807 Tube Audio Amplifier Schematic



This is the circuit diagram of 35W Tube Power Amplifier with EL34. This tube amplifier designed in 1953 and worked from 1954 until 1989. If you’re interested with classic circuit and classic components, then you should try this circuit. The circuit is interesting but i think it is hard to find the tubes.

807 and 6L6GC TUBE POWER AMPLIFIER / HYBRID CIRCUIT Phinoy itho hehe. D-Lab dual 807 Tube guitar amp project Creature. Cayin CS-845A Type UK Integrated Valve Amplifier Unboxing - Audio. That's it for the signal path, now let's examine the amp's power supply shown at the bottom of the schematic. AC wall power from the Power Cord flows through the ON/OFF 'AC Switch' and on to the Power Transformer (shown at bottom center) which steps up the wall voltage to 325 volts RMS (root mean square average) AC for the high voltage supply and steps it down to 6.3 volts for the preamp.

Schematic Diagram:


Power Supply:

Component List:

R1 = 470K 0,5WR13-21 = 820K 0.5WC8-9 = 0.1uF 630V
R2-5 = 2K2 0.5WR14-22 = 5K6? 0.5WC10-14 = 0.47uF 630V
R3 = 150K 0.5WR15-20 = 680K 0.5WC11-13 = 25uF 40V
R4 = 220K 0.5WR16-19 = 100K 0.5WV1 = E80CC
R6-10 = 56K 0.5WR17-18 = 3K3 1WV2 = E80CC
R7 = 3.9K 0.5WR24 = 470R? 2WV3-4 = EL34
R8 = 220R? 0.5WTR1-2 = 470R? 1W Variable (adj. 270O)Rectifier tube =?Z2C
R9 = 1M? 0.5WC1-3-6-7 = 0.1uf 630VT1 = Audio Transformer for 2x EL34 Push Pull
R11 = 39K 1WC2 = 220pF 600v
R12-23 = 180K 0.5WC4-5 = 16uF 550V

It is a classic design of power amplifier 35 W using tube, with two EL34 in connection Push-Pull, by Siemens & Halske, with design date 03/24/1953 and code SV410 / 1. The amplifier worked from 1954 to 1989, whenever and went off, with an average lifespan of 15 hours a day. Showed no particular damage beyond the replacement tubes, resistors and capacitors, resulting from natural wear.

A significant change was the replacement of the rectifier device of lamp diodes. The only problem will be for those who try their construction, will be the output transformer (applies to all tube manufactures), because the code is not helpful. Can be replaced with a conventional output transformer suitable for EL34. During the construction, it is need (applies to all circuits respectively) enough electronic experience and attention to the high voltage, electric shock risk.

Schematics

Audio Power Amplifier Schematic Diagram

source: http://users.otenet.gr/~athsam/Power_amplifier_EL34.htm


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807 Tube Amplifier Schematic

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AuthorMessage
Posted: 07 May 2012, 08:23

Joined: 26 May 2009, 18:51
Posts: 130
Location: Lilburn, Georgia USA
Hello all, I am well on the way to completing my first 807 PP Oddwatt. Using the same transformers as on my KT88 ones and some Rogers 807s and a National Union 12SL7GT for the main parts. I am using a 12vdv @3.5amp SMPS for the heaters as in the KT88s. I used one of the delay relay tubes a 115C120 and a Omron DPDT 'ice cube' 120volt coil relay to switch the HV before the bridge rectifier. Oddly enough on the first test of this HV delay system the delay tube switched at 80 seconds instead of 2 minutes. Possibly because we now have 120-122 volts at the wall plug nowadays. Should be enough delay anyway. I have a question though. I know what screen resistors are and where to put them. What about grid stoppers? Do they just go from the grid to the signal ground? I was advised to use them as the 807 tubes are also used as transmitting tubes and could do some high oscillation on occasion. Thanks, Robert Parsh


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Posted: 07 May 2012, 16:04

Joined: 08 Aug 2009, 03:11
Posts: 2229
Location: Chilliwack, BC
Hi,
Grid stoppers go in series with the grid and as close as possible to the socket. 10K to 47K would be OK for a pentode (divide by 10 if triode mode).
The resistor you speak of is the grid leak, from grid to ground (place before the grid stopper, not after).
Other than that, treat the 807 as you would a 6L6
Cheers!

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* Ratings are for transistors - tubes have guidelines*
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Posted: 08 May 2012, 20:40
Project Author

Joined: 04 Jun 2008, 20:59
Posts: 4285
Location: Arizona, USA
Hi, If you find the high frequency reduced, you can use smaller grid stoppers. I find that with this design and if you use similar values in a NFB circuit as in the original project (only adds about 3-4 db NFB) then you can use grid stoppers as small as 220R.
Good listening
Bruce

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Tube Audio Amplifier Schematics

Posted: 14 Feb 2020, 22:17

Joined: 01 Oct 2019, 23:33
Posts: 3
I’ve been searching for a PP 807 for some time and was wondering if I would be able to use 807’s in the oddwatt. Do you have any schematic changes or was it just using the 807 without any changes. Which PT did you use? The Edcor XPWR101 isn’t available. Thank you


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Posted: 16 Feb 2020, 16:12
Project Author

Joined: 04 Jun 2008, 20:59
Posts: 4285
Location: Arizona, USA
Hi, The 807s are similar to 6L6 tubes and no circuit changes are needed to run them at about 60ma and 425V. The dissipation will be fairly high, but with about 25 volts on the cathodes it should be OK. Use an Edcor XPWR105 for each channel (it can not do both) An Edcor EMO813 would be suitable for a stereo build (it is OEM to Oddwatt, but I allowed them to sell them to anyone). It has another XPWR number but I don't know what it is. You need about 360VAC to the bridge rectifiers and a current of over 350ma (about). The 813 has the 11 volt heater windings for use to rectify and feed the tubes DC heater power. For AC heaters you will need to find a different transformer. BTW the XPWR105 has 12 volt heaters and if you rectify it you will need to bleed off about 2 volts DC to power the heaters. A large power resistor (10 watt) in the 1-2 ohm range will be suitable. A few 0.5 ohm ones in series would be the easiest way to set it. The exact value will depend on the efficiency of the regulators and filter caps. To set the idle current at about 60 ma per tube you will need to use sense resistors in the LM317 of about 11 ohms. I would probably try 12 ohms to start.
Good listening
Bruce

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Posted: 17 Feb 2020, 08:04

Joined: 01 Oct 2019, 23:33
Posts: 3


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