watts and the OTs will not work. It's probably a better candidate for a 5 watt single ended amp like a VJ.

                            Comment


                            • #15
                              Originally posted by olddawg View Post
                              There was a hugh discussion on PT specs a while back on another site. Everyone was trying to figure out what the numbers meant. Is 250-0-250 500v peak to peak? Is it average? Is it RMS. Depending on the manufacturer it can be different things. Since you have it in front of you you can measure it on a scope for peak to peak (A meter will probably give you RMS) and then do your math. That's what I would do. A fellow in the discussion said that this 1.3 value will give you a ballpark estimate for a full wave bridge and filter using the commonly labled transformer specs. I find it to be pretty much correct. I misunderstood that you have stereo single ended amps. I thought you meant that you had stereo push/pulls with 4 EL84 tubes. Your PT may not have enough current (you generally need 100-120 ma) for 18 watts and the OTs will not work. It's probably a better candidate for a 5 watt single ended amp like a VJ.
                              My PT is 250V-0-250V RMS. I wasn't going off of manufacturing specs, since they are impossible to find, so I measured it on the voltmeter.

                              I've already been resigned to the fact that the OT's aren't usable.

                              So, I need a transformer with about a 30VA minimum rating, correct? If I can manage to squeeze by with that much for the transformer, I'd be fine with using a separate transformer for the heaters.

                              Again, is there a way to estimate power capabilities? Maybe a size/weight comparison? The lamination dimensions are 2.25"x2.75"x1.25", if that helps.

                              Here's the pics of the stripped chassis. I might keep the two middle tube sockets, but the ones of the side I am probably going to replace.






                              If I can't get higher than 10 watts, I'll probably scrap this idea and make a tube preamp project with it instead. I'm really hoping I can manage to do this, though.

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