Looks correct to me.
Note that Ci is by no means "optional" here, and R_SN and C_SN are very much recommended as well. Q1 also is a generic type and better supply rejection may be obtained using a part with higher Early voltage at moderate Cob (BC556B maybe, or 2SC2240, or a small TV vertical deflection transistor if you happen to have such floating around; it shouldn't be too big since current is only ~2 mA max).
Note that Ci is by no means "optional" here, and R_SN and C_SN are very much recommended as well. Q1 also is a generic type and better supply rejection may be obtained using a part with higher Early voltage at moderate Cob (BC556B maybe, or 2SC2240, or a small TV vertical deflection transistor if you happen to have such floating around; it shouldn't be too big since current is only ~2 mA max).
I would like to make sure if I denoted vee, gnd and mute properly.
Yep. You got it right.
I would greatly appreciate any comments.
A split supply would allow you to skip the input and output capacitors, with quite a bit of sonic improvement to follow.
Tom
Speaking of output caps, I'd consider establishing a second (AC-coupled) feedback path to the output side of the 4700µ. Maybe 24-26k and 1-3.3 µF, while increasing Rf to 100k, or something along those lines. Historically some designs have also split resistance 50-50, which means you're only getting rid of half of capacitor distortion. It's probably a tradeoff between minimum distortion and stability (keep in mind the output cap has some parasitic inductance, though one could counter this by paralleling something like 220µ and 2.2µ).
A split supply design tends to take up less room, of course. You may be able to get away with half the capacitance at twixe the rated voltage for supply buffering, but you don't get around big output coupling caps.
A split supply design tends to take up less room, of course. You may be able to get away with half the capacitance at twixe the rated voltage for supply buffering, but you don't get around big output coupling caps.
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WielkiElektron - Yes I would concurr you have that correct.
It sure does appear from the diagram that single rail support was almost the last thing on the IC designers mind... all they have done in above is just set up a low impedance psuedo- 0V for the op amp to continue working correctly from single supply. There have been other chips that could do this automatically needing only input bias (could be medium impedance) and output coupling cap.
Just out of interest, why do you want to use the single supply option?
You save nothing as you still need 2 large electrolytics and now one is in your signal path possibly adding distortion. (sgrossklass's suggestion would indeed remedy that, to a degree).....
It sure does appear from the diagram that single rail support was almost the last thing on the IC designers mind... all they have done in above is just set up a low impedance psuedo- 0V for the op amp to continue working correctly from single supply. There have been other chips that could do this automatically needing only input bias (could be medium impedance) and output coupling cap.
Just out of interest, why do you want to use the single supply option?
You save nothing as you still need 2 large electrolytics and now one is in your signal path possibly adding distortion. (sgrossklass's suggestion would indeed remedy that, to a degree).....
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WielkiElektron - Yes I would concurr you have that correct.
Just out of interest, why do you want to use the single supply option?
QUOTE]
Since 100W 48V switched-mode power supplies are cheaper than toroid transformers. I’m going to apply one of desktop power supplies which looks very similar to typical notebook power adapters. It costs less than 15$. Moreover, I can use smaller beautiful aluminum enclosure and I do not need to bother with a protection against an electric shock which may cause 230V. I like sound of LM4780. I have already used it in the typical application circuit depicted in the datasheet. Although this chip is less efficient than D-class amps, I think that LM4780 is an interesting choice for not laud listening to music. If I verify that my prototype with single supply application sounds pretty as good as the typical application with dual supply rails then, perhaps, I will considering launching my own small business and producing amplifiers with the use: LM4780, PGA2311 for a level control, IR receiver, ATMEGA for a control, and 3 relays with ULN2803 for an input selection. I recon there is a small gap in the market for very cheap (60$ or so) and good sounding amplifiers with an input selector and a remote control. I would prefer to use a dedicated chip for the precision virtual ground similar to TLE2426 instead of a transistor but, unfortunately, I am not able to find a voltage splitter chip with an input voltage greater than 40V. I am sorry for my poor English.
You will need to investigate what peak or transient current the smps can output without shutting down.
You will need to investigate what output (smoothing) capacitance that the smps can charge up at start up without shutting down.
You will need to investigate what effect the high frequency supply line ripple will have on the chipamp performance.
You will need to investigate what output (smoothing) capacitance that the smps can charge up at start up without shutting down.
You will need to investigate what effect the high frequency supply line ripple will have on the chipamp performance.
Hello All
Im new here. Im doing my first diy project.
purchased
Sure Electronics AA-AB32231 2x8W at 4 Ohm TPA3110 Class-D Audio Amplifier Board
I want to power this with 16v 2amp with step down transformer <=30V
Give me Circuit Diagram. components needed.
or any other way to power good stable 16V or greater with 2A Current ?
Thank You very much
Im new here. Im doing my first diy project.
purchased
Sure Electronics AA-AB32231 2x8W at 4 Ohm TPA3110 Class-D Audio Amplifier Board
I want to power this with 16v 2amp with step down transformer <=30V
Give me Circuit Diagram. components needed.
or any other way to power good stable 16V or greater with 2A Current ?
Thank You very much
Read the TNT and ESP websites
Decibel Dungeon also gives good information on building a PSU.
Thank You Frnd l
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