Congratulations.
Cool build 🙂
I use TDA2005 for my "Street" Guitar/Mic amplifiers with excellent results.
Cool build 🙂
I use TDA2005 for my "Street" Guitar/Mic amplifiers with excellent results.
3886 Quad power amp
I built this last year and am very happy with it. I just wish I'd built two of them, so I could have the 7 channels I need for my stereo holographic soundbar project that I'm doing now. Sorry no front shot. The front has a power switch, a power on LED, and a window with the four peak level indicators (7 LEDs per channel) behind it. 65 watts into 8 ohms is generally enough for me, although I do use Hafler DH220's (125 watts/ch.) on the woofers which are active EQ'd to be acoustically flat at the couch to 20HZ). 😎
Oops, this shot is not the one I thought it was... Here it is half built anyway.
I built this last year and am very happy with it. I just wish I'd built two of them, so I could have the 7 channels I need for my stereo holographic soundbar project that I'm doing now. Sorry no front shot. The front has a power switch, a power on LED, and a window with the four peak level indicators (7 LEDs per channel) behind it. 65 watts into 8 ohms is generally enough for me, although I do use Hafler DH220's (125 watts/ch.) on the woofers which are active EQ'd to be acoustically flat at the couch to 20HZ). 😎
Oops, this shot is not the one I thought it was... Here it is half built anyway.
Attachments
Nice job! Where did the enclosure come from? I've been looking for some nice two part extruded enclosures, without much luck.
tnx, tray this link (there are many different sizes of these "project Boxes":
diy project box in Business & Industrial | eBay
diy project box in Business & Industrial | eBay
My box is just a Hammond chassis with heat sinks that a friend of mine had laying around. I think the Hammond part is 3 X 12 X 10 aluminum. Steel chassis may shield better but are much harder for me to fabricate.
TPA1517 amp
Here are some photos of my first chip amp, which I completed yesterday. It's a cheap and cheerful TPA1517 amp, powered from a 12VAC wall wart. I am using it with some cheap bookshelf speakers I picked up from a thrift store for $7.50. Obviously neither the amp nor speakers are hi fi, but they actually sound quite good to my ears, especially when you consider the overall price of the system. Certainly a huge step up from laptop speakers!
Nothing too pretty or interesting to look at, except perhaps for my improvised heatsink. Pins 10-20 of the TPA1517 (i.e. one whole row of the chip) are heatsink pins. The idea is that if you are etching a PCB for this chip you connect these pins to a big copper plane to act as a heatsink. Since I was using protoboard and not my own PCB, this wasn't an option for me. So I took some heavy guage copper wire, like what they use for house wiring, and bent it into an elaborate little miniature radiator shape, and soldered part of it all along the relevant side of the chip, as you can see in the photos. There's also some more of that wire on the underside of the board. This system seems to be working well enough. The chip doesn't get that hot in the first place.
I highly recommend the TPA1517 as a very simple project for beginners. It runs from a single-sided supply, requires the bare minimum of external components, has the gain internally set to a sensible level (20db) and puts out more than enough power for sensitive speakers (6W per channel into 4 ohm), and sounds pretty good. Should be far more rewarding than two LM386 chips for about the same complexity.
Here are some photos of my first chip amp, which I completed yesterday. It's a cheap and cheerful TPA1517 amp, powered from a 12VAC wall wart. I am using it with some cheap bookshelf speakers I picked up from a thrift store for $7.50. Obviously neither the amp nor speakers are hi fi, but they actually sound quite good to my ears, especially when you consider the overall price of the system. Certainly a huge step up from laptop speakers!
Nothing too pretty or interesting to look at, except perhaps for my improvised heatsink. Pins 10-20 of the TPA1517 (i.e. one whole row of the chip) are heatsink pins. The idea is that if you are etching a PCB for this chip you connect these pins to a big copper plane to act as a heatsink. Since I was using protoboard and not my own PCB, this wasn't an option for me. So I took some heavy guage copper wire, like what they use for house wiring, and bent it into an elaborate little miniature radiator shape, and soldered part of it all along the relevant side of the chip, as you can see in the photos. There's also some more of that wire on the underside of the board. This system seems to be working well enough. The chip doesn't get that hot in the first place.
I highly recommend the TPA1517 as a very simple project for beginners. It runs from a single-sided supply, requires the bare minimum of external components, has the gain internally set to a sensible level (20db) and puts out more than enough power for sensitive speakers (6W per channel into 4 ohm), and sounds pretty good. Should be far more rewarding than two LM386 chips for about the same complexity.
Attachments
Thanks, pinkugkc. 🙂
AudioSan, yes, the 6W is peak, obviously continuous power is much lower. But with sensitive speakers 1.5W is more than loud enough for domestic listening. I don't think I'd ever turn the volume on this past the half way point, since I live in an apartment building and have neighbours to be considerate of.
AudioSan, yes, the 6W is peak, obviously continuous power is much lower. But with sensitive speakers 1.5W is more than loud enough for domestic listening. I don't think I'd ever turn the volume on this past the half way point, since I live in an apartment building and have neighbours to be considerate of.
ofcource. with 98db sensitivity it will be loud🙂 no dobdt. but it will have a hugh lack of headroom. you will loose control(power) allready at about 90db.
That is true. It will not fare well trying to play very dynamic music at loud volume. But it's not without its uses. I might build something a little more powerful for a future project, but I found this a great introduction to chip amping.
My LM1875 Amp in Teak wood case
This is my first attempt at a DIY amplifier. This is a LM1875 based stereo amp.
The case is made with teak wood. The top and bottom are not yet finished. The sound is just amazing!
This is my first attempt at a DIY amplifier. This is a LM1875 based stereo amp.
The case is made with teak wood. The top and bottom are not yet finished. The sound is just amazing!
LM3886 Stereo Amp DIY
My recent project. Using a pair of LM3886 amp chip from National Semiconductor. The reference circuit is simple enough. I built two and put them in a compact case.
Single channel:
Stereo:
Put together:
Case closed:
Playing with my modified X-10D:
My recent project. Using a pair of LM3886 amp chip from National Semiconductor. The reference circuit is simple enough. I built two and put them in a compact case.
Single channel:
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Stereo:
An externally hosted image should be here but it was not working when we last tested it.
Put together:
An externally hosted image should be here but it was not working when we last tested it.
Case closed:
An externally hosted image should be here but it was not working when we last tested it.
Playing with my modified X-10D:
An externally hosted image should be here but it was not working when we last tested it.
