Tube would be a whole lot easier to work with. For an initial project I suggest that you rebuild an old dynaco amp. If that goes well you will have learned a bit about how amps work, and aquired soldering skill. Solid state amps have components that are easy to damage during assembly, and some ICs are near impossible to solder with manual tools.
Another possibility is to put together a digital amp using the UcD modules from Hypex. This will teach you little about amps, or soldering, but you will end up with a first class piece of gear. |
"Gainclone" or "digital" switching amp using pre-fab amp modules would be very simple. Just do a google search for "gainclone" or DIY audio and you will likely find a wealth of information to get yourself started. AudiogoN'r "Rawsonte" builds and sells lots of simple gainclone and other type DIY amplifiers. Maybe you can ping him and he will send you some links to sites that have information about do-it-yourself amps.
TIC |
http://www.diyaudio.com/ http://www.borbelyaudio.com/
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Eldartford's comment about rebuilding an old Dynaco amp reminded me of an advantenture during my undergrad days, about 50 years ago. I'd successfully graduated from Heathkit to Dynaco amps, so a friend asked, and I promised, to build a Dynaco preamp by Christmas. What a foolish promise! The simple amp turned out well, of course, but the preamp was a disaster. Thus endth my kit building.
db |
There was a audio mag that detailed how to build a 1000 wpc amp about 15 yrs ago. I think Audio Review or Audio somthing was it. Go to your local library and look at their archive magazines they may have it. |
Go for it!!!
do you have any electronics experience? How about hand tools and test equipment?
How loud do you listen...what kind of music...etc...
you need to figure out from your average SPL level at your listening distance and working backwards with your speaker sensitivity and figure out a ball park power figure. Then you would make a decision on the power delivery across load impedance: do you want the amp to "double down" all the way to 1 ohm (not really necessary btw, but alot of people seem to be hung up on that).
Going from the specs:Recommended Amp. Power: Small size rooms: >25 watts Medium size rooms: >65 watts Large size rooms: -- watts IEC Long Term Power Handling: 150 watts Impedance, Nominal: 4 ohms Impedance, (20-200 Hz): 3.4 - 19.3 ohms Impedance, (200-20 kHz): 3.4 - 6.7 ohms Impedance, Phase Shift (20-200 Hz): -49° - +45° Impedance, Phase Shift (200-20 kHz): -4° - +18°
the lil 52 SE is actually more diffcult to drive than most of its kind. This implies a solid power supply and output devices of sufficient power dissipation (plus margin) are required to not sag under higher volumes, across the audio band.
An audio amplifer is basically a DC power supply that is modulated (amplified and controlled) by the low level input signal.
All the gain is (usually) done in the first 1 to 2 stages. The last stage is nothing more than a unity gain (gain of 1) buffer, to present a low AC impedance to the load.
For a conservative 50 watts I would recommend 2 complementary bipolar pairs per channel (4 total per ch: 2 each PNP, 2 ech NPN 150 watt Motorola/Toshiba types)
and about 30 volt "rails". You can find a well made toroid at www.toroid.com find one close to this secondary voltgae and about 500-600 VA rating. You can spec a multiple secondary job with extra windings for the lower power (but high voltage) input stuff.
You need about 30,000 uF per channel main filters, and then you can use smaller (220 uF) caps closer to the output devices.
1 bridge rectifer is all you really need. Spec a massive one though and bypass the diodes with hig quality poly caps.
The sky is the limit on the input/driver circuit. THis is THE critical part in ANY amplifer. Get this wrong and no matter how good the rest of the amp may be it might not even work to sounding horrible...
Get a book on amplifer basics online like Audio Power Amplifier Design Handbook, Fourth Edition (Paperback) by Douglas Self (Author). Excellent background and detailed viewpoint of what you relly need to understand to design an amp from scratch.
Of course you can get a kit and solder it all, but that is not designing it on your own. It will be challenging to get it right the first time and many iterations will be required. There is a ton of experience that goes into making a low noise, audiophile grade, hum free stable high power amp... This is a VERY basic blurb...Get some books!! |
Here is a link for a lot of real info, kits and parts. http://sound.westhost.com/index.html |
To Dpac996:
I think I will buy the book you are taking about, and learn a little bit about it, because I dont have any big electronic experiences. But when I start, I think I will need a diagram, because I dont know how everything shall be placed. But if I got a diagram, couldnt I then redesign a little bit at it, so I slowly could get a feeling for it. If you think this is a good idea, can you then recommend any amplifier-diagrams?
Kenneth P, Denmark |
Kenneth P from Denmark: There are lots of diagrams in that book. I think it is a good read and presents a pretty thorough examination of the various stages of the power amp. Randy Sloan used to publish kits of high quality DIY amps. I think if you dig enough you can find the schematics.
http://www.zusaudio.com/navigation/seal.htm
Also check out Nelson Pass DIY page for some really great articles and projects:
Amps http://www.passdiy.com/amps.htm
Also there is much following for the kit based Lifeforce amplifiers from Hugh Dean if you want a very high quality amp with little else to do except get a nice case, buy a transformer and wire it up (i heard this amp and it is very good)
http://www.aksaonline.com/products_2_4.html
General: Start off by reading the literature then forming ideas about what you think you want from an amp.
Get an idea about the case size (based on your other choices this size may change for increased heatsink area say.) Sketch the mechanical layout of amp sections-
-transformers -switches -fuses -rectifiers -filter caps -input circuitry -approximate wiring -output section -input/output connections
once you nail down a design work from the schematic and build a BOM (bill of materials in excel or similiar) to keep your project sane. The BOM should contain every part in the amp, where you get it, how much it costs, who that vendor is, quantity needed...etc..
you will need to pay attention to: how will you handle DC how will you ensure stability (no oscillations) how to protect against faults (dc, over current, thermal, input surges, you have to protect your speakers!!)
the devil is in the details but going through such an experience will give you much more respect for the makers of true high end gear. It is a long journey so be patient and keep an open mind.
If you happen to come across anyone from Dynaudio give them my regards. I love their speakers! |
To Dpac996: Thank you for your great support. I will buy that book and then try to start my amplifier project. I will remember to give your regards, if I see anyone from Dynaudio. Do you have Dynaudio speakers yourself, or do you just love the sound? I am just curious.
Kenneth P, Denmark |
In my high school and college days (1950s) I built several amps, and an electronic crossover from schematics. In one case I used a metal bread baking pan for the chassis! The stuff sounded OK and I sure learned about electronics. Somehow I managed not to electrocute myself. With tube amps you do need to respect the output tube plate voltage which, even for a small amp, will run around 300 volts.
Have fun. . |