This is a simple little amplifier i just came up with, its based onthe so called diamond buffer, or atleast i think it is.
The primary application is driving headphones but simulations show its also capable of driving a 8 ohm load to a few watts of power.
A sim of a few different impedances:
http://i.imgur.com/tepDj.png
http://i.imgur.com/aS12Z.png
http://i.imgur.com/28mbq.png
http://i.imgur.com/i7K2b.png
If this has already been done, i apologize and will take these schematics down if so is desired.
The primary application is driving headphones but simulations show its also capable of driving a 8 ohm load to a few watts of power.
A sim of a few different impedances:
http://i.imgur.com/tepDj.png
http://i.imgur.com/aS12Z.png
http://i.imgur.com/28mbq.png
http://i.imgur.com/i7K2b.png
If this has already been done, i apologize and will take these schematics down if so is desired.
Have you verified stability into capacitive loads? 10..47 nF usually get me back on the ground if distortion numbers are looking too good...
I built it on a breadboard and it does indeed oscillate at a low level, but i have deemed this to be caused by the breadboards stray capacitance and the inductance of the wires running all over.
I used a LF356 opamp.
A video: The DiaPhone - YouTube
I used a LF356 opamp.
A video: The DiaPhone - YouTube
Ok thats weird, a 1.5µF capacitgor across the output actually helps reduce/remove the oscillations to the point where it appears like what remains is the switching noise from the DC/DC converter i use to run off battery power.
A stereo version has been built, and its 100% stable: http://i.imgur.com/x9cQs.jpg
Draws about 100mA per channel.
In impedances above 16 ohms, it operates mostly in class A.
Into 32 ohms and up, its pure class A.
Draws about 100mA per channel.
In impedances above 16 ohms, it operates mostly in class A.
Into 32 ohms and up, its pure class A.
It's not a diamond buffer, but that's ok. See the article by Walt Jung. It looks to me like a push pull emitter follower driving an output push pull emitter follower pair.
I dreamt up that circuit, only relevance i knew was the diamond buffer and thus thought it was one of those.
But it is not, so i wish a moderator could remove "The DiaPhone" from the thread title.
But it is not, so i wish a moderator could remove "The DiaPhone" from the thread title.
It surely is a diamond buffer. Maybe needs slight adjustments so it can perform as good as it should.
The THD figures are dissapointingly high for such a circuit but maybe thats because of the opamp model.
I changed the output stage into CFP and reduced the total drawn current to less than 50mA for the whole circuit.
This is what resulted: http://i.imgur.com/5HMTl.png
This is what resulted: http://i.imgur.com/5HMTl.png
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