I am using some OPA627s as active filter in my GC design, so I was wondering whether I need to add another stage after them for the buffer or implement the filter/buffer all in one.
Also is it better to leave it as it is or bias it into Class A?
What are the benefits of Class A biasing?
Also is it better to leave it as it is or bias it into Class A?
What are the benefits of Class A biasing?
I read all of it and now...
Hi,
maybe Carlosfm can answer this if he reads the post.
Let's say I design the pre-am the way he described it his thread.
Then I feed the signal to a IGC (LM3886).
Can I integrate the HPF into the pre-am? i.e. add components to the OPA627 that will filter the signal as well as act as the buffer?!
Or, do I need extra OPA672s in the signal path from the source to filter the signals -> pre-am -> power amp???
That's my confusion!
Hi,
maybe Carlosfm can answer this if he reads the post.
Let's say I design the pre-am the way he described it his thread.
Then I feed the signal to a IGC (LM3886).
Can I integrate the HPF into the pre-am? i.e. add components to the OPA627 that will filter the signal as well as act as the buffer?!
Or, do I need extra OPA672s in the signal path from the source to filter the signals -> pre-am -> power amp???
That's my confusion!
Hi-
Actually I'm looking at the BB white paper on the OPA627 and the examples they have for circuits.
Am I missing something or is there only one device involved when using the 627 as a buffer?
Please see attached picture from the BB whitepaper:
http://www.ociw.edu/instrumentation/ccd/parts/OPA627.pdf
Actually I'm looking at the BB white paper on the OPA627 and the examples they have for circuits.
Am I missing something or is there only one device involved when using the 627 as a buffer?
Please see attached picture from the BB whitepaper:
http://www.ociw.edu/instrumentation/ccd/parts/OPA627.pdf
Attachments
OPA627+BUF634
If you read "COMBINING AN AMPLIFIER WITH THE BUF634" an application note from Burr-Brown, you will see that that the reason for adding the BUF634 to the OPA627 is to improve output current characteristics.
The OPA627 on its own as most op-amps doesnt have excess output current, in fact it is only about 45mA. By adding the BUF634 the current output can be increased upto 500mA, so almost a tenfold.
The benefit of this (from my understanding) is that this allows you to drive a power amp regardless of the distance between the pre & power amps without any signal loss!
The idea is that this buffer can be used as a Headphone Amplifier as well.
If you read "COMBINING AN AMPLIFIER WITH THE BUF634" an application note from Burr-Brown, you will see that that the reason for adding the BUF634 to the OPA627 is to improve output current characteristics.
The OPA627 on its own as most op-amps doesnt have excess output current, in fact it is only about 45mA. By adding the BUF634 the current output can be increased upto 500mA, so almost a tenfold.
The benefit of this (from my understanding) is that this allows you to drive a power amp regardless of the distance between the pre & power amps without any signal loss!
The idea is that this buffer can be used as a Headphone Amplifier as well.
What sort of power-amp needs more than 45mA to drive it?!
Unless there is a possibility of needing to drive a particularly low impedance load, then adding a buffer after an op-amp filter is not required. OPA627 is a fine op-amp, capable of driving most normal loads, such as chip-amps.
However, you may need to put a buffer before the filter, if the preceeding device (whatever it may be) might have trouble with the reactive input impedance of the filter.
Unless there is a possibility of needing to drive a particularly low impedance load, then adding a buffer after an op-amp filter is not required. OPA627 is a fine op-amp, capable of driving most normal loads, such as chip-amps.
However, you may need to put a buffer before the filter, if the preceeding device (whatever it may be) might have trouble with the reactive input impedance of the filter.
Ideally, this combination is mainly intended as a headphone amp.
However, carlosfm has used it for making his pre-amp and he reports a very good performance.
So, all I can say is try it without BUF634 then try it with BUF634, see which configuration sound better.
That's all.
I think this thread has sidetracked a bit as my main concern was whether I can add extra components to the buffer design to implement a filter/buffer with one op-amp.
And it's still not answered...
However, carlosfm has used it for making his pre-amp and he reports a very good performance.
So, all I can say is try it without BUF634 then try it with BUF634, see which configuration sound better.
That's all.
I think this thread has sidetracked a bit as my main concern was whether I can add extra components to the buffer design to implement a filter/buffer with one op-amp.
And it's still not answered...
Well, the point of a buffer is to isolate the source from the load. Usually this means presenting a high input impedance and an adequate current output capability. An op-amp based filter will satisfy the second, but as I mentioned before, it doesn't quite satisfy the first since the input impedance will be reactive (for most normal filter topologies). Whether this means you need a buffer in front of the filter or not depends on what the preceeding stage is capable of.
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