LM3886 at very low load < = ohm

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I was thinking of using a LM3886 as a power amplifier for loads of up to 1 ohm aboutish, and up to about 30 kHz, with a gain of 10 times, given the fact that THD is not an issue do you see any issues?

I dont expect to use more than a few volts of swing, at maximum 3-4 V peak.


This is not for audio.

Edit: I forgot, it will be powered by +-12 V .
 
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You mean loads down to about 1 ohm rather than up to 1 ohm.

I think if you ran it at the lower end of it's supply range (from -/+10 volts) then it would probably be OK. The current is well within its limits at 4 volts across 1ohm

I think it would work.
 
Well,if you see this graph,it seems rather hopeless :(
 

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You mean loads down to about 1 ohm rather than up to 1 ohm.

I think if you ran it at the lower end of it's supply range (from -/+10 volts) then it would probably be OK. The current is well within its limits at 4 volts across 1ohm

I think it would work.

Yes thanks I meant down to 1 ohm as lowest.
I could not find any reasons why it should not work either.

With regard to the diagram from the datasheet, this is for higher voltage supply and quite stringent demands on THD and not valid for my applikation. But thanks for the effort.
 
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Yes thanks I meant down to 1 ohm as lowest.
I could not find any reasons why it should not work either.

With regard to the diagram from the datasheet, this is for higher voltage supply and quite stringent demands on THD and not valid for my applikation. But thanks for the effort.

That's why I think it would work if you used a low supply voltage.

Another idea... untried... would be to add a series output resistor of a few ohms in series with the load but take the feedback from the load. That way the IC drives a higher impedance but the feedback keeps the series resistor out of things. You would need a slightly higher voltage supply for that.
 
I was thinking about that too, but after some rethinking I realised that I actually need an non-infinite output impedance of about 1 ohm

( I will use a precision resistor with 1 ohm, 10W (or so) , 1%) because one of the things I will use it for is making impedance measurments of reactive loads (from about 50 mOhm to a couple of Ohms , depending on frequency)

Actually a current source instead of a voltage source is what I need.
 
O well, then I guess the datasheet is incorrect when it states that it is operational from +-10V to +-84V (albeit with some restrictions on load and output power )

And I had no problems powering it from two car batteries when I climbed to the top of the hayloft at my wifes mothers old farm to do some SERIOUS acoustical measurments (sorry no pics) , and yes she really thought I was crazy but in Sweden the hayloft is not that high...
 
+-10V as a minimum, is met by your two 12V car batteries.
But you must ensure that the chipamp does not drop out if the voltage AT THE PINs droops to near 10V. I think one pin has a cut out set to ~ 9V.


I was planning to use a ridiciously large cap bank... Have atleast 50 000 uF per rail.

Worst case I will increase supply voltage a few volts. As I wrote, I have cooling capacity to spare.
 
Hi,

I have been using LM3886 with loads which drop to less < 1 Ohm at certain frequencies. In some cases as low as 0.5 Ohm.
Supply voltage +/- 32V.
The amp is very likely to work normally until the point where the chip is overloaded then SPIKE protection kicks in. That means output voltage is limited.
It will not self destruct normally(although it is doable when you bridge the chips and run at very low load impedance).

Hope this helps,
Lukas.
 
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