The raspberry pi generates its audio using PWM and passing the signal through a passive Bandpass filter:
I am trying to create an audio player (for indoor use) by passing the audio signal into and amplifier and into a pair of small (1.25" -> 2") 4Ohm speakers.
I am currently playing around with the PAM8406 amplifier and it delivers a decent audio.
My question is, on a budget of a few dollars ( like < $5), is there any additional "filter" circuitry I can add to the pi output and any better general purpose ampifier IC that can be recommended to improve the clarity and maximize sound generated.
Currently with the PAM8406 turned up to full there is a noticeable ssssshhhhh sound with and without audio playing.
With the amp audio input shorted, do you still get that sound? If so, the noise source is within the amp and tinkering with the PWM won't be of benefit.
Good point,
The pi does some interesting things on the PWM channel,
firstly with no sound playing the sssshhhh kinda ticks along to processes running, like if i run an intensivee application is changes its pitch and ticks along. Once the process ends its just the normal ssshhhh.
secondly, while actually playing audio the ssssshhh is louder (in the periods of silence) than when there is no audio playing. I think I read somewhere the PWM is switched off when audio is not being used.
Anyhow to your question, shorting the input pins to the amp does not significantly reduce the ssshhh.
Tnx.
Fudge!, sorry! I meant to say the opposite. i.e. when I unplug the input from the pi it has a soft shhhh and if i short it it is still a soft shhh. when I plug it into the pi and play audio it is a loud ssshhh.
I didn't say short the audio input to the pi; I said 'with the audio input to the amp shorted' (no pi connection).
From your description, the noise may be due to currents in the ground rail and nothing to do with the PWM.
Your RC filter corner is ≈50kHz which is higher than you need..
You might try reducing that to ≈20kHz by increasing the capacitors to 82nF and see if that makes a difference.
Shhhh is high audio frequencies. If you use a filter to cut that sound then music and speech will have no high audio frequencies and will sound like an AM radio or an old telephone.
Hi, I see I'm causing confusion through my ambiguity
So this is the layout:
The Raspberry Pi generates the audio signal passes it into the amp circuit and then speakers.
alec, I unplugged the "Signal Out" cable i.e. the amp and speaker are now a separate entity. The shh was soft. I then went further to short the "Signal In" input to ground which reduced the shh ever so slightly. But with the pi setup as above the shh is louder when playing audio at full volume.
On your point of ground rail currents, is there a way to reduce/isolate this?
Lets say that the pis PWM filter circuit cannot be improved, I have also noticed that the PAM8403 was worse on clarity than the PAM8406 that I am currently prototyping with. I believe the SNR is better on the 8406 which improves the clarity considerably.
I guess my question would then be around any suggestions for better lowish cost audio amp IC's?
audioguru, Im all for high audio frequencies, but the shh is a tad too loud for my ears, I'm sure it can be improved.
Yes. In the pic below, 'A' shows a shared ground rail layout where Pi current causes voltage drop on the ground rail, which will affect the amp. 'B' shows a star ground layout, where Pi current won't affect the amp.